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-rw-r--r--boards.txt534
-rwxr-xr-xcores/arduino/Arduino.h2
-rw-r--r--cores/arduino/hooks.c31
-rw-r--r--cores/arduino/wiring.c1
-rwxr-xr-xlibraries/EEPROM/EEPROM.cpp50
-rwxr-xr-xlibraries/EEPROM/EEPROM.h35
-rw-r--r--libraries/EEPROM/examples/eeprom_clear/eeprom_clear.ino23
-rw-r--r--libraries/EEPROM/examples/eeprom_read/eeprom_read.ino43
-rw-r--r--libraries/EEPROM/examples/eeprom_write/eeprom_write.ino38
-rw-r--r--libraries/EEPROM/keywords.txt18
-rwxr-xr-xlibraries/Ethernet/Dhcp.cpp479
-rwxr-xr-xlibraries/Ethernet/Dhcp.h178
-rw-r--r--libraries/Ethernet/Dns.cpp423
-rw-r--r--libraries/Ethernet/Dns.h41
-rw-r--r--libraries/Ethernet/Ethernet.cpp121
-rw-r--r--libraries/Ethernet/Ethernet.h41
-rw-r--r--libraries/Ethernet/EthernetClient.cpp165
-rw-r--r--libraries/Ethernet/EthernetClient.h37
-rw-r--r--libraries/Ethernet/EthernetServer.cpp91
-rw-r--r--libraries/Ethernet/EthernetServer.h22
-rw-r--r--libraries/Ethernet/EthernetUdp.cpp218
-rw-r--r--libraries/Ethernet/EthernetUdp.h99
-rw-r--r--libraries/Ethernet/examples/BarometricPressureWebServer/BarometricPressureWebServer.ino222
-rw-r--r--libraries/Ethernet/examples/ChatServer/ChatServer.ino79
-rw-r--r--libraries/Ethernet/examples/CosmClient/CosmClient.ino161
-rw-r--r--libraries/Ethernet/examples/CosmClientString/CosmClientString.ino146
-rw-r--r--libraries/Ethernet/examples/DhcpAddressPrinter/DhcpAddressPrinter.ino59
-rw-r--r--libraries/Ethernet/examples/DhcpChatServer/DhcpChatServer.ino87
-rw-r--r--libraries/Ethernet/examples/DnsWebClient/DnsWebClient.ino81
-rw-r--r--libraries/Ethernet/examples/PachubeClient/PachubeClient.ino163
-rw-r--r--libraries/Ethernet/examples/PachubeClientString/PachubeClientString.ino152
-rw-r--r--libraries/Ethernet/examples/TelnetClient/TelnetClient.ino93
-rw-r--r--libraries/Ethernet/examples/TwitterClient/TwitterClient.ino135
-rw-r--r--libraries/Ethernet/examples/UDPSendReceiveString/UDPSendReceiveString.ino118
-rw-r--r--libraries/Ethernet/examples/UdpNtpClient/UdpNtpClient.ino141
-rw-r--r--libraries/Ethernet/examples/WebClient/WebClient.ino80
-rw-r--r--libraries/Ethernet/examples/WebClientRepeating/WebClientRepeating.ino111
-rw-r--r--libraries/Ethernet/examples/WebServer/WebServer.ino101
-rw-r--r--libraries/Ethernet/keywords.txt37
-rw-r--r--libraries/Ethernet/util.h13
-rw-r--r--libraries/Ethernet/utility/socket.cpp400
-rwxr-xr-xlibraries/Ethernet/utility/socket.h41
-rw-r--r--libraries/Ethernet/utility/w5100.cpp188
-rwxr-xr-xlibraries/Ethernet/utility/w5100.h404
-rw-r--r--libraries/Firmata/Boards.h366
-rw-r--r--libraries/Firmata/Firmata.cpp444
-rw-r--r--libraries/Firmata/Firmata.h163
-rw-r--r--libraries/Firmata/LICENSE.txt458
-rw-r--r--libraries/Firmata/TODO.txt14
-rw-r--r--libraries/Firmata/examples/AllInputsFirmata/AllInputsFirmata.ino90
-rw-r--r--libraries/Firmata/examples/AnalogFirmata/AnalogFirmata.ino94
-rw-r--r--libraries/Firmata/examples/EchoString/EchoString.ino46
-rw-r--r--libraries/Firmata/examples/I2CFirmata/I2CFirmata.ino228
-rw-r--r--libraries/Firmata/examples/OldStandardFirmata/LICENSE.txt458
-rw-r--r--libraries/Firmata/examples/OldStandardFirmata/OldStandardFirmata.ino239
-rw-r--r--libraries/Firmata/examples/ServoFirmata/ServoFirmata.ino53
-rw-r--r--libraries/Firmata/examples/SimpleAnalogFirmata/SimpleAnalogFirmata.ino46
-rw-r--r--libraries/Firmata/examples/SimpleDigitalFirmata/SimpleDigitalFirmata.ino72
-rw-r--r--libraries/Firmata/examples/StandardFirmata/LICENSE.txt458
-rw-r--r--libraries/Firmata/examples/StandardFirmata/StandardFirmata.ino636
-rw-r--r--libraries/Firmata/keywords.txt62
-rw-r--r--libraries/SPI/SPI.cpp66
-rw-r--r--libraries/SPI/SPI.h70
-rw-r--r--libraries/SPI/examples/BarometricPressureSensor/BarometricPressureSensor.ino143
-rw-r--r--libraries/SPI/examples/BarometricPressureSensor/BarometricPressureSensor/BarometricPressureSensor.ino143
-rw-r--r--libraries/SPI/examples/DigitalPotControl/DigitalPotControl.ino71
-rw-r--r--libraries/SPI/keywords.txt36
-rwxr-xr-xlibraries/Servo/Servo.cpp337
-rwxr-xr-xlibraries/Servo/Servo.h126
-rw-r--r--libraries/Servo/examples/Knob/Knob.ino22
-rw-r--r--libraries/Servo/examples/Sweep/Sweep.ino31
-rwxr-xr-xlibraries/Servo/keywords.txt24
-rwxr-xr-xlibraries/SoftwareSerial/SoftwareSerial.cpp515
-rwxr-xr-xlibraries/SoftwareSerial/SoftwareSerial.h112
-rw-r--r--libraries/SoftwareSerial/examples/SoftwareSerialExample/SoftwareSerialExample.ino55
-rw-r--r--libraries/SoftwareSerial/examples/TwoPortReceive/TwoPortReceive.ino93
-rwxr-xr-xlibraries/SoftwareSerial/keywords.txt27
-rw-r--r--libraries/Stepper/Stepper.cpp220
-rw-r--r--libraries/Stepper/Stepper.h83
-rw-r--r--libraries/Stepper/examples/MotorKnob/MotorKnob.ino41
-rw-r--r--libraries/Stepper/examples/stepper_oneRevolution/stepper_oneRevolution.ino44
-rw-r--r--libraries/Stepper/examples/stepper_oneStepAtATime/stepper_oneStepAtATime.ino44
-rw-r--r--libraries/Stepper/examples/stepper_speedControl/stepper_speedControl.ino48
-rw-r--r--libraries/Stepper/keywords.txt28
-rwxr-xr-xlibraries/WiFi/WiFi.cpp199
-rwxr-xr-xlibraries/WiFi/WiFi.h183
-rwxr-xr-xlibraries/WiFi/WiFiClient.cpp179
-rwxr-xr-xlibraries/WiFi/WiFiClient.h40
-rw-r--r--libraries/WiFi/WiFiServer.cpp88
-rwxr-xr-xlibraries/WiFi/WiFiServer.h27
-rw-r--r--libraries/WiFi/examples/ConnectNoEncryption/ConnectNoEncryption.ino121
-rw-r--r--libraries/WiFi/examples/ConnectWithWEP/ConnectWithWEP.ino126
-rw-r--r--libraries/WiFi/examples/ConnectWithWPA/ConnectWithWPA.ino116
-rw-r--r--libraries/WiFi/examples/ScanNetworks/ScanNetworks.ino119
-rw-r--r--libraries/WiFi/examples/WifiChatServer/WifiChatServer.ino111
-rw-r--r--libraries/WiFi/examples/WifiPachubeClient/WifiPachubeClient.ino190
-rw-r--r--libraries/WiFi/examples/WifiPachubeClientString/WifiPachubeClientString.ino177
-rw-r--r--libraries/WiFi/examples/WifiTwitterClient/WifiTwitterClient.ino163
-rw-r--r--libraries/WiFi/examples/WifiWebClient/WifiWebClient.ino121
-rw-r--r--libraries/WiFi/examples/WifiWebClientRepeating/WifiWebClientRepeating.ino138
-rw-r--r--libraries/WiFi/examples/WifiWebServer/WifiWebServer.ino132
-rwxr-xr-xlibraries/WiFi/keywords.txt43
-rw-r--r--libraries/WiFi/utility/debug.h77
-rw-r--r--libraries/WiFi/utility/server_drv.cpp260
-rw-r--r--libraries/WiFi/utility/server_drv.h34
-rw-r--r--libraries/WiFi/utility/socket.c20
-rw-r--r--libraries/WiFi/utility/socket.h87
-rw-r--r--libraries/WiFi/utility/spi_drv.cpp506
-rw-r--r--libraries/WiFi/utility/spi_drv.h83
-rw-r--r--libraries/WiFi/utility/wifi_drv.cpp491
-rw-r--r--libraries/WiFi/utility/wifi_drv.h219
-rw-r--r--libraries/WiFi/utility/wifi_spi.h144
-rw-r--r--libraries/WiFi/utility/wl_definitions.h50
-rw-r--r--libraries/WiFi/utility/wl_types.h31
-rwxr-xr-xlibraries/Wire/Wire.cpp298
-rwxr-xr-xlibraries/Wire/Wire.h79
-rwxr-xr-xlibraries/Wire/examples/SFRRanger_reader/SFRRanger_reader.ino87
-rw-r--r--libraries/Wire/examples/digital_potentiometer/digital_potentiometer.ino39
-rw-r--r--libraries/Wire/examples/master_reader/master_reader.ino32
-rw-r--r--libraries/Wire/examples/master_writer/master_writer.ino31
-rw-r--r--libraries/Wire/examples/slave_receiver/slave_receiver.ino38
-rw-r--r--libraries/Wire/examples/slave_sender/slave_sender.ino32
-rw-r--r--libraries/Wire/keywords.txt31
-rw-r--r--libraries/Wire/utility/twi.c527
-rwxr-xr-xlibraries/Wire/utility/twi.h53
-rw-r--r--platform.txt75
-rw-r--r--programmers.txt21
127 files changed, 17344 insertions, 282 deletions
diff --git a/boards.txt b/boards.txt
index 96743cb..b4b467f 100644
--- a/boards.txt
+++ b/boards.txt
@@ -1,18 +1,23 @@
# See: http://code.google.com/p/arduino/wiki/Platforms
+menu.cpu=Processor
+
##############################################################
uno.name=Arduino Uno
+uno.upload.tool=avrdude
uno.upload.protocol=arduino
uno.upload.maximum_size=32256
uno.upload.speed=115200
-uno.bootloader.low_fuses=0xff
-uno.bootloader.high_fuses=0xde
+
+uno.bootloader.tool=avrdude
+uno.bootloader.low_fuses=0xFF
+uno.bootloader.high_fuses=0xDE
uno.bootloader.extended_fuses=0x05
-uno.bootloader.path=optiboot
-uno.bootloader.file=optiboot_atmega328.hex
uno.bootloader.unlock_bits=0x3F
uno.bootloader.lock_bits=0x0F
+uno.bootloader.file=optiboot/optiboot_atmega328.hex
+
uno.build.mcu=atmega328p
uno.build.f_cpu=16000000L
uno.build.core=arduino
@@ -20,101 +25,100 @@ uno.build.variant=standard
##############################################################
-atmega328.name=Arduino Duemilanove w/ ATmega328
+atmega328diecimila.name=Arduino Duemilanove or Diecimila
-atmega328.upload.protocol=arduino
-atmega328.upload.maximum_size=30720
-atmega328.upload.speed=57600
+atmega328diecimila.upload.tool=avrdude
+atmega328diecimila.upload.protocol=arduino
-atmega328.bootloader.low_fuses=0xFF
-atmega328.bootloader.high_fuses=0xDA
-atmega328.bootloader.extended_fuses=0x05
-atmega328.bootloader.path=atmega
-atmega328.bootloader.file=ATmegaBOOT_168_atmega328.hex
-atmega328.bootloader.unlock_bits=0x3F
-atmega328.bootloader.lock_bits=0x0F
+atmega328diecimila.bootloader.tool=avrdude
+atmega328diecimila.bootloader.low_fuses=0xFF
+atmega328diecimila.bootloader.unlock_bits=0x3F
+atmega328diecimila.bootloader.lock_bits=0x0F
-atmega328.build.mcu=atmega328p
-atmega328.build.f_cpu=16000000L
-atmega328.build.core=arduino
-atmega328.build.variant=standard
+atmega328diecimila.build.f_cpu=16000000L
+atmega328diecimila.build.core=arduino
+atmega328diecimila.build.variant=standard
-##############################################################
-
-diecimila.name=Arduino Diecimila or Duemilanove w/ ATmega168
+## Arduino Duemilanove or Diecimila w/ ATmega328
+menu.cpu.atmega328diecimila.atmega328=ATmega328
-diecimila.upload.protocol=arduino
-diecimila.upload.maximum_size=14336
-diecimila.upload.speed=19200
+menu.cpu.atmega328diecimila.atmega328.upload.maximum_size=30720
+menu.cpu.atmega328diecimila.atmega328.upload.speed=57600
-diecimila.bootloader.low_fuses=0xff
-diecimila.bootloader.high_fuses=0xdd
-diecimila.bootloader.extended_fuses=0x00
-diecimila.bootloader.path=atmega
-diecimila.bootloader.file=ATmegaBOOT_168_diecimila.hex
-diecimila.bootloader.unlock_bits=0x3F
-diecimila.bootloader.lock_bits=0x0F
+menu.cpu.atmega328diecimila.atmega328.bootloader.high_fuses=0xDA
+menu.cpu.atmega328diecimila.atmega328.bootloader.extended_fuses=0x05
+menu.cpu.atmega328diecimila.atmega328.bootloader.file=atmega/ATmegaBOOT_168_atmega328.hex
-diecimila.build.mcu=atmega168
-diecimila.build.f_cpu=16000000L
-diecimila.build.core=arduino
-diecimila.build.variant=standard
+menu.cpu.atmega328diecimila.atmega328.build.mcu=atmega328p
-##############################################################
+## Arduino Duemilanove or Diecimila w/ ATmega168
+menu.cpu.atmega328diecimila.atmega168=ATmega168
-nano328.name=Arduino Nano w/ ATmega328
+menu.cpu.atmega328diecimila.atmega168.upload.maximum_size=14336
+menu.cpu.atmega328diecimila.atmega168.upload.speed=19200
-nano328.upload.protocol=arduino
-nano328.upload.maximum_size=30720
-nano328.upload.speed=57600
+menu.cpu.atmega328diecimila.atmega168.bootloader.high_fuses=0xdd
+menu.cpu.atmega328diecimila.atmega168.bootloader.extended_fuses=0x00
+menu.cpu.atmega328diecimila.atmega168.bootloader.file=atmega/ATmegaBOOT_168_diecimila.hex
-nano328.bootloader.low_fuses=0xFF
-nano328.bootloader.high_fuses=0xDA
-nano328.bootloader.extended_fuses=0x05
-nano328.bootloader.path=atmega
-nano328.bootloader.file=ATmegaBOOT_168_atmega328.hex
-nano328.bootloader.unlock_bits=0x3F
-nano328.bootloader.lock_bits=0x0F
-
-nano328.build.mcu=atmega328p
-nano328.build.f_cpu=16000000L
-nano328.build.core=arduino
-nano328.build.variant=eightanaloginputs
+menu.cpu.atmega328diecimila.atmega168.build.mcu=atmega168
##############################################################
-nano.name=Arduino Nano w/ ATmega168
+nano.name=Arduino Nano
+nano.upload.tool=avrdude
nano.upload.protocol=arduino
-nano.upload.maximum_size=14336
-nano.upload.speed=19200
-
-nano.bootloader.low_fuses=0xff
-nano.bootloader.high_fuses=0xdd
-nano.bootloader.extended_fuses=0x00
-nano.bootloader.path=atmega
-nano.bootloader.file=ATmegaBOOT_168_diecimila.hex
+
+nano.bootloader.tool=avrdude
nano.bootloader.unlock_bits=0x3F
nano.bootloader.lock_bits=0x0F
-nano.build.mcu=atmega168
nano.build.f_cpu=16000000L
nano.build.core=arduino
nano.build.variant=eightanaloginputs
+## Arduino Nano w/ ATmega328
+menu.cpu.nano.atmega328=ATmega328
+
+menu.cpu.nano.atmega328.upload.maximum_size=30720
+menu.cpu.nano.atmega328.upload.speed=57600
+
+menu.cpu.nano.atmega328.bootloader.low_fuses=0xFF
+menu.cpu.nano.atmega328.bootloader.high_fuses=0xDA
+menu.cpu.nano.atmega328.bootloader.extended_fuses=0x05
+menu.cpu.nano.atmega328.bootloader.file=atmega/ATmegaBOOT_168_atmega328.hex
+
+menu.cpu.nano.atmega328.build.mcu=atmega328p
+
+## Arduino Nano w/ ATmega168
+menu.cpu.nano.atmega168=ATmega168
+
+menu.cpu.nano.atmega168.upload.maximum_size=14336
+menu.cpu.nano.atmega168.upload.speed=19200
+
+menu.cpu.nano.atmega168.bootloader.low_fuses=0xff
+menu.cpu.nano.atmega168.bootloader.high_fuses=0xdd
+menu.cpu.nano.atmega168.bootloader.extended_fuses=0x00
+menu.cpu.nano.atmega168.bootloader.file=atmega/ATmegaBOOT_168_diecimila.hex
+
+menu.cpu.nano.atmega168.build.mcu=atmega168
+
##############################################################
mega2560.name=Arduino Mega 2560 or Mega ADK
+mega2560.cpu=2560 or ADK
+mega2560.upload.tool=avrdude
mega2560.upload.protocol=wiring
mega2560.upload.maximum_size=258048
mega2560.upload.speed=115200
+mega2560.bootloader.tool=avrdude
mega2560.bootloader.low_fuses=0xFF
mega2560.bootloader.high_fuses=0xD8
mega2560.bootloader.extended_fuses=0xFD
-mega2560.bootloader.path=stk500v2
-mega2560.bootloader.file=stk500boot_v2_mega2560.hex
+mega2560.bootloader.file=stk500v2/stk500boot_v2_mega2560.hex
mega2560.bootloader.unlock_bits=0x3F
mega2560.bootloader.lock_bits=0x0F
@@ -126,16 +130,18 @@ mega2560.build.variant=mega
##############################################################
mega.name=Arduino Mega (ATmega1280)
+mega.cpu=ATmega1280
+mega.upload.tool=avrdude
mega.upload.protocol=arduino
mega.upload.maximum_size=126976
mega.upload.speed=57600
+mega.bootloader.tool=avrdude
mega.bootloader.low_fuses=0xFF
mega.bootloader.high_fuses=0xDA
mega.bootloader.extended_fuses=0xF5
-mega.bootloader.path=atmega
-mega.bootloader.file=ATmegaBOOT_168_atmega1280.hex
+mega.bootloader.file=atmega/ATmegaBOOT_168_atmega1280.hex
mega.bootloader.unlock_bits=0x3F
mega.bootloader.lock_bits=0x0F
@@ -147,100 +153,84 @@ mega.build.variant=mega
##############################################################
leonardo.name=Arduino Leonardo
+leonardo.upload.tool=avrdude
leonardo.upload.protocol=avr109
leonardo.upload.maximum_size=28672
leonardo.upload.speed=57600
leonardo.upload.disable_flushing=true
+leonardo.upload.use_1200bps_touch=true
+leonardo.upload.wait_for_upload_port=true
+
+leonardo.bootloader.tool=avrdude
leonardo.bootloader.low_fuses=0xff
leonardo.bootloader.high_fuses=0xd8
leonardo.bootloader.extended_fuses=0xcb
-leonardo.bootloader.path=caterina
-leonardo.bootloader.file=Caterina-Leonardo.hex
+leonardo.bootloader.file=caterina/Caterina-Leonardo.hex
leonardo.bootloader.unlock_bits=0x3F
leonardo.bootloader.lock_bits=0x2F
+
leonardo.build.mcu=atmega32u4
leonardo.build.f_cpu=16000000L
leonardo.build.vid=0x2341
leonardo.build.pid=0x8036
leonardo.build.core=arduino
leonardo.build.variant=leonardo
+leonardo.build.extra_flags=-DUSB_VID={build.vid} -DUSB_PID={build.pid}
##############################################################
-micro.name=Arduino Micro
-micro.upload.protocol=avr109
-micro.upload.maximum_size=28672
-micro.upload.speed=57600
-micro.upload.disable_flushing=true
-micro.bootloader.low_fuses=0xff
-micro.bootloader.high_fuses=0xd8
-micro.bootloader.extended_fuses=0xcb
-micro.bootloader.path=caterina
-micro.bootloader.file=Caterina-Micro.hex
-micro.bootloader.unlock_bits=0x3F
-micro.bootloader.lock_bits=0x2F
-micro.build.mcu=atmega32u4
-micro.build.f_cpu=16000000L
-micro.build.vid=0x2341
-micro.build.pid=0x8037
-micro.build.core=arduino
-micro.build.variant=micro
-
-##############################################################
-
-mini328.name=Arduino Mini w/ ATmega328
-
-mini328.upload.protocol=arduino
-mini328.upload.maximum_size=28672
-mini328.upload.speed=115200
-
-mini328.bootloader.low_fuses=0xff
-mini328.bootloader.high_fuses=0xd8
-mini328.bootloader.extended_fuses=0x05
-mini328.bootloader.path=optiboot
-mini328.bootloader.file=optiboot_atmega328-Mini.hex
-mini328.bootloader.unlock_bits=0x3F
-mini328.bootloader.lock_bits=0x0F
-
-mini328.build.mcu=atmega328p
-mini328.build.f_cpu=16000000L
-mini328.build.core=arduino
-mini328.build.variant=eightanaloginputs
-
-##############################################################
-
-mini.name=Arduino Mini w/ ATmega168
+mini.name=Arduino Mini
+mini.upload.tool=avrdude
mini.upload.protocol=arduino
-mini.upload.maximum_size=14336
-mini.upload.speed=19200
+mini.bootloader.tool=avrdude
mini.bootloader.low_fuses=0xff
-mini.bootloader.high_fuses=0xdd
-mini.bootloader.extended_fuses=0x00
-mini.bootloader.path=atmega
-mini.bootloader.file=ATmegaBOOT_168_ng.hex
mini.bootloader.unlock_bits=0x3F
mini.bootloader.lock_bits=0x0F
-mini.build.mcu=atmega168
mini.build.f_cpu=16000000L
mini.build.core=arduino
mini.build.variant=eightanaloginputs
+## Arduino Mini w/ ATmega328
+menu.cpu.mini.atmega328=ATmega328
+
+menu.cpu.mini.atmega328.upload.maximum_size=28672
+menu.cpu.mini.atmega328.upload.speed=115200
+
+menu.cpu.mini.atmega328.bootloader.high_fuses=0xd8
+menu.cpu.mini.atmega328.bootloader.extended_fuses=0x05
+menu.cpu.mini.atmega328.bootloader.file=optiboot/optiboot_atmega328-Mini.hex
+
+menu.cpu.mini.atmega328.build.mcu=atmega328p
+
+## Arduino Mini w/ ATmega168
+menu.cpu.mini.atmega168=ATmega168
+
+menu.cpu.mini.atmega168.upload.maximum_size=14336
+menu.cpu.mini.atmega168.upload.speed=19200
+
+menu.cpu.mini.atmega168.bootloader.high_fuses=0xdd
+menu.cpu.mini.atmega168.bootloader.extended_fuses=0x00
+menu.cpu.mini.atmega168.bootloader.file=atmega/ATmegaBOOT_168_ng.hex
+
+menu.cpu.mini.atmega168.build.mcu=atmega168
+
##############################################################
ethernet.name=Arduino Ethernet
+ethernet.upload.tool=avrdude
ethernet.upload.protocol=arduino
ethernet.upload.maximum_size=32256
ethernet.upload.speed=115200
+ethernet.bootloader.tool=avrdude
ethernet.bootloader.low_fuses=0xff
ethernet.bootloader.high_fuses=0xde
ethernet.bootloader.extended_fuses=0x05
-ethernet.bootloader.path=optiboot
-ethernet.bootloader.file=optiboot_atmega328.hex
+ethernet.bootloader.file=optiboot/optiboot_atmega328.hex
ethernet.bootloader.unlock_bits=0x3F
ethernet.bootloader.lock_bits=0x0F
@@ -253,15 +243,16 @@ ethernet.build.core=arduino
fio.name=Arduino Fio
+fio.upload.tool=avrdude
fio.upload.protocol=arduino
fio.upload.maximum_size=30720
fio.upload.speed=57600
+fio.bootloader.tool=avrdude
fio.bootloader.low_fuses=0xFF
fio.bootloader.high_fuses=0xDA
fio.bootloader.extended_fuses=0x05
-fio.bootloader.path=arduino:atmega
-fio.bootloader.file=ATmegaBOOT_168_atmega328_pro_8MHz.hex
+fio.bootloader.file=atmega/ATmegaBOOT_168_atmega328_pro_8MHz.hex
fio.bootloader.unlock_bits=0x3F
fio.bootloader.lock_bits=0x0F
@@ -272,232 +263,217 @@ fio.build.variant=eightanaloginputs
##############################################################
-bt328.name=Arduino BT w/ ATmega328
-
-bt328.upload.protocol=arduino
-bt328.upload.maximum_size=28672
-bt328.upload.speed=19200
-bt328.upload.disable_flushing=true
-
-bt328.bootloader.low_fuses=0xff
-bt328.bootloader.high_fuses=0xd8
-bt328.bootloader.extended_fuses=0x05
-bt328.bootloader.path=bt
-bt328.bootloader.file=ATmegaBOOT_168_atmega328_bt.hex
-bt328.bootloader.unlock_bits=0x3F
-bt328.bootloader.lock_bits=0x0F
-
-bt328.build.mcu=atmega328p
-bt328.build.f_cpu=16000000L
-bt328.build.core=arduino
-bt328.build.variant=eightanaloginputs
-
-##############################################################
-
-bt.name=Arduino BT w/ ATmega168
+bt.name=Arduino BT
+bt.upload.tool=avrdude
bt.upload.protocol=arduino
-bt.upload.maximum_size=14336
bt.upload.speed=19200
bt.upload.disable_flushing=true
+bt.bootloader.tool=avrdude
bt.bootloader.low_fuses=0xff
-bt.bootloader.high_fuses=0xdd
-bt.bootloader.extended_fuses=0x00
-bt.bootloader.path=bt
-bt.bootloader.file=ATmegaBOOT_168.hex
bt.bootloader.unlock_bits=0x3F
bt.bootloader.lock_bits=0x0F
-bt.build.mcu=atmega168
bt.build.f_cpu=16000000L
bt.build.core=arduino
bt.build.variant=eightanaloginputs
+## Arduino BT w/ ATmega328
+menu.cpu.bt.atmega328=ATmega328
+menu.cpu.bt.atmega328.upload.maximum_size=28672
+
+menu.cpu.bt.atmega328.bootloader.high_fuses=0xd8
+menu.cpu.bt.atmega328.bootloader.extended_fuses=0x05
+menu.cpu.bt.atmega328.bootloader.file=bt/ATmegaBOOT_168_atmega328_bt.hex
+
+menu.cpu.bt.atmega328.build.mcu=atmega328p
+
+## Arduino BT w/ ATmega168
+menu.cpu.bt.atmega168=ATmega168
+menu.cpu.bt.atmega168.upload.maximum_size=14336
+
+menu.cpu.bt.atmega168.bootloader.high_fuses=0xdd
+menu.cpu.bt.atmega168.bootloader.extended_fuses=0x00
+menu.cpu.bt.atmega168.bootloader.file=bt/ATmegaBOOT_168.hex
+
+menu.cpu.bt.atmega168.build.mcu=atmega168
+
##############################################################
LilyPadUSB.name=LilyPad Arduino USB
+
+LilyPadUSB.upload.tool=avrdude
LilyPadUSB.upload.protocol=avr109
LilyPadUSB.upload.maximum_size=28672
LilyPadUSB.upload.speed=57600
LilyPadUSB.upload.disable_flushing=true
+LilyPadUSB.upload.use_1200bps_touch=true
+LilyPadUSB.upload.wait_for_upload_port=true
+
+LilyPadUSB.bootloader.tool=avrdude
LilyPadUSB.bootloader.low_fuses=0xff
LilyPadUSB.bootloader.high_fuses=0xd8
LilyPadUSB.bootloader.extended_fuses=0xce
-LilyPadUSB.bootloader.path=caterina-LilyPadUSB
-LilyPadUSB.bootloader.file=Caterina-LilyPadUSB.hex
+LilyPadUSB.bootloader.file=caterina-LilyPadUSB/ Caterina-LilyPadUSB.hex
LilyPadUSB.bootloader.unlock_bits=0x3F
LilyPadUSB.bootloader.lock_bits=0x2F
+
LilyPadUSB.build.mcu=atmega32u4
LilyPadUSB.build.f_cpu=8000000L
LilyPadUSB.build.vid=0x1B4F
LilyPadUSB.build.pid=0x9208
LilyPadUSB.build.core=arduino
LilyPadUSB.build.variant=leonardo
+LilyPadUSB.build.extra_flags=-DUSB_VID={build.vid} -DUSB_PID={build.pid}
##############################################################
-lilypad328.name=LilyPad Arduino w/ ATmega328
-
-lilypad328.upload.protocol=arduino
-lilypad328.upload.maximum_size=30720
-lilypad328.upload.speed=57600
-
-lilypad328.bootloader.low_fuses=0xFF
-lilypad328.bootloader.high_fuses=0xDA
-lilypad328.bootloader.extended_fuses=0x05
-lilypad328.bootloader.path=atmega
-lilypad328.bootloader.file=ATmegaBOOT_168_atmega328_pro_8MHz.hex
-lilypad328.bootloader.unlock_bits=0x3F
-lilypad328.bootloader.lock_bits=0x0F
-
-lilypad328.build.mcu=atmega328p
-lilypad328.build.f_cpu=8000000L
-lilypad328.build.core=arduino
-lilypad328.build.variant=standard
-
-##############################################################
-
-lilypad.name=LilyPad Arduino w/ ATmega168
+lilypad.name=LilyPad Arduino
+lilypad.upload.tool=avrdude
lilypad.upload.protocol=arduino
-lilypad.upload.maximum_size=14336
-lilypad.upload.speed=19200
-
-lilypad.bootloader.low_fuses=0xe2
-lilypad.bootloader.high_fuses=0xdd
-lilypad.bootloader.extended_fuses=0x00
-lilypad.bootloader.path=lilypad
-lilypad.bootloader.file=LilyPadBOOT_168.hex
+
+lilypad.bootloader.tool=avrdude
lilypad.bootloader.unlock_bits=0x3F
lilypad.bootloader.lock_bits=0x0F
-lilypad.build.mcu=atmega168
lilypad.build.f_cpu=8000000L
lilypad.build.core=arduino
lilypad.build.variant=standard
-##############################################################
+## LilyPad Arduino w/ ATmega328
+menu.cpu.lilypad.atmega328=ATmega328
-pro5v328.name=Arduino Pro or Pro Mini (5V, 16 MHz) w/ ATmega328
+menu.cpu.lilypad.atmega328.upload.maximum_size=30720
+menu.cpu.lilypad.atmega328.upload.speed=57600
-pro5v328.upload.protocol=arduino
-pro5v328.upload.maximum_size=30720
-pro5v328.upload.speed=57600
+menu.cpu.lilypad.atmega328.bootloader.low_fuses=0xFF
+menu.cpu.lilypad.atmega328.bootloader.high_fuses=0xDA
+menu.cpu.lilypad.atmega328.bootloader.extended_fuses=0x05
+menu.cpu.lilypad.atmega328.bootloader.file=atmega/ATmegaBOOT_168_atmega328_pro_8MHz.hex
-pro5v328.bootloader.low_fuses=0xFF
-pro5v328.bootloader.high_fuses=0xDA
-pro5v328.bootloader.extended_fuses=0x05
-pro5v328.bootloader.path=atmega
-pro5v328.bootloader.file=ATmegaBOOT_168_atmega328.hex
-pro5v328.bootloader.unlock_bits=0x3F
-pro5v328.bootloader.lock_bits=0x0F
+menu.cpu.lilypad.atmega328.build.mcu=atmega328p
-pro5v328.build.mcu=atmega328p
-pro5v328.build.f_cpu=16000000L
-pro5v328.build.core=arduino
-pro5v328.build.variant=standard
+## LilyPad Arduino w/ ATmega168
+menu.cpu.lilypad.atmega168=ATmega168
+
+menu.cpu.lilypad.atmega168.upload.maximum_size=14336
+menu.cpu.lilypad.atmega168.upload.speed=19200
+
+menu.cpu.lilypad.atmega168.bootloader.low_fuses=0xe2
+menu.cpu.lilypad.atmega168.bootloader.high_fuses=0xdd
+menu.cpu.lilypad.atmega168.bootloader.extended_fuses=0x00
+menu.cpu.lilypad.atmega168.bootloader.file=lilypad/LilyPadBOOT_168.hex
+
+menu.cpu.lilypad.atmega168.build.mcu=atmega168
##############################################################
-pro5v.name=Arduino Pro or Pro Mini (5V, 16 MHz) w/ ATmega168
+pro.name=Arduino Pro or Pro Mini
+
+pro.upload.tool=avrdude
+pro.upload.protocol=arduino
+
+pro.bootloader.tool=avrdude
+pro.bootloader.unlock_bits=0x3F
+pro.bootloader.lock_bits=0x0F
-pro5v.upload.protocol=arduino
-pro5v.upload.maximum_size=14336
-pro5v.upload.speed=19200
+pro.build.core=arduino
+pro.build.variant=standard
-pro5v.bootloader.low_fuses=0xff
-pro5v.bootloader.high_fuses=0xdd
-pro5v.bootloader.extended_fuses=0x00
-pro5v.bootloader.path=atmega
-pro5v.bootloader.file=ATmegaBOOT_168_diecimila.hex
-pro5v.bootloader.unlock_bits=0x3F
-pro5v.bootloader.lock_bits=0x0F
+## Arduino Pro or Pro Mini (5V, 16 MHz) w/ ATmega328
+menu.cpu.pro.16MHzatmega328=ATmega328 (5V, 16 MHz)
-pro5v.build.mcu=atmega168
-pro5v.build.f_cpu=16000000L
-pro5v.build.core=arduino
-pro5v.build.variant=standard
+menu.cpu.pro.16MHzatmega328.upload.maximum_size=30720
+menu.cpu.pro.16MHzatmega328.upload.speed=57600
-##############################################################
+menu.cpu.pro.16MHzatmega328.bootloader.low_fuses=0xFF
+menu.cpu.pro.16MHzatmega328.bootloader.high_fuses=0xDA
+menu.cpu.pro.16MHzatmega328.bootloader.extended_fuses=0x05
+menu.cpu.pro.16MHzatmega328.bootloader.file=atmega/ATmegaBOOT_168_atmega328.hex
-pro328.name=Arduino Pro or Pro Mini (3.3V, 8 MHz) w/ ATmega328
+menu.cpu.pro.16MHzatmega328.build.mcu=atmega328p
+menu.cpu.pro.16MHzatmega328.build.f_cpu=16000000L
-pro328.upload.protocol=arduino
-pro328.upload.maximum_size=30720
-pro328.upload.speed=57600
+## Arduino Pro or Pro Mini (3.3V, 8 MHz) w/ ATmega328
+menu.cpu.pro.8MHzatmega328=ATmega328 (3.3V, 8 MHz)
-pro328.bootloader.low_fuses=0xFF
-pro328.bootloader.high_fuses=0xDA
-pro328.bootloader.extended_fuses=0x05
-pro328.bootloader.path=atmega
-pro328.bootloader.file=ATmegaBOOT_168_atmega328_pro_8MHz.hex
-pro328.bootloader.unlock_bits=0x3F
-pro328.bootloader.lock_bits=0x0F
+menu.cpu.pro.8MHzatmega328.upload.maximum_size=30720
+menu.cpu.pro.8MHzatmega328.upload.speed=57600
-pro328.build.mcu=atmega328p
-pro328.build.f_cpu=8000000L
-pro328.build.core=arduino
-pro328.build.variant=standard
+menu.cpu.pro.8MHzatmega328.bootloader.low_fuses=0xFF
+menu.cpu.pro.8MHzatmega328.bootloader.high_fuses=0xDA
+menu.cpu.pro.8MHzatmega328.bootloader.extended_fuses=0x05
+menu.cpu.pro.8MHzatmega328.bootloader.file=atmega/ATmegaBOOT_168_atmega328_pro_8MHz.hex
-##############################################################
+menu.cpu.pro.8MHzatmega328.build.mcu=atmega328p
+menu.cpu.pro.8MHzatmega328.build.f_cpu=8000000L
-pro.name=Arduino Pro or Pro Mini (3.3V, 8 MHz) w/ ATmega168
+## Arduino Pro or Pro Mini (5V, 16 MHz) w/ ATmega168
+menu.cpu.pro.16MHzatmega168=ATmega168 (5V, 16 MHz)
-pro.upload.protocol=arduino
-pro.upload.maximum_size=14336
-pro.upload.speed=19200
-
-pro.bootloader.low_fuses=0xc6
-pro.bootloader.high_fuses=0xdd
-pro.bootloader.extended_fuses=0x00
-pro.bootloader.path=atmega
-pro.bootloader.file=ATmegaBOOT_168_pro_8MHz.hex
-pro.bootloader.unlock_bits=0x3F
-pro.bootloader.lock_bits=0x0F
+menu.cpu.pro.16MHzatmega168.upload.maximum_size=14336
+menu.cpu.pro.16MHzatmega168.upload.speed=19200
-pro.build.mcu=atmega168
-pro.build.f_cpu=8000000L
-pro.build.core=arduino
-pro.build.variant=standard
+menu.cpu.pro.16MHzatmega168.bootloader.low_fuses=0xff
+menu.cpu.pro.16MHzatmega168.bootloader.high_fuses=0xdd
+menu.cpu.pro.16MHzatmega168.bootloader.extended_fuses=0x00
+menu.cpu.pro.16MHzatmega168.bootloader.file=atmega/ATmegaBOOT_168_diecimila.hex
-##############################################################
+menu.cpu.pro.16MHzatmega168.build.mcu=atmega168
+menu.cpu.pro.16MHzatmega168.build.f_cpu=16000000L
-atmega168.name=Arduino NG or older w/ ATmega168
+## Arduino Pro or Pro Mini (3.3V, 8 MHz) w/ ATmega168
+menu.cpu.pro.8MHzatmega168=ATmega168 (3.3V, 8 MHz)
-atmega168.upload.protocol=arduino
-atmega168.upload.maximum_size=14336
-atmega168.upload.speed=19200
+menu.cpu.pro.8MHzatmega168.upload.maximum_size=14336
+menu.cpu.pro.8MHzatmega168.upload.speed=19200
-atmega168.bootloader.low_fuses=0xff
-atmega168.bootloader.high_fuses=0xdd
-atmega168.bootloader.extended_fuses=0x00
-atmega168.bootloader.path=atmega
-atmega168.bootloader.file=ATmegaBOOT_168_ng.hex
-atmega168.bootloader.unlock_bits=0x3F
-atmega168.bootloader.lock_bits=0x0F
+menu.cpu.pro.8MHzatmega168.bootloader.low_fuses=0xc6
+menu.cpu.pro.8MHzatmega168.bootloader.high_fuses=0xdd
+menu.cpu.pro.8MHzatmega168.bootloader.extended_fuses=0x00
+menu.cpu.pro.8MHzatmega168.bootloader.file=atmega/ATmegaBOOT_168_pro_8MHz.hex
-atmega168.build.mcu=atmega168
-atmega168.build.f_cpu=16000000L
-atmega168.build.core=arduino
-atmega168.build.variant=standard
+menu.cpu.pro.8MHzatmega168.build.mcu=atmega168
+menu.cpu.pro.8MHzatmega168.build.f_cpu=8000000L
##############################################################
-atmega8.name=Arduino NG or older w/ ATmega8
+atmegang.name=Arduino NG or older
+
+atmegang.upload.tool=avrdude
+atmegang.upload.protocol=arduino
+atmegang.upload.speed=19200
+
+atmegang.bootloader.tool=avrdude
+atmegang.bootloader.unlock_bits=0x3F
+atmegang.bootloader.lock_bits=0x0F
+
+atmegang.build.mcu=atmegang
+atmegang.build.f_cpu=16000000L
+atmegang.build.core=arduino
+atmegang.build.variant=standard
+
+## Arduino NG or older w/ ATmega168
+menu.cpu.atmegang.atmega168=ATmega168
+
+menu.cpu.atmegang.atmega168.upload.maximum_size=14336
+
+menu.cpu.atmegang.atmega168.bootloader.low_fuses=0xff
+menu.cpu.atmegang.atmega168.bootloader.high_fuses=0xdd
+menu.cpu.atmegang.atmega168.bootloader.extended_fuses=0x00
+menu.cpu.atmegang.atmega168.bootloader.file=atmega/ATmegaBOOT_168_ng.hex
+
+menu.cpu.atmegang.atmega168.build.mcu=atmega168
+
+## Arduino NG or older w/ ATmega8
+menu.cpu.atmegang.atmega8=ATmega8
-atmega8.upload.protocol=arduino
-atmega8.upload.maximum_size=7168
-atmega8.upload.speed=19200
+menu.cpu.atmegang.atmega8.upload.maximum_size=7168
-atmega8.bootloader.low_fuses=0xdf
-atmega8.bootloader.high_fuses=0xca
-atmega8.bootloader.path=atmega8
-atmega8.bootloader.file=ATmegaBOOT.hex
-atmega8.bootloader.unlock_bits=0x3F
-atmega8.bootloader.lock_bits=0x0F
+menu.cpu.atmegang.atmega8.bootloader.low_fuses=0xdf
+menu.cpu.atmegang.atmega8.bootloader.high_fuses=0xca
+menu.cpu.atmegang.atmega8.bootloader.file=atmegang/ATmegaBOOT.hex
-atmega8.build.mcu=atmega8
-atmega8.build.f_cpu=16000000L
-atmega8.build.core=arduino
-atmega8.build.variant=standard
+menu.cpu.atmegang.atmega8.build.mcu=atmega8
diff --git a/cores/arduino/Arduino.h b/cores/arduino/Arduino.h
index b265825..02c2a8f 100755
--- a/cores/arduino/Arduino.h
+++ b/cores/arduino/Arduino.h
@@ -15,6 +15,8 @@
extern "C"{
#endif
+void yield(void);
+
#define HIGH 0x1
#define LOW 0x0
diff --git a/cores/arduino/hooks.c b/cores/arduino/hooks.c
new file mode 100644
index 0000000..641eabc
--- /dev/null
+++ b/cores/arduino/hooks.c
@@ -0,0 +1,31 @@
+/*
+ Copyright (c) 2012 Arduino. All right reserved.
+
+ This library is free software; you can redistribute it and/or
+ modify it under the terms of the GNU Lesser General Public
+ License as published by the Free Software Foundation; either
+ version 2.1 of the License, or (at your option) any later version.
+
+ This library is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
+ See the GNU Lesser General Public License for more details.
+
+ You should have received a copy of the GNU Lesser General Public
+ License along with this library; if not, write to the Free Software
+ Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
+*/
+
+/**
+ * Empty yield() hook.
+ *
+ * This function is intended to be used by library writers to build
+ * libraries or sketches that supports cooperative threads.
+ *
+ * Its defined as a weak symbol and it can be redefined to implement a
+ * real cooperative scheduler.
+ */
+static void __empty() {
+ // Empty
+}
+void yield(void) __attribute__ ((weak, alias("__empty")));
diff --git a/cores/arduino/wiring.c b/cores/arduino/wiring.c
index ac8bb6f..ec5b888 100644
--- a/cores/arduino/wiring.c
+++ b/cores/arduino/wiring.c
@@ -111,6 +111,7 @@ void delay(unsigned long ms)
uint16_t start = (uint16_t)micros();
while (ms > 0) {
+ yield();
if (((uint16_t)micros() - start) >= 1000) {
ms--;
start += 1000;
diff --git a/libraries/EEPROM/EEPROM.cpp b/libraries/EEPROM/EEPROM.cpp
new file mode 100755
index 0000000..dfa1deb
--- /dev/null
+++ b/libraries/EEPROM/EEPROM.cpp
@@ -0,0 +1,50 @@
+/*
+ EEPROM.cpp - EEPROM library
+ Copyright (c) 2006 David A. Mellis. All right reserved.
+
+ This library is free software; you can redistribute it and/or
+ modify it under the terms of the GNU Lesser General Public
+ License as published by the Free Software Foundation; either
+ version 2.1 of the License, or (at your option) any later version.
+
+ This library is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+ Lesser General Public License for more details.
+
+ You should have received a copy of the GNU Lesser General Public
+ License along with this library; if not, write to the Free Software
+ Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
+*/
+
+/******************************************************************************
+ * Includes
+ ******************************************************************************/
+
+#include <avr/eeprom.h>
+#include "Arduino.h"
+#include "EEPROM.h"
+
+/******************************************************************************
+ * Definitions
+ ******************************************************************************/
+
+/******************************************************************************
+ * Constructors
+ ******************************************************************************/
+
+/******************************************************************************
+ * User API
+ ******************************************************************************/
+
+uint8_t EEPROMClass::read(int address)
+{
+ return eeprom_read_byte((unsigned char *) address);
+}
+
+void EEPROMClass::write(int address, uint8_t value)
+{
+ eeprom_write_byte((unsigned char *) address, value);
+}
+
+EEPROMClass EEPROM;
diff --git a/libraries/EEPROM/EEPROM.h b/libraries/EEPROM/EEPROM.h
new file mode 100755
index 0000000..aa2b577
--- /dev/null
+++ b/libraries/EEPROM/EEPROM.h
@@ -0,0 +1,35 @@
+/*
+ EEPROM.h - EEPROM library
+ Copyright (c) 2006 David A. Mellis. All right reserved.
+
+ This library is free software; you can redistribute it and/or
+ modify it under the terms of the GNU Lesser General Public
+ License as published by the Free Software Foundation; either
+ version 2.1 of the License, or (at your option) any later version.
+
+ This library is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+ Lesser General Public License for more details.
+
+ You should have received a copy of the GNU Lesser General Public
+ License along with this library; if not, write to the Free Software
+ Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
+*/
+
+#ifndef EEPROM_h
+#define EEPROM_h
+
+#include <inttypes.h>
+
+class EEPROMClass
+{
+ public:
+ uint8_t read(int);
+ void write(int, uint8_t);
+};
+
+extern EEPROMClass EEPROM;
+
+#endif
+
diff --git a/libraries/EEPROM/examples/eeprom_clear/eeprom_clear.ino b/libraries/EEPROM/examples/eeprom_clear/eeprom_clear.ino
new file mode 100644
index 0000000..d1e29bd
--- /dev/null
+++ b/libraries/EEPROM/examples/eeprom_clear/eeprom_clear.ino
@@ -0,0 +1,23 @@
+/*
+ * EEPROM Clear
+ *
+ * Sets all of the bytes of the EEPROM to 0.
+ * This example code is in the public domain.
+
+ */
+
+#include <EEPROM.h>
+
+void setup()
+{
+ // write a 0 to all 512 bytes of the EEPROM
+ for (int i = 0; i < 512; i++)
+ EEPROM.write(i, 0);
+
+ // turn the LED on when we're done
+ digitalWrite(13, HIGH);
+}
+
+void loop()
+{
+}
diff --git a/libraries/EEPROM/examples/eeprom_read/eeprom_read.ino b/libraries/EEPROM/examples/eeprom_read/eeprom_read.ino
new file mode 100644
index 0000000..0709b2d
--- /dev/null
+++ b/libraries/EEPROM/examples/eeprom_read/eeprom_read.ino
@@ -0,0 +1,43 @@
+/*
+ * EEPROM Read
+ *
+ * Reads the value of each byte of the EEPROM and prints it
+ * to the computer.
+ * This example code is in the public domain.
+ */
+
+#include <EEPROM.h>
+
+// start reading from the first byte (address 0) of the EEPROM
+int address = 0;
+byte value;
+
+void setup()
+{
+ // initialize serial and wait for port to open:
+ Serial.begin(9600);
+ while (!Serial) {
+ ; // wait for serial port to connect. Needed for Leonardo only
+ }
+}
+
+void loop()
+{
+ // read a byte from the current address of the EEPROM
+ value = EEPROM.read(address);
+
+ Serial.print(address);
+ Serial.print("\t");
+ Serial.print(value, DEC);
+ Serial.println();
+
+ // advance to the next address of the EEPROM
+ address = address + 1;
+
+ // there are only 512 bytes of EEPROM, from 0 to 511, so if we're
+ // on address 512, wrap around to address 0
+ if (address == 512)
+ address = 0;
+
+ delay(500);
+}
diff --git a/libraries/EEPROM/examples/eeprom_write/eeprom_write.ino b/libraries/EEPROM/examples/eeprom_write/eeprom_write.ino
new file mode 100644
index 0000000..ae7c57e
--- /dev/null
+++ b/libraries/EEPROM/examples/eeprom_write/eeprom_write.ino
@@ -0,0 +1,38 @@
+/*
+ * EEPROM Write
+ *
+ * Stores values read from analog input 0 into the EEPROM.
+ * These values will stay in the EEPROM when the board is
+ * turned off and may be retrieved later by another sketch.
+ */
+
+#include <EEPROM.h>
+
+// the current address in the EEPROM (i.e. which byte
+// we're going to write to next)
+int addr = 0;
+
+void setup()
+{
+}
+
+void loop()
+{
+ // need to divide by 4 because analog inputs range from
+ // 0 to 1023 and each byte of the EEPROM can only hold a
+ // value from 0 to 255.
+ int val = analogRead(0) / 4;
+
+ // write the value to the appropriate byte of the EEPROM.
+ // these values will remain there when the board is
+ // turned off.
+ EEPROM.write(addr, val);
+
+ // advance to the next address. there are 512 bytes in
+ // the EEPROM, so go back to 0 when we hit 512.
+ addr = addr + 1;
+ if (addr == 512)
+ addr = 0;
+
+ delay(100);
+}
diff --git a/libraries/EEPROM/keywords.txt b/libraries/EEPROM/keywords.txt
new file mode 100644
index 0000000..d3218fe
--- /dev/null
+++ b/libraries/EEPROM/keywords.txt
@@ -0,0 +1,18 @@
+#######################################
+# Syntax Coloring Map For Ultrasound
+#######################################
+
+#######################################
+# Datatypes (KEYWORD1)
+#######################################
+
+EEPROM KEYWORD1
+
+#######################################
+# Methods and Functions (KEYWORD2)
+#######################################
+
+#######################################
+# Constants (LITERAL1)
+#######################################
+
diff --git a/libraries/Ethernet/Dhcp.cpp b/libraries/Ethernet/Dhcp.cpp
new file mode 100755
index 0000000..e4d27f7
--- /dev/null
+++ b/libraries/Ethernet/Dhcp.cpp
@@ -0,0 +1,479 @@
+// DHCP Library v0.3 - April 25, 2009
+// Author: Jordan Terrell - blog.jordanterrell.com
+
+#include "w5100.h"
+
+#include <string.h>
+#include <stdlib.h>
+#include "Dhcp.h"
+#include "Arduino.h"
+#include "util.h"
+
+int DhcpClass::beginWithDHCP(uint8_t *mac, unsigned long timeout, unsigned long responseTimeout)
+{
+ _dhcpLeaseTime=0;
+ _dhcpT1=0;
+ _dhcpT2=0;
+ _lastCheck=0;
+ _timeout = timeout;
+ _responseTimeout = responseTimeout;
+
+ // zero out _dhcpMacAddr
+ memset(_dhcpMacAddr, 0, 6);
+ reset_DHCP_lease();
+
+ memcpy((void*)_dhcpMacAddr, (void*)mac, 6);
+ _dhcp_state = STATE_DHCP_START;
+ return request_DHCP_lease();
+}
+
+void DhcpClass::reset_DHCP_lease(){
+ // zero out _dhcpSubnetMask, _dhcpGatewayIp, _dhcpLocalIp, _dhcpDhcpServerIp, _dhcpDnsServerIp
+ memset(_dhcpLocalIp, 0, 20);
+}
+
+//return:0 on error, 1 if request is sent and response is received
+int DhcpClass::request_DHCP_lease(){
+
+ uint8_t messageType = 0;
+
+
+
+ // Pick an initial transaction ID
+ _dhcpTransactionId = random(1UL, 2000UL);
+ _dhcpInitialTransactionId = _dhcpTransactionId;
+
+ if (_dhcpUdpSocket.begin(DHCP_CLIENT_PORT) == 0)
+ {
+ // Couldn't get a socket
+ return 0;
+ }
+
+ presend_DHCP();
+
+ int result = 0;
+
+ unsigned long startTime = millis();
+
+ while(_dhcp_state != STATE_DHCP_LEASED)
+ {
+ if(_dhcp_state == STATE_DHCP_START)
+ {
+ _dhcpTransactionId++;
+
+ send_DHCP_MESSAGE(DHCP_DISCOVER, ((millis() - startTime) / 1000));
+ _dhcp_state = STATE_DHCP_DISCOVER;
+ }
+ else if(_dhcp_state == STATE_DHCP_REREQUEST){
+ _dhcpTransactionId++;
+ send_DHCP_MESSAGE(DHCP_REQUEST, ((millis() - startTime)/1000));
+ _dhcp_state = STATE_DHCP_REQUEST;
+ }
+ else if(_dhcp_state == STATE_DHCP_DISCOVER)
+ {
+ uint32_t respId;
+ messageType = parseDHCPResponse(_responseTimeout, respId);
+ if(messageType == DHCP_OFFER)
+ {
+ // We'll use the transaction ID that the offer came with,
+ // rather than the one we were up to
+ _dhcpTransactionId = respId;
+ send_DHCP_MESSAGE(DHCP_REQUEST, ((millis() - startTime) / 1000));
+ _dhcp_state = STATE_DHCP_REQUEST;
+ }
+ }
+ else if(_dhcp_state == STATE_DHCP_REQUEST)
+ {
+ uint32_t respId;
+ messageType = parseDHCPResponse(_responseTimeout, respId);
+ if(messageType == DHCP_ACK)
+ {
+ _dhcp_state = STATE_DHCP_LEASED;
+ result = 1;
+ //use default lease time if we didn't get it
+ if(_dhcpLeaseTime == 0){
+ _dhcpLeaseTime = DEFAULT_LEASE;
+ }
+ //calculate T1 & T2 if we didn't get it
+ if(_dhcpT1 == 0){
+ //T1 should be 50% of _dhcpLeaseTime
+ _dhcpT1 = _dhcpLeaseTime >> 1;
+ }
+ if(_dhcpT2 == 0){
+ //T2 should be 87.5% (7/8ths) of _dhcpLeaseTime
+ _dhcpT2 = _dhcpT1 << 1;
+ }
+ _renewInSec = _dhcpT1;
+ _rebindInSec = _dhcpT2;
+ }
+ else if(messageType == DHCP_NAK)
+ _dhcp_state = STATE_DHCP_START;
+ }
+
+ if(messageType == 255)
+ {
+ messageType = 0;
+ _dhcp_state = STATE_DHCP_START;
+ }
+
+ if(result != 1 && ((millis() - startTime) > _timeout))
+ break;
+ }
+
+ // We're done with the socket now
+ _dhcpUdpSocket.stop();
+ _dhcpTransactionId++;
+
+ return result;
+}
+
+void DhcpClass::presend_DHCP()
+{
+}
+
+void DhcpClass::send_DHCP_MESSAGE(uint8_t messageType, uint16_t secondsElapsed)
+{
+ uint8_t buffer[32];
+ memset(buffer, 0, 32);
+ IPAddress dest_addr( 255, 255, 255, 255 ); // Broadcast address
+
+ if (-1 == _dhcpUdpSocket.beginPacket(dest_addr, DHCP_SERVER_PORT))
+ {
+ // FIXME Need to return errors
+ return;
+ }
+
+ buffer[0] = DHCP_BOOTREQUEST; // op
+ buffer[1] = DHCP_HTYPE10MB; // htype
+ buffer[2] = DHCP_HLENETHERNET; // hlen
+ buffer[3] = DHCP_HOPS; // hops
+
+ // xid
+ unsigned long xid = htonl(_dhcpTransactionId);
+ memcpy(buffer + 4, &(xid), 4);
+
+ // 8, 9 - seconds elapsed
+ buffer[8] = ((secondsElapsed & 0xff00) >> 8);
+ buffer[9] = (secondsElapsed & 0x00ff);
+
+ // flags
+ unsigned short flags = htons(DHCP_FLAGSBROADCAST);
+ memcpy(buffer + 10, &(flags), 2);
+
+ // ciaddr: already zeroed
+ // yiaddr: already zeroed
+ // siaddr: already zeroed
+ // giaddr: already zeroed
+
+ //put data in W5100 transmit buffer
+ _dhcpUdpSocket.write(buffer, 28);
+
+ memset(buffer, 0, 32); // clear local buffer
+
+ memcpy(buffer, _dhcpMacAddr, 6); // chaddr
+
+ //put data in W5100 transmit buffer
+ _dhcpUdpSocket.write(buffer, 16);
+
+ memset(buffer, 0, 32); // clear local buffer
+
+ // leave zeroed out for sname && file
+ // put in W5100 transmit buffer x 6 (192 bytes)
+
+ for(int i = 0; i < 6; i++) {
+ _dhcpUdpSocket.write(buffer, 32);
+ }
+
+ // OPT - Magic Cookie
+ buffer[0] = (uint8_t)((MAGIC_COOKIE >> 24)& 0xFF);
+ buffer[1] = (uint8_t)((MAGIC_COOKIE >> 16)& 0xFF);
+ buffer[2] = (uint8_t)((MAGIC_COOKIE >> 8)& 0xFF);
+ buffer[3] = (uint8_t)(MAGIC_COOKIE& 0xFF);
+
+ // OPT - message type
+ buffer[4] = dhcpMessageType;
+ buffer[5] = 0x01;
+ buffer[6] = messageType; //DHCP_REQUEST;
+
+ // OPT - client identifier
+ buffer[7] = dhcpClientIdentifier;
+ buffer[8] = 0x07;
+ buffer[9] = 0x01;
+ memcpy(buffer + 10, _dhcpMacAddr, 6);
+
+ // OPT - host name
+ buffer[16] = hostName;
+ buffer[17] = strlen(HOST_NAME) + 6; // length of hostname + last 3 bytes of mac address
+ strcpy((char*)&(buffer[18]), HOST_NAME);
+
+ printByte((char*)&(buffer[24]), _dhcpMacAddr[3]);
+ printByte((char*)&(buffer[26]), _dhcpMacAddr[4]);
+ printByte((char*)&(buffer[28]), _dhcpMacAddr[5]);
+
+ //put data in W5100 transmit buffer
+ _dhcpUdpSocket.write(buffer, 30);
+
+ if(messageType == DHCP_REQUEST)
+ {
+ buffer[0] = dhcpRequestedIPaddr;
+ buffer[1] = 0x04;
+ buffer[2] = _dhcpLocalIp[0];
+ buffer[3] = _dhcpLocalIp[1];
+ buffer[4] = _dhcpLocalIp[2];
+ buffer[5] = _dhcpLocalIp[3];
+
+ buffer[6] = dhcpServerIdentifier;
+ buffer[7] = 0x04;
+ buffer[8] = _dhcpDhcpServerIp[0];
+ buffer[9] = _dhcpDhcpServerIp[1];
+ buffer[10] = _dhcpDhcpServerIp[2];
+ buffer[11] = _dhcpDhcpServerIp[3];
+
+ //put data in W5100 transmit buffer
+ _dhcpUdpSocket.write(buffer, 12);
+ }
+
+ buffer[0] = dhcpParamRequest;
+ buffer[1] = 0x06;
+ buffer[2] = subnetMask;
+ buffer[3] = routersOnSubnet;
+ buffer[4] = dns;
+ buffer[5] = domainName;
+ buffer[6] = dhcpT1value;
+ buffer[7] = dhcpT2value;
+ buffer[8] = endOption;
+
+ //put data in W5100 transmit buffer
+ _dhcpUdpSocket.write(buffer, 9);
+
+ _dhcpUdpSocket.endPacket();
+}
+
+uint8_t DhcpClass::parseDHCPResponse(unsigned long responseTimeout, uint32_t& transactionId)
+{
+ uint8_t type = 0;
+ uint8_t opt_len = 0;
+
+ unsigned long startTime = millis();
+
+ while(_dhcpUdpSocket.parsePacket() <= 0)
+ {
+ if((millis() - startTime) > responseTimeout)
+ {
+ return 255;
+ }
+ delay(50);
+ }
+ // start reading in the packet
+ RIP_MSG_FIXED fixedMsg;
+ _dhcpUdpSocket.read((uint8_t*)&fixedMsg, sizeof(RIP_MSG_FIXED));
+
+ if(fixedMsg.op == DHCP_BOOTREPLY && _dhcpUdpSocket.remotePort() == DHCP_SERVER_PORT)
+ {
+ transactionId = ntohl(fixedMsg.xid);
+ if(memcmp(fixedMsg.chaddr, _dhcpMacAddr, 6) != 0 || (transactionId < _dhcpInitialTransactionId) || (transactionId > _dhcpTransactionId))
+ {
+ // Need to read the rest of the packet here regardless
+ _dhcpUdpSocket.flush();
+ return 0;
+ }
+
+ memcpy(_dhcpLocalIp, fixedMsg.yiaddr, 4);
+
+ // Skip to the option part
+ // Doing this a byte at a time so we don't have to put a big buffer
+ // on the stack (as we don't have lots of memory lying around)
+ for (int i =0; i < (240 - (int)sizeof(RIP_MSG_FIXED)); i++)
+ {
+ _dhcpUdpSocket.read(); // we don't care about the returned byte
+ }
+
+ while (_dhcpUdpSocket.available() > 0)
+ {
+ switch (_dhcpUdpSocket.read())
+ {
+ case endOption :
+ break;
+
+ case padOption :
+ break;
+
+ case dhcpMessageType :
+ opt_len = _dhcpUdpSocket.read();
+ type = _dhcpUdpSocket.read();
+ break;
+
+ case subnetMask :
+ opt_len = _dhcpUdpSocket.read();
+ _dhcpUdpSocket.read(_dhcpSubnetMask, 4);
+ break;
+
+ case routersOnSubnet :
+ opt_len = _dhcpUdpSocket.read();
+ _dhcpUdpSocket.read(_dhcpGatewayIp, 4);
+ for (int i = 0; i < opt_len-4; i++)
+ {
+ _dhcpUdpSocket.read();
+ }
+ break;
+
+ case dns :
+ opt_len = _dhcpUdpSocket.read();
+ _dhcpUdpSocket.read(_dhcpDnsServerIp, 4);
+ for (int i = 0; i < opt_len-4; i++)
+ {
+ _dhcpUdpSocket.read();
+ }
+ break;
+
+ case dhcpServerIdentifier :
+ opt_len = _dhcpUdpSocket.read();
+ if( *((uint32_t*)_dhcpDhcpServerIp) == 0 ||
+ IPAddress(_dhcpDhcpServerIp) == _dhcpUdpSocket.remoteIP() )
+ {
+ _dhcpUdpSocket.read(_dhcpDhcpServerIp, sizeof(_dhcpDhcpServerIp));
+ }
+ else
+ {
+ // Skip over the rest of this option
+ while (opt_len--)
+ {
+ _dhcpUdpSocket.read();
+ }
+ }
+ break;
+
+ case dhcpT1value :
+ opt_len = _dhcpUdpSocket.read();
+ _dhcpUdpSocket.read((uint8_t*)&_dhcpT1, sizeof(_dhcpT1));
+ _dhcpT1 = ntohl(_dhcpT1);
+ break;
+
+ case dhcpT2value :
+ opt_len = _dhcpUdpSocket.read();
+ _dhcpUdpSocket.read((uint8_t*)&_dhcpT2, sizeof(_dhcpT2));
+ _dhcpT2 = ntohl(_dhcpT2);
+ break;
+
+ case dhcpIPaddrLeaseTime :
+ opt_len = _dhcpUdpSocket.read();
+ _dhcpUdpSocket.read((uint8_t*)&_dhcpLeaseTime, sizeof(_dhcpLeaseTime));
+ _dhcpLeaseTime = ntohl(_dhcpLeaseTime);
+ _renewInSec = _dhcpLeaseTime;
+ break;
+
+ default :
+ opt_len = _dhcpUdpSocket.read();
+ // Skip over the rest of this option
+ while (opt_len--)
+ {
+ _dhcpUdpSocket.read();
+ }
+ break;
+ }
+ }
+ }
+
+ // Need to skip to end of the packet regardless here
+ _dhcpUdpSocket.flush();
+
+ return type;
+}
+
+
+/*
+ returns:
+ 0/DHCP_CHECK_NONE: nothing happened
+ 1/DHCP_CHECK_RENEW_FAIL: renew failed
+ 2/DHCP_CHECK_RENEW_OK: renew success
+ 3/DHCP_CHECK_REBIND_FAIL: rebind fail
+ 4/DHCP_CHECK_REBIND_OK: rebind success
+*/
+int DhcpClass::checkLease(){
+ //this uses a signed / unsigned trick to deal with millis overflow
+ unsigned long now = millis();
+ signed long snow = (long)now;
+ int rc=DHCP_CHECK_NONE;
+ if (_lastCheck != 0){
+ signed long factor;
+ //calc how many ms past the timeout we are
+ factor = snow - (long)_secTimeout;
+ //if on or passed the timeout, reduce the counters
+ if ( factor >= 0 ){
+ //next timeout should be now plus 1000 ms minus parts of second in factor
+ _secTimeout = snow + 1000 - factor % 1000;
+ //how many seconds late are we, minimum 1
+ factor = factor / 1000 +1;
+
+ //reduce the counters by that mouch
+ //if we can assume that the cycle time (factor) is fairly constant
+ //and if the remainder is less than cycle time * 2
+ //do it early instead of late
+ if(_renewInSec < factor*2 )
+ _renewInSec = 0;
+ else
+ _renewInSec -= factor;
+
+ if(_rebindInSec < factor*2 )
+ _rebindInSec = 0;
+ else
+ _rebindInSec -= factor;
+ }
+
+ //if we have a lease but should renew, do it
+ if (_dhcp_state == STATE_DHCP_LEASED && _renewInSec <=0){
+ _dhcp_state = STATE_DHCP_REREQUEST;
+ rc = 1 + request_DHCP_lease();
+ }
+
+ //if we have a lease or is renewing but should bind, do it
+ if( (_dhcp_state == STATE_DHCP_LEASED || _dhcp_state == STATE_DHCP_START) && _rebindInSec <=0){
+ //this should basically restart completely
+ _dhcp_state = STATE_DHCP_START;
+ reset_DHCP_lease();
+ rc = 3 + request_DHCP_lease();
+ }
+ }
+ else{
+ _secTimeout = snow + 1000;
+ }
+
+ _lastCheck = now;
+ return rc;
+}
+
+IPAddress DhcpClass::getLocalIp()
+{
+ return IPAddress(_dhcpLocalIp);
+}
+
+IPAddress DhcpClass::getSubnetMask()
+{
+ return IPAddress(_dhcpSubnetMask);
+}
+
+IPAddress DhcpClass::getGatewayIp()
+{
+ return IPAddress(_dhcpGatewayIp);
+}
+
+IPAddress DhcpClass::getDhcpServerIp()
+{
+ return IPAddress(_dhcpDhcpServerIp);
+}
+
+IPAddress DhcpClass::getDnsServerIp()
+{
+ return IPAddress(_dhcpDnsServerIp);
+}
+
+void DhcpClass::printByte(char * buf, uint8_t n ) {
+ char *str = &buf[1];
+ buf[0]='0';
+ do {
+ unsigned long m = n;
+ n /= 16;
+ char c = m - 16 * n;
+ *str-- = c < 10 ? c + '0' : c + 'A' - 10;
+ } while(n);
+}
diff --git a/libraries/Ethernet/Dhcp.h b/libraries/Ethernet/Dhcp.h
new file mode 100755
index 0000000..4a47936
--- /dev/null
+++ b/libraries/Ethernet/Dhcp.h
@@ -0,0 +1,178 @@
+// DHCP Library v0.3 - April 25, 2009
+// Author: Jordan Terrell - blog.jordanterrell.com
+
+#ifndef Dhcp_h
+#define Dhcp_h
+
+#include "EthernetUdp.h"
+
+/* DHCP state machine. */
+#define STATE_DHCP_START 0
+#define STATE_DHCP_DISCOVER 1
+#define STATE_DHCP_REQUEST 2
+#define STATE_DHCP_LEASED 3
+#define STATE_DHCP_REREQUEST 4
+#define STATE_DHCP_RELEASE 5
+
+#define DHCP_FLAGSBROADCAST 0x8000
+
+/* UDP port numbers for DHCP */
+#define DHCP_SERVER_PORT 67 /* from server to client */
+#define DHCP_CLIENT_PORT 68 /* from client to server */
+
+/* DHCP message OP code */
+#define DHCP_BOOTREQUEST 1
+#define DHCP_BOOTREPLY 2
+
+/* DHCP message type */
+#define DHCP_DISCOVER 1
+#define DHCP_OFFER 2
+#define DHCP_REQUEST 3
+#define DHCP_DECLINE 4
+#define DHCP_ACK 5
+#define DHCP_NAK 6
+#define DHCP_RELEASE 7
+#define DHCP_INFORM 8
+
+#define DHCP_HTYPE10MB 1
+#define DHCP_HTYPE100MB 2
+
+#define DHCP_HLENETHERNET 6
+#define DHCP_HOPS 0
+#define DHCP_SECS 0
+
+#define MAGIC_COOKIE 0x63825363
+#define MAX_DHCP_OPT 16
+
+#define HOST_NAME "WIZnet"
+#define DEFAULT_LEASE (900) //default lease time in seconds
+
+#define DHCP_CHECK_NONE (0)
+#define DHCP_CHECK_RENEW_FAIL (1)
+#define DHCP_CHECK_RENEW_OK (2)
+#define DHCP_CHECK_REBIND_FAIL (3)
+#define DHCP_CHECK_REBIND_OK (4)
+
+enum
+{
+ padOption = 0,
+ subnetMask = 1,
+ timerOffset = 2,
+ routersOnSubnet = 3,
+ /* timeServer = 4,
+ nameServer = 5,*/
+ dns = 6,
+ /*logServer = 7,
+ cookieServer = 8,
+ lprServer = 9,
+ impressServer = 10,
+ resourceLocationServer = 11,*/
+ hostName = 12,
+ /*bootFileSize = 13,
+ meritDumpFile = 14,*/
+ domainName = 15,
+ /*swapServer = 16,
+ rootPath = 17,
+ extentionsPath = 18,
+ IPforwarding = 19,
+ nonLocalSourceRouting = 20,
+ policyFilter = 21,
+ maxDgramReasmSize = 22,
+ defaultIPTTL = 23,
+ pathMTUagingTimeout = 24,
+ pathMTUplateauTable = 25,
+ ifMTU = 26,
+ allSubnetsLocal = 27,
+ broadcastAddr = 28,
+ performMaskDiscovery = 29,
+ maskSupplier = 30,
+ performRouterDiscovery = 31,
+ routerSolicitationAddr = 32,
+ staticRoute = 33,
+ trailerEncapsulation = 34,
+ arpCacheTimeout = 35,
+ ethernetEncapsulation = 36,
+ tcpDefaultTTL = 37,
+ tcpKeepaliveInterval = 38,
+ tcpKeepaliveGarbage = 39,
+ nisDomainName = 40,
+ nisServers = 41,
+ ntpServers = 42,
+ vendorSpecificInfo = 43,
+ netBIOSnameServer = 44,
+ netBIOSdgramDistServer = 45,
+ netBIOSnodeType = 46,
+ netBIOSscope = 47,
+ xFontServer = 48,
+ xDisplayManager = 49,*/
+ dhcpRequestedIPaddr = 50,
+ dhcpIPaddrLeaseTime = 51,
+ /*dhcpOptionOverload = 52,*/
+ dhcpMessageType = 53,
+ dhcpServerIdentifier = 54,
+ dhcpParamRequest = 55,
+ /*dhcpMsg = 56,
+ dhcpMaxMsgSize = 57,*/
+ dhcpT1value = 58,
+ dhcpT2value = 59,
+ /*dhcpClassIdentifier = 60,*/
+ dhcpClientIdentifier = 61,
+ endOption = 255
+};
+
+typedef struct _RIP_MSG_FIXED
+{
+ uint8_t op;
+ uint8_t htype;
+ uint8_t hlen;
+ uint8_t hops;
+ uint32_t xid;
+ uint16_t secs;
+ uint16_t flags;
+ uint8_t ciaddr[4];
+ uint8_t yiaddr[4];
+ uint8_t siaddr[4];
+ uint8_t giaddr[4];
+ uint8_t chaddr[6];
+}RIP_MSG_FIXED;
+
+class DhcpClass {
+private:
+ uint32_t _dhcpInitialTransactionId;
+ uint32_t _dhcpTransactionId;
+ uint8_t _dhcpMacAddr[6];
+ uint8_t _dhcpLocalIp[4];
+ uint8_t _dhcpSubnetMask[4];
+ uint8_t _dhcpGatewayIp[4];
+ uint8_t _dhcpDhcpServerIp[4];
+ uint8_t _dhcpDnsServerIp[4];
+ uint32_t _dhcpLeaseTime;
+ uint32_t _dhcpT1, _dhcpT2;
+ signed long _renewInSec;
+ signed long _rebindInSec;
+ signed long _lastCheck;
+ unsigned long _timeout;
+ unsigned long _responseTimeout;
+ unsigned long _secTimeout;
+ uint8_t _dhcp_state;
+ EthernetUDP _dhcpUdpSocket;
+
+ int request_DHCP_lease();
+ void reset_DHCP_lease();
+ void presend_DHCP();
+ void send_DHCP_MESSAGE(uint8_t, uint16_t);
+ void printByte(char *, uint8_t);
+
+ uint8_t parseDHCPResponse(unsigned long responseTimeout, uint32_t& transactionId);
+public:
+ IPAddress getLocalIp();
+ IPAddress getSubnetMask();
+ IPAddress getGatewayIp();
+ IPAddress getDhcpServerIp();
+ IPAddress getDnsServerIp();
+
+ int beginWithDHCP(uint8_t *, unsigned long timeout = 60000, unsigned long responseTimeout = 4000);
+ int checkLease();
+};
+
+#endif
diff --git a/libraries/Ethernet/Dns.cpp b/libraries/Ethernet/Dns.cpp
new file mode 100644
index 0000000..b3c1a9d
--- /dev/null
+++ b/libraries/Ethernet/Dns.cpp
@@ -0,0 +1,423 @@
+// Arduino DNS client for WizNet5100-based Ethernet shield
+// (c) Copyright 2009-2010 MCQN Ltd.
+// Released under Apache License, version 2.0
+
+#include "w5100.h"
+#include "EthernetUdp.h"
+#include "util.h"
+
+#include "Dns.h"
+#include <string.h>
+//#include <stdlib.h>
+#include "Arduino.h"
+
+
+#define SOCKET_NONE 255
+// Various flags and header field values for a DNS message
+#define UDP_HEADER_SIZE 8
+#define DNS_HEADER_SIZE 12
+#define TTL_SIZE 4
+#define QUERY_FLAG (0)
+#define RESPONSE_FLAG (1<<15)
+#define QUERY_RESPONSE_MASK (1<<15)
+#define OPCODE_STANDARD_QUERY (0)
+#define OPCODE_INVERSE_QUERY (1<<11)
+#define OPCODE_STATUS_REQUEST (2<<11)
+#define OPCODE_MASK (15<<11)
+#define AUTHORITATIVE_FLAG (1<<10)
+#define TRUNCATION_FLAG (1<<9)
+#define RECURSION_DESIRED_FLAG (1<<8)
+#define RECURSION_AVAILABLE_FLAG (1<<7)
+#define RESP_NO_ERROR (0)
+#define RESP_FORMAT_ERROR (1)
+#define RESP_SERVER_FAILURE (2)
+#define RESP_NAME_ERROR (3)
+#define RESP_NOT_IMPLEMENTED (4)
+#define RESP_REFUSED (5)
+#define RESP_MASK (15)
+#define TYPE_A (0x0001)
+#define CLASS_IN (0x0001)
+#define LABEL_COMPRESSION_MASK (0xC0)
+// Port number that DNS servers listen on
+#define DNS_PORT 53
+
+// Possible return codes from ProcessResponse
+#define SUCCESS 1
+#define TIMED_OUT -1
+#define INVALID_SERVER -2
+#define TRUNCATED -3
+#define INVALID_RESPONSE -4
+
+void DNSClient::begin(const IPAddress& aDNSServer)
+{
+ iDNSServer = aDNSServer;
+ iRequestId = 0;
+}
+
+
+int DNSClient::inet_aton(const char* aIPAddrString, IPAddress& aResult)
+{
+ // See if we've been given a valid IP address
+ const char* p =aIPAddrString;
+ while (*p &&
+ ( (*p == '.') || (*p >= '0') || (*p <= '9') ))
+ {
+ p++;
+ }
+
+ if (*p == '\0')
+ {
+ // It's looking promising, we haven't found any invalid characters
+ p = aIPAddrString;
+ int segment =0;
+ int segmentValue =0;
+ while (*p && (segment < 4))
+ {
+ if (*p == '.')
+ {
+ // We've reached the end of a segment
+ if (segmentValue > 255)
+ {
+ // You can't have IP address segments that don't fit in a byte
+ return 0;
+ }
+ else
+ {
+ aResult[segment] = (byte)segmentValue;
+ segment++;
+ segmentValue = 0;
+ }
+ }
+ else
+ {
+ // Next digit
+ segmentValue = (segmentValue*10)+(*p - '0');
+ }
+ p++;
+ }
+ // We've reached the end of address, but there'll still be the last
+ // segment to deal with
+ if ((segmentValue > 255) || (segment > 3))
+ {
+ // You can't have IP address segments that don't fit in a byte,
+ // or more than four segments
+ return 0;
+ }
+ else
+ {
+ aResult[segment] = (byte)segmentValue;
+ return 1;
+ }
+ }
+ else
+ {
+ return 0;
+ }
+}
+
+int DNSClient::getHostByName(const char* aHostname, IPAddress& aResult)
+{
+ int ret =0;
+
+ // See if it's a numeric IP address
+ if (inet_aton(aHostname, aResult))
+ {
+ // It is, our work here is done
+ return 1;
+ }
+
+ // Check we've got a valid DNS server to use
+ if (iDNSServer == INADDR_NONE)
+ {
+ return INVALID_SERVER;
+ }
+
+ // Find a socket to use
+ if (iUdp.begin(1024+(millis() & 0xF)) == 1)
+ {
+ // Try up to three times
+ int retries = 0;
+// while ((retries < 3) && (ret <= 0))
+ {
+ // Send DNS request
+ ret = iUdp.beginPacket(iDNSServer, DNS_PORT);
+ if (ret != 0)
+ {
+ // Now output the request data
+ ret = BuildRequest(aHostname);
+ if (ret != 0)
+ {
+ // And finally send the request
+ ret = iUdp.endPacket();
+ if (ret != 0)
+ {
+ // Now wait for a response
+ int wait_retries = 0;
+ ret = TIMED_OUT;
+ while ((wait_retries < 3) && (ret == TIMED_OUT))
+ {
+ ret = ProcessResponse(5000, aResult);
+ wait_retries++;
+ }
+ }
+ }
+ }
+ retries++;
+ }
+
+ // We're done with the socket now
+ iUdp.stop();
+ }
+
+ return ret;
+}
+
+uint16_t DNSClient::BuildRequest(const char* aName)
+{
+ // Build header
+ // 1 1 1 1 1 1
+ // 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5
+ // +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
+ // | ID |
+ // +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
+ // |QR| Opcode |AA|TC|RD|RA| Z | RCODE |
+ // +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
+ // | QDCOUNT |
+ // +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
+ // | ANCOUNT |
+ // +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
+ // | NSCOUNT |
+ // +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
+ // | ARCOUNT |
+ // +--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+
+ // As we only support one request at a time at present, we can simplify
+ // some of this header
+ iRequestId = millis(); // generate a random ID
+ uint16_t twoByteBuffer;
+
+ // FIXME We should also check that there's enough space available to write to, rather
+ // FIXME than assume there's enough space (as the code does at present)
+ iUdp.write((uint8_t*)&iRequestId, sizeof(iRequestId));
+
+ twoByteBuffer = htons(QUERY_FLAG | OPCODE_STANDARD_QUERY | RECURSION_DESIRED_FLAG);
+ iUdp.write((uint8_t*)&twoByteBuffer, sizeof(twoByteBuffer));
+
+ twoByteBuffer = htons(1); // One question record
+ iUdp.write((uint8_t*)&twoByteBuffer, sizeof(twoByteBuffer));
+
+ twoByteBuffer = 0; // Zero answer records
+ iUdp.write((uint8_t*)&twoByteBuffer, sizeof(twoByteBuffer));
+
+ iUdp.write((uint8_t*)&twoByteBuffer, sizeof(twoByteBuffer));
+ // and zero additional records
+ iUdp.write((uint8_t*)&twoByteBuffer, sizeof(twoByteBuffer));
+
+ // Build question
+ const char* start =aName;
+ const char* end =start;
+ uint8_t len;
+ // Run through the name being requested
+ while (*end)
+ {
+ // Find out how long this section of the name is
+ end = start;
+ while (*end && (*end != '.') )
+ {
+ end++;
+ }
+
+ if (end-start > 0)
+ {
+ // Write out the size of this section
+ len = end-start;
+ iUdp.write(&len, sizeof(len));
+ // And then write out the section
+ iUdp.write((uint8_t*)start, end-start);
+ }
+ start = end+1;
+ }
+
+ // We've got to the end of the question name, so
+ // terminate it with a zero-length section
+ len = 0;
+ iUdp.write(&len, sizeof(len));
+ // Finally the type and class of question
+ twoByteBuffer = htons(TYPE_A);
+ iUdp.write((uint8_t*)&twoByteBuffer, sizeof(twoByteBuffer));
+
+ twoByteBuffer = htons(CLASS_IN); // Internet class of question
+ iUdp.write((uint8_t*)&twoByteBuffer, sizeof(twoByteBuffer));
+ // Success! Everything buffered okay
+ return 1;
+}
+
+
+uint16_t DNSClient::ProcessResponse(uint16_t aTimeout, IPAddress& aAddress)
+{
+ uint32_t startTime = millis();
+
+ // Wait for a response packet
+ while(iUdp.parsePacket() <= 0)
+ {
+ if((millis() - startTime) > aTimeout)
+ return TIMED_OUT;
+ delay(50);
+ }
+
+ // We've had a reply!
+ // Read the UDP header
+ uint8_t header[DNS_HEADER_SIZE]; // Enough space to reuse for the DNS header
+ // Check that it's a response from the right server and the right port
+ if ( (iDNSServer != iUdp.remoteIP()) ||
+ (iUdp.remotePort() != DNS_PORT) )
+ {
+ // It's not from who we expected
+ return INVALID_SERVER;
+ }
+
+ // Read through the rest of the response
+ if (iUdp.available() < DNS_HEADER_SIZE)
+ {
+ return TRUNCATED;
+ }
+ iUdp.read(header, DNS_HEADER_SIZE);
+
+ uint16_t header_flags = htons(*((uint16_t*)&header[2]));
+ // Check that it's a response to this request
+ if ( ( iRequestId != (*((uint16_t*)&header[0])) ) ||
+ ((header_flags & QUERY_RESPONSE_MASK) != (uint16_t)RESPONSE_FLAG) )
+ {
+ // Mark the entire packet as read
+ iUdp.flush();
+ return INVALID_RESPONSE;
+ }
+ // Check for any errors in the response (or in our request)
+ // although we don't do anything to get round these
+ if ( (header_flags & TRUNCATION_FLAG) || (header_flags & RESP_MASK) )
+ {
+ // Mark the entire packet as read
+ iUdp.flush();
+ return -5; //INVALID_RESPONSE;
+ }
+
+ // And make sure we've got (at least) one answer
+ uint16_t answerCount = htons(*((uint16_t*)&header[6]));
+ if (answerCount == 0 )
+ {
+ // Mark the entire packet as read
+ iUdp.flush();
+ return -6; //INVALID_RESPONSE;
+ }
+
+ // Skip over any questions
+ for (uint16_t i =0; i < htons(*((uint16_t*)&header[4])); i++)
+ {
+ // Skip over the name
+ uint8_t len;
+ do
+ {
+ iUdp.read(&len, sizeof(len));
+ if (len > 0)
+ {
+ // Don't need to actually read the data out for the string, just
+ // advance ptr to beyond it
+ while(len--)
+ {
+ iUdp.read(); // we don't care about the returned byte
+ }
+ }
+ } while (len != 0);
+
+ // Now jump over the type and class
+ for (int i =0; i < 4; i++)
+ {
+ iUdp.read(); // we don't care about the returned byte
+ }
+ }
+
+ // Now we're up to the bit we're interested in, the answer
+ // There might be more than one answer (although we'll just use the first
+ // type A answer) and some authority and additional resource records but
+ // we're going to ignore all of them.
+
+ for (uint16_t i =0; i < answerCount; i++)
+ {
+ // Skip the name
+ uint8_t len;
+ do
+ {
+ iUdp.read(&len, sizeof(len));
+ if ((len & LABEL_COMPRESSION_MASK) == 0)
+ {
+ // It's just a normal label
+ if (len > 0)
+ {
+ // And it's got a length
+ // Don't need to actually read the data out for the string,
+ // just advance ptr to beyond it
+ while(len--)
+ {
+ iUdp.read(); // we don't care about the returned byte
+ }
+ }
+ }
+ else
+ {
+ // This is a pointer to a somewhere else in the message for the
+ // rest of the name. We don't care about the name, and RFC1035
+ // says that a name is either a sequence of labels ended with a
+ // 0 length octet or a pointer or a sequence of labels ending in
+ // a pointer. Either way, when we get here we're at the end of
+ // the name
+ // Skip over the pointer
+ iUdp.read(); // we don't care about the returned byte
+ // And set len so that we drop out of the name loop
+ len = 0;
+ }
+ } while (len != 0);
+
+ // Check the type and class
+ uint16_t answerType;
+ uint16_t answerClass;
+ iUdp.read((uint8_t*)&answerType, sizeof(answerType));
+ iUdp.read((uint8_t*)&answerClass, sizeof(answerClass));
+
+ // Ignore the Time-To-Live as we don't do any caching
+ for (int i =0; i < TTL_SIZE; i++)
+ {
+ iUdp.read(); // we don't care about the returned byte
+ }
+
+ // And read out the length of this answer
+ // Don't need header_flags anymore, so we can reuse it here
+ iUdp.read((uint8_t*)&header_flags, sizeof(header_flags));
+
+ if ( (htons(answerType) == TYPE_A) && (htons(answerClass) == CLASS_IN) )
+ {
+ if (htons(header_flags) != 4)
+ {
+ // It's a weird size
+ // Mark the entire packet as read
+ iUdp.flush();
+ return -9;//INVALID_RESPONSE;
+ }
+ iUdp.read(aAddress.raw_address(), 4);
+ return SUCCESS;
+ }
+ else
+ {
+ // This isn't an answer type we're after, move onto the next one
+ for (uint16_t i =0; i < htons(header_flags); i++)
+ {
+ iUdp.read(); // we don't care about the returned byte
+ }
+ }
+ }
+
+ // Mark the entire packet as read
+ iUdp.flush();
+
+ // If we get here then we haven't found an answer
+ return -10;//INVALID_RESPONSE;
+}
+
diff --git a/libraries/Ethernet/Dns.h b/libraries/Ethernet/Dns.h
new file mode 100644
index 0000000..6bcb98a
--- /dev/null
+++ b/libraries/Ethernet/Dns.h
@@ -0,0 +1,41 @@
+// Arduino DNS client for WizNet5100-based Ethernet shield
+// (c) Copyright 2009-2010 MCQN Ltd.
+// Released under Apache License, version 2.0
+
+#ifndef DNSClient_h
+#define DNSClient_h
+
+#include <EthernetUdp.h>
+
+class DNSClient
+{
+public:
+ // ctor
+ void begin(const IPAddress& aDNSServer);
+
+ /** Convert a numeric IP address string into a four-byte IP address.
+ @param aIPAddrString IP address to convert
+ @param aResult IPAddress structure to store the returned IP address
+ @result 1 if aIPAddrString was successfully converted to an IP address,
+ else error code
+ */
+ int inet_aton(const char *aIPAddrString, IPAddress& aResult);
+
+ /** Resolve the given hostname to an IP address.
+ @param aHostname Name to be resolved
+ @param aResult IPAddress structure to store the returned IP address
+ @result 1 if aIPAddrString was successfully converted to an IP address,
+ else error code
+ */
+ int getHostByName(const char* aHostname, IPAddress& aResult);
+
+protected:
+ uint16_t BuildRequest(const char* aName);
+ uint16_t ProcessResponse(uint16_t aTimeout, IPAddress& aAddress);
+
+ IPAddress iDNSServer;
+ uint16_t iRequestId;
+ EthernetUDP iUdp;
+};
+
+#endif
diff --git a/libraries/Ethernet/Ethernet.cpp b/libraries/Ethernet/Ethernet.cpp
new file mode 100644
index 0000000..5d28f71
--- /dev/null
+++ b/libraries/Ethernet/Ethernet.cpp
@@ -0,0 +1,121 @@
+#include "w5100.h"
+#include "Ethernet.h"
+#include "Dhcp.h"
+
+// XXX: don't make assumptions about the value of MAX_SOCK_NUM.
+uint8_t EthernetClass::_state[MAX_SOCK_NUM] = {
+ 0, 0, 0, 0 };
+uint16_t EthernetClass::_server_port[MAX_SOCK_NUM] = {
+ 0, 0, 0, 0 };
+
+int EthernetClass::begin(uint8_t *mac_address)
+{
+ _dhcp = new DhcpClass();
+
+
+ // Initialise the basic info
+ W5100.init();
+ W5100.setMACAddress(mac_address);
+ W5100.setIPAddress(IPAddress(0,0,0,0).raw_address());
+
+ // Now try to get our config info from a DHCP server
+ int ret = _dhcp->beginWithDHCP(mac_address);
+ if(ret == 1)
+ {
+ // We've successfully found a DHCP server and got our configuration info, so set things
+ // accordingly
+ W5100.setIPAddress(_dhcp->getLocalIp().raw_address());
+ W5100.setGatewayIp(_dhcp->getGatewayIp().raw_address());
+ W5100.setSubnetMask(_dhcp->getSubnetMask().raw_address());
+ _dnsServerAddress = _dhcp->getDnsServerIp();
+ }
+
+ return ret;
+}
+
+void EthernetClass::begin(uint8_t *mac_address, IPAddress local_ip)
+{
+ // Assume the DNS server will be the machine on the same network as the local IP
+ // but with last octet being '1'
+ IPAddress dns_server = local_ip;
+ dns_server[3] = 1;
+ begin(mac_address, local_ip, dns_server);
+}
+
+void EthernetClass::begin(uint8_t *mac_address, IPAddress local_ip, IPAddress dns_server)
+{
+ // Assume the gateway will be the machine on the same network as the local IP
+ // but with last octet being '1'
+ IPAddress gateway = local_ip;
+ gateway[3] = 1;
+ begin(mac_address, local_ip, dns_server, gateway);
+}
+
+void EthernetClass::begin(uint8_t *mac_address, IPAddress local_ip, IPAddress dns_server, IPAddress gateway)
+{
+ IPAddress subnet(255, 255, 255, 0);
+ begin(mac_address, local_ip, dns_server, gateway, subnet);
+}
+
+void EthernetClass::begin(uint8_t *mac, IPAddress local_ip, IPAddress dns_server, IPAddress gateway, IPAddress subnet)
+{
+ W5100.init();
+ W5100.setMACAddress(mac);
+ W5100.setIPAddress(local_ip._address);
+ W5100.setGatewayIp(gateway._address);
+ W5100.setSubnetMask(subnet._address);
+ _dnsServerAddress = dns_server;
+}
+
+int EthernetClass::maintain(){
+ int rc = DHCP_CHECK_NONE;
+ if(_dhcp != NULL){
+ //we have a pointer to dhcp, use it
+ rc = _dhcp->checkLease();
+ switch ( rc ){
+ case DHCP_CHECK_NONE:
+ //nothing done
+ break;
+ case DHCP_CHECK_RENEW_OK:
+ case DHCP_CHECK_REBIND_OK:
+ //we might have got a new IP.
+ W5100.setIPAddress(_dhcp->getLocalIp().raw_address());
+ W5100.setGatewayIp(_dhcp->getGatewayIp().raw_address());
+ W5100.setSubnetMask(_dhcp->getSubnetMask().raw_address());
+ _dnsServerAddress = _dhcp->getDnsServerIp();
+ break;
+ default:
+ //this is actually a error, it will retry though
+ break;
+ }
+ }
+ return rc;
+}
+
+IPAddress EthernetClass::localIP()
+{
+ IPAddress ret;
+ W5100.getIPAddress(ret.raw_address());
+ return ret;
+}
+
+IPAddress EthernetClass::subnetMask()
+{
+ IPAddress ret;
+ W5100.getSubnetMask(ret.raw_address());
+ return ret;
+}
+
+IPAddress EthernetClass::gatewayIP()
+{
+ IPAddress ret;
+ W5100.getGatewayIp(ret.raw_address());
+ return ret;
+}
+
+IPAddress EthernetClass::dnsServerIP()
+{
+ return _dnsServerAddress;
+}
+
+EthernetClass Ethernet;
diff --git a/libraries/Ethernet/Ethernet.h b/libraries/Ethernet/Ethernet.h
new file mode 100644
index 0000000..2a07ff3
--- /dev/null
+++ b/libraries/Ethernet/Ethernet.h
@@ -0,0 +1,41 @@
+#ifndef ethernet_h
+#define ethernet_h
+
+#include <inttypes.h>
+//#include "w5100.h"
+#include "IPAddress.h"
+#include "EthernetClient.h"
+#include "EthernetServer.h"
+#include "Dhcp.h"
+
+#define MAX_SOCK_NUM 4
+
+class EthernetClass {
+private:
+ IPAddress _dnsServerAddress;
+ DhcpClass* _dhcp;
+public:
+ static uint8_t _state[MAX_SOCK_NUM];
+ static uint16_t _server_port[MAX_SOCK_NUM];
+ // Initialise the Ethernet shield to use the provided MAC address and gain the rest of the
+ // configuration through DHCP.
+ // Returns 0 if the DHCP configuration failed, and 1 if it succeeded
+ int begin(uint8_t *mac_address);
+ void begin(uint8_t *mac_address, IPAddress local_ip);
+ void begin(uint8_t *mac_address, IPAddress local_ip, IPAddress dns_server);
+ void begin(uint8_t *mac_address, IPAddress local_ip, IPAddress dns_server, IPAddress gateway);
+ void begin(uint8_t *mac_address, IPAddress local_ip, IPAddress dns_server, IPAddress gateway, IPAddress subnet);
+ int maintain();
+
+ IPAddress localIP();
+ IPAddress subnetMask();
+ IPAddress gatewayIP();
+ IPAddress dnsServerIP();
+
+ friend class EthernetClient;
+ friend class EthernetServer;
+};
+
+extern EthernetClass Ethernet;
+
+#endif
diff --git a/libraries/Ethernet/EthernetClient.cpp b/libraries/Ethernet/EthernetClient.cpp
new file mode 100644
index 0000000..9885efb
--- /dev/null
+++ b/libraries/Ethernet/EthernetClient.cpp
@@ -0,0 +1,165 @@
+#include "w5100.h"
+#include "socket.h"
+
+extern "C" {
+ #include "string.h"
+}
+
+#include "Arduino.h"
+
+#include "Ethernet.h"
+#include "EthernetClient.h"
+#include "EthernetServer.h"
+#include "Dns.h"
+
+uint16_t EthernetClient::_srcport = 1024;
+
+EthernetClient::EthernetClient() : _sock(MAX_SOCK_NUM) {
+}
+
+EthernetClient::EthernetClient(uint8_t sock) : _sock(sock) {
+}
+
+int EthernetClient::connect(const char* host, uint16_t port) {
+ // Look up the host first
+ int ret = 0;
+ DNSClient dns;
+ IPAddress remote_addr;
+
+ dns.begin(Ethernet.dnsServerIP());
+ ret = dns.getHostByName(host, remote_addr);
+ if (ret == 1) {
+ return connect(remote_addr, port);
+ } else {
+ return ret;
+ }
+}
+
+int EthernetClient::connect(IPAddress ip, uint16_t port) {
+ if (_sock != MAX_SOCK_NUM)
+ return 0;
+
+ for (int i = 0; i < MAX_SOCK_NUM; i++) {
+ uint8_t s = W5100.readSnSR(i);
+ if (s == SnSR::CLOSED || s == SnSR::FIN_WAIT || s == SnSR::CLOSE_WAIT) {
+ _sock = i;
+ break;
+ }
+ }
+
+ if (_sock == MAX_SOCK_NUM)
+ return 0;
+
+ _srcport++;
+ if (_srcport == 0) _srcport = 1024;
+ socket(_sock, SnMR::TCP, _srcport, 0);
+
+ if (!::connect(_sock, rawIPAddress(ip), port)) {
+ _sock = MAX_SOCK_NUM;
+ return 0;
+ }
+
+ while (status() != SnSR::ESTABLISHED) {
+ delay(1);
+ if (status() == SnSR::CLOSED) {
+ _sock = MAX_SOCK_NUM;
+ return 0;
+ }
+ }
+
+ return 1;
+}
+
+size_t EthernetClient::write(uint8_t b) {
+ return write(&b, 1);
+}
+
+size_t EthernetClient::write(const uint8_t *buf, size_t size) {
+ if (_sock == MAX_SOCK_NUM) {
+ setWriteError();
+ return 0;
+ }
+ if (!send(_sock, buf, size)) {
+ setWriteError();
+ return 0;
+ }
+ return size;
+}
+
+int EthernetClient::available() {
+ if (_sock != MAX_SOCK_NUM)
+ return W5100.getRXReceivedSize(_sock);
+ return 0;
+}
+
+int EthernetClient::read() {
+ uint8_t b;
+ if ( recv(_sock, &b, 1) > 0 )
+ {
+ // recv worked
+ return b;
+ }
+ else
+ {
+ // No data available
+ return -1;
+ }
+}
+
+int EthernetClient::read(uint8_t *buf, size_t size) {
+ return recv(_sock, buf, size);
+}
+
+int EthernetClient::peek() {
+ uint8_t b;
+ // Unlike recv, peek doesn't check to see if there's any data available, so we must
+ if (!available())
+ return -1;
+ ::peek(_sock, &b);
+ return b;
+}
+
+void EthernetClient::flush() {
+ while (available())
+ read();
+}
+
+void EthernetClient::stop() {
+ if (_sock == MAX_SOCK_NUM)
+ return;
+
+ // attempt to close the connection gracefully (send a FIN to other side)
+ disconnect(_sock);
+ unsigned long start = millis();
+
+ // wait a second for the connection to close
+ while (status() != SnSR::CLOSED && millis() - start < 1000)
+ delay(1);
+
+ // if it hasn't closed, close it forcefully
+ if (status() != SnSR::CLOSED)
+ close(_sock);
+
+ EthernetClass::_server_port[_sock] = 0;
+ _sock = MAX_SOCK_NUM;
+}
+
+uint8_t EthernetClient::connected() {
+ if (_sock == MAX_SOCK_NUM) return 0;
+
+ uint8_t s = status();
+ return !(s == SnSR::LISTEN || s == SnSR::CLOSED || s == SnSR::FIN_WAIT ||
+ (s == SnSR::CLOSE_WAIT && !available()));
+}
+
+uint8_t EthernetClient::status() {
+ if (_sock == MAX_SOCK_NUM) return SnSR::CLOSED;
+ return W5100.readSnSR(_sock);
+}
+
+// the next function allows us to use the client returned by
+// EthernetServer::available() as the condition in an if-statement.
+
+EthernetClient::operator bool() {
+ return _sock != MAX_SOCK_NUM;
+}
diff --git a/libraries/Ethernet/EthernetClient.h b/libraries/Ethernet/EthernetClient.h
new file mode 100644
index 0000000..44740fe
--- /dev/null
+++ b/libraries/Ethernet/EthernetClient.h
@@ -0,0 +1,37 @@
+#ifndef ethernetclient_h
+#define ethernetclient_h
+#include "Arduino.h"
+#include "Print.h"
+#include "Client.h"
+#include "IPAddress.h"
+
+class EthernetClient : public Client {
+
+public:
+ EthernetClient();
+ EthernetClient(uint8_t sock);
+
+ uint8_t status();
+ virtual int connect(IPAddress ip, uint16_t port);
+ virtual int connect(const char *host, uint16_t port);
+ virtual size_t write(uint8_t);
+ virtual size_t write(const uint8_t *buf, size_t size);
+ virtual int available();
+ virtual int read();
+ virtual int read(uint8_t *buf, size_t size);
+ virtual int peek();
+ virtual void flush();
+ virtual void stop();
+ virtual uint8_t connected();
+ virtual operator bool();
+
+ friend class EthernetServer;
+
+ using Print::write;
+
+private:
+ static uint16_t _srcport;
+ uint8_t _sock;
+};
+
+#endif
diff --git a/libraries/Ethernet/EthernetServer.cpp b/libraries/Ethernet/EthernetServer.cpp
new file mode 100644
index 0000000..0308b92
--- /dev/null
+++ b/libraries/Ethernet/EthernetServer.cpp
@@ -0,0 +1,91 @@
+#include "w5100.h"
+#include "socket.h"
+extern "C" {
+#include "string.h"
+}
+
+#include "Ethernet.h"
+#include "EthernetClient.h"
+#include "EthernetServer.h"
+
+EthernetServer::EthernetServer(uint16_t port)
+{
+ _port = port;
+}
+
+void EthernetServer::begin()
+{
+ for (int sock = 0; sock < MAX_SOCK_NUM; sock++) {
+ EthernetClient client(sock);
+ if (client.status() == SnSR::CLOSED) {
+ socket(sock, SnMR::TCP, _port, 0);
+ listen(sock);
+ EthernetClass::_server_port[sock] = _port;
+ break;
+ }
+ }
+}
+
+void EthernetServer::accept()
+{
+ int listening = 0;
+
+ for (int sock = 0; sock < MAX_SOCK_NUM; sock++) {
+ EthernetClient client(sock);
+
+ if (EthernetClass::_server_port[sock] == _port) {
+ if (client.status() == SnSR::LISTEN) {
+ listening = 1;
+ }
+ else if (client.status() == SnSR::CLOSE_WAIT && !client.available()) {
+ client.stop();
+ }
+ }
+ }
+
+ if (!listening) {
+ begin();
+ }
+}
+
+EthernetClient EthernetServer::available()
+{
+ accept();
+
+ for (int sock = 0; sock < MAX_SOCK_NUM; sock++) {
+ EthernetClient client(sock);
+ if (EthernetClass::_server_port[sock] == _port &&
+ (client.status() == SnSR::ESTABLISHED ||
+ client.status() == SnSR::CLOSE_WAIT)) {
+ if (client.available()) {
+ // XXX: don't always pick the lowest numbered socket.
+ return client;
+ }
+ }
+ }
+
+ return EthernetClient(MAX_SOCK_NUM);
+}
+
+size_t EthernetServer::write(uint8_t b)
+{
+ return write(&b, 1);
+}
+
+size_t EthernetServer::write(const uint8_t *buffer, size_t size)
+{
+ size_t n = 0;
+
+ accept();
+
+ for (int sock = 0; sock < MAX_SOCK_NUM; sock++) {
+ EthernetClient client(sock);
+
+ if (EthernetClass::_server_port[sock] == _port &&
+ client.status() == SnSR::ESTABLISHED) {
+ n += client.write(buffer, size);
+ }
+ }
+
+ return n;
+}
diff --git a/libraries/Ethernet/EthernetServer.h b/libraries/Ethernet/EthernetServer.h
new file mode 100644
index 0000000..86ccafe
--- /dev/null
+++ b/libraries/Ethernet/EthernetServer.h
@@ -0,0 +1,22 @@
+#ifndef ethernetserver_h
+#define ethernetserver_h
+
+#include "Server.h"
+
+class EthernetClient;
+
+class EthernetServer :
+public Server {
+private:
+ uint16_t _port;
+ void accept();
+public:
+ EthernetServer(uint16_t);
+ EthernetClient available();
+ virtual void begin();
+ virtual size_t write(uint8_t);
+ virtual size_t write(const uint8_t *buf, size_t size);
+ using Print::write;
+};
+
+#endif
diff --git a/libraries/Ethernet/EthernetUdp.cpp b/libraries/Ethernet/EthernetUdp.cpp
new file mode 100644
index 0000000..3760052
--- /dev/null
+++ b/libraries/Ethernet/EthernetUdp.cpp
@@ -0,0 +1,218 @@
+/*
+ * Udp.cpp: Library to send/receive UDP packets with the Arduino ethernet shield.
+ * This version only offers minimal wrapping of socket.c/socket.h
+ * Drop Udp.h/.cpp into the Ethernet library directory at hardware/libraries/Ethernet/
+ *
+ * MIT License:
+ * Copyright (c) 2008 Bjoern Hartmann
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in
+ * all copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+ * THE SOFTWARE.
+ *
+ * bjoern@cs.stanford.edu 12/30/2008
+ */
+
+#include "w5100.h"
+#include "socket.h"
+#include "Ethernet.h"
+#include "Udp.h"
+#include "Dns.h"
+
+/* Constructor */
+EthernetUDP::EthernetUDP() : _sock(MAX_SOCK_NUM) {}
+
+/* Start EthernetUDP socket, listening at local port PORT */
+uint8_t EthernetUDP::begin(uint16_t port) {
+ if (_sock != MAX_SOCK_NUM)
+ return 0;
+
+ for (int i = 0; i < MAX_SOCK_NUM; i++) {
+ uint8_t s = W5100.readSnSR(i);
+ if (s == SnSR::CLOSED || s == SnSR::FIN_WAIT) {
+ _sock = i;
+ break;
+ }
+ }
+
+ if (_sock == MAX_SOCK_NUM)
+ return 0;
+
+ _port = port;
+ _remaining = 0;
+ socket(_sock, SnMR::UDP, _port, 0);
+
+ return 1;
+}
+
+/* return number of bytes available in the current packet,
+ will return zero if parsePacket hasn't been called yet */
+int EthernetUDP::available() {
+ return _remaining;
+}
+
+/* Release any resources being used by this EthernetUDP instance */
+void EthernetUDP::stop()
+{
+ if (_sock == MAX_SOCK_NUM)
+ return;
+
+ close(_sock);
+
+ EthernetClass::_server_port[_sock] = 0;
+ _sock = MAX_SOCK_NUM;
+}
+
+int EthernetUDP::beginPacket(const char *host, uint16_t port)
+{
+ // Look up the host first
+ int ret = 0;
+ DNSClient dns;
+ IPAddress remote_addr;
+
+ dns.begin(Ethernet.dnsServerIP());
+ ret = dns.getHostByName(host, remote_addr);
+ if (ret == 1) {
+ return beginPacket(remote_addr, port);
+ } else {
+ return ret;
+ }
+}
+
+int EthernetUDP::beginPacket(IPAddress ip, uint16_t port)
+{
+ _offset = 0;
+ return startUDP(_sock, rawIPAddress(ip), port);
+}
+
+int EthernetUDP::endPacket()
+{
+ return sendUDP(_sock);
+}
+
+size_t EthernetUDP::write(uint8_t byte)
+{
+ return write(&byte, 1);
+}
+
+size_t EthernetUDP::write(const uint8_t *buffer, size_t size)
+{
+ uint16_t bytes_written = bufferData(_sock, _offset, buffer, size);
+ _offset += bytes_written;
+ return bytes_written;
+}
+
+int EthernetUDP::parsePacket()
+{
+ // discard any remaining bytes in the last packet
+ flush();
+
+ if (W5100.getRXReceivedSize(_sock) > 0)
+ {
+ //HACK - hand-parse the UDP packet using TCP recv method
+ uint8_t tmpBuf[8];
+ int ret =0;
+ //read 8 header bytes and get IP and port from it
+ ret = recv(_sock,tmpBuf,8);
+ if (ret > 0)
+ {
+ _remoteIP = tmpBuf;
+ _remotePort = tmpBuf[4];
+ _remotePort = (_remotePort << 8) + tmpBuf[5];
+ _remaining = tmpBuf[6];
+ _remaining = (_remaining << 8) + tmpBuf[7];
+
+ // When we get here, any remaining bytes are the data
+ ret = _remaining;
+ }
+ return ret;
+ }
+ // There aren't any packets available
+ return 0;
+}
+
+int EthernetUDP::read()
+{
+ uint8_t byte;
+
+ if ((_remaining > 0) && (recv(_sock, &byte, 1) > 0))
+ {
+ // We read things without any problems
+ _remaining--;
+ return byte;
+ }
+
+ // If we get here, there's no data available
+ return -1;
+}
+
+int EthernetUDP::read(unsigned char* buffer, size_t len)
+{
+
+ if (_remaining > 0)
+ {
+
+ int got;
+
+ if (_remaining <= len)
+ {
+ // data should fit in the buffer
+ got = recv(_sock, buffer, _remaining);
+ }
+ else
+ {
+ // too much data for the buffer,
+ // grab as much as will fit
+ got = recv(_sock, buffer, len);
+ }
+
+ if (got > 0)
+ {
+ _remaining -= got;
+ return got;
+ }
+
+ }
+
+ // If we get here, there's no data available or recv failed
+ return -1;
+
+}
+
+int EthernetUDP::peek()
+{
+ uint8_t b;
+ // Unlike recv, peek doesn't check to see if there's any data available, so we must.
+ // If the user hasn't called parsePacket yet then return nothing otherwise they
+ // may get the UDP header
+ if (!_remaining)
+ return -1;
+ ::peek(_sock, &b);
+ return b;
+}
+
+void EthernetUDP::flush()
+{
+ // could this fail (loop endlessly) if _remaining > 0 and recv in read fails?
+ // should only occur if recv fails after telling us the data is there, lets
+ // hope the w5100 always behaves :)
+
+ while (_remaining)
+ {
+ read();
+ }
+}
+
diff --git a/libraries/Ethernet/EthernetUdp.h b/libraries/Ethernet/EthernetUdp.h
new file mode 100644
index 0000000..8a6b7ab
--- /dev/null
+++ b/libraries/Ethernet/EthernetUdp.h
@@ -0,0 +1,99 @@
+/*
+ * Udp.cpp: Library to send/receive UDP packets with the Arduino ethernet shield.
+ * This version only offers minimal wrapping of socket.c/socket.h
+ * Drop Udp.h/.cpp into the Ethernet library directory at hardware/libraries/Ethernet/
+ *
+ * NOTE: UDP is fast, but has some important limitations (thanks to Warren Gray for mentioning these)
+ * 1) UDP does not guarantee the order in which assembled UDP packets are received. This
+ * might not happen often in practice, but in larger network topologies, a UDP
+ * packet can be received out of sequence.
+ * 2) UDP does not guard against lost packets - so packets *can* disappear without the sender being
+ * aware of it. Again, this may not be a concern in practice on small local networks.
+ * For more information, see http://www.cafeaulait.org/course/week12/35.html
+ *
+ * MIT License:
+ * Copyright (c) 2008 Bjoern Hartmann
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in
+ * all copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+ * THE SOFTWARE.
+ *
+ * bjoern@cs.stanford.edu 12/30/2008
+ */
+
+#ifndef ethernetudp_h
+#define ethernetudp_h
+
+#include <Udp.h>
+
+#define UDP_TX_PACKET_MAX_SIZE 24
+
+class EthernetUDP : public UDP {
+private:
+ uint8_t _sock; // socket ID for Wiz5100
+ uint16_t _port; // local port to listen on
+ IPAddress _remoteIP; // remote IP address for the incoming packet whilst it's being processed
+ uint16_t _remotePort; // remote port for the incoming packet whilst it's being processed
+ uint16_t _offset; // offset into the packet being sent
+ uint16_t _remaining; // remaining bytes of incoming packet yet to be processed
+
+public:
+ EthernetUDP(); // Constructor
+ virtual uint8_t begin(uint16_t); // initialize, start listening on specified port. Returns 1 if successful, 0 if there are no sockets available to use
+ virtual void stop(); // Finish with the UDP socket
+
+ // Sending UDP packets
+
+ // Start building up a packet to send to the remote host specific in ip and port
+ // Returns 1 if successful, 0 if there was a problem with the supplied IP address or port
+ virtual int beginPacket(IPAddress ip, uint16_t port);
+ // Start building up a packet to send to the remote host specific in host and port
+ // Returns 1 if successful, 0 if there was a problem resolving the hostname or port
+ virtual int beginPacket(const char *host, uint16_t port);
+ // Finish off this packet and send it
+ // Returns 1 if the packet was sent successfully, 0 if there was an error
+ virtual int endPacket();
+ // Write a single byte into the packet
+ virtual size_t write(uint8_t);
+ // Write size bytes from buffer into the packet
+ virtual size_t write(const uint8_t *buffer, size_t size);
+
+ using Print::write;
+
+ // Start processing the next available incoming packet
+ // Returns the size of the packet in bytes, or 0 if no packets are available
+ virtual int parsePacket();
+ // Number of bytes remaining in the current packet
+ virtual int available();
+ // Read a single byte from the current packet
+ virtual int read();
+ // Read up to len bytes from the current packet and place them into buffer
+ // Returns the number of bytes read, or 0 if none are available
+ virtual int read(unsigned char* buffer, size_t len);
+ // Read up to len characters from the current packet and place them into buffer
+ // Returns the number of characters read, or 0 if none are available
+ virtual int read(char* buffer, size_t len) { return read((unsigned char*)buffer, len); };
+ // Return the next byte from the current packet without moving on to the next byte
+ virtual int peek();
+ virtual void flush(); // Finish reading the current packet
+
+ // Return the IP address of the host who sent the current incoming packet
+ virtual IPAddress remoteIP() { return _remoteIP; };
+ // Return the port of the host who sent the current incoming packet
+ virtual uint16_t remotePort() { return _remotePort; };
+};
+
+#endif
diff --git a/libraries/Ethernet/examples/BarometricPressureWebServer/BarometricPressureWebServer.ino b/libraries/Ethernet/examples/BarometricPressureWebServer/BarometricPressureWebServer.ino
new file mode 100644
index 0000000..bfbcb6d
--- /dev/null
+++ b/libraries/Ethernet/examples/BarometricPressureWebServer/BarometricPressureWebServer.ino
@@ -0,0 +1,222 @@
+/*
+ SCP1000 Barometric Pressure Sensor Display
+
+ Serves the output of a Barometric Pressure Sensor as a web page.
+ Uses the SPI library. For details on the sensor, see:
+ http://www.sparkfun.com/commerce/product_info.php?products_id=8161
+ http://www.vti.fi/en/support/obsolete_products/pressure_sensors/
+
+ This sketch adapted from Nathan Seidle's SCP1000 example for PIC:
+ http://www.sparkfun.com/datasheets/Sensors/SCP1000-Testing.zip
+
+ Circuit:
+ SCP1000 sensor attached to pins 6,7, and 11 - 13:
+ DRDY: pin 6
+ CSB: pin 7
+ MOSI: pin 11
+ MISO: pin 12
+ SCK: pin 13
+
+ created 31 July 2010
+ by Tom Igoe
+ */
+
+#include <Ethernet.h>
+// the sensor communicates using SPI, so include the library:
+#include <SPI.h>
+
+
+// assign a MAC address for the ethernet controller.
+// fill in your address here:
+byte mac[] = {
+ 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0xED};
+// assign an IP address for the controller:
+IPAddress ip(192,168,1,20);
+IPAddress gateway(192,168,1,1);
+IPAddress subnet(255, 255, 255, 0);
+
+
+// Initialize the Ethernet server library
+// with the IP address and port you want to use
+// (port 80 is default for HTTP):
+EthernetServer server(80);
+
+
+//Sensor's memory register addresses:
+const int PRESSURE = 0x1F; //3 most significant bits of pressure
+const int PRESSURE_LSB = 0x20; //16 least significant bits of pressure
+const int TEMPERATURE = 0x21; //16 bit temperature reading
+
+// pins used for the connection with the sensor
+// the others you need are controlled by the SPI library):
+const int dataReadyPin = 6;
+const int chipSelectPin = 7;
+
+float temperature = 0.0;
+long pressure = 0;
+long lastReadingTime = 0;
+
+void setup() {
+ // start the SPI library:
+ SPI.begin();
+
+ // start the Ethernet connection and the server:
+ Ethernet.begin(mac, ip);
+ server.begin();
+
+ // initalize the data ready and chip select pins:
+ pinMode(dataReadyPin, INPUT);
+ pinMode(chipSelectPin, OUTPUT);
+
+ Serial.begin(9600);
+
+ //Configure SCP1000 for low noise configuration:
+ writeRegister(0x02, 0x2D);
+ writeRegister(0x01, 0x03);
+ writeRegister(0x03, 0x02);
+
+ // give the sensor and Ethernet shield time to set up:
+ delay(1000);
+
+ //Set the sensor to high resolution mode tp start readings:
+ writeRegister(0x03, 0x0A);
+
+}
+
+void loop() {
+ // check for a reading no more than once a second.
+ if (millis() - lastReadingTime > 1000){
+ // if there's a reading ready, read it:
+ // don't do anything until the data ready pin is high:
+ if (digitalRead(dataReadyPin) == HIGH) {
+ getData();
+ // timestamp the last time you got a reading:
+ lastReadingTime = millis();
+ }
+ }
+
+ // listen for incoming Ethernet connections:
+ listenForEthernetClients();
+}
+
+
+void getData() {
+ Serial.println("Getting reading");
+ //Read the temperature data
+ int tempData = readRegister(0x21, 2);
+
+ // convert the temperature to celsius and display it:
+ temperature = (float)tempData / 20.0;
+
+ //Read the pressure data highest 3 bits:
+ byte pressureDataHigh = readRegister(0x1F, 1);
+ pressureDataHigh &= 0b00000111; //you only needs bits 2 to 0
+
+ //Read the pressure data lower 16 bits:
+ unsigned int pressureDataLow = readRegister(0x20, 2);
+ //combine the two parts into one 19-bit number:
+ pressure = ((pressureDataHigh << 16) | pressureDataLow)/4;
+
+ Serial.print("Temperature: ");
+ Serial.print(temperature);
+ Serial.println(" degrees C");
+ Serial.print("Pressure: " + String(pressure));
+ Serial.println(" Pa");
+}
+
+void listenForEthernetClients() {
+ // listen for incoming clients
+ EthernetClient client = server.available();
+ if (client) {
+ Serial.println("Got a client");
+ // an http request ends with a blank line
+ boolean currentLineIsBlank = true;
+ while (client.connected()) {
+ if (client.available()) {
+ char c = client.read();
+ // if you've gotten to the end of the line (received a newline
+ // character) and the line is blank, the http request has ended,
+ // so you can send a reply
+ if (c == '\n' && currentLineIsBlank) {
+ // send a standard http response header
+ client.println("HTTP/1.1 200 OK");
+ client.println("Content-Type: text/html");
+ client.println();
+ // print the current readings, in HTML format:
+ client.print("Temperature: ");
+ client.print(temperature);
+ client.print(" degrees C");
+ client.println("<br />");
+ client.print("Pressure: " + String(pressure));
+ client.print(" Pa");
+ client.println("<br />");
+ break;
+ }
+ if (c == '\n') {
+ // you're starting a new line
+ currentLineIsBlank = true;
+ }
+ else if (c != '\r') {
+ // you've gotten a character on the current line
+ currentLineIsBlank = false;
+ }
+ }
+ }
+ // give the web browser time to receive the data
+ delay(1);
+ // close the connection:
+ client.stop();
+ }
+}
+
+
+//Send a write command to SCP1000
+void writeRegister(byte registerName, byte registerValue) {
+ // SCP1000 expects the register name in the upper 6 bits
+ // of the byte:
+ registerName <<= 2;
+ // command (read or write) goes in the lower two bits:
+ registerName |= 0b00000010; //Write command
+
+ // take the chip select low to select the device:
+ digitalWrite(chipSelectPin, LOW);
+
+ SPI.transfer(registerName); //Send register location
+ SPI.transfer(registerValue); //Send value to record into register
+
+ // take the chip select high to de-select:
+ digitalWrite(chipSelectPin, HIGH);
+}
+
+
+//Read register from the SCP1000:
+unsigned int readRegister(byte registerName, int numBytes) {
+ byte inByte = 0; // incoming from the SPI read
+ unsigned int result = 0; // result to return
+
+ // SCP1000 expects the register name in the upper 6 bits
+ // of the byte:
+ registerName <<= 2;
+ // command (read or write) goes in the lower two bits:
+ registerName &= 0b11111100; //Read command
+
+ // take the chip select low to select the device:
+ digitalWrite(chipSelectPin, LOW);
+ // send the device the register you want to read:
+ int command = SPI.transfer(registerName);
+ // send a value of 0 to read the first byte returned:
+ inByte = SPI.transfer(0x00);
+
+ result = inByte;
+ // if there's more than one byte returned,
+ // shift the first byte then get the second byte:
+ if (numBytes > 1){
+ result = inByte << 8;
+ inByte = SPI.transfer(0x00);
+ result = result |inByte;
+ }
+ // take the chip select high to de-select:
+ digitalWrite(chipSelectPin, HIGH);
+ // return the result:
+ return(result);
+}
diff --git a/libraries/Ethernet/examples/ChatServer/ChatServer.ino b/libraries/Ethernet/examples/ChatServer/ChatServer.ino
new file mode 100644
index 0000000..d50e5a6
--- /dev/null
+++ b/libraries/Ethernet/examples/ChatServer/ChatServer.ino
@@ -0,0 +1,79 @@
+/*
+ Chat Server
+
+ A simple server that distributes any incoming messages to all
+ connected clients. To use telnet to your device's IP address and type.
+ You can see the client's input in the serial monitor as well.
+ Using an Arduino Wiznet Ethernet shield.
+
+ Circuit:
+ * Ethernet shield attached to pins 10, 11, 12, 13
+ * Analog inputs attached to pins A0 through A5 (optional)
+
+ created 18 Dec 2009
+ by David A. Mellis
+ modified 9 Apr 2012
+ by Tom Igoe
+
+ */
+
+#include <SPI.h>
+#include <Ethernet.h>
+
+// Enter a MAC address and IP address for your controller below.
+// The IP address will be dependent on your local network.
+// gateway and subnet are optional:
+byte mac[] = {
+ 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0xED };
+IPAddress ip(192,168,1, 177);
+IPAddress gateway(192,168,1, 1);
+IPAddress subnet(255, 255, 0, 0);
+
+
+// telnet defaults to port 23
+EthernetServer server(23);
+boolean alreadyConnected = false; // whether or not the client was connected previously
+
+void setup() {
+ // initialize the ethernet device
+ Ethernet.begin(mac, ip, gateway, subnet);
+ // start listening for clients
+ server.begin();
+ // Open serial communications and wait for port to open:
+ Serial.begin(9600);
+ while (!Serial) {
+ ; // wait for serial port to connect. Needed for Leonardo only
+ }
+
+
+ Serial.print("Chat server address:");
+ Serial.println(Ethernet.localIP());
+}
+
+void loop() {
+ // wait for a new client:
+ EthernetClient client = server.available();
+
+ // when the client sends the first byte, say hello:
+ if (client) {
+ if (!alreadyConnected) {
+ // clead out the input buffer:
+ client.flush();
+ Serial.println("We have a new client");
+ client.println("Hello, client!");
+ alreadyConnected = true;
+ }
+
+ if (client.available() > 0) {
+ // read the bytes incoming from the client:
+ char thisChar = client.read();
+ // echo the bytes back to the client:
+ server.write(thisChar);
+ // echo the bytes to the server as well:
+ Serial.write(thisChar);
+ }
+ }
+}
+
+
+
diff --git a/libraries/Ethernet/examples/CosmClient/CosmClient.ino b/libraries/Ethernet/examples/CosmClient/CosmClient.ino
new file mode 100644
index 0000000..ec74278
--- /dev/null
+++ b/libraries/Ethernet/examples/CosmClient/CosmClient.ino
@@ -0,0 +1,161 @@
+/*
+ Cosm sensor client
+
+ This sketch connects an analog sensor to Cosm (http://www.cosm.com)
+ using a Wiznet Ethernet shield. You can use the Arduino Ethernet shield, or
+ the Adafruit Ethernet shield, either one will work, as long as it's got
+ a Wiznet Ethernet module on board.
+
+ This example has been updated to use version 2.0 of the cosm.com API.
+ To make it work, create a feed with a datastream, and give it the ID
+ sensor1. Or change the code below to match your feed.
+
+
+ Circuit:
+ * Analog sensor attached to analog in 0
+ * Ethernet shield attached to pins 10, 11, 12, 13
+
+ created 15 March 2010
+ updated 14 May 2012
+ by Tom Igoe with input from Usman Haque and Joe Saavedra
+
+http://arduino.cc/en/Tutorial/CosmClient
+ This code is in the public domain.
+
+ */
+
+#include <SPI.h>
+#include <Ethernet.h>
+
+#define APIKEY "YOUR API KEY GOES HERE" // replace your Cosm api key here
+#define FEEDID 00000 // replace your feed ID
+#define USERAGENT "My Project" // user agent is the project name
+
+// assign a MAC address for the ethernet controller.
+// Newer Ethernet shields have a MAC address printed on a sticker on the shield
+// fill in your address here:
+byte mac[] = {
+ 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0xED};
+
+// fill in an available IP address on your network here,
+// for manual configuration:
+IPAddress ip(10,0,1,20);
+
+// initialize the library instance:
+EthernetClient client;
+
+// if you don't want to use DNS (and reduce your sketch size)
+// use the numeric IP instead of the name for the server:
+//IPAddress server(216,52,233,121); // numeric IP for api.cosm.com
+char server[] = "api.cosm.com"; // name address for cosm API
+
+unsigned long lastConnectionTime = 0; // last time you connected to the server, in milliseconds
+boolean lastConnected = false; // state of the connection last time through the main loop
+const unsigned long postingInterval = 10L*1000L; // delay between updates to cosm.com
+ // the "L" is needed to use long type numbers
+
+
+void setup() {
+ // start serial port:
+ Serial.begin(9600);
+ // start the Ethernet connection:
+ if (Ethernet.begin(mac) == 0) {
+ Serial.println("Failed to configure Ethernet using DHCP");
+ // DHCP failed, so use a fixed IP address:
+ Ethernet.begin(mac, ip);
+ }
+}
+
+void loop() {
+ // read the analog sensor:
+ int sensorReading = analogRead(A0);
+
+ // if there's incoming data from the net connection.
+ // send it out the serial port. This is for debugging
+ // purposes only:
+ if (client.available()) {
+ char c = client.read();
+ Serial.print(c);
+ }
+
+ // if there's no net connection, but there was one last time
+ // through the loop, then stop the client:
+ if (!client.connected() && lastConnected) {
+ Serial.println();
+ Serial.println("disconnecting.");
+ client.stop();
+ }
+
+ // if you're not connected, and ten seconds have passed since
+ // your last connection, then connect again and send data:
+ if(!client.connected() && (millis() - lastConnectionTime > postingInterval)) {
+ sendData(sensorReading);
+ }
+ // store the state of the connection for next time through
+ // the loop:
+ lastConnected = client.connected();
+}
+
+// this method makes a HTTP connection to the server:
+void sendData(int thisData) {
+ // if there's a successful connection:
+ if (client.connect(server, 80)) {
+ Serial.println("connecting...");
+ // send the HTTP PUT request:
+ client.print("PUT /v2/feeds/");
+ client.print(FEEDID);
+ client.println(".csv HTTP/1.1");
+ client.println("Host: api.cosm.com");
+ client.print("X-ApiKey: ");
+ client.println(APIKEY);
+ client.print("User-Agent: ");
+ client.println(USERAGENT);
+ client.print("Content-Length: ");
+
+ // calculate the length of the sensor reading in bytes:
+ // 8 bytes for "sensor1," + number of digits of the data:
+ int thisLength = 8 + getLength(thisData);
+ client.println(thisLength);
+
+ // last pieces of the HTTP PUT request:
+ client.println("Content-Type: text/csv");
+ client.println("Connection: close");
+ client.println();
+
+ // here's the actual content of the PUT request:
+ client.print("sensor1,");
+ client.println(thisData);
+
+ }
+ else {
+ // if you couldn't make a connection:
+ Serial.println("connection failed");
+ Serial.println();
+ Serial.println("disconnecting.");
+ client.stop();
+ }
+ // note the time that the connection was made or attempted:
+ lastConnectionTime = millis();
+}
+
+
+// This method calculates the number of digits in the
+// sensor reading. Since each digit of the ASCII decimal
+// representation is a byte, the number of digits equals
+// the number of bytes:
+
+int getLength(int someValue) {
+ // there's at least one byte:
+ int digits = 1;
+ // continually divide the value by ten,
+ // adding one to the digit count for each
+ // time you divide, until you're at 0:
+ int dividend = someValue /10;
+ while (dividend > 0) {
+ dividend = dividend /10;
+ digits++;
+ }
+ // return the number of digits:
+ return digits;
+}
+
diff --git a/libraries/Ethernet/examples/CosmClientString/CosmClientString.ino b/libraries/Ethernet/examples/CosmClientString/CosmClientString.ino
new file mode 100644
index 0000000..e619924
--- /dev/null
+++ b/libraries/Ethernet/examples/CosmClientString/CosmClientString.ino
@@ -0,0 +1,146 @@
+/*
+ Cosm sensor client with Strings
+
+ This sketch connects an analog sensor to Cosm (http://www.cosm.com)
+ using a Wiznet Ethernet shield. You can use the Arduino Ethernet shield, or
+ the Adafruit Ethernet shield, either one will work, as long as it's got
+ a Wiznet Ethernet module on board.
+
+ This example has been updated to use version 2.0 of the Cosm.com API.
+ To make it work, create a feed with two datastreams, and give them the IDs
+ sensor1 and sensor2. Or change the code below to match your feed.
+
+ This example uses the String library, which is part of the Arduino core from
+ version 0019.
+
+ Circuit:
+ * Analog sensor attached to analog in 0
+ * Ethernet shield attached to pins 10, 11, 12, 13
+
+ created 15 March 2010
+ updated 14 May 2012
+ by Tom Igoe with input from Usman Haque and Joe Saavedra
+
+ http://arduino.cc/en/Tutorial/CosmClientString
+ This code is in the public domain.
+
+ */
+
+#include <SPI.h>
+#include <Ethernet.h>
+
+
+#define APIKEY "YOUR API KEY GOES HERE" // replace your Cosm api key here
+#define FEEDID 00000 // replace your feed ID
+#define USERAGENT "My Project" // user agent is the project name
+
+// assign a MAC address for the ethernet controller.
+// fill in your address here:
+ byte mac[] = {
+ 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0xED};
+
+// fill in an available IP address on your network here,
+// for manual configuration:
+IPAddress ip(10,0,1,20);
+
+// initialize the library instance:
+EthernetClient client;
+
+// if you don't want to use DNS (and reduce your sketch size)
+// use the numeric IP instead of the name for the server:
+//IPAddress server(216,52,233,121); // numeric IP for api.cosm.com
+char server[] = "api.cosm.com"; // name address for Cosm API
+
+unsigned long lastConnectionTime = 0; // last time you connected to the server, in milliseconds
+boolean lastConnected = false; // state of the connection last time through the main loop
+const unsigned long postingInterval = 10L*1000L; // delay between updates to Cosm.com
+ // the "L" is needed to use long type numbers
+void setup() {
+ // start serial port:
+ Serial.begin(9600);
+ // give the ethernet module time to boot up:
+ delay(1000);
+ // start the Ethernet connection:
+ if (Ethernet.begin(mac) == 0) {
+ Serial.println("Failed to configure Ethernet using DHCP");
+ // DHCP failed, so use a fixed IP address:
+ Ethernet.begin(mac, ip);
+ }
+}
+
+void loop() {
+ // read the analog sensor:
+ int sensorReading = analogRead(A0);
+ // convert the data to a String to send it:
+
+ String dataString = "sensor1,";
+ dataString += sensorReading;
+
+ // you can append multiple readings to this String if your
+ // Cosm feed is set up to handle multiple values:
+ int otherSensorReading = analogRead(A1);
+ dataString += "\nsensor2,";
+ dataString += otherSensorReading;
+
+ // if there's incoming data from the net connection.
+ // send it out the serial port. This is for debugging
+ // purposes only:
+ if (client.available()) {
+ char c = client.read();
+ Serial.print(c);
+ }
+
+ // if there's no net connection, but there was one last time
+ // through the loop, then stop the client:
+ if (!client.connected() && lastConnected) {
+ Serial.println();
+ Serial.println("disconnecting.");
+ client.stop();
+ }
+
+ // if you're not connected, and ten seconds have passed since
+ // your last connection, then connect again and send data:
+ if(!client.connected() && (millis() - lastConnectionTime > postingInterval)) {
+ sendData(dataString);
+ }
+ // store the state of the connection for next time through
+ // the loop:
+ lastConnected = client.connected();
+}
+
+// this method makes a HTTP connection to the server:
+void sendData(String thisData) {
+ // if there's a successful connection:
+ if (client.connect(server, 80)) {
+ Serial.println("connecting...");
+ // send the HTTP PUT request:
+ client.print("PUT /v2/feeds/");
+ client.print(FEEDID);
+ client.println(".csv HTTP/1.1");
+ client.println("Host: api.cosm.com");
+ client.print("X-ApiKey: ");
+ client.println(APIKEY);
+ client.print("User-Agent: ");
+ client.println(USERAGENT);
+ client.print("Content-Length: ");
+ client.println(thisData.length());
+
+ // last pieces of the HTTP PUT request:
+ client.println("Content-Type: text/csv");
+ client.println("Connection: close");
+ client.println();
+
+ // here's the actual content of the PUT request:
+ client.println(thisData);
+ }
+ else {
+ // if you couldn't make a connection:
+ Serial.println("connection failed");
+ Serial.println();
+ Serial.println("disconnecting.");
+ client.stop();
+ }
+ // note the time that the connection was made or attempted:
+ lastConnectionTime = millis();
+}
+
diff --git a/libraries/Ethernet/examples/DhcpAddressPrinter/DhcpAddressPrinter.ino b/libraries/Ethernet/examples/DhcpAddressPrinter/DhcpAddressPrinter.ino
new file mode 100644
index 0000000..5eaaf24
--- /dev/null
+++ b/libraries/Ethernet/examples/DhcpAddressPrinter/DhcpAddressPrinter.ino
@@ -0,0 +1,59 @@
+/*
+ DHCP-based IP printer
+
+ This sketch uses the DHCP extensions to the Ethernet library
+ to get an IP address via DHCP and print the address obtained.
+ using an Arduino Wiznet Ethernet shield.
+
+ Circuit:
+ * Ethernet shield attached to pins 10, 11, 12, 13
+
+ created 12 April 2011
+ modified 9 Apr 2012
+ by Tom Igoe
+
+ */
+
+#include <SPI.h>
+#include <Ethernet.h>
+
+// Enter a MAC address for your controller below.
+// Newer Ethernet shields have a MAC address printed on a sticker on the shield
+byte mac[] = {
+ 0x00, 0xAA, 0xBB, 0xCC, 0xDE, 0x02 };
+
+// Initialize the Ethernet client library
+// with the IP address and port of the server
+// that you want to connect to (port 80 is default for HTTP):
+EthernetClient client;
+
+void setup() {
+ // Open serial communications and wait for port to open:
+ Serial.begin(9600);
+ // this check is only needed on the Leonardo:
+ while (!Serial) {
+ ; // wait for serial port to connect. Needed for Leonardo only
+ }
+
+ // start the Ethernet connection:
+ if (Ethernet.begin(mac) == 0) {
+ Serial.println("Failed to configure Ethernet using DHCP");
+ // no point in carrying on, so do nothing forevermore:
+ for(;;)
+ ;
+ }
+ // print your local IP address:
+ Serial.print("My IP address: ");
+ for (byte thisByte = 0; thisByte < 4; thisByte++) {
+ // print the value of each byte of the IP address:
+ Serial.print(Ethernet.localIP()[thisByte], DEC);
+ Serial.print(".");
+ }
+ Serial.println();
+}
+
+void loop() {
+
+}
+
+
diff --git a/libraries/Ethernet/examples/DhcpChatServer/DhcpChatServer.ino b/libraries/Ethernet/examples/DhcpChatServer/DhcpChatServer.ino
new file mode 100644
index 0000000..09cbd43
--- /dev/null
+++ b/libraries/Ethernet/examples/DhcpChatServer/DhcpChatServer.ino
@@ -0,0 +1,87 @@
+/*
+ DHCP Chat Server
+
+ A simple server that distributes any incoming messages to all
+ connected clients. To use telnet to your device's IP address and type.
+ You can see the client's input in the serial monitor as well.
+ Using an Arduino Wiznet Ethernet shield.
+
+ THis version attempts to get an IP address using DHCP
+
+ Circuit:
+ * Ethernet shield attached to pins 10, 11, 12, 13
+
+ created 21 May 2011
+ modified 9 Apr 2012
+ by Tom Igoe
+ Based on ChatServer example by David A. Mellis
+
+ */
+
+#include <SPI.h>
+#include <Ethernet.h>
+
+// Enter a MAC address and IP address for your controller below.
+// The IP address will be dependent on your local network.
+// gateway and subnet are optional:
+byte mac[] = {
+ 0x00, 0xAA, 0xBB, 0xCC, 0xDE, 0x02 };
+IPAddress ip(192,168,1, 177);
+IPAddress gateway(192,168,1, 1);
+IPAddress subnet(255, 255, 0, 0);
+
+// telnet defaults to port 23
+EthernetServer server(23);
+boolean gotAMessage = false; // whether or not you got a message from the client yet
+
+void setup() {
+ // Open serial communications and wait for port to open:
+ Serial.begin(9600);
+ // this check is only needed on the Leonardo:
+ while (!Serial) {
+ ; // wait for serial port to connect. Needed for Leonardo only
+ }
+
+
+ // start the Ethernet connection:
+ Serial.println("Trying to get an IP address using DHCP");
+ if (Ethernet.begin(mac) == 0) {
+ Serial.println("Failed to configure Ethernet using DHCP");
+ // initialize the ethernet device not using DHCP:
+ Ethernet.begin(mac, ip, gateway, subnet);
+ }
+ // print your local IP address:
+ Serial.print("My IP address: ");
+ ip = Ethernet.localIP();
+ for (byte thisByte = 0; thisByte < 4; thisByte++) {
+ // print the value of each byte of the IP address:
+ Serial.print(ip[thisByte], DEC);
+ Serial.print(".");
+ }
+ Serial.println();
+ // start listening for clients
+ server.begin();
+
+}
+
+void loop() {
+ // wait for a new client:
+ EthernetClient client = server.available();
+
+ // when the client sends the first byte, say hello:
+ if (client) {
+ if (!gotAMessage) {
+ Serial.println("We have a new client");
+ client.println("Hello, client!");
+ gotAMessage = true;
+ }
+
+ // read the bytes incoming from the client:
+ char thisChar = client.read();
+ // echo the bytes back to the client:
+ server.write(thisChar);
+ // echo the bytes to the server as well:
+ Serial.print(thisChar);
+ }
+}
+
diff --git a/libraries/Ethernet/examples/DnsWebClient/DnsWebClient.ino b/libraries/Ethernet/examples/DnsWebClient/DnsWebClient.ino
new file mode 100644
index 0000000..c14abf4
--- /dev/null
+++ b/libraries/Ethernet/examples/DnsWebClient/DnsWebClient.ino
@@ -0,0 +1,81 @@
+/*
+ DNS and DHCP-based Web client
+
+ This sketch connects to a website (http://www.google.com)
+ using an Arduino Wiznet Ethernet shield.
+
+ Circuit:
+ * Ethernet shield attached to pins 10, 11, 12, 13
+
+ created 18 Dec 2009
+ by David A. Mellis
+ modified 9 Apr 2012
+ by Tom Igoe, based on work by Adrian McEwen
+
+ */
+
+#include <SPI.h>
+#include <Ethernet.h>
+
+// Enter a MAC address for your controller below.
+// Newer Ethernet shields have a MAC address printed on a sticker on the shield
+byte mac[] = { 0x00, 0xAA, 0xBB, 0xCC, 0xDE, 0x02 };
+char serverName[] = "www.google.com";
+
+// Initialize the Ethernet client library
+// with the IP address and port of the server
+// that you want to connect to (port 80 is default for HTTP):
+EthernetClient client;
+
+void setup() {
+ // Open serial communications and wait for port to open:
+ Serial.begin(9600);
+ while (!Serial) {
+ ; // wait for serial port to connect. Needed for Leonardo only
+ }
+
+
+ // start the Ethernet connection:
+ if (Ethernet.begin(mac) == 0) {
+ Serial.println("Failed to configure Ethernet using DHCP");
+ // no point in carrying on, so do nothing forevermore:
+ while(true);
+ }
+ // give the Ethernet shield a second to initialize:
+ delay(1000);
+ Serial.println("connecting...");
+
+ // if you get a connection, report back via serial:
+
+ if (client.connect(serverName, 80)) {
+ Serial.println("connected");
+ // Make a HTTP request:
+ client.println("GET /search?q=arduino HTTP/1.0");
+ client.println();
+ }
+ else {
+ // kf you didn't get a connection to the server:
+ Serial.println("connection failed");
+ }
+}
+
+void loop()
+{
+ // if there are incoming bytes available
+ // from the server, read them and print them:
+ if (client.available()) {
+ char c = client.read();
+ Serial.print(c);
+ }
+
+ // if the server's disconnected, stop the client:
+ if (!client.connected()) {
+ Serial.println();
+ Serial.println("disconnecting.");
+ client.stop();
+
+ // do nothing forevermore:
+ while(true);
+ }
+}
+
diff --git a/libraries/Ethernet/examples/PachubeClient/PachubeClient.ino b/libraries/Ethernet/examples/PachubeClient/PachubeClient.ino
new file mode 100644
index 0000000..dfd2d40
--- /dev/null
+++ b/libraries/Ethernet/examples/PachubeClient/PachubeClient.ino
@@ -0,0 +1,163 @@
+/*
+ Pachube sensor client
+
+ This sketch connects an analog sensor to Pachube (http://www.pachube.com)
+ using a Wiznet Ethernet shield. You can use the Arduino Ethernet shield, or
+ the Adafruit Ethernet shield, either one will work, as long as it's got
+ a Wiznet Ethernet module on board.
+
+ This example has been updated to use version 2.0 of the Pachube.com API.
+ To make it work, create a feed with a datastream, and give it the ID
+ sensor1. Or change the code below to match your feed.
+
+
+ Circuit:
+ * Analog sensor attached to analog in 0
+ * Ethernet shield attached to pins 10, 11, 12, 13
+
+ created 15 March 2010
+ modified 9 Apr 2012
+ by Tom Igoe with input from Usman Haque and Joe Saavedra
+
+http://arduino.cc/en/Tutorial/PachubeClient
+ This code is in the public domain.
+
+ */
+
+#include <SPI.h>
+#include <Ethernet.h>
+
+#define APIKEY "YOUR API KEY GOES HERE" // replace your pachube api key here
+#define FEEDID 00000 // replace your feed ID
+#define USERAGENT "My Project" // user agent is the project name
+
+// assign a MAC address for the ethernet controller.
+// Newer Ethernet shields have a MAC address printed on a sticker on the shield
+// fill in your address here:
+byte mac[] = {
+ 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0xED};
+
+// fill in an available IP address on your network here,
+// for manual configuration:
+IPAddress ip(10,0,1,20);
+// initialize the library instance:
+EthernetClient client;
+
+// if you don't want to use DNS (and reduce your sketch size)
+// use the numeric IP instead of the name for the server:
+IPAddress server(216,52,233,122); // numeric IP for api.pachube.com
+//char server[] = "api.pachube.com"; // name address for pachube API
+
+unsigned long lastConnectionTime = 0; // last time you connected to the server, in milliseconds
+boolean lastConnected = false; // state of the connection last time through the main loop
+const unsigned long postingInterval = 10*1000; //delay between updates to Pachube.com
+
+void setup() {
+ // Open serial communications and wait for port to open:
+ Serial.begin(9600);
+ while (!Serial) {
+ ; // wait for serial port to connect. Needed for Leonardo only
+ }
+
+
+ // start the Ethernet connection:
+ if (Ethernet.begin(mac) == 0) {
+ Serial.println("Failed to configure Ethernet using DHCP");
+ // DHCP failed, so use a fixed IP address:
+ Ethernet.begin(mac, ip);
+ }
+}
+
+void loop() {
+ // read the analog sensor:
+ int sensorReading = analogRead(A0);
+
+ // if there's incoming data from the net connection.
+ // send it out the serial port. This is for debugging
+ // purposes only:
+ if (client.available()) {
+ char c = client.read();
+ Serial.print(c);
+ }
+
+ // if there's no net connection, but there was one last time
+ // through the loop, then stop the client:
+ if (!client.connected() && lastConnected) {
+ Serial.println();
+ Serial.println("disconnecting.");
+ client.stop();
+ }
+
+ // if you're not connected, and ten seconds have passed since
+ // your last connection, then connect again and send data:
+ if(!client.connected() && (millis() - lastConnectionTime > postingInterval)) {
+ sendData(sensorReading);
+ }
+ // store the state of the connection for next time through
+ // the loop:
+ lastConnected = client.connected();
+}
+
+// this method makes a HTTP connection to the server:
+void sendData(int thisData) {
+ // if there's a successful connection:
+ if (client.connect(server, 80)) {
+ Serial.println("connecting...");
+ // send the HTTP PUT request:
+ client.print("PUT /v2/feeds/");
+ client.print(FEEDID);
+ client.println(".csv HTTP/1.1");
+ client.println("Host: api.pachube.com");
+ client.print("X-PachubeApiKey: ");
+ client.println(APIKEY);
+ client.print("User-Agent: ");
+ client.println(USERAGENT);
+ client.print("Content-Length: ");
+
+ // calculate the length of the sensor reading in bytes:
+ // 8 bytes for "sensor1," + number of digits of the data:
+ int thisLength = 8 + getLength(thisData);
+ client.println(thisLength);
+
+ // last pieces of the HTTP PUT request:
+ client.println("Content-Type: text/csv");
+ client.println("Connection: close");
+ client.println();
+
+ // here's the actual content of the PUT request:
+ client.print("sensor1,");
+ client.println(thisData);
+
+ }
+ else {
+ // if you couldn't make a connection:
+ Serial.println("connection failed");
+ Serial.println();
+ Serial.println("disconnecting.");
+ client.stop();
+ }
+ // note the time that the connection was made or attempted:
+ lastConnectionTime = millis();
+}
+
+
+// This method calculates the number of digits in the
+// sensor reading. Since each digit of the ASCII decimal
+// representation is a byte, the number of digits equals
+// the number of bytes:
+
+int getLength(int someValue) {
+ // there's at least one byte:
+ int digits = 1;
+ // continually divide the value by ten,
+ // adding one to the digit count for each
+ // time you divide, until you're at 0:
+ int dividend = someValue /10;
+ while (dividend > 0) {
+ dividend = dividend /10;
+ digits++;
+ }
+ // return the number of digits:
+ return digits;
+}
+
diff --git a/libraries/Ethernet/examples/PachubeClientString/PachubeClientString.ino b/libraries/Ethernet/examples/PachubeClientString/PachubeClientString.ino
new file mode 100644
index 0000000..2a96e9f
--- /dev/null
+++ b/libraries/Ethernet/examples/PachubeClientString/PachubeClientString.ino
@@ -0,0 +1,152 @@
+/*
+ Cosm sensor client with Strings
+
+ This sketch connects an analog sensor to Cosm (http://www.cosm.com)
+ using a Wiznet Ethernet shield. You can use the Arduino Ethernet shield, or
+ the Adafruit Ethernet shield, either one will work, as long as it's got
+ a Wiznet Ethernet module on board.
+
+ This example has been updated to use version 2.0 of the Cosm.com API.
+ To make it work, create a feed with two datastreams, and give them the IDs
+ sensor1 and sensor2. Or change the code below to match your feed.
+
+ This example uses the String library, which is part of the Arduino core from
+ version 0019.
+
+ Circuit:
+ * Analog sensor attached to analog in 0
+ * Ethernet shield attached to pins 10, 11, 12, 13
+
+ created 15 March 2010
+ modified 9 Apr 2012
+ by Tom Igoe with input from Usman Haque and Joe Saavedra
+
+ http://arduino.cc/en/Tutorial/CosmClientString
+ This code is in the public domain.
+
+ */
+
+#include <SPI.h>
+#include <Ethernet.h>
+
+
+/#define APIKEY "YOUR API KEY GOES HERE" // replace your Cosm api key here
+#define FEEDID 00000 // replace your feed ID
+#define USERAGENT "My Project" // user agent is the project name
+
+
+// assign a MAC address for the ethernet controller.
+// fill in your address here:
+ byte mac[] = {
+ 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0xED};
+
+// fill in an available IP address on your network here,
+// for manual configuration:
+IPAddress ip(10,0,1,20);
+
+// initialize the library instance:
+EthernetClient client;
+
+// if you don't want to use DNS (and reduce your sketch size)
+// use the numeric IP instead of the name for the server:
+IPAddress server(216,52,233,121); // numeric IP for api.cosm.com
+//char server[] = "api.cosm.com"; // name address for Cosm API
+
+unsigned long lastConnectionTime = 0; // last time you connected to the server, in milliseconds
+boolean lastConnected = false; // state of the connection last time through the main loop
+const unsigned long postingInterval = 10*1000; //delay between updates to Cosm.com
+
+void setup() {
+ // Open serial communications and wait for port to open:
+ Serial.begin(9600);
+ while (!Serial) {
+ ; // wait for serial port to connect. Needed for Leonardo only
+ }
+
+
+ // give the ethernet module time to boot up:
+ delay(1000);
+ // start the Ethernet connection:
+ if (Ethernet.begin(mac) == 0) {
+ Serial.println("Failed to configure Ethernet using DHCP");
+ // DHCP failed, so use a fixed IP address:
+ Ethernet.begin(mac, ip);
+ }
+}
+
+void loop() {
+ // read the analog sensor:
+ int sensorReading = analogRead(A0);
+ // convert the data to a String to send it:
+
+ String dataString = "sensor1,";
+ dataString += sensorReading;
+
+ // you can append multiple readings to this String if your
+ // Cosm feed is set up to handle multiple values:
+ int otherSensorReading = analogRead(A1);
+ dataString += "\nsensor2,";
+ dataString += otherSensorReading;
+
+ // if there's incoming data from the net connection.
+ // send it out the serial port. This is for debugging
+ // purposes only:
+ if (client.available()) {
+ char c = client.read();
+ Serial.print(c);
+ }
+
+ // if there's no net connection, but there was one last time
+ // through the loop, then stop the client:
+ if (!client.connected() && lastConnected) {
+ Serial.println();
+ Serial.println("disconnecting.");
+ client.stop();
+ }
+
+ // if you're not connected, and ten seconds have passed since
+ // your last connection, then connect again and send data:
+ if(!client.connected() && (millis() - lastConnectionTime > postingInterval)) {
+ sendData(dataString);
+ }
+ // store the state of the connection for next time through
+ // the loop:
+ lastConnected = client.connected();
+}
+
+// this method makes a HTTP connection to the server:
+void sendData(String thisData) {
+ // if there's a successful connection:
+ if (client.connect(server, 80)) {
+ Serial.println("connecting...");
+ // send the HTTP PUT request:
+ client.print("PUT /v2/feeds/");
+ client.print(FEEDID);
+ client.println(".csv HTTP/1.1");
+ client.println("Host: api.cosm.com");
+ client.print("X-CosmApiKey: ");
+ client.println(APIKEY);
+ client.print("User-Agent: ");
+ client.println(USERAGENT);
+ client.print("Content-Length: ");
+ client.println(thisData.length());
+
+ // last pieces of the HTTP PUT request:
+ client.println("Content-Type: text/csv");
+ client.println("Connection: close");
+ client.println();
+
+ // here's the actual content of the PUT request:
+ client.println(thisData);
+ }
+ else {
+ // if you couldn't make a connection:
+ Serial.println("connection failed");
+ Serial.println();
+ Serial.println("disconnecting.");
+ client.stop();
+ }
+ // note the time that the connection was made or attempted:
+ lastConnectionTime = millis();
+}
+
diff --git a/libraries/Ethernet/examples/TelnetClient/TelnetClient.ino b/libraries/Ethernet/examples/TelnetClient/TelnetClient.ino
new file mode 100644
index 0000000..3457125
--- /dev/null
+++ b/libraries/Ethernet/examples/TelnetClient/TelnetClient.ino
@@ -0,0 +1,93 @@
+/*
+ Telnet client
+
+ This sketch connects to a a telnet server (http://www.google.com)
+ using an Arduino Wiznet Ethernet shield. You'll need a telnet server
+ to test this with.
+ Processing's ChatServer example (part of the network library) works well,
+ running on port 10002. It can be found as part of the examples
+ in the Processing application, available at
+ http://processing.org/
+
+ Circuit:
+ * Ethernet shield attached to pins 10, 11, 12, 13
+
+ created 14 Sep 2010
+ modified 9 Apr 2012
+ by Tom Igoe
+
+ */
+
+#include <SPI.h>
+#include <Ethernet.h>
+
+// Enter a MAC address and IP address for your controller below.
+// The IP address will be dependent on your local network:
+byte mac[] = {
+ 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0xED };
+IPAddress ip(192,168,1,177);
+
+// Enter the IP address of the server you're connecting to:
+IPAddress server(1,1,1,1);
+
+// Initialize the Ethernet client library
+// with the IP address and port of the server
+// that you want to connect to (port 23 is default for telnet;
+// if you're using Processing's ChatServer, use port 10002):
+EthernetClient client;
+
+void setup() {
+ // start the Ethernet connection:
+ Ethernet.begin(mac, ip);
+ // Open serial communications and wait for port to open:
+ Serial.begin(9600);
+ while (!Serial) {
+ ; // wait for serial port to connect. Needed for Leonardo only
+ }
+
+
+ // give the Ethernet shield a second to initialize:
+ delay(1000);
+ Serial.println("connecting...");
+
+ // if you get a connection, report back via serial:
+ if (client.connect(server, 10002)) {
+ Serial.println("connected");
+ }
+ else {
+ // if you didn't get a connection to the server:
+ Serial.println("connection failed");
+ }
+}
+
+void loop()
+{
+ // if there are incoming bytes available
+ // from the server, read them and print them:
+ if (client.available()) {
+ char c = client.read();
+ Serial.print(c);
+ }
+
+ // as long as there are bytes in the serial queue,
+ // read them and send them out the socket if it's open:
+ while (Serial.available() > 0) {
+ char inChar = Serial.read();
+ if (client.connected()) {
+ client.print(inChar);
+ }
+ }
+
+ // if the server's disconnected, stop the client:
+ if (!client.connected()) {
+ Serial.println();
+ Serial.println("disconnecting.");
+ client.stop();
+ // do nothing:
+ while(true);
+ }
+}
+
+
+
+
diff --git a/libraries/Ethernet/examples/TwitterClient/TwitterClient.ino b/libraries/Ethernet/examples/TwitterClient/TwitterClient.ino
new file mode 100644
index 0000000..3587d72
--- /dev/null
+++ b/libraries/Ethernet/examples/TwitterClient/TwitterClient.ino
@@ -0,0 +1,135 @@
+/*
+ Twitter Client with Strings
+
+ This sketch connects to Twitter using an Ethernet shield. It parses the XML
+ returned, and looks for <text>this is a tweet</text>
+
+ You can use the Arduino Ethernet shield, or the Adafruit Ethernet shield,
+ either one will work, as long as it's got a Wiznet Ethernet module on board.
+
+ This example uses the DHCP routines in the Ethernet library which is part of the
+ Arduino core from version 1.0 beta 1
+
+ This example uses the String library, which is part of the Arduino core from
+ version 0019.
+
+ Circuit:
+ * Ethernet shield attached to pins 10, 11, 12, 13
+
+ created 21 May 2011
+ modified 9 Apr 2012
+ by Tom Igoe
+
+ This code is in the public domain.
+
+ */
+#include <SPI.h>
+#include <Ethernet.h>
+
+
+// Enter a MAC address and IP address for your controller below.
+// The IP address will be dependent on your local network:
+byte mac[] = {
+ 0x00, 0xAA, 0xBB, 0xCC, 0xDE, 0x01 };
+IPAddress ip(192,168,1,20);
+
+// initialize the library instance:
+EthernetClient client;
+
+const unsigned long requestInterval = 60000; // delay between requests
+
+char serverName[] = "api.twitter.com"; // twitter URL
+
+boolean requested; // whether you've made a request since connecting
+unsigned long lastAttemptTime = 0; // last time you connected to the server, in milliseconds
+
+String currentLine = ""; // string to hold the text from server
+String tweet = ""; // string to hold the tweet
+boolean readingTweet = false; // if you're currently reading the tweet
+
+void setup() {
+ // reserve space for the strings:
+ currentLine.reserve(256);
+ tweet.reserve(150);
+
+ // Open serial communications and wait for port to open:
+ Serial.begin(9600);
+ while (!Serial) {
+ ; // wait for serial port to connect. Needed for Leonardo only
+ }
+
+
+ // attempt a DHCP connection:
+ Serial.println("Attempting to get an IP address using DHCP:");
+ if (!Ethernet.begin(mac)) {
+ // if DHCP fails, start with a hard-coded address:
+ Serial.println("failed to get an IP address using DHCP, trying manually");
+ Ethernet.begin(mac, ip);
+ }
+ Serial.print("My address:");
+ Serial.println(Ethernet.localIP());
+ // connect to Twitter:
+ connectToServer();
+}
+
+
+
+void loop()
+{
+ if (client.connected()) {
+ if (client.available()) {
+ // read incoming bytes:
+ char inChar = client.read();
+
+ // add incoming byte to end of line:
+ currentLine += inChar;
+
+ // if you get a newline, clear the line:
+ if (inChar == '\n') {
+ currentLine = "";
+ }
+ // if the current line ends with <text>, it will
+ // be followed by the tweet:
+ if ( currentLine.endsWith("<text>")) {
+ // tweet is beginning. Clear the tweet string:
+ readingTweet = true;
+ tweet = "";
+ }
+ // if you're currently reading the bytes of a tweet,
+ // add them to the tweet String:
+ if (readingTweet) {
+ if (inChar != '<') {
+ tweet += inChar;
+ }
+ else {
+ // if you got a "<" character,
+ // you've reached the end of the tweet:
+ readingTweet = false;
+ Serial.println(tweet);
+ // close the connection to the server:
+ client.stop();
+ }
+ }
+ }
+ }
+ else if (millis() - lastAttemptTime > requestInterval) {
+ // if you're not connected, and two minutes have passed since
+ // your last connection, then attempt to connect again:
+ connectToServer();
+ }
+}
+
+void connectToServer() {
+ // attempt to connect, and wait a millisecond:
+ Serial.println("connecting to server...");
+ if (client.connect(serverName, 80)) {
+ Serial.println("making HTTP request...");
+ // make HTTP GET request to twitter:
+ client.println("GET /1/statuses/user_timeline.xml?screen_name=arduino&count=1 HTTP/1.1");
+ client.println("HOST: api.twitter.com");
+ client.println();
+ }
+ // note the time of this connect attempt:
+ lastAttemptTime = millis();
+}
+
diff --git a/libraries/Ethernet/examples/UDPSendReceiveString/UDPSendReceiveString.ino b/libraries/Ethernet/examples/UDPSendReceiveString/UDPSendReceiveString.ino
new file mode 100644
index 0000000..4d4045c
--- /dev/null
+++ b/libraries/Ethernet/examples/UDPSendReceiveString/UDPSendReceiveString.ino
@@ -0,0 +1,118 @@
+/*
+ UDPSendReceive.pde:
+ This sketch receives UDP message strings, prints them to the serial port
+ and sends an "acknowledge" string back to the sender
+
+ A Processing sketch is included at the end of file that can be used to send
+ and received messages for testing with a computer.
+
+ created 21 Aug 2010
+ by Michael Margolis
+
+ This code is in the public domain.
+ */
+
+
+#include <SPI.h> // needed for Arduino versions later than 0018
+#include <Ethernet.h>
+#include <EthernetUdp.h> // UDP library from: bjoern@cs.stanford.edu 12/30/2008
+
+
+// Enter a MAC address and IP address for your controller below.
+// The IP address will be dependent on your local network:
+byte mac[] = {
+ 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0xED };
+IPAddress ip(192, 168, 1, 177);
+
+unsigned int localPort = 8888; // local port to listen on
+
+// buffers for receiving and sending data
+char packetBuffer[UDP_TX_PACKET_MAX_SIZE]; //buffer to hold incoming packet,
+char ReplyBuffer[] = "acknowledged"; // a string to send back
+
+// An EthernetUDP instance to let us send and receive packets over UDP
+EthernetUDP Udp;
+
+void setup() {
+ // start the Ethernet and UDP:
+ Ethernet.begin(mac,ip);
+ Udp.begin(localPort);
+
+ Serial.begin(9600);
+}
+
+void loop() {
+ // if there's data available, read a packet
+ int packetSize = Udp.parsePacket();
+ if(packetSize)
+ {
+ Serial.print("Received packet of size ");
+ Serial.println(packetSize);
+ Serial.print("From ");
+ IPAddress remote = Udp.remoteIP();
+ for (int i =0; i < 4; i++)
+ {
+ Serial.print(remote[i], DEC);
+ if (i < 3)
+ {
+ Serial.print(".");
+ }
+ }
+ Serial.print(", port ");
+ Serial.println(Udp.remotePort());
+
+ // read the packet into packetBufffer
+ Udp.read(packetBuffer,UDP_TX_PACKET_MAX_SIZE);
+ Serial.println("Contents:");
+ Serial.println(packetBuffer);
+
+ // send a reply, to the IP address and port that sent us the packet we received
+ Udp.beginPacket(Udp.remoteIP(), Udp.remotePort());
+ Udp.write(ReplyBuffer);
+ Udp.endPacket();
+ }
+ delay(10);
+}
+
+
+/*
+ Processing sketch to run with this example
+ =====================================================
+
+ // Processing UDP example to send and receive string data from Arduino
+ // press any key to send the "Hello Arduino" message
+
+
+ import hypermedia.net.*;
+
+ UDP udp; // define the UDP object
+
+
+ void setup() {
+ udp = new UDP( this, 6000 ); // create a new datagram connection on port 6000
+ //udp.log( true ); // <-- printout the connection activity
+ udp.listen( true ); // and wait for incoming message
+ }
+
+ void draw()
+ {
+ }
+
+ void keyPressed() {
+ String ip = "192.168.1.177"; // the remote IP address
+ int port = 8888; // the destination port
+
+ udp.send("Hello World", ip, port ); // the message to send
+
+ }
+
+ void receive( byte[] data ) { // <-- default handler
+ //void receive( byte[] data, String ip, int port ) { // <-- extended handler
+
+ for(int i=0; i < data.length; i++)
+ print(char(data[i]));
+ println();
+ }
+ */
+
+
diff --git a/libraries/Ethernet/examples/UdpNtpClient/UdpNtpClient.ino b/libraries/Ethernet/examples/UdpNtpClient/UdpNtpClient.ino
new file mode 100644
index 0000000..93ffe39
--- /dev/null
+++ b/libraries/Ethernet/examples/UdpNtpClient/UdpNtpClient.ino
@@ -0,0 +1,141 @@
+/*
+
+ Udp NTP Client
+
+ Get the time from a Network Time Protocol (NTP) time server
+ Demonstrates use of UDP sendPacket and ReceivePacket
+ For more on NTP time servers and the messages needed to communicate with them,
+ see http://en.wikipedia.org/wiki/Network_Time_Protocol
+
+ created 4 Sep 2010
+ by Michael Margolis
+ modified 9 Apr 2012
+ by Tom Igoe
+
+ This code is in the public domain.
+
+ */
+
+#include <SPI.h>
+#include <Ethernet.h>
+#include <EthernetUdp.h>
+
+// Enter a MAC address for your controller below.
+// Newer Ethernet shields have a MAC address printed on a sticker on the shield
+byte mac[] = {
+ 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0xED };
+
+unsigned int localPort = 8888; // local port to listen for UDP packets
+
+IPAddress timeServer(192, 43, 244, 18); // time.nist.gov NTP server
+
+const int NTP_PACKET_SIZE= 48; // NTP time stamp is in the first 48 bytes of the message
+
+byte packetBuffer[ NTP_PACKET_SIZE]; //buffer to hold incoming and outgoing packets
+
+// A UDP instance to let us send and receive packets over UDP
+EthernetUDP Udp;
+
+void setup()
+{
+ // Open serial communications and wait for port to open:
+ Serial.begin(9600);
+ while (!Serial) {
+ ; // wait for serial port to connect. Needed for Leonardo only
+ }
+
+
+ // start Ethernet and UDP
+ if (Ethernet.begin(mac) == 0) {
+ Serial.println("Failed to configure Ethernet using DHCP");
+ // no point in carrying on, so do nothing forevermore:
+ for(;;)
+ ;
+ }
+ Udp.begin(localPort);
+}
+
+void loop()
+{
+ sendNTPpacket(timeServer); // send an NTP packet to a time server
+
+ // wait to see if a reply is available
+ delay(1000);
+ if ( Udp.parsePacket() ) {
+ // We've received a packet, read the data from it
+ Udp.read(packetBuffer,NTP_PACKET_SIZE); // read the packet into the buffer
+
+ //the timestamp starts at byte 40 of the received packet and is four bytes,
+ // or two words, long. First, esxtract the two words:
+
+ unsigned long highWord = word(packetBuffer[40], packetBuffer[41]);
+ unsigned long lowWord = word(packetBuffer[42], packetBuffer[43]);
+ // combine the four bytes (two words) into a long integer
+ // this is NTP time (seconds since Jan 1 1900):
+ unsigned long secsSince1900 = highWord << 16 | lowWord;
+ Serial.print("Seconds since Jan 1 1900 = " );
+ Serial.println(secsSince1900);
+
+ // now convert NTP time into everyday time:
+ Serial.print("Unix time = ");
+ // Unix time starts on Jan 1 1970. In seconds, that's 2208988800:
+ const unsigned long seventyYears = 2208988800UL;
+ // subtract seventy years:
+ unsigned long epoch = secsSince1900 - seventyYears;
+ // print Unix time:
+ Serial.println(epoch);
+
+
+ // print the hour, minute and second:
+ Serial.print("The UTC time is "); // UTC is the time at Greenwich Meridian (GMT)
+ Serial.print((epoch % 86400L) / 3600); // print the hour (86400 equals secs per day)
+ Serial.print(':');
+ if ( ((epoch % 3600) / 60) < 10 ) {
+ // In the first 10 minutes of each hour, we'll want a leading '0'
+ Serial.print('0');
+ }
+ Serial.print((epoch % 3600) / 60); // print the minute (3600 equals secs per minute)
+ Serial.print(':');
+ if ( (epoch % 60) < 10 ) {
+ // In the first 10 seconds of each minute, we'll want a leading '0'
+ Serial.print('0');
+ }
+ Serial.println(epoch %60); // print the second
+ }
+ // wait ten seconds before asking for the time again
+ delay(10000);
+}
+
+// send an NTP request to the time server at the given address
+unsigned long sendNTPpacket(IPAddress& address)
+{
+ // set all bytes in the buffer to 0
+ memset(packetBuffer, 0, NTP_PACKET_SIZE);
+ // Initialize values needed to form NTP request
+ // (see URL above for details on the packets)
+ packetBuffer[0] = 0b11100011; // LI, Version, Mode
+ packetBuffer[1] = 0; // Stratum, or type of clock
+ packetBuffer[2] = 6; // Polling Interval
+ packetBuffer[3] = 0xEC; // Peer Clock Precision
+ // 8 bytes of zero for Root Delay & Root Dispersion
+ packetBuffer[12] = 49;
+ packetBuffer[13] = 0x4E;
+ packetBuffer[14] = 49;
+ packetBuffer[15] = 52;
+
+ // all NTP fields have been given values, now
+ // you can send a packet requesting a timestamp:
+ Udp.beginPacket(address, 123); //NTP requests are to port 123
+ Udp.write(packetBuffer,NTP_PACKET_SIZE);
+ Udp.endPacket();
+}
+
+
+
+
+
+
+
+
+
+
diff --git a/libraries/Ethernet/examples/WebClient/WebClient.ino b/libraries/Ethernet/examples/WebClient/WebClient.ino
new file mode 100644
index 0000000..5d5d7f2
--- /dev/null
+++ b/libraries/Ethernet/examples/WebClient/WebClient.ino
@@ -0,0 +1,80 @@
+/*
+ Web client
+
+ This sketch connects to a website (http://www.google.com)
+ using an Arduino Wiznet Ethernet shield.
+
+ Circuit:
+ * Ethernet shield attached to pins 10, 11, 12, 13
+
+ created 18 Dec 2009
+ modified 9 Apr 2012
+ by David A. Mellis
+
+ */
+
+#include <SPI.h>
+#include <Ethernet.h>
+
+// Enter a MAC address for your controller below.
+// Newer Ethernet shields have a MAC address printed on a sticker on the shield
+byte mac[] = { 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0xED };
+IPAddress server(173,194,33,104); // Google
+
+// Initialize the Ethernet client library
+// with the IP address and port of the server
+// that you want to connect to (port 80 is default for HTTP):
+EthernetClient client;
+
+void setup() {
+ // Open serial communications and wait for port to open:
+ Serial.begin(9600);
+ while (!Serial) {
+ ; // wait for serial port to connect. Needed for Leonardo only
+ }
+
+ // start the Ethernet connection:
+ if (Ethernet.begin(mac) == 0) {
+ Serial.println("Failed to configure Ethernet using DHCP");
+ // no point in carrying on, so do nothing forevermore:
+ for(;;)
+ ;
+ }
+ // give the Ethernet shield a second to initialize:
+ delay(1000);
+ Serial.println("connecting...");
+
+ // if you get a connection, report back via serial:
+ if (client.connect(server, 80)) {
+ Serial.println("connected");
+ // Make a HTTP request:
+ client.println("GET /search?q=arduino HTTP/1.0");
+ client.println();
+ }
+ else {
+ // kf you didn't get a connection to the server:
+ Serial.println("connection failed");
+ }
+}
+
+void loop()
+{
+ // if there are incoming bytes available
+ // from the server, read them and print them:
+ if (client.available()) {
+ char c = client.read();
+ Serial.print(c);
+ }
+
+ // if the server's disconnected, stop the client:
+ if (!client.connected()) {
+ Serial.println();
+ Serial.println("disconnecting.");
+ client.stop();
+
+ // do nothing forevermore:
+ for(;;)
+ ;
+ }
+}
+
diff --git a/libraries/Ethernet/examples/WebClientRepeating/WebClientRepeating.ino b/libraries/Ethernet/examples/WebClientRepeating/WebClientRepeating.ino
new file mode 100644
index 0000000..650f74e
--- /dev/null
+++ b/libraries/Ethernet/examples/WebClientRepeating/WebClientRepeating.ino
@@ -0,0 +1,111 @@
+/*
+ Repeating Web client
+
+ This sketch connects to a a web server and makes a request
+ using a Wiznet Ethernet shield. You can use the Arduino Ethernet shield, or
+ the Adafruit Ethernet shield, either one will work, as long as it's got
+ a Wiznet Ethernet module on board.
+
+ This example uses DNS, by assigning the Ethernet client with a MAC address,
+ IP address, and DNS address.
+
+ Circuit:
+ * Ethernet shield attached to pins 10, 11, 12, 13
+
+ created 19 Apr 2012
+ by Tom Igoe
+
+ http://arduino.cc/en/Tutorial/WebClientRepeating
+ This code is in the public domain.
+
+ */
+
+#include <SPI.h>
+#include <Ethernet.h>
+
+// assign a MAC address for the ethernet controller.
+// fill in your address here:
+byte mac[] = {
+ 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0xED};
+// fill in an available IP address on your network here,
+// for manual configuration:
+IPAddress ip(10,0,0,20);
+
+// fill in your Domain Name Server address here:
+IPAddress myDns(1,1,1,1);
+
+// initialize the library instance:
+EthernetClient client;
+
+char server[] = "www.arduino.cc";
+
+unsigned long lastConnectionTime = 0; // last time you connected to the server, in milliseconds
+boolean lastConnected = false; // state of the connection last time through the main loop
+const unsigned long postingInterval = 60L*1000L; // delay between updates, in milliseconds
+ // the "L" is needed to use long type numbers
+
+void setup() {
+ // start serial port:
+ Serial.begin(9600);
+ // give the ethernet module time to boot up:
+ delay(1000);
+ // start the Ethernet connection using a fixed IP address and DNS server:
+ Ethernet.begin(mac, ip, myDns);
+ // print the Ethernet board/shield's IP address:
+ Serial.print("My IP address: ");
+ Serial.println(Ethernet.localIP());
+}
+
+void loop() {
+ // if there's incoming data from the net connection.
+ // send it out the serial port. This is for debugging
+ // purposes only:
+ if (client.available()) {
+ char c = client.read();
+ Serial.print(c);
+ }
+
+ // if there's no net connection, but there was one last time
+ // through the loop, then stop the client:
+ if (!client.connected() && lastConnected) {
+ Serial.println();
+ Serial.println("disconnecting.");
+ client.stop();
+ }
+
+ // if you're not connected, and ten seconds have passed since
+ // your last connection, then connect again and send data:
+ if(!client.connected() && (millis() - lastConnectionTime > postingInterval)) {
+ httpRequest();
+ }
+ // store the state of the connection for next time through
+ // the loop:
+ lastConnected = client.connected();
+}
+
+// this method makes a HTTP connection to the server:
+void httpRequest() {
+ // if there's a successful connection:
+ if (client.connect(server, 80)) {
+ Serial.println("connecting...");
+ // send the HTTP PUT request:
+ client.println("GET /latest.txt HTTP/1.1");
+ client.println("Host: www.arduino.cc");
+ client.println("User-Agent: arduino-ethernet");
+ client.println("Connection: close");
+ client.println();
+
+ // note the time that the connection was made:
+ lastConnectionTime = millis();
+ }
+ else {
+ // if you couldn't make a connection:
+ Serial.println("connection failed");
+ Serial.println("disconnecting.");
+ client.stop();
+ }
+}
+
+
+
+
diff --git a/libraries/Ethernet/examples/WebServer/WebServer.ino b/libraries/Ethernet/examples/WebServer/WebServer.ino
new file mode 100644
index 0000000..ce8dbb1
--- /dev/null
+++ b/libraries/Ethernet/examples/WebServer/WebServer.ino
@@ -0,0 +1,101 @@
+/*
+ Web Server
+
+ A simple web server that shows the value of the analog input pins.
+ using an Arduino Wiznet Ethernet shield.
+
+ Circuit:
+ * Ethernet shield attached to pins 10, 11, 12, 13
+ * Analog inputs attached to pins A0 through A5 (optional)
+
+ created 18 Dec 2009
+ by David A. Mellis
+ modified 9 Apr 2012
+ by Tom Igoe
+
+ */
+
+#include <SPI.h>
+#include <Ethernet.h>
+
+// Enter a MAC address and IP address for your controller below.
+// The IP address will be dependent on your local network:
+byte mac[] = {
+ 0xDE, 0xAD, 0xBE, 0xEF, 0xFE, 0xED };
+IPAddress ip(192,168,1, 177);
+
+// Initialize the Ethernet server library
+// with the IP address and port you want to use
+// (port 80 is default for HTTP):
+EthernetServer server(80);
+
+void setup() {
+ // Open serial communications and wait for port to open:
+ Serial.begin(9600);
+ while (!Serial) {
+ ; // wait for serial port to connect. Needed for Leonardo only
+ }
+
+
+ // start the Ethernet connection and the server:
+ Ethernet.begin(mac, ip);
+ server.begin();
+ Serial.print("server is at ");
+ Serial.println(Ethernet.localIP());
+}
+
+
+void loop() {
+ // listen for incoming clients
+ EthernetClient client = server.available();
+ if (client) {
+ Serial.println("new client");
+ // an http request ends with a blank line
+ boolean currentLineIsBlank = true;
+ while (client.connected()) {
+ if (client.available()) {
+ char c = client.read();
+ Serial.write(c);
+ // if you've gotten to the end of the line (received a newline
+ // character) and the line is blank, the http request has ended,
+ // so you can send a reply
+ if (c == '\n' && currentLineIsBlank) {
+ // send a standard http response header
+ client.println("HTTP/1.1 200 OK");
+ client.println("Content-Type: text/html");
+ client.println("Connnection: close");
+ client.println();
+ client.println("<!DOCTYPE HTML>");
+ client.println("<html>");
+ // add a meta refresh tag, so the browser pulls again every 5 seconds:
+ client.println("<meta http-equiv=\"refresh\" content=\"5\">");
+ // output the value of each analog input pin
+ for (int analogChannel = 0; analogChannel < 6; analogChannel++) {
+ int sensorReading = analogRead(analogChannel);
+ client.print("analog input ");
+ client.print(analogChannel);
+ client.print(" is ");
+ client.print(sensorReading);
+ client.println("<br />");
+ }
+ client.println("</html>");
+ break;
+ }
+ if (c == '\n') {
+ // you're starting a new line
+ currentLineIsBlank = true;
+ }
+ else if (c != '\r') {
+ // you've gotten a character on the current line
+ currentLineIsBlank = false;
+ }
+ }
+ }
+ // give the web browser time to receive the data
+ delay(1);
+ // close the connection:
+ client.stop();
+ Serial.println("client disonnected");
+ }
+}
+
diff --git a/libraries/Ethernet/keywords.txt b/libraries/Ethernet/keywords.txt
new file mode 100644
index 0000000..6b37cbe
--- /dev/null
+++ b/libraries/Ethernet/keywords.txt
@@ -0,0 +1,37 @@
+#######################################
+# Syntax Coloring Map For Ethernet
+#######################################
+
+#######################################
+# Datatypes (KEYWORD1)
+#######################################
+
+Ethernet KEYWORD1
+EthernetClient KEYWORD1
+EthernetServer KEYWORD1
+IPAddress KEYWORD1
+
+#######################################
+# Methods and Functions (KEYWORD2)
+#######################################
+
+status KEYWORD2
+connect KEYWORD2
+write KEYWORD2
+available KEYWORD2
+read KEYWORD2
+peek KEYWORD2
+flush KEYWORD2
+stop KEYWORD2
+connected KEYWORD2
+begin KEYWORD2
+beginPacket KEYWORD2
+endPacket KEYWORD2
+parsePacket KEYWORD2
+remoteIP KEYWORD2
+remotePort KEYWORD2
+
+#######################################
+# Constants (LITERAL1)
+#######################################
+
diff --git a/libraries/Ethernet/util.h b/libraries/Ethernet/util.h
new file mode 100644
index 0000000..5042e82
--- /dev/null
+++ b/libraries/Ethernet/util.h
@@ -0,0 +1,13 @@
+#ifndef UTIL_H
+#define UTIL_H
+
+#define htons(x) ( ((x)<<8) | (((x)>>8)&0xFF) )
+#define ntohs(x) htons(x)
+
+#define htonl(x) ( ((x)<<24 & 0xFF000000UL) | \
+ ((x)<< 8 & 0x00FF0000UL) | \
+ ((x)>> 8 & 0x0000FF00UL) | \
+ ((x)>>24 & 0x000000FFUL) )
+#define ntohl(x) htonl(x)
+
+#endif
diff --git a/libraries/Ethernet/utility/socket.cpp b/libraries/Ethernet/utility/socket.cpp
new file mode 100644
index 0000000..fd3e442
--- /dev/null
+++ b/libraries/Ethernet/utility/socket.cpp
@@ -0,0 +1,400 @@
+#include "w5100.h"
+#include "socket.h"
+
+static uint16_t local_port;
+
+/**
+ * @brief This Socket function initialize the channel in perticular mode, and set the port and wait for W5100 done it.
+ * @return 1 for success else 0.
+ */
+uint8_t socket(SOCKET s, uint8_t protocol, uint16_t port, uint8_t flag)
+{
+ if ((protocol == SnMR::TCP) || (protocol == SnMR::UDP) || (protocol == SnMR::IPRAW) || (protocol == SnMR::MACRAW) || (protocol == SnMR::PPPOE))
+ {
+ close(s);
+ W5100.writeSnMR(s, protocol | flag);
+ if (port != 0) {
+ W5100.writeSnPORT(s, port);
+ }
+ else {
+ local_port++; // if don't set the source port, set local_port number.
+ W5100.writeSnPORT(s, local_port);
+ }
+
+ W5100.execCmdSn(s, Sock_OPEN);
+
+ return 1;
+ }
+
+ return 0;
+}
+
+
+/**
+ * @brief This function close the socket and parameter is "s" which represent the socket number
+ */
+void close(SOCKET s)
+{
+ W5100.execCmdSn(s, Sock_CLOSE);
+ W5100.writeSnIR(s, 0xFF);
+}
+
+
+/**
+ * @brief This function established the connection for the channel in passive (server) mode. This function waits for the request from the peer.
+ * @return 1 for success else 0.
+ */
+uint8_t listen(SOCKET s)
+{
+ if (W5100.readSnSR(s) != SnSR::INIT)
+ return 0;
+ W5100.execCmdSn(s, Sock_LISTEN);
+ return 1;
+}
+
+
+/**
+ * @brief This function established the connection for the channel in Active (client) mode.
+ * This function waits for the untill the connection is established.
+ *
+ * @return 1 for success else 0.
+ */
+uint8_t connect(SOCKET s, uint8_t * addr, uint16_t port)
+{
+ if
+ (
+ ((addr[0] == 0xFF) && (addr[1] == 0xFF) && (addr[2] == 0xFF) && (addr[3] == 0xFF)) ||
+ ((addr[0] == 0x00) && (addr[1] == 0x00) && (addr[2] == 0x00) && (addr[3] == 0x00)) ||
+ (port == 0x00)
+ )
+ return 0;
+
+ // set destination IP
+ W5100.writeSnDIPR(s, addr);
+ W5100.writeSnDPORT(s, port);
+ W5100.execCmdSn(s, Sock_CONNECT);
+
+ return 1;
+}
+
+
+
+/**
+ * @brief This function used for disconnect the socket and parameter is "s" which represent the socket number
+ * @return 1 for success else 0.
+ */
+void disconnect(SOCKET s)
+{
+ W5100.execCmdSn(s, Sock_DISCON);
+}
+
+
+/**
+ * @brief This function used to send the data in TCP mode
+ * @return 1 for success else 0.
+ */
+uint16_t send(SOCKET s, const uint8_t * buf, uint16_t len)
+{
+ uint8_t status=0;
+ uint16_t ret=0;
+ uint16_t freesize=0;
+
+ if (len > W5100.SSIZE)
+ ret = W5100.SSIZE; // check size not to exceed MAX size.
+ else
+ ret = len;
+
+ // if freebuf is available, start.
+ do
+ {
+ freesize = W5100.getTXFreeSize(s);
+ status = W5100.readSnSR(s);
+ if ((status != SnSR::ESTABLISHED) && (status != SnSR::CLOSE_WAIT))
+ {
+ ret = 0;
+ break;
+ }
+ }
+ while (freesize < ret);
+
+ // copy data
+ W5100.send_data_processing(s, (uint8_t *)buf, ret);
+ W5100.execCmdSn(s, Sock_SEND);
+
+ /* +2008.01 bj */
+ while ( (W5100.readSnIR(s) & SnIR::SEND_OK) != SnIR::SEND_OK )
+ {
+ /* m2008.01 [bj] : reduce code */
+ if ( W5100.readSnSR(s) == SnSR::CLOSED )
+ {
+ close(s);
+ return 0;
+ }
+ }
+ /* +2008.01 bj */
+ W5100.writeSnIR(s, SnIR::SEND_OK);
+ return ret;
+}
+
+
+/**
+ * @brief This function is an application I/F function which is used to receive the data in TCP mode.
+ * It continues to wait for data as much as the application wants to receive.
+ *
+ * @return received data size for success else -1.
+ */
+int16_t recv(SOCKET s, uint8_t *buf, int16_t len)
+{
+ // Check how much data is available
+ int16_t ret = W5100.getRXReceivedSize(s);
+ if ( ret == 0 )
+ {
+ // No data available.
+ uint8_t status = W5100.readSnSR(s);
+ if ( status == SnSR::LISTEN || status == SnSR::CLOSED || status == SnSR::CLOSE_WAIT )
+ {
+ // The remote end has closed its side of the connection, so this is the eof state
+ ret = 0;
+ }
+ else
+ {
+ // The connection is still up, but there's no data waiting to be read
+ ret = -1;
+ }
+ }
+ else if (ret > len)
+ {
+ ret = len;
+ }
+
+ if ( ret > 0 )
+ {
+ W5100.recv_data_processing(s, buf, ret);
+ W5100.execCmdSn(s, Sock_RECV);
+ }
+ return ret;
+}
+
+
+/**
+ * @brief Returns the first byte in the receive queue (no checking)
+ *
+ * @return
+ */
+uint16_t peek(SOCKET s, uint8_t *buf)
+{
+ W5100.recv_data_processing(s, buf, 1, 1);
+
+ return 1;
+}
+
+
+/**
+ * @brief This function is an application I/F function which is used to send the data for other then TCP mode.
+ * Unlike TCP transmission, The peer's destination address and the port is needed.
+ *
+ * @return This function return send data size for success else -1.
+ */
+uint16_t sendto(SOCKET s, const uint8_t *buf, uint16_t len, uint8_t *addr, uint16_t port)
+{
+ uint16_t ret=0;
+
+ if (len > W5100.SSIZE) ret = W5100.SSIZE; // check size not to exceed MAX size.
+ else ret = len;
+
+ if
+ (
+ ((addr[0] == 0x00) && (addr[1] == 0x00) && (addr[2] == 0x00) && (addr[3] == 0x00)) ||
+ ((port == 0x00)) ||(ret == 0)
+ )
+ {
+ /* +2008.01 [bj] : added return value */
+ ret = 0;
+ }
+ else
+ {
+ W5100.writeSnDIPR(s, addr);
+ W5100.writeSnDPORT(s, port);
+
+ // copy data
+ W5100.send_data_processing(s, (uint8_t *)buf, ret);
+ W5100.execCmdSn(s, Sock_SEND);
+
+ /* +2008.01 bj */
+ while ( (W5100.readSnIR(s) & SnIR::SEND_OK) != SnIR::SEND_OK )
+ {
+ if (W5100.readSnIR(s) & SnIR::TIMEOUT)
+ {
+ /* +2008.01 [bj]: clear interrupt */
+ W5100.writeSnIR(s, (SnIR::SEND_OK | SnIR::TIMEOUT)); /* clear SEND_OK & TIMEOUT */
+ return 0;
+ }
+ }
+
+ /* +2008.01 bj */
+ W5100.writeSnIR(s, SnIR::SEND_OK);
+ }
+ return ret;
+}
+
+
+/**
+ * @brief This function is an application I/F function which is used to receive the data in other then
+ * TCP mode. This function is used to receive UDP, IP_RAW and MAC_RAW mode, and handle the header as well.
+ *
+ * @return This function return received data size for success else -1.
+ */
+uint16_t recvfrom(SOCKET s, uint8_t *buf, uint16_t len, uint8_t *addr, uint16_t *port)
+{
+ uint8_t head[8];
+ uint16_t data_len=0;
+ uint16_t ptr=0;
+
+ if ( len > 0 )
+ {
+ ptr = W5100.readSnRX_RD(s);
+ switch (W5100.readSnMR(s) & 0x07)
+ {
+ case SnMR::UDP :
+ W5100.read_data(s, (uint8_t *)ptr, head, 0x08);
+ ptr += 8;
+ // read peer's IP address, port number.
+ addr[0] = head[0];
+ addr[1] = head[1];
+ addr[2] = head[2];
+ addr[3] = head[3];
+ *port = head[4];
+ *port = (*port << 8) + head[5];
+ data_len = head[6];
+ data_len = (data_len << 8) + head[7];
+
+ W5100.read_data(s, (uint8_t *)ptr, buf, data_len); // data copy.
+ ptr += data_len;
+
+ W5100.writeSnRX_RD(s, ptr);
+ break;
+
+ case SnMR::IPRAW :
+ W5100.read_data(s, (uint8_t *)ptr, head, 0x06);
+ ptr += 6;
+
+ addr[0] = head[0];
+ addr[1] = head[1];
+ addr[2] = head[2];
+ addr[3] = head[3];
+ data_len = head[4];
+ data_len = (data_len << 8) + head[5];
+
+ W5100.read_data(s, (uint8_t *)ptr, buf, data_len); // data copy.
+ ptr += data_len;
+
+ W5100.writeSnRX_RD(s, ptr);
+ break;
+
+ case SnMR::MACRAW:
+ W5100.read_data(s,(uint8_t*)ptr,head,2);
+ ptr+=2;
+ data_len = head[0];
+ data_len = (data_len<<8) + head[1] - 2;
+
+ W5100.read_data(s,(uint8_t*) ptr,buf,data_len);
+ ptr += data_len;
+ W5100.writeSnRX_RD(s, ptr);
+ break;
+
+ default :
+ break;
+ }
+ W5100.execCmdSn(s, Sock_RECV);
+ }
+ return data_len;
+}
+
+
+uint16_t igmpsend(SOCKET s, const uint8_t * buf, uint16_t len)
+{
+ uint8_t status=0;
+ uint16_t ret=0;
+
+ if (len > W5100.SSIZE)
+ ret = W5100.SSIZE; // check size not to exceed MAX size.
+ else
+ ret = len;
+
+ if (ret == 0)
+ return 0;
+
+ W5100.send_data_processing(s, (uint8_t *)buf, ret);
+ W5100.execCmdSn(s, Sock_SEND);
+
+ while ( (W5100.readSnIR(s) & SnIR::SEND_OK) != SnIR::SEND_OK )
+ {
+ status = W5100.readSnSR(s);
+ if (W5100.readSnIR(s) & SnIR::TIMEOUT)
+ {
+ /* in case of igmp, if send fails, then socket closed */
+ /* if you want change, remove this code. */
+ close(s);
+ return 0;
+ }
+ }
+
+ W5100.writeSnIR(s, SnIR::SEND_OK);
+ return ret;
+}
+
+uint16_t bufferData(SOCKET s, uint16_t offset, const uint8_t* buf, uint16_t len)
+{
+ uint16_t ret =0;
+ if (len > W5100.getTXFreeSize(s))
+ {
+ ret = W5100.getTXFreeSize(s); // check size not to exceed MAX size.
+ }
+ else
+ {
+ ret = len;
+ }
+ W5100.send_data_processing_offset(s, offset, buf, ret);
+ return ret;
+}
+
+int startUDP(SOCKET s, uint8_t* addr, uint16_t port)
+{
+ if
+ (
+ ((addr[0] == 0x00) && (addr[1] == 0x00) && (addr[2] == 0x00) && (addr[3] == 0x00)) ||
+ ((port == 0x00))
+ )
+ {
+ return 0;
+ }
+ else
+ {
+ W5100.writeSnDIPR(s, addr);
+ W5100.writeSnDPORT(s, port);
+ return 1;
+ }
+}
+
+int sendUDP(SOCKET s)
+{
+ W5100.execCmdSn(s, Sock_SEND);
+
+ /* +2008.01 bj */
+ while ( (W5100.readSnIR(s) & SnIR::SEND_OK) != SnIR::SEND_OK )
+ {
+ if (W5100.readSnIR(s) & SnIR::TIMEOUT)
+ {
+ /* +2008.01 [bj]: clear interrupt */
+ W5100.writeSnIR(s, (SnIR::SEND_OK|SnIR::TIMEOUT));
+ return 0;
+ }
+ }
+
+ /* +2008.01 bj */
+ W5100.writeSnIR(s, SnIR::SEND_OK);
+
+ /* Sent ok */
+ return 1;
+}
+
diff --git a/libraries/Ethernet/utility/socket.h b/libraries/Ethernet/utility/socket.h
new file mode 100755
index 0000000..45e0fb3
--- /dev/null
+++ b/libraries/Ethernet/utility/socket.h
@@ -0,0 +1,41 @@
+#ifndef _SOCKET_H_
+#define _SOCKET_H_
+
+#include "w5100.h"
+
+extern uint8_t socket(SOCKET s, uint8_t protocol, uint16_t port, uint8_t flag); // Opens a socket(TCP or UDP or IP_RAW mode)
+extern void close(SOCKET s); // Close socket
+extern uint8_t connect(SOCKET s, uint8_t * addr, uint16_t port); // Establish TCP connection (Active connection)
+extern void disconnect(SOCKET s); // disconnect the connection
+extern uint8_t listen(SOCKET s); // Establish TCP connection (Passive connection)
+extern uint16_t send(SOCKET s, const uint8_t * buf, uint16_t len); // Send data (TCP)
+extern int16_t recv(SOCKET s, uint8_t * buf, int16_t len); // Receive data (TCP)
+extern uint16_t peek(SOCKET s, uint8_t *buf);
+extern uint16_t sendto(SOCKET s, const uint8_t * buf, uint16_t len, uint8_t * addr, uint16_t port); // Send data (UDP/IP RAW)
+extern uint16_t recvfrom(SOCKET s, uint8_t * buf, uint16_t len, uint8_t * addr, uint16_t *port); // Receive data (UDP/IP RAW)
+
+extern uint16_t igmpsend(SOCKET s, const uint8_t * buf, uint16_t len);
+
+// Functions to allow buffered UDP send (i.e. where the UDP datagram is built up over a
+// number of calls before being sent
+/*
+ @brief This function sets up a UDP datagram, the data for which will be provided by one
+ or more calls to bufferData and then finally sent with sendUDP.
+ @return 1 if the datagram was successfully set up, or 0 if there was an error
+*/
+extern int startUDP(SOCKET s, uint8_t* addr, uint16_t port);
+/*
+ @brief This function copies up to len bytes of data from buf into a UDP datagram to be
+ sent later by sendUDP. Allows datagrams to be built up from a series of bufferData calls.
+ @return Number of bytes successfully buffered
+*/
+uint16_t bufferData(SOCKET s, uint16_t offset, const uint8_t* buf, uint16_t len);
+/*
+ @brief Send a UDP datagram built up from a sequence of startUDP followed by one or more
+ calls to bufferData.
+ @return 1 if the datagram was successfully sent, or 0 if there was an error
+*/
+int sendUDP(SOCKET s);
+
+#endif
+/* _SOCKET_H_ */
diff --git a/libraries/Ethernet/utility/w5100.cpp b/libraries/Ethernet/utility/w5100.cpp
new file mode 100644
index 0000000..9c748fd
--- /dev/null
+++ b/libraries/Ethernet/utility/w5100.cpp
@@ -0,0 +1,188 @@
+/*
+ * Copyright (c) 2010 by Cristian Maglie <c.maglie@bug.st>
+ *
+ * This file is free software; you can redistribute it and/or modify
+ * it under the terms of either the GNU General Public License version 2
+ * or the GNU Lesser General Public License version 2.1, both as
+ * published by the Free Software Foundation.
+ */
+
+#include <stdio.h>
+#include <string.h>
+#include <avr/interrupt.h>
+
+#include "w5100.h"
+
+// W5100 controller instance
+W5100Class W5100;
+
+#define TX_RX_MAX_BUF_SIZE 2048
+#define TX_BUF 0x1100
+#define RX_BUF (TX_BUF + TX_RX_MAX_BUF_SIZE)
+
+#define TXBUF_BASE 0x4000
+#define RXBUF_BASE 0x6000
+
+void W5100Class::init(void)
+{
+ delay(300);
+
+ SPI.begin();
+ initSS();
+
+ writeMR(1<<RST);
+ writeTMSR(0x55);
+ writeRMSR(0x55);
+
+ for (int i=0; i<MAX_SOCK_NUM; i++) {
+ SBASE[i] = TXBUF_BASE + SSIZE * i;
+ RBASE[i] = RXBUF_BASE + RSIZE * i;
+ }
+}
+
+uint16_t W5100Class::getTXFreeSize(SOCKET s)
+{
+ uint16_t val=0, val1=0;
+ do {
+ val1 = readSnTX_FSR(s);
+ if (val1 != 0)
+ val = readSnTX_FSR(s);
+ }
+ while (val != val1);
+ return val;
+}
+
+uint16_t W5100Class::getRXReceivedSize(SOCKET s)
+{
+ uint16_t val=0,val1=0;
+ do {
+ val1 = readSnRX_RSR(s);
+ if (val1 != 0)
+ val = readSnRX_RSR(s);
+ }
+ while (val != val1);
+ return val;
+}
+
+
+void W5100Class::send_data_processing(SOCKET s, const uint8_t *data, uint16_t len)
+{
+ // This is same as having no offset in a call to send_data_processing_offset
+ send_data_processing_offset(s, 0, data, len);
+}
+
+void W5100Class::send_data_processing_offset(SOCKET s, uint16_t data_offset, const uint8_t *data, uint16_t len)
+{
+ uint16_t ptr = readSnTX_WR(s);
+ ptr += data_offset;
+ uint16_t offset = ptr & SMASK;
+ uint16_t dstAddr = offset + SBASE[s];
+
+ if (offset + len > SSIZE)
+ {
+ // Wrap around circular buffer
+ uint16_t size = SSIZE - offset;
+ write(dstAddr, data, size);
+ write(SBASE[s], data + size, len - size);
+ }
+ else {
+ write(dstAddr, data, len);
+ }
+
+ ptr += len;
+ writeSnTX_WR(s, ptr);
+}
+
+
+void W5100Class::recv_data_processing(SOCKET s, uint8_t *data, uint16_t len, uint8_t peek)
+{
+ uint16_t ptr;
+ ptr = readSnRX_RD(s);
+ read_data(s, (uint8_t *)ptr, data, len);
+ if (!peek)
+ {
+ ptr += len;
+ writeSnRX_RD(s, ptr);
+ }
+}
+
+void W5100Class::read_data(SOCKET s, volatile uint8_t *src, volatile uint8_t *dst, uint16_t len)
+{
+ uint16_t size;
+ uint16_t src_mask;
+ uint16_t src_ptr;
+
+ src_mask = (uint16_t)src & RMASK;
+ src_ptr = RBASE[s] + src_mask;
+
+ if( (src_mask + len) > RSIZE )
+ {
+ size = RSIZE - src_mask;
+ read(src_ptr, (uint8_t *)dst, size);
+ dst += size;
+ read(RBASE[s], (uint8_t *) dst, len - size);
+ }
+ else
+ read(src_ptr, (uint8_t *) dst, len);
+}
+
+
+uint8_t W5100Class::write(uint16_t _addr, uint8_t _data)
+{
+ setSS();
+ SPI.transfer(0xF0);
+ SPI.transfer(_addr >> 8);
+ SPI.transfer(_addr & 0xFF);
+ SPI.transfer(_data);
+ resetSS();
+ return 1;
+}
+
+uint16_t W5100Class::write(uint16_t _addr, const uint8_t *_buf, uint16_t _len)
+{
+ for (uint16_t i=0; i<_len; i++)
+ {
+ setSS();
+ SPI.transfer(0xF0);
+ SPI.transfer(_addr >> 8);
+ SPI.transfer(_addr & 0xFF);
+ _addr++;
+ SPI.transfer(_buf[i]);
+ resetSS();
+ }
+ return _len;
+}
+
+uint8_t W5100Class::read(uint16_t _addr)
+{
+ setSS();
+ SPI.transfer(0x0F);
+ SPI.transfer(_addr >> 8);
+ SPI.transfer(_addr & 0xFF);
+ uint8_t _data = SPI.transfer(0);
+ resetSS();
+ return _data;
+}
+
+uint16_t W5100Class::read(uint16_t _addr, uint8_t *_buf, uint16_t _len)
+{
+ for (uint16_t i=0; i<_len; i++)
+ {
+ setSS();
+ SPI.transfer(0x0F);
+ SPI.transfer(_addr >> 8);
+ SPI.transfer(_addr & 0xFF);
+ _addr++;
+ _buf[i] = SPI.transfer(0);
+ resetSS();
+ }
+ return _len;
+}
+
+void W5100Class::execCmdSn(SOCKET s, SockCMD _cmd) {
+ // Send command to socket
+ writeSnCR(s, _cmd);
+ // Wait for command to complete
+ while (readSnCR(s))
+ ;
+}
diff --git a/libraries/Ethernet/utility/w5100.h b/libraries/Ethernet/utility/w5100.h
new file mode 100755
index 0000000..8dccd9f
--- /dev/null
+++ b/libraries/Ethernet/utility/w5100.h
@@ -0,0 +1,404 @@
+/*
+ * Copyright (c) 2010 by Cristian Maglie <c.maglie@bug.st>
+ *
+ * This file is free software; you can redistribute it and/or modify
+ * it under the terms of either the GNU General Public License version 2
+ * or the GNU Lesser General Public License version 2.1, both as
+ * published by the Free Software Foundation.
+ */
+
+#ifndef W5100_H_INCLUDED
+#define W5100_H_INCLUDED
+
+#include <avr/pgmspace.h>
+#include <SPI.h>
+
+#define MAX_SOCK_NUM 4
+
+typedef uint8_t SOCKET;
+
+#define IDM_OR 0x8000
+#define IDM_AR0 0x8001
+#define IDM_AR1 0x8002
+#define IDM_DR 0x8003
+/*
+class MR {
+public:
+ static const uint8_t RST = 0x80;
+ static const uint8_t PB = 0x10;
+ static const uint8_t PPPOE = 0x08;
+ static const uint8_t LB = 0x04;
+ static const uint8_t AI = 0x02;
+ static const uint8_t IND = 0x01;
+};
+*/
+/*
+class IR {
+public:
+ static const uint8_t CONFLICT = 0x80;
+ static const uint8_t UNREACH = 0x40;
+ static const uint8_t PPPoE = 0x20;
+ static const uint8_t SOCK0 = 0x01;
+ static const uint8_t SOCK1 = 0x02;
+ static const uint8_t SOCK2 = 0x04;
+ static const uint8_t SOCK3 = 0x08;
+ static inline uint8_t SOCK(SOCKET ch) { return (0x01 << ch); };
+};
+*/
+
+class SnMR {
+public:
+ static const uint8_t CLOSE = 0x00;
+ static const uint8_t TCP = 0x01;
+ static const uint8_t UDP = 0x02;
+ static const uint8_t IPRAW = 0x03;
+ static const uint8_t MACRAW = 0x04;
+ static const uint8_t PPPOE = 0x05;
+ static const uint8_t ND = 0x20;
+ static const uint8_t MULTI = 0x80;
+};
+
+enum SockCMD {
+ Sock_OPEN = 0x01,
+ Sock_LISTEN = 0x02,
+ Sock_CONNECT = 0x04,
+ Sock_DISCON = 0x08,
+ Sock_CLOSE = 0x10,
+ Sock_SEND = 0x20,
+ Sock_SEND_MAC = 0x21,
+ Sock_SEND_KEEP = 0x22,
+ Sock_RECV = 0x40
+};
+
+/*class SnCmd {
+public:
+ static const uint8_t OPEN = 0x01;
+ static const uint8_t LISTEN = 0x02;
+ static const uint8_t CONNECT = 0x04;
+ static const uint8_t DISCON = 0x08;
+ static const uint8_t CLOSE = 0x10;
+ static const uint8_t SEND = 0x20;
+ static const uint8_t SEND_MAC = 0x21;
+ static const uint8_t SEND_KEEP = 0x22;
+ static const uint8_t RECV = 0x40;
+};
+*/
+
+class SnIR {
+public:
+ static const uint8_t SEND_OK = 0x10;
+ static const uint8_t TIMEOUT = 0x08;
+ static const uint8_t RECV = 0x04;
+ static const uint8_t DISCON = 0x02;
+ static const uint8_t CON = 0x01;
+};
+
+class SnSR {
+public:
+ static const uint8_t CLOSED = 0x00;
+ static const uint8_t INIT = 0x13;
+ static const uint8_t LISTEN = 0x14;
+ static const uint8_t SYNSENT = 0x15;
+ static const uint8_t SYNRECV = 0x16;
+ static const uint8_t ESTABLISHED = 0x17;
+ static const uint8_t FIN_WAIT = 0x18;
+ static const uint8_t CLOSING = 0x1A;
+ static const uint8_t TIME_WAIT = 0x1B;
+ static const uint8_t CLOSE_WAIT = 0x1C;
+ static const uint8_t LAST_ACK = 0x1D;
+ static const uint8_t UDP = 0x22;
+ static const uint8_t IPRAW = 0x32;
+ static const uint8_t MACRAW = 0x42;
+ static const uint8_t PPPOE = 0x5F;
+};
+
+class IPPROTO {
+public:
+ static const uint8_t IP = 0;
+ static const uint8_t ICMP = 1;
+ static const uint8_t IGMP = 2;
+ static const uint8_t GGP = 3;
+ static const uint8_t TCP = 6;
+ static const uint8_t PUP = 12;
+ static const uint8_t UDP = 17;
+ static const uint8_t IDP = 22;
+ static const uint8_t ND = 77;
+ static const uint8_t RAW = 255;
+};
+
+class W5100Class {
+
+public:
+ void init();
+
+ /**
+ * @brief This function is being used for copy the data form Receive buffer of the chip to application buffer.
+ *
+ * It calculate the actual physical address where one has to read
+ * the data from Receive buffer. Here also take care of the condition while it exceed
+ * the Rx memory uper-bound of socket.
+ */
+ void read_data(SOCKET s, volatile uint8_t * src, volatile uint8_t * dst, uint16_t len);
+
+ /**
+ * @brief This function is being called by send() and sendto() function also.
+ *
+ * This function read the Tx write pointer register and after copy the data in buffer update the Tx write pointer
+ * register. User should read upper byte first and lower byte later to get proper value.
+ */
+ void send_data_processing(SOCKET s, const uint8_t *data, uint16_t len);
+ /**
+ * @brief A copy of send_data_processing that uses the provided ptr for the
+ * write offset. Only needed for the "streaming" UDP API, where
+ * a single UDP packet is built up over a number of calls to
+ * send_data_processing_ptr, because TX_WR doesn't seem to get updated
+ * correctly in those scenarios
+ * @param ptr value to use in place of TX_WR. If 0, then the value is read
+ * in from TX_WR
+ * @return New value for ptr, to be used in the next call
+ */
+// FIXME Update documentation
+ void send_data_processing_offset(SOCKET s, uint16_t data_offset, const uint8_t *data, uint16_t len);
+
+ /**
+ * @brief This function is being called by recv() also.
+ *
+ * This function read the Rx read pointer register
+ * and after copy the data from receive buffer update the Rx write pointer register.
+ * User should read upper byte first and lower byte later to get proper value.
+ */
+ void recv_data_processing(SOCKET s, uint8_t *data, uint16_t len, uint8_t peek = 0);
+
+ inline void setGatewayIp(uint8_t *_addr);
+ inline void getGatewayIp(uint8_t *_addr);
+
+ inline void setSubnetMask(uint8_t *_addr);
+ inline void getSubnetMask(uint8_t *_addr);
+
+ inline void setMACAddress(uint8_t * addr);
+ inline void getMACAddress(uint8_t * addr);
+
+ inline void setIPAddress(uint8_t * addr);
+ inline void getIPAddress(uint8_t * addr);
+
+ inline void setRetransmissionTime(uint16_t timeout);
+ inline void setRetransmissionCount(uint8_t _retry);
+
+ void execCmdSn(SOCKET s, SockCMD _cmd);
+
+ uint16_t getTXFreeSize(SOCKET s);
+ uint16_t getRXReceivedSize(SOCKET s);
+
+
+ // W5100 Registers
+ // ---------------
+private:
+ static uint8_t write(uint16_t _addr, uint8_t _data);
+ static uint16_t write(uint16_t addr, const uint8_t *buf, uint16_t len);
+ static uint8_t read(uint16_t addr);
+ static uint16_t read(uint16_t addr, uint8_t *buf, uint16_t len);
+
+#define __GP_REGISTER8(name, address) \
+ static inline void write##name(uint8_t _data) { \
+ write(address, _data); \
+ } \
+ static inline uint8_t read##name() { \
+ return read(address); \
+ }
+#define __GP_REGISTER16(name, address) \
+ static void write##name(uint16_t _data) { \
+ write(address, _data >> 8); \
+ write(address+1, _data & 0xFF); \
+ } \
+ static uint16_t read##name() { \
+ uint16_t res = read(address); \
+ res = (res << 8) + read(address + 1); \
+ return res; \
+ }
+#define __GP_REGISTER_N(name, address, size) \
+ static uint16_t write##name(uint8_t *_buff) { \
+ return write(address, _buff, size); \
+ } \
+ static uint16_t read##name(uint8_t *_buff) { \
+ return read(address, _buff, size); \
+ }
+
+public:
+ __GP_REGISTER8 (MR, 0x0000); // Mode
+ __GP_REGISTER_N(GAR, 0x0001, 4); // Gateway IP address
+ __GP_REGISTER_N(SUBR, 0x0005, 4); // Subnet mask address
+ __GP_REGISTER_N(SHAR, 0x0009, 6); // Source MAC address
+ __GP_REGISTER_N(SIPR, 0x000F, 4); // Source IP address
+ __GP_REGISTER8 (IR, 0x0015); // Interrupt
+ __GP_REGISTER8 (IMR, 0x0016); // Interrupt Mask
+ __GP_REGISTER16(RTR, 0x0017); // Timeout address
+ __GP_REGISTER8 (RCR, 0x0019); // Retry count
+ __GP_REGISTER8 (RMSR, 0x001A); // Receive memory size
+ __GP_REGISTER8 (TMSR, 0x001B); // Transmit memory size
+ __GP_REGISTER8 (PATR, 0x001C); // Authentication type address in PPPoE mode
+ __GP_REGISTER8 (PTIMER, 0x0028); // PPP LCP Request Timer
+ __GP_REGISTER8 (PMAGIC, 0x0029); // PPP LCP Magic Number
+ __GP_REGISTER_N(UIPR, 0x002A, 4); // Unreachable IP address in UDP mode
+ __GP_REGISTER16(UPORT, 0x002E); // Unreachable Port address in UDP mode
+
+#undef __GP_REGISTER8
+#undef __GP_REGISTER16
+#undef __GP_REGISTER_N
+
+ // W5100 Socket registers
+ // ----------------------
+private:
+ static inline uint8_t readSn(SOCKET _s, uint16_t _addr);
+ static inline uint8_t writeSn(SOCKET _s, uint16_t _addr, uint8_t _data);
+ static inline uint16_t readSn(SOCKET _s, uint16_t _addr, uint8_t *_buf, uint16_t len);
+ static inline uint16_t writeSn(SOCKET _s, uint16_t _addr, uint8_t *_buf, uint16_t len);
+
+ static const uint16_t CH_BASE = 0x0400;
+ static const uint16_t CH_SIZE = 0x0100;
+
+#define __SOCKET_REGISTER8(name, address) \
+ static inline void write##name(SOCKET _s, uint8_t _data) { \
+ writeSn(_s, address, _data); \
+ } \
+ static inline uint8_t read##name(SOCKET _s) { \
+ return readSn(_s, address); \
+ }
+#define __SOCKET_REGISTER16(name, address) \
+ static void write##name(SOCKET _s, uint16_t _data) { \
+ writeSn(_s, address, _data >> 8); \
+ writeSn(_s, address+1, _data & 0xFF); \
+ } \
+ static uint16_t read##name(SOCKET _s) { \
+ uint16_t res = readSn(_s, address); \
+ uint16_t res2 = readSn(_s,address + 1); \
+ res = res << 8; \
+ res2 = res2 & 0xFF; \
+ res = res | res2; \
+ return res; \
+ }
+#define __SOCKET_REGISTER_N(name, address, size) \
+ static uint16_t write##name(SOCKET _s, uint8_t *_buff) { \
+ return writeSn(_s, address, _buff, size); \
+ } \
+ static uint16_t read##name(SOCKET _s, uint8_t *_buff) { \
+ return readSn(_s, address, _buff, size); \
+ }
+
+public:
+ __SOCKET_REGISTER8(SnMR, 0x0000) // Mode
+ __SOCKET_REGISTER8(SnCR, 0x0001) // Command
+ __SOCKET_REGISTER8(SnIR, 0x0002) // Interrupt
+ __SOCKET_REGISTER8(SnSR, 0x0003) // Status
+ __SOCKET_REGISTER16(SnPORT, 0x0004) // Source Port
+ __SOCKET_REGISTER_N(SnDHAR, 0x0006, 6) // Destination Hardw Addr
+ __SOCKET_REGISTER_N(SnDIPR, 0x000C, 4) // Destination IP Addr
+ __SOCKET_REGISTER16(SnDPORT, 0x0010) // Destination Port
+ __SOCKET_REGISTER16(SnMSSR, 0x0012) // Max Segment Size
+ __SOCKET_REGISTER8(SnPROTO, 0x0014) // Protocol in IP RAW Mode
+ __SOCKET_REGISTER8(SnTOS, 0x0015) // IP TOS
+ __SOCKET_REGISTER8(SnTTL, 0x0016) // IP TTL
+ __SOCKET_REGISTER16(SnTX_FSR, 0x0020) // TX Free Size
+ __SOCKET_REGISTER16(SnTX_RD, 0x0022) // TX Read Pointer
+ __SOCKET_REGISTER16(SnTX_WR, 0x0024) // TX Write Pointer
+ __SOCKET_REGISTER16(SnRX_RSR, 0x0026) // RX Free Size
+ __SOCKET_REGISTER16(SnRX_RD, 0x0028) // RX Read Pointer
+ __SOCKET_REGISTER16(SnRX_WR, 0x002A) // RX Write Pointer (supported?)
+
+#undef __SOCKET_REGISTER8
+#undef __SOCKET_REGISTER16
+#undef __SOCKET_REGISTER_N
+
+
+private:
+ static const uint8_t RST = 7; // Reset BIT
+
+ static const int SOCKETS = 4;
+ static const uint16_t SMASK = 0x07FF; // Tx buffer MASK
+ static const uint16_t RMASK = 0x07FF; // Rx buffer MASK
+public:
+ static const uint16_t SSIZE = 2048; // Max Tx buffer size
+private:
+ static const uint16_t RSIZE = 2048; // Max Rx buffer size
+ uint16_t SBASE[SOCKETS]; // Tx buffer base address
+ uint16_t RBASE[SOCKETS]; // Rx buffer base address
+
+private:
+#if defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
+ inline static void initSS() { DDRB |= _BV(4); };
+ inline static void setSS() { PORTB &= ~_BV(4); };
+ inline static void resetSS() { PORTB |= _BV(4); };
+#elif defined(__AVR_ATmega32U4__)
+ inline static void initSS() { DDRB |= _BV(6); };
+ inline static void setSS() { PORTB &= ~_BV(6); };
+ inline static void resetSS() { PORTB |= _BV(6); };
+#elif defined(__AVR_AT90USB1286__) || defined(__AVR_AT90USB646__) || defined(__AVR_AT90USB162__)
+ inline static void initSS() { DDRB |= _BV(0); };
+ inline static void setSS() { PORTB &= ~_BV(0); };
+ inline static void resetSS() { PORTB |= _BV(0); };
+#else
+ inline static void initSS() { DDRB |= _BV(2); };
+ inline static void setSS() { PORTB &= ~_BV(2); };
+ inline static void resetSS() { PORTB |= _BV(2); };
+#endif
+
+};
+
+extern W5100Class W5100;
+
+uint8_t W5100Class::readSn(SOCKET _s, uint16_t _addr) {
+ return read(CH_BASE + _s * CH_SIZE + _addr);
+}
+
+uint8_t W5100Class::writeSn(SOCKET _s, uint16_t _addr, uint8_t _data) {
+ return write(CH_BASE + _s * CH_SIZE + _addr, _data);
+}
+
+uint16_t W5100Class::readSn(SOCKET _s, uint16_t _addr, uint8_t *_buf, uint16_t _len) {
+ return read(CH_BASE + _s * CH_SIZE + _addr, _buf, _len);
+}
+
+uint16_t W5100Class::writeSn(SOCKET _s, uint16_t _addr, uint8_t *_buf, uint16_t _len) {
+ return write(CH_BASE + _s * CH_SIZE + _addr, _buf, _len);
+}
+
+void W5100Class::getGatewayIp(uint8_t *_addr) {
+ readGAR(_addr);
+}
+
+void W5100Class::setGatewayIp(uint8_t *_addr) {
+ writeGAR(_addr);
+}
+
+void W5100Class::getSubnetMask(uint8_t *_addr) {
+ readSUBR(_addr);
+}
+
+void W5100Class::setSubnetMask(uint8_t *_addr) {
+ writeSUBR(_addr);
+}
+
+void W5100Class::getMACAddress(uint8_t *_addr) {
+ readSHAR(_addr);
+}
+
+void W5100Class::setMACAddress(uint8_t *_addr) {
+ writeSHAR(_addr);
+}
+
+void W5100Class::getIPAddress(uint8_t *_addr) {
+ readSIPR(_addr);
+}
+
+void W5100Class::setIPAddress(uint8_t *_addr) {
+ writeSIPR(_addr);
+}
+
+void W5100Class::setRetransmissionTime(uint16_t _timeout) {
+ writeRTR(_timeout);
+}
+
+void W5100Class::setRetransmissionCount(uint8_t _retry) {
+ writeRCR(_retry);
+}
+
+#endif
diff --git a/libraries/Firmata/Boards.h b/libraries/Firmata/Boards.h
new file mode 100644
index 0000000..06f69c6
--- /dev/null
+++ b/libraries/Firmata/Boards.h
@@ -0,0 +1,366 @@
+/* Boards.h - Hardware Abstraction Layer for Firmata library */
+
+#ifndef Firmata_Boards_h
+#define Firmata_Boards_h
+
+#include <inttypes.h>
+
+#if defined(ARDUINO) && ARDUINO >= 100
+#include "Arduino.h" // for digitalRead, digitalWrite, etc
+#else
+#include "WProgram.h"
+#endif
+
+// Normally Servo.h must be included before Firmata.h (which then includes
+// this file). If Servo.h wasn't included, this allows the code to still
+// compile, but without support for any Servos. Hopefully that's what the
+// user intended by not including Servo.h
+#ifndef MAX_SERVOS
+#define MAX_SERVOS 0
+#endif
+
+/*
+ Firmata Hardware Abstraction Layer
+
+Firmata is built on top of the hardware abstraction functions of Arduino,
+specifically digitalWrite, digitalRead, analogWrite, analogRead, and
+pinMode. While these functions offer simple integer pin numbers, Firmata
+needs more information than is provided by Arduino. This file provides
+all other hardware specific details. To make Firmata support a new board,
+only this file should require editing.
+
+The key concept is every "pin" implemented by Firmata may be mapped to
+any pin as implemented by Arduino. Usually a simple 1-to-1 mapping is
+best, but such mapping should not be assumed. This hardware abstraction
+layer allows Firmata to implement any number of pins which map onto the
+Arduino implemented pins in almost any arbitrary way.
+
+
+General Constants:
+
+These constants provide basic information Firmata requires.
+
+TOTAL_PINS: The total number of pins Firmata implemented by Firmata.
+ Usually this will match the number of pins the Arduino functions
+ implement, including any pins pins capable of analog or digital.
+ However, Firmata may implement any number of pins. For example,
+ on Arduino Mini with 8 analog inputs, 6 of these may be used
+ for digital functions, and 2 are analog only. On such boards,
+ Firmata can implement more pins than Arduino's pinMode()
+ function, in order to accommodate those special pins. The
+ Firmata protocol supports a maximum of 128 pins, so this
+ constant must not exceed 128.
+
+TOTAL_ANALOG_PINS: The total number of analog input pins implemented.
+ The Firmata protocol allows up to 16 analog inputs, accessed
+ using offsets 0 to 15. Because Firmata presents the analog
+ inputs using different offsets than the actual pin numbers
+ (a legacy of Arduino's analogRead function, and the way the
+ analog input capable pins are physically labeled on all
+ Arduino boards), the total number of analog input signals
+ must be specified. 16 is the maximum.
+
+VERSION_BLINK_PIN: When Firmata starts up, it will blink the version
+ number. This constant is the Arduino pin number where a
+ LED is connected.
+
+
+Pin Mapping Macros:
+
+These macros provide the mapping between pins as implemented by
+Firmata protocol and the actual pin numbers used by the Arduino
+functions. Even though such mappings are often simple, pin
+numbers received by Firmata protocol should always be used as
+input to these macros, and the result of the macro should be
+used with with any Arduino function.
+
+When Firmata is extended to support a new pin mode or feature,
+a pair of macros should be added and used for all hardware
+access. For simple 1:1 mapping, these macros add no actual
+overhead, yet their consistent use allows source code which
+uses them consistently to be easily adapted to all other boards
+with different requirements.
+
+IS_PIN_XXXX(pin): The IS_PIN macros resolve to true or non-zero
+ if a pin as implemented by Firmata corresponds to a pin
+ that actually implements the named feature.
+
+PIN_TO_XXXX(pin): The PIN_TO macros translate pin numbers as
+ implemented by Firmata to the pin numbers needed as inputs
+ to the Arduino functions. The corresponding IS_PIN macro
+ should always be tested before using a PIN_TO macro, so
+ these macros only need to handle valid Firmata pin
+ numbers for the named feature.
+
+
+Port Access Inline Funtions:
+
+For efficiency, Firmata protocol provides access to digital
+input and output pins grouped by 8 bit ports. When these
+groups of 8 correspond to actual 8 bit ports as implemented
+by the hardware, these inline functions can provide high
+speed direct port access. Otherwise, a default implementation
+using 8 calls to digitalWrite or digitalRead is used.
+
+When porting Firmata to a new board, it is recommended to
+use the default functions first and focus only on the constants
+and macros above. When those are working, if optimized port
+access is desired, these inline functions may be extended.
+The recommended approach defines a symbol indicating which
+optimization to use, and then conditional complication is
+used within these functions.
+
+readPort(port, bitmask): Read an 8 bit port, returning the value.
+ port: The port number, Firmata pins port*8 to port*8+7
+ bitmask: The actual pins to read, indicated by 1 bits.
+
+writePort(port, value, bitmask): Write an 8 bit port.
+ port: The port number, Firmata pins port*8 to port*8+7
+ value: The 8 bit value to write
+ bitmask: The actual pins to write, indicated by 1 bits.
+*/
+
+/*==============================================================================
+ * Board Specific Configuration
+ *============================================================================*/
+
+#ifndef digitalPinHasPWM
+#define digitalPinHasPWM(p) IS_PIN_DIGITAL(p)
+#endif
+
+// Arduino Duemilanove, Diecimila, and NG
+#if defined(__AVR_ATmega168__) || defined(__AVR_ATmega328P__)
+#if defined(NUM_ANALOG_INPUTS) && NUM_ANALOG_INPUTS == 6
+#define TOTAL_ANALOG_PINS 6
+#define TOTAL_PINS 20 // 14 digital + 6 analog
+#else
+#define TOTAL_ANALOG_PINS 8
+#define TOTAL_PINS 22 // 14 digital + 8 analog
+#endif
+#define VERSION_BLINK_PIN 13
+#define IS_PIN_DIGITAL(p) ((p) >= 2 && (p) <= 19)
+#define IS_PIN_ANALOG(p) ((p) >= 14 && (p) < 14 + TOTAL_ANALOG_PINS)
+#define IS_PIN_PWM(p) digitalPinHasPWM(p)
+#define IS_PIN_SERVO(p) (IS_PIN_DIGITAL(p) && (p) - 2 < MAX_SERVOS)
+#define IS_PIN_I2C(p) ((p) == 18 || (p) == 19)
+#define PIN_TO_DIGITAL(p) (p)
+#define PIN_TO_ANALOG(p) ((p) - 14)
+#define PIN_TO_PWM(p) PIN_TO_DIGITAL(p)
+#define PIN_TO_SERVO(p) ((p) - 2)
+#define ARDUINO_PINOUT_OPTIMIZE 1
+
+
+// Wiring (and board)
+#elif defined(WIRING)
+#define VERSION_BLINK_PIN WLED
+#define IS_PIN_DIGITAL(p) ((p) >= 0 && (p) < TOTAL_PINS)
+#define IS_PIN_ANALOG(p) ((p) >= FIRST_ANALOG_PIN && (p) < (FIRST_ANALOG_PIN+TOTAL_ANALOG_PINS))
+#define IS_PIN_PWM(p) digitalPinHasPWM(p)
+#define IS_PIN_SERVO(p) ((p) >= 0 && (p) < MAX_SERVOS)
+#define IS_PIN_I2C(p) ((p) == SDA || (p) == SCL)
+#define PIN_TO_DIGITAL(p) (p)
+#define PIN_TO_ANALOG(p) ((p) - FIRST_ANALOG_PIN)
+#define PIN_TO_PWM(p) PIN_TO_DIGITAL(p)
+#define PIN_TO_SERVO(p) (p)
+
+
+// old Arduinos
+#elif defined(__AVR_ATmega8__)
+#define TOTAL_ANALOG_PINS 6
+#define TOTAL_PINS 20 // 14 digital + 6 analog
+#define VERSION_BLINK_PIN 13
+#define IS_PIN_DIGITAL(p) ((p) >= 2 && (p) <= 19)
+#define IS_PIN_ANALOG(p) ((p) >= 14 && (p) <= 19)
+#define IS_PIN_PWM(p) digitalPinHasPWM(p)
+#define IS_PIN_SERVO(p) (IS_PIN_DIGITAL(p) && (p) - 2 < MAX_SERVOS)
+#define IS_PIN_I2C(p) ((p) == 18 || (p) == 19)
+#define PIN_TO_DIGITAL(p) (p)
+#define PIN_TO_ANALOG(p) ((p) - 14)
+#define PIN_TO_PWM(p) PIN_TO_DIGITAL(p)
+#define PIN_TO_SERVO(p) ((p) - 2)
+#define ARDUINO_PINOUT_OPTIMIZE 1
+
+
+// Arduino Mega
+#elif defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
+#define TOTAL_ANALOG_PINS 16
+#define TOTAL_PINS 70 // 54 digital + 16 analog
+#define VERSION_BLINK_PIN 13
+#define IS_PIN_DIGITAL(p) ((p) >= 2 && (p) < TOTAL_PINS)
+#define IS_PIN_ANALOG(p) ((p) >= 54 && (p) < TOTAL_PINS)
+#define IS_PIN_PWM(p) digitalPinHasPWM(p)
+#define IS_PIN_SERVO(p) ((p) >= 2 && (p) - 2 < MAX_SERVOS)
+#define IS_PIN_I2C(p) ((p) == 20 || (p) == 21)
+#define PIN_TO_DIGITAL(p) (p)
+#define PIN_TO_ANALOG(p) ((p) - 54)
+#define PIN_TO_PWM(p) PIN_TO_DIGITAL(p)
+#define PIN_TO_SERVO(p) ((p) - 2)
+
+
+// Teensy 1.0
+#elif defined(__AVR_AT90USB162__)
+#define TOTAL_ANALOG_PINS 0
+#define TOTAL_PINS 21 // 21 digital + no analog
+#define VERSION_BLINK_PIN 6
+#define IS_PIN_DIGITAL(p) ((p) >= 0 && (p) < TOTAL_PINS)
+#define IS_PIN_ANALOG(p) (0)
+#define IS_PIN_PWM(p) digitalPinHasPWM(p)
+#define IS_PIN_SERVO(p) ((p) >= 0 && (p) < MAX_SERVOS)
+#define IS_PIN_I2C(p) (0)
+#define PIN_TO_DIGITAL(p) (p)
+#define PIN_TO_ANALOG(p) (0)
+#define PIN_TO_PWM(p) PIN_TO_DIGITAL(p)
+#define PIN_TO_SERVO(p) (p)
+
+
+// Teensy 2.0
+#elif defined(__AVR_ATmega32U4__)
+#define TOTAL_ANALOG_PINS 12
+#define TOTAL_PINS 25 // 11 digital + 12 analog
+#define VERSION_BLINK_PIN 11
+#define IS_PIN_DIGITAL(p) ((p) >= 0 && (p) < TOTAL_PINS)
+#define IS_PIN_ANALOG(p) ((p) >= 11 && (p) <= 22)
+#define IS_PIN_PWM(p) digitalPinHasPWM(p)
+#define IS_PIN_SERVO(p) ((p) >= 0 && (p) < MAX_SERVOS)
+#define IS_PIN_I2C(p) ((p) == 5 || (p) == 6)
+#define PIN_TO_DIGITAL(p) (p)
+#define PIN_TO_ANALOG(p) (((p)<22)?21-(p):11)
+#define PIN_TO_PWM(p) PIN_TO_DIGITAL(p)
+#define PIN_TO_SERVO(p) (p)
+
+
+// Teensy++ 1.0 and 2.0
+#elif defined(__AVR_AT90USB646__) || defined(__AVR_AT90USB1286__)
+#define TOTAL_ANALOG_PINS 8
+#define TOTAL_PINS 46 // 38 digital + 8 analog
+#define VERSION_BLINK_PIN 6
+#define IS_PIN_DIGITAL(p) ((p) >= 0 && (p) < TOTAL_PINS)
+#define IS_PIN_ANALOG(p) ((p) >= 38 && (p) < TOTAL_PINS)
+#define IS_PIN_PWM(p) digitalPinHasPWM(p)
+#define IS_PIN_SERVO(p) ((p) >= 0 && (p) < MAX_SERVOS)
+#define IS_PIN_I2C(p) ((p) == 0 || (p) == 1)
+#define PIN_TO_DIGITAL(p) (p)
+#define PIN_TO_ANALOG(p) ((p) - 38)
+#define PIN_TO_PWM(p) PIN_TO_DIGITAL(p)
+#define PIN_TO_SERVO(p) (p)
+
+
+// Sanguino
+#elif defined(__AVR_ATmega644P__) || defined(__AVR_ATmega644__)
+#define TOTAL_ANALOG_PINS 8
+#define TOTAL_PINS 32 // 24 digital + 8 analog
+#define VERSION_BLINK_PIN 0
+#define IS_PIN_DIGITAL(p) ((p) >= 2 && (p) < TOTAL_PINS)
+#define IS_PIN_ANALOG(p) ((p) >= 24 && (p) < TOTAL_PINS)
+#define IS_PIN_PWM(p) digitalPinHasPWM(p)
+#define IS_PIN_SERVO(p) ((p) >= 0 && (p) < MAX_SERVOS)
+#define IS_PIN_I2C(p) ((p) == 16 || (p) == 17)
+#define PIN_TO_DIGITAL(p) (p)
+#define PIN_TO_ANALOG(p) ((p) - 24)
+#define PIN_TO_PWM(p) PIN_TO_DIGITAL(p)
+#define PIN_TO_SERVO(p) ((p) - 2)
+
+
+// Illuminato
+#elif defined(__AVR_ATmega645__)
+#define TOTAL_ANALOG_PINS 6
+#define TOTAL_PINS 42 // 36 digital + 6 analog
+#define VERSION_BLINK_PIN 13
+#define IS_PIN_DIGITAL(p) ((p) >= 2 && (p) < TOTAL_PINS)
+#define IS_PIN_ANALOG(p) ((p) >= 36 && (p) < TOTAL_PINS)
+#define IS_PIN_PWM(p) digitalPinHasPWM(p)
+#define IS_PIN_SERVO(p) ((p) >= 0 && (p) < MAX_SERVOS)
+#define IS_PIN_I2C(p) ((p) == 4 || (p) == 5)
+#define PIN_TO_DIGITAL(p) (p)
+#define PIN_TO_ANALOG(p) ((p) - 36)
+#define PIN_TO_PWM(p) PIN_TO_DIGITAL(p)
+#define PIN_TO_SERVO(p) ((p) - 2)
+
+
+// anything else
+#else
+#error "Please edit Boards.h with a hardware abstraction for this board"
+#endif
+
+
+/*==============================================================================
+ * readPort() - Read an 8 bit port
+ *============================================================================*/
+
+static inline unsigned char readPort(byte, byte) __attribute__((always_inline, unused));
+static inline unsigned char readPort(byte port, byte bitmask)
+{
+#if defined(ARDUINO_PINOUT_OPTIMIZE)
+ if (port == 0) return (PIND & 0xFC) & bitmask; // ignore Rx/Tx 0/1
+ if (port == 1) return ((PINB & 0x3F) | ((PINC & 0x03) << 6)) & bitmask;
+ if (port == 2) return ((PINC & 0x3C) >> 2) & bitmask;
+ return 0;
+#else
+ unsigned char out=0, pin=port*8;
+ if (IS_PIN_DIGITAL(pin+0) && (bitmask & 0x01) && digitalRead(PIN_TO_DIGITAL(pin+0))) out |= 0x01;
+ if (IS_PIN_DIGITAL(pin+1) && (bitmask & 0x02) && digitalRead(PIN_TO_DIGITAL(pin+1))) out |= 0x02;
+ if (IS_PIN_DIGITAL(pin+2) && (bitmask & 0x04) && digitalRead(PIN_TO_DIGITAL(pin+2))) out |= 0x04;
+ if (IS_PIN_DIGITAL(pin+3) && (bitmask & 0x08) && digitalRead(PIN_TO_DIGITAL(pin+3))) out |= 0x08;
+ if (IS_PIN_DIGITAL(pin+4) && (bitmask & 0x10) && digitalRead(PIN_TO_DIGITAL(pin+4))) out |= 0x10;
+ if (IS_PIN_DIGITAL(pin+5) && (bitmask & 0x20) && digitalRead(PIN_TO_DIGITAL(pin+5))) out |= 0x20;
+ if (IS_PIN_DIGITAL(pin+6) && (bitmask & 0x40) && digitalRead(PIN_TO_DIGITAL(pin+6))) out |= 0x40;
+ if (IS_PIN_DIGITAL(pin+7) && (bitmask & 0x80) && digitalRead(PIN_TO_DIGITAL(pin+7))) out |= 0x80;
+ return out;
+#endif
+}
+
+/*==============================================================================
+ * writePort() - Write an 8 bit port, only touch pins specified by a bitmask
+ *============================================================================*/
+
+static inline unsigned char writePort(byte, byte, byte) __attribute__((always_inline, unused));
+static inline unsigned char writePort(byte port, byte value, byte bitmask)
+{
+#if defined(ARDUINO_PINOUT_OPTIMIZE)
+ if (port == 0) {
+ bitmask = bitmask & 0xFC; // do not touch Tx & Rx pins
+ byte valD = value & bitmask;
+ byte maskD = ~bitmask;
+ cli();
+ PORTD = (PORTD & maskD) | valD;
+ sei();
+ } else if (port == 1) {
+ byte valB = (value & bitmask) & 0x3F;
+ byte valC = (value & bitmask) >> 6;
+ byte maskB = ~(bitmask & 0x3F);
+ byte maskC = ~((bitmask & 0xC0) >> 6);
+ cli();
+ PORTB = (PORTB & maskB) | valB;
+ PORTC = (PORTC & maskC) | valC;
+ sei();
+ } else if (port == 2) {
+ bitmask = bitmask & 0x0F;
+ byte valC = (value & bitmask) << 2;
+ byte maskC = ~(bitmask << 2);
+ cli();
+ PORTC = (PORTC & maskC) | valC;
+ sei();
+ }
+#else
+ byte pin=port*8;
+ if ((bitmask & 0x01)) digitalWrite(PIN_TO_DIGITAL(pin+0), (value & 0x01));
+ if ((bitmask & 0x02)) digitalWrite(PIN_TO_DIGITAL(pin+1), (value & 0x02));
+ if ((bitmask & 0x04)) digitalWrite(PIN_TO_DIGITAL(pin+2), (value & 0x04));
+ if ((bitmask & 0x08)) digitalWrite(PIN_TO_DIGITAL(pin+3), (value & 0x08));
+ if ((bitmask & 0x10)) digitalWrite(PIN_TO_DIGITAL(pin+4), (value & 0x10));
+ if ((bitmask & 0x20)) digitalWrite(PIN_TO_DIGITAL(pin+5), (value & 0x20));
+ if ((bitmask & 0x40)) digitalWrite(PIN_TO_DIGITAL(pin+6), (value & 0x40));
+ if ((bitmask & 0x80)) digitalWrite(PIN_TO_DIGITAL(pin+7), (value & 0x80));
+#endif
+}
+
+
+
+
+#ifndef TOTAL_PORTS
+#define TOTAL_PORTS ((TOTAL_PINS + 7) / 8)
+#endif
+
+
+#endif /* Firmata_Boards_h */
+
diff --git a/libraries/Firmata/Firmata.cpp b/libraries/Firmata/Firmata.cpp
new file mode 100644
index 0000000..e81c10b
--- /dev/null
+++ b/libraries/Firmata/Firmata.cpp
@@ -0,0 +1,444 @@
+/*
+ Firmata.cpp - Firmata library
+ Copyright (C) 2006-2008 Hans-Christoph Steiner. All rights reserved.
+
+ This library is free software; you can redistribute it and/or
+ modify it under the terms of the GNU Lesser General Public
+ License as published by the Free Software Foundation; either
+ version 2.1 of the License, or (at your option) any later version.
+
+ See file LICENSE.txt for further informations on licensing terms.
+*/
+
+//******************************************************************************
+//* Includes
+//******************************************************************************
+
+#include "Firmata.h"
+#include "HardwareSerial.h"
+
+extern "C" {
+#include <string.h>
+#include <stdlib.h>
+}
+
+//******************************************************************************
+//* Support Functions
+//******************************************************************************
+
+void FirmataClass::sendValueAsTwo7bitBytes(int value)
+{
+ FirmataSerial.write(value & B01111111); // LSB
+ FirmataSerial.write(value >> 7 & B01111111); // MSB
+}
+
+void FirmataClass::startSysex(void)
+{
+ FirmataSerial.write(START_SYSEX);
+}
+
+void FirmataClass::endSysex(void)
+{
+ FirmataSerial.write(END_SYSEX);
+}
+
+//******************************************************************************
+//* Constructors
+//******************************************************************************
+
+FirmataClass::FirmataClass(Stream &s) : FirmataSerial(s)
+{
+ firmwareVersionCount = 0;
+ systemReset();
+}
+
+//******************************************************************************
+//* Public Methods
+//******************************************************************************
+
+/* begin method for overriding default serial bitrate */
+void FirmataClass::begin(void)
+{
+ begin(57600);
+}
+
+/* begin method for overriding default serial bitrate */
+void FirmataClass::begin(long speed)
+{
+ Serial.begin(speed);
+ FirmataSerial = Serial;
+ blinkVersion();
+ printVersion();
+ printFirmwareVersion();
+}
+
+void FirmataClass::begin(Stream &s)
+{
+ FirmataSerial = s;
+ systemReset();
+ printVersion();
+ printFirmwareVersion();
+}
+
+// output the protocol version message to the serial port
+void FirmataClass::printVersion(void) {
+ FirmataSerial.write(REPORT_VERSION);
+ FirmataSerial.write(FIRMATA_MAJOR_VERSION);
+ FirmataSerial.write(FIRMATA_MINOR_VERSION);
+}
+
+void FirmataClass::blinkVersion(void)
+{
+ // flash the pin with the protocol version
+ pinMode(VERSION_BLINK_PIN,OUTPUT);
+ pin13strobe(FIRMATA_MAJOR_VERSION, 40, 210);
+ delay(250);
+ pin13strobe(FIRMATA_MINOR_VERSION, 40, 210);
+ delay(125);
+}
+
+void FirmataClass::printFirmwareVersion(void)
+{
+ byte i;
+
+ if(firmwareVersionCount) { // make sure that the name has been set before reporting
+ startSysex();
+ FirmataSerial.write(REPORT_FIRMWARE);
+ FirmataSerial.write(firmwareVersionVector[0]); // major version number
+ FirmataSerial.write(firmwareVersionVector[1]); // minor version number
+ for(i=2; i<firmwareVersionCount; ++i) {
+ sendValueAsTwo7bitBytes(firmwareVersionVector[i]);
+ }
+ endSysex();
+ }
+}
+
+void FirmataClass::setFirmwareNameAndVersion(const char *name, byte major, byte minor)
+{
+ const char *filename;
+ char *extension;
+
+ // parse out ".cpp" and "applet/" that comes from using __FILE__
+ extension = strstr(name, ".cpp");
+ filename = strrchr(name, '/') + 1; //points to slash, +1 gets to start of filename
+ // add two bytes for version numbers
+ if(extension && filename) {
+ firmwareVersionCount = extension - filename + 2;
+ } else {
+ firmwareVersionCount = strlen(name) + 2;
+ filename = name;
+ }
+ firmwareVersionVector = (byte *) malloc(firmwareVersionCount);
+ firmwareVersionVector[firmwareVersionCount] = 0;
+ firmwareVersionVector[0] = major;
+ firmwareVersionVector[1] = minor;
+ strncpy((char*)firmwareVersionVector + 2, filename, firmwareVersionCount - 2);
+ // alas, no snprintf on Arduino
+ // snprintf(firmwareVersionVector, MAX_DATA_BYTES, "%c%c%s",
+ // (char)major, (char)minor, firmwareVersionVector);
+}
+
+//------------------------------------------------------------------------------
+// Serial Receive Handling
+
+int FirmataClass::available(void)
+{
+ return FirmataSerial.available();
+}
+
+
+void FirmataClass::processSysexMessage(void)
+{
+ switch(storedInputData[0]) { //first byte in buffer is command
+ case REPORT_FIRMWARE:
+ printFirmwareVersion();
+ break;
+ case STRING_DATA:
+ if(currentStringCallback) {
+ byte bufferLength = (sysexBytesRead - 1) / 2;
+ char *buffer = (char*)malloc(bufferLength * sizeof(char));
+ byte i = 1;
+ byte j = 0;
+ while(j < bufferLength) {
+ buffer[j] = (char)storedInputData[i];
+ i++;
+ buffer[j] += (char)(storedInputData[i] << 7);
+ i++;
+ j++;
+ }
+ (*currentStringCallback)(buffer);
+ }
+ break;
+ default:
+ if(currentSysexCallback)
+ (*currentSysexCallback)(storedInputData[0], sysexBytesRead - 1, storedInputData + 1);
+ }
+}
+
+void FirmataClass::processInput(void)
+{
+ int inputData = FirmataSerial.read(); // this is 'int' to handle -1 when no data
+ int command;
+
+ // TODO make sure it handles -1 properly
+
+ if (parsingSysex) {
+ if(inputData == END_SYSEX) {
+ //stop sysex byte
+ parsingSysex = false;
+ //fire off handler function
+ processSysexMessage();
+ } else {
+ //normal data byte - add to buffer
+ storedInputData[sysexBytesRead] = inputData;
+ sysexBytesRead++;
+ }
+ } else if( (waitForData > 0) && (inputData < 128) ) {
+ waitForData--;
+ storedInputData[waitForData] = inputData;
+ if( (waitForData==0) && executeMultiByteCommand ) { // got the whole message
+ switch(executeMultiByteCommand) {
+ case ANALOG_MESSAGE:
+ if(currentAnalogCallback) {
+ (*currentAnalogCallback)(multiByteChannel,
+ (storedInputData[0] << 7)
+ + storedInputData[1]);
+ }
+ break;
+ case DIGITAL_MESSAGE:
+ if(currentDigitalCallback) {
+ (*currentDigitalCallback)(multiByteChannel,
+ (storedInputData[0] << 7)
+ + storedInputData[1]);
+ }
+ break;
+ case SET_PIN_MODE:
+ if(currentPinModeCallback)
+ (*currentPinModeCallback)(storedInputData[1], storedInputData[0]);
+ break;
+ case REPORT_ANALOG:
+ if(currentReportAnalogCallback)
+ (*currentReportAnalogCallback)(multiByteChannel,storedInputData[0]);
+ break;
+ case REPORT_DIGITAL:
+ if(currentReportDigitalCallback)
+ (*currentReportDigitalCallback)(multiByteChannel,storedInputData[0]);
+ break;
+ }
+ executeMultiByteCommand = 0;
+ }
+ } else {
+ // remove channel info from command byte if less than 0xF0
+ if(inputData < 0xF0) {
+ command = inputData & 0xF0;
+ multiByteChannel = inputData & 0x0F;
+ } else {
+ command = inputData;
+ // commands in the 0xF* range don't use channel data
+ }
+ switch (command) {
+ case ANALOG_MESSAGE:
+ case DIGITAL_MESSAGE:
+ case SET_PIN_MODE:
+ waitForData = 2; // two data bytes needed
+ executeMultiByteCommand = command;
+ break;
+ case REPORT_ANALOG:
+ case REPORT_DIGITAL:
+ waitForData = 1; // two data bytes needed
+ executeMultiByteCommand = command;
+ break;
+ case START_SYSEX:
+ parsingSysex = true;
+ sysexBytesRead = 0;
+ break;
+ case SYSTEM_RESET:
+ systemReset();
+ break;
+ case REPORT_VERSION:
+ Firmata.printVersion();
+ break;
+ }
+ }
+}
+
+//------------------------------------------------------------------------------
+// Serial Send Handling
+
+// send an analog message
+void FirmataClass::sendAnalog(byte pin, int value)
+{
+ // pin can only be 0-15, so chop higher bits
+ FirmataSerial.write(ANALOG_MESSAGE | (pin & 0xF));
+ sendValueAsTwo7bitBytes(value);
+}
+
+// send a single digital pin in a digital message
+void FirmataClass::sendDigital(byte pin, int value)
+{
+ /* TODO add single pin digital messages to the protocol, this needs to
+ * track the last digital data sent so that it can be sure to change just
+ * one bit in the packet. This is complicated by the fact that the
+ * numbering of the pins will probably differ on Arduino, Wiring, and
+ * other boards. The DIGITAL_MESSAGE sends 14 bits at a time, but it is
+ * probably easier to send 8 bit ports for any board with more than 14
+ * digital pins.
+ */
+
+ // TODO: the digital message should not be sent on the serial port every
+ // time sendDigital() is called. Instead, it should add it to an int
+ // which will be sent on a schedule. If a pin changes more than once
+ // before the digital message is sent on the serial port, it should send a
+ // digital message for each change.
+
+ // if(value == 0)
+ // sendDigitalPortPair();
+}
+
+
+// send 14-bits in a single digital message (protocol v1)
+// send an 8-bit port in a single digital message (protocol v2)
+void FirmataClass::sendDigitalPort(byte portNumber, int portData)
+{
+ FirmataSerial.write(DIGITAL_MESSAGE | (portNumber & 0xF));
+ FirmataSerial.write((byte)portData % 128); // Tx bits 0-6
+ FirmataSerial.write(portData >> 7); // Tx bits 7-13
+}
+
+
+void FirmataClass::sendSysex(byte command, byte bytec, byte* bytev)
+{
+ byte i;
+ startSysex();
+ FirmataSerial.write(command);
+ for(i=0; i<bytec; i++) {
+ sendValueAsTwo7bitBytes(bytev[i]);
+ }
+ endSysex();
+}
+
+void FirmataClass::sendString(byte command, const char* string)
+{
+ sendSysex(command, strlen(string), (byte *)string);
+}
+
+
+// send a string as the protocol string type
+void FirmataClass::sendString(const char* string)
+{
+ sendString(STRING_DATA, string);
+}
+
+
+// Internal Actions/////////////////////////////////////////////////////////////
+
+// generic callbacks
+void FirmataClass::attach(byte command, callbackFunction newFunction)
+{
+ switch(command) {
+ case ANALOG_MESSAGE: currentAnalogCallback = newFunction; break;
+ case DIGITAL_MESSAGE: currentDigitalCallback = newFunction; break;
+ case REPORT_ANALOG: currentReportAnalogCallback = newFunction; break;
+ case REPORT_DIGITAL: currentReportDigitalCallback = newFunction; break;
+ case SET_PIN_MODE: currentPinModeCallback = newFunction; break;
+ }
+}
+
+void FirmataClass::attach(byte command, systemResetCallbackFunction newFunction)
+{
+ switch(command) {
+ case SYSTEM_RESET: currentSystemResetCallback = newFunction; break;
+ }
+}
+
+void FirmataClass::attach(byte command, stringCallbackFunction newFunction)
+{
+ switch(command) {
+ case STRING_DATA: currentStringCallback = newFunction; break;
+ }
+}
+
+void FirmataClass::attach(byte command, sysexCallbackFunction newFunction)
+{
+ currentSysexCallback = newFunction;
+}
+
+void FirmataClass::detach(byte command)
+{
+ switch(command) {
+ case SYSTEM_RESET: currentSystemResetCallback = NULL; break;
+ case STRING_DATA: currentStringCallback = NULL; break;
+ case START_SYSEX: currentSysexCallback = NULL; break;
+ default:
+ attach(command, (callbackFunction)NULL);
+ }
+}
+
+// sysex callbacks
+/*
+ * this is too complicated for analogReceive, but maybe for Sysex?
+ void FirmataClass::attachSysex(sysexFunction newFunction)
+ {
+ byte i;
+ byte tmpCount = analogReceiveFunctionCount;
+ analogReceiveFunction* tmpArray = analogReceiveFunctionArray;
+ analogReceiveFunctionCount++;
+ analogReceiveFunctionArray = (analogReceiveFunction*) calloc(analogReceiveFunctionCount, sizeof(analogReceiveFunction));
+ for(i = 0; i < tmpCount; i++) {
+ analogReceiveFunctionArray[i] = tmpArray[i];
+ }
+ analogReceiveFunctionArray[tmpCount] = newFunction;
+ free(tmpArray);
+ }
+*/
+
+//******************************************************************************
+//* Private Methods
+//******************************************************************************
+
+
+
+// resets the system state upon a SYSTEM_RESET message from the host software
+void FirmataClass::systemReset(void)
+{
+ byte i;
+
+ waitForData = 0; // this flag says the next serial input will be data
+ executeMultiByteCommand = 0; // execute this after getting multi-byte data
+ multiByteChannel = 0; // channel data for multiByteCommands
+
+
+ for(i=0; i<MAX_DATA_BYTES; i++) {
+ storedInputData[i] = 0;
+ }
+
+ parsingSysex = false;
+ sysexBytesRead = 0;
+
+ if(currentSystemResetCallback)
+ (*currentSystemResetCallback)();
+
+ //flush(); //TODO uncomment when Firmata is a subclass of HardwareSerial
+}
+
+
+
+// =============================================================================
+// used for flashing the pin for the version number
+void FirmataClass::pin13strobe(int count, int onInterval, int offInterval)
+{
+ byte i;
+ pinMode(VERSION_BLINK_PIN, OUTPUT);
+ for(i=0; i<count; i++) {
+ delay(offInterval);
+ digitalWrite(VERSION_BLINK_PIN, HIGH);
+ delay(onInterval);
+ digitalWrite(VERSION_BLINK_PIN, LOW);
+ }
+}
+
+
+// make one instance for the user to use
+FirmataClass Firmata(Serial);
+
+
diff --git a/libraries/Firmata/Firmata.h b/libraries/Firmata/Firmata.h
new file mode 100644
index 0000000..74f1ccc
--- /dev/null
+++ b/libraries/Firmata/Firmata.h
@@ -0,0 +1,163 @@
+/*
+ Firmata.h - Firmata library
+ Copyright (C) 2006-2008 Hans-Christoph Steiner. All rights reserved.
+
+ This library is free software; you can redistribute it and/or
+ modify it under the terms of the GNU Lesser General Public
+ License as published by the Free Software Foundation; either
+ version 2.1 of the License, or (at your option) any later version.
+
+ See file LICENSE.txt for further informations on licensing terms.
+*/
+
+#ifndef Firmata_h
+#define Firmata_h
+
+#include "Boards.h" /* Hardware Abstraction Layer + Wiring/Arduino */
+
+/* Version numbers for the protocol. The protocol is still changing, so these
+ * version numbers are important. This number can be queried so that host
+ * software can test whether it will be compatible with the currently
+ * installed firmware. */
+#define FIRMATA_MAJOR_VERSION 2 // for non-compatible changes
+#define FIRMATA_MINOR_VERSION 3 // for backwards compatible changes
+#define FIRMATA_BUGFIX_VERSION 1 // for bugfix releases
+
+#define MAX_DATA_BYTES 32 // max number of data bytes in non-Sysex messages
+
+// message command bytes (128-255/0x80-0xFF)
+#define DIGITAL_MESSAGE 0x90 // send data for a digital pin
+#define ANALOG_MESSAGE 0xE0 // send data for an analog pin (or PWM)
+#define REPORT_ANALOG 0xC0 // enable analog input by pin #
+#define REPORT_DIGITAL 0xD0 // enable digital input by port pair
+//
+#define SET_PIN_MODE 0xF4 // set a pin to INPUT/OUTPUT/PWM/etc
+//
+#define REPORT_VERSION 0xF9 // report protocol version
+#define SYSTEM_RESET 0xFF // reset from MIDI
+//
+#define START_SYSEX 0xF0 // start a MIDI Sysex message
+#define END_SYSEX 0xF7 // end a MIDI Sysex message
+
+// extended command set using sysex (0-127/0x00-0x7F)
+/* 0x00-0x0F reserved for user-defined commands */
+#define SERVO_CONFIG 0x70 // set max angle, minPulse, maxPulse, freq
+#define STRING_DATA 0x71 // a string message with 14-bits per char
+#define SHIFT_DATA 0x75 // a bitstream to/from a shift register
+#define I2C_REQUEST 0x76 // send an I2C read/write request
+#define I2C_REPLY 0x77 // a reply to an I2C read request
+#define I2C_CONFIG 0x78 // config I2C settings such as delay times and power pins
+#define EXTENDED_ANALOG 0x6F // analog write (PWM, Servo, etc) to any pin
+#define PIN_STATE_QUERY 0x6D // ask for a pin's current mode and value
+#define PIN_STATE_RESPONSE 0x6E // reply with pin's current mode and value
+#define CAPABILITY_QUERY 0x6B // ask for supported modes and resolution of all pins
+#define CAPABILITY_RESPONSE 0x6C // reply with supported modes and resolution
+#define ANALOG_MAPPING_QUERY 0x69 // ask for mapping of analog to pin numbers
+#define ANALOG_MAPPING_RESPONSE 0x6A // reply with mapping info
+#define REPORT_FIRMWARE 0x79 // report name and version of the firmware
+#define SAMPLING_INTERVAL 0x7A // set the poll rate of the main loop
+#define SYSEX_NON_REALTIME 0x7E // MIDI Reserved for non-realtime messages
+#define SYSEX_REALTIME 0x7F // MIDI Reserved for realtime messages
+// these are DEPRECATED to make the naming more consistent
+#define FIRMATA_STRING 0x71 // same as STRING_DATA
+#define SYSEX_I2C_REQUEST 0x76 // same as I2C_REQUEST
+#define SYSEX_I2C_REPLY 0x77 // same as I2C_REPLY
+#define SYSEX_SAMPLING_INTERVAL 0x7A // same as SAMPLING_INTERVAL
+
+// pin modes
+//#define INPUT 0x00 // defined in wiring.h
+//#define OUTPUT 0x01 // defined in wiring.h
+#define ANALOG 0x02 // analog pin in analogInput mode
+#define PWM 0x03 // digital pin in PWM output mode
+#define SERVO 0x04 // digital pin in Servo output mode
+#define SHIFT 0x05 // shiftIn/shiftOut mode
+#define I2C 0x06 // pin included in I2C setup
+#define TOTAL_PIN_MODES 7
+
+extern "C" {
+// callback function types
+ typedef void (*callbackFunction)(byte, int);
+ typedef void (*systemResetCallbackFunction)(void);
+ typedef void (*stringCallbackFunction)(char*);
+ typedef void (*sysexCallbackFunction)(byte command, byte argc, byte*argv);
+}
+
+
+// TODO make it a subclass of a generic Serial/Stream base class
+class FirmataClass
+{
+public:
+ FirmataClass(Stream &s);
+/* Arduino constructors */
+ void begin();
+ void begin(long);
+ void begin(Stream &s);
+/* querying functions */
+ void printVersion(void);
+ void blinkVersion(void);
+ void printFirmwareVersion(void);
+ //void setFirmwareVersion(byte major, byte minor); // see macro below
+ void setFirmwareNameAndVersion(const char *name, byte major, byte minor);
+/* serial receive handling */
+ int available(void);
+ void processInput(void);
+/* serial send handling */
+ void sendAnalog(byte pin, int value);
+ void sendDigital(byte pin, int value); // TODO implement this
+ void sendDigitalPort(byte portNumber, int portData);
+ void sendString(const char* string);
+ void sendString(byte command, const char* string);
+ void sendSysex(byte command, byte bytec, byte* bytev);
+/* attach & detach callback functions to messages */
+ void attach(byte command, callbackFunction newFunction);
+ void attach(byte command, systemResetCallbackFunction newFunction);
+ void attach(byte command, stringCallbackFunction newFunction);
+ void attach(byte command, sysexCallbackFunction newFunction);
+ void detach(byte command);
+
+private:
+ Stream &FirmataSerial;
+/* firmware name and version */
+ byte firmwareVersionCount;
+ byte *firmwareVersionVector;
+/* input message handling */
+ byte waitForData; // this flag says the next serial input will be data
+ byte executeMultiByteCommand; // execute this after getting multi-byte data
+ byte multiByteChannel; // channel data for multiByteCommands
+ byte storedInputData[MAX_DATA_BYTES]; // multi-byte data
+/* sysex */
+ boolean parsingSysex;
+ int sysexBytesRead;
+/* callback functions */
+ callbackFunction currentAnalogCallback;
+ callbackFunction currentDigitalCallback;
+ callbackFunction currentReportAnalogCallback;
+ callbackFunction currentReportDigitalCallback;
+ callbackFunction currentPinModeCallback;
+ systemResetCallbackFunction currentSystemResetCallback;
+ stringCallbackFunction currentStringCallback;
+ sysexCallbackFunction currentSysexCallback;
+
+/* private methods ------------------------------ */
+ void processSysexMessage(void);
+ void systemReset(void);
+ void pin13strobe(int count, int onInterval, int offInterval);
+ void sendValueAsTwo7bitBytes(int value);
+ void startSysex(void);
+ void endSysex(void);
+};
+
+extern FirmataClass Firmata;
+
+/*==============================================================================
+ * MACROS
+ *============================================================================*/
+
+/* shortcut for setFirmwareNameAndVersion() that uses __FILE__ to set the
+ * firmware name. It needs to be a macro so that __FILE__ is included in the
+ * firmware source file rather than the library source file.
+ */
+#define setFirmwareVersion(x, y) setFirmwareNameAndVersion(__FILE__, x, y)
+
+#endif /* Firmata_h */
+
diff --git a/libraries/Firmata/LICENSE.txt b/libraries/Firmata/LICENSE.txt
new file mode 100644
index 0000000..77cec6d
--- /dev/null
+++ b/libraries/Firmata/LICENSE.txt
@@ -0,0 +1,458 @@
+
+ GNU LESSER GENERAL PUBLIC LICENSE
+ Version 2.1, February 1999
+
+ Copyright (C) 1991, 1999 Free Software Foundation, Inc.
+ 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
+ Everyone is permitted to copy and distribute verbatim copies
+ of this license document, but changing it is not allowed.
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+to distribute software through any other system and a licensee cannot
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+
+This section is intended to make thoroughly clear what is believed to
+be a consequence of the rest of this License.
+
+ 12. If the distribution and/or use of the Library is restricted in
+certain countries either by patents or by copyrighted interfaces, the
+original copyright holder who places the Library under this License may add
+an explicit geographical distribution limitation excluding those countries,
+so that distribution is permitted only in or among countries not thus
+excluded. In such case, this License incorporates the limitation as if
+written in the body of this License.
+
+ 13. The Free Software Foundation may publish revised and/or new
+versions of the Lesser General Public License from time to time.
+Such new versions will be similar in spirit to the present version,
+but may differ in detail to address new problems or concerns.
+
+Each version is given a distinguishing version number. If the Library
+specifies a version number of this License which applies to it and
+"any later version", you have the option of following the terms and
+conditions either of that version or of any later version published by
+the Free Software Foundation. If the Library does not specify a
+license version number, you may choose any version ever published by
+the Free Software Foundation.
+
+ 14. If you wish to incorporate parts of the Library into other free
+programs whose distribution conditions are incompatible with these,
+write to the author to ask for permission. For software which is
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+decision will be guided by the two goals of preserving the free status
+of all derivatives of our free software and of promoting the sharing
+and reuse of software generally.
+
+ NO WARRANTY
+
+ 15. BECAUSE THE LIBRARY IS LICENSED FREE OF CHARGE, THERE IS NO
+WARRANTY FOR THE LIBRARY, TO THE EXTENT PERMITTED BY APPLICABLE LAW.
+EXCEPT WHEN OTHERWISE STATED IN WRITING THE COPYRIGHT HOLDERS AND/OR
+OTHER PARTIES PROVIDE THE LIBRARY "AS IS" WITHOUT WARRANTY OF ANY
+KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE
+IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
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+LIBRARY IS WITH YOU. SHOULD THE LIBRARY PROVE DEFECTIVE, YOU ASSUME
+THE COST OF ALL NECESSARY SERVICING, REPAIR OR CORRECTION.
+
+ 16. IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN
+WRITING WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MAY MODIFY
+AND/OR REDISTRIBUTE THE LIBRARY AS PERMITTED ABOVE, BE LIABLE TO YOU
+FOR DAMAGES, INCLUDING ANY GENERAL, SPECIAL, INCIDENTAL OR
+CONSEQUENTIAL DAMAGES ARISING OUT OF THE USE OR INABILITY TO USE THE
+LIBRARY (INCLUDING BUT NOT LIMITED TO LOSS OF DATA OR DATA BEING
+RENDERED INACCURATE OR LOSSES SUSTAINED BY YOU OR THIRD PARTIES OR A
+FAILURE OF THE LIBRARY TO OPERATE WITH ANY OTHER SOFTWARE), EVEN IF
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+DAMAGES.
+
diff --git a/libraries/Firmata/TODO.txt b/libraries/Firmata/TODO.txt
new file mode 100644
index 0000000..86c9858
--- /dev/null
+++ b/libraries/Firmata/TODO.txt
@@ -0,0 +1,14 @@
+
+- make Firmata a subclass of HardwareSerial
+
+- per-pin digital callback, since the per-port callback is a bit complicated
+ for beginners (maybe Firmata is not for beginners...)
+
+- simplify SimpleDigitalFirmata, take out the code that checks to see if the
+ data has changed, since it is a bit complicated for this example. Ideally
+ this example would be based on a call
+
+- turn current SimpleDigitalFirmata into DigitalPortFirmata for a more complex
+ example using the code which checks for changes before doing anything
+
+- test integration with Wiring
diff --git a/libraries/Firmata/examples/AllInputsFirmata/AllInputsFirmata.ino b/libraries/Firmata/examples/AllInputsFirmata/AllInputsFirmata.ino
new file mode 100644
index 0000000..bff7366
--- /dev/null
+++ b/libraries/Firmata/examples/AllInputsFirmata/AllInputsFirmata.ino
@@ -0,0 +1,90 @@
+/*
+ * Firmata is a generic protocol for communicating with microcontrollers
+ * from software on a host computer. It is intended to work with
+ * any host computer software package.
+ *
+ * To download a host software package, please clink on the following link
+ * to open the download page in your default browser.
+ *
+ * http://firmata.org/wiki/Download
+ */
+
+/*
+ * This firmware reads all inputs and sends them as fast as it can. It was
+ * inspired by the ease-of-use of the Arduino2Max program.
+ *
+ * This example code is in the public domain.
+ */
+#include <Firmata.h>
+
+byte pin;
+
+int analogValue;
+int previousAnalogValues[TOTAL_ANALOG_PINS];
+
+byte portStatus[TOTAL_PORTS]; // each bit: 1=pin is digital input, 0=other/ignore
+byte previousPINs[TOTAL_PORTS];
+
+/* timer variables */
+unsigned long currentMillis; // store the current value from millis()
+unsigned long previousMillis; // for comparison with currentMillis
+/* make sure that the FTDI buffer doesn't go over 60 bytes, otherwise you
+ get long, random delays. So only read analogs every 20ms or so */
+int samplingInterval = 19; // how often to run the main loop (in ms)
+
+void sendPort(byte portNumber, byte portValue)
+{
+ portValue = portValue & portStatus[portNumber];
+ if(previousPINs[portNumber] != portValue) {
+ Firmata.sendDigitalPort(portNumber, portValue);
+ previousPINs[portNumber] = portValue;
+ }
+}
+
+void setup()
+{
+ byte i, port, status;
+
+ Firmata.setFirmwareVersion(0, 1);
+
+ for(pin = 0; pin < TOTAL_PINS; pin++) {
+ if IS_PIN_DIGITAL(pin) pinMode(PIN_TO_DIGITAL(pin), INPUT);
+ }
+
+ for (port=0; port<TOTAL_PORTS; port++) {
+ status = 0;
+ for (i=0; i<8; i++) {
+ if (IS_PIN_DIGITAL(port * 8 + i)) status |= (1 << i);
+ }
+ portStatus[port] = status;
+ }
+
+ Firmata.begin(57600);
+}
+
+void loop()
+{
+ byte i;
+
+ for (i=0; i<TOTAL_PORTS; i++) {
+ sendPort(i, readPort(i, 0xff));
+ }
+ /* make sure that the FTDI buffer doesn't go over 60 bytes, otherwise you
+ get long, random delays. So only read analogs every 20ms or so */
+ currentMillis = millis();
+ if(currentMillis - previousMillis > samplingInterval) {
+ previousMillis += samplingInterval;
+ while(Firmata.available()) {
+ Firmata.processInput();
+ }
+ for(pin = 0; pin < TOTAL_ANALOG_PINS; pin++) {
+ analogValue = analogRead(pin);
+ if(analogValue != previousAnalogValues[pin]) {
+ Firmata.sendAnalog(pin, analogValue);
+ previousAnalogValues[pin] = analogValue;
+ }
+ }
+ }
+}
+
+
diff --git a/libraries/Firmata/examples/AnalogFirmata/AnalogFirmata.ino b/libraries/Firmata/examples/AnalogFirmata/AnalogFirmata.ino
new file mode 100644
index 0000000..ff1d664
--- /dev/null
+++ b/libraries/Firmata/examples/AnalogFirmata/AnalogFirmata.ino
@@ -0,0 +1,94 @@
+/*
+ * Firmata is a generic protocol for communicating with microcontrollers
+ * from software on a host computer. It is intended to work with
+ * any host computer software package.
+ *
+ * To download a host software package, please clink on the following link
+ * to open the download page in your default browser.
+ *
+ * http://firmata.org/wiki/Download
+ */
+
+/* This firmware supports as many analog ports as possible, all analog inputs,
+ * four PWM outputs, and two with servo support.
+ *
+ * This example code is in the public domain.
+ */
+#include <Servo.h>
+#include <Firmata.h>
+
+/*==============================================================================
+ * GLOBAL VARIABLES
+ *============================================================================*/
+
+/* servos */
+Servo servo9, servo10; // one instance per pin
+/* analog inputs */
+int analogInputsToReport = 0; // bitwise array to store pin reporting
+int analogPin = 0; // counter for reading analog pins
+/* timer variables */
+unsigned long currentMillis; // store the current value from millis()
+unsigned long previousMillis; // for comparison with currentMillis
+
+
+/*==============================================================================
+ * FUNCTIONS
+ *============================================================================*/
+
+void analogWriteCallback(byte pin, int value)
+{
+ switch(pin) {
+ case 9: servo9.write(value); break;
+ case 10: servo10.write(value); break;
+ case 3:
+ case 5:
+ case 6:
+ case 11: // PWM pins
+ analogWrite(pin, value);
+ break;
+ }
+}
+// -----------------------------------------------------------------------------
+// sets bits in a bit array (int) to toggle the reporting of the analogIns
+void reportAnalogCallback(byte pin, int value)
+{
+ if(value == 0) {
+ analogInputsToReport = analogInputsToReport &~ (1 << pin);
+ }
+ else { // everything but 0 enables reporting of that pin
+ analogInputsToReport = analogInputsToReport | (1 << pin);
+ }
+ // TODO: save status to EEPROM here, if changed
+}
+
+/*==============================================================================
+ * SETUP()
+ *============================================================================*/
+void setup()
+{
+ Firmata.setFirmwareVersion(0, 2);
+ Firmata.attach(ANALOG_MESSAGE, analogWriteCallback);
+ Firmata.attach(REPORT_ANALOG, reportAnalogCallback);
+
+ servo9.attach(9);
+ servo10.attach(10);
+ Firmata.begin(57600);
+}
+
+/*==============================================================================
+ * LOOP()
+ *============================================================================*/
+void loop()
+{
+ while(Firmata.available())
+ Firmata.processInput();
+ currentMillis = millis();
+ if(currentMillis - previousMillis > 20) {
+ previousMillis += 20; // run this every 20ms
+ for(analogPin=0;analogPin<TOTAL_ANALOG_PINS;analogPin++) {
+ if( analogInputsToReport & (1 << analogPin) )
+ Firmata.sendAnalog(analogPin, analogRead(analogPin));
+ }
+ }
+}
+
diff --git a/libraries/Firmata/examples/EchoString/EchoString.ino b/libraries/Firmata/examples/EchoString/EchoString.ino
new file mode 100644
index 0000000..5079697
--- /dev/null
+++ b/libraries/Firmata/examples/EchoString/EchoString.ino
@@ -0,0 +1,46 @@
+/*
+ * Firmata is a generic protocol for communicating with microcontrollers
+ * from software on a host computer. It is intended to work with
+ * any host computer software package.
+ *
+ * To download a host software package, please clink on the following link
+ * to open the download page in your default browser.
+ *
+ * http://firmata.org/wiki/Download
+ */
+
+/* This sketch accepts strings and raw sysex messages and echos them back.
+ *
+ * This example code is in the public domain.
+ */
+#include <Firmata.h>
+
+byte analogPin;
+
+void stringCallback(char *myString)
+{
+ Firmata.sendString(myString);
+}
+
+
+void sysexCallback(byte command, byte argc, byte*argv)
+{
+ Firmata.sendSysex(command, argc, argv);
+}
+
+void setup()
+{
+ Firmata.setFirmwareVersion(0, 1);
+ Firmata.attach(STRING_DATA, stringCallback);
+ Firmata.attach(START_SYSEX, sysexCallback);
+ Firmata.begin(57600);
+}
+
+void loop()
+{
+ while(Firmata.available()) {
+ Firmata.processInput();
+ }
+}
+
+
diff --git a/libraries/Firmata/examples/I2CFirmata/I2CFirmata.ino b/libraries/Firmata/examples/I2CFirmata/I2CFirmata.ino
new file mode 100644
index 0000000..1da8963
--- /dev/null
+++ b/libraries/Firmata/examples/I2CFirmata/I2CFirmata.ino
@@ -0,0 +1,228 @@
+/*
+ * Firmata is a generic protocol for communicating with microcontrollers
+ * from software on a host computer. It is intended to work with
+ * any host computer software package.
+ *
+ * To download a host software package, please clink on the following link
+ * to open the download page in your default browser.
+ *
+ * http://firmata.org/wiki/Download
+ */
+
+/*
+ Copyright (C) 2009 Jeff Hoefs. All rights reserved.
+ Copyright (C) 2009 Shigeru Kobayashi. All rights reserved.
+
+ This library is free software; you can redistribute it and/or
+ modify it under the terms of the GNU Lesser General Public
+ License as published by the Free Software Foundation; either
+ version 2.1 of the License, or (at your option) any later version.
+
+ See file LICENSE.txt for further informations on licensing terms.
+ */
+
+#include <Wire.h>
+#include <Firmata.h>
+
+
+#define I2C_WRITE B00000000
+#define I2C_READ B00001000
+#define I2C_READ_CONTINUOUSLY B00010000
+#define I2C_STOP_READING B00011000
+#define I2C_READ_WRITE_MODE_MASK B00011000
+
+#define MAX_QUERIES 8
+
+unsigned long currentMillis; // store the current value from millis()
+unsigned long previousMillis; // for comparison with currentMillis
+unsigned int samplingInterval = 32; // default sampling interval is 33ms
+unsigned int i2cReadDelayTime = 0; // default delay time between i2c read request and Wire.requestFrom()
+unsigned int powerPinsEnabled = 0; // use as boolean to prevent enablePowerPins from being called more than once
+
+#define MINIMUM_SAMPLING_INTERVAL 10
+
+#define REGISTER_NOT_SPECIFIED -1
+
+struct i2c_device_info {
+ byte addr;
+ byte reg;
+ byte bytes;
+};
+
+i2c_device_info query[MAX_QUERIES];
+
+byte i2cRxData[32];
+boolean readingContinuously = false;
+byte queryIndex = 0;
+
+void readAndReportData(byte address, int theRegister, byte numBytes)
+{
+ if (theRegister != REGISTER_NOT_SPECIFIED) {
+ Wire.beginTransmission(address);
+ Wire.write((byte)theRegister);
+ Wire.endTransmission();
+ delayMicroseconds(i2cReadDelayTime); // delay is necessary for some devices such as WiiNunchuck
+ }
+ else {
+ theRegister = 0; // fill the register with a dummy value
+ }
+
+ Wire.requestFrom(address, numBytes);
+
+ // check to be sure correct number of bytes were returned by slave
+ if(numBytes == Wire.available()) {
+ i2cRxData[0] = address;
+ i2cRxData[1] = theRegister;
+ for (int i = 0; i < numBytes; i++) {
+ i2cRxData[2 + i] = Wire.read();
+ }
+ // send slave address, register and received bytes
+ Firmata.sendSysex(I2C_REPLY, numBytes + 2, i2cRxData);
+ }
+ else {
+ if(numBytes > Wire.available()) {
+ Firmata.sendString("I2C Read Error: Too many bytes received");
+ } else {
+ Firmata.sendString("I2C Read Error: Too few bytes received");
+ }
+ }
+
+}
+
+void sysexCallback(byte command, byte argc, byte *argv)
+{
+ byte mode;
+ byte slaveAddress;
+ byte slaveRegister;
+ byte data;
+ int delayTime;
+
+ if (command == I2C_REQUEST) {
+ mode = argv[1] & I2C_READ_WRITE_MODE_MASK;
+ slaveAddress = argv[0];
+
+ switch(mode) {
+ case I2C_WRITE:
+ Wire.beginTransmission(slaveAddress);
+ for (byte i = 2; i < argc; i += 2) {
+ data = argv[i] + (argv[i + 1] << 7);
+ Wire.write(data);
+ }
+ Wire.endTransmission();
+ delayMicroseconds(70); // TODO is this needed?
+ break;
+ case I2C_READ:
+ if (argc == 6) {
+ // a slave register is specified
+ slaveRegister = argv[2] + (argv[3] << 7);
+ data = argv[4] + (argv[5] << 7); // bytes to read
+ readAndReportData(slaveAddress, (int)slaveRegister, data);
+ }
+ else {
+ // a slave register is NOT specified
+ data = argv[2] + (argv[3] << 7); // bytes to read
+ readAndReportData(slaveAddress, (int)REGISTER_NOT_SPECIFIED, data);
+ }
+ break;
+ case I2C_READ_CONTINUOUSLY:
+ if ((queryIndex + 1) >= MAX_QUERIES) {
+ // too many queries, just ignore
+ Firmata.sendString("too many queries");
+ break;
+ }
+ query[queryIndex].addr = slaveAddress;
+ query[queryIndex].reg = argv[2] + (argv[3] << 7);
+ query[queryIndex].bytes = argv[4] + (argv[5] << 7);
+ readingContinuously = true;
+ queryIndex++;
+ break;
+ case I2C_STOP_READING:
+ readingContinuously = false;
+ queryIndex = 0;
+ break;
+ default:
+ break;
+ }
+ }
+ else if (command == SAMPLING_INTERVAL) {
+ samplingInterval = argv[0] + (argv[1] << 7);
+
+ if (samplingInterval < MINIMUM_SAMPLING_INTERVAL) {
+ samplingInterval = MINIMUM_SAMPLING_INTERVAL;
+ }
+
+ samplingInterval -= 1;
+ Firmata.sendString("sampling interval");
+ }
+
+ else if (command == I2C_CONFIG) {
+ delayTime = (argv[4] + (argv[5] << 7)); // MSB
+ delayTime = (delayTime << 8) + (argv[2] + (argv[3] << 7)); // add LSB
+
+ if((argv[0] + (argv[1] << 7)) > 0) {
+ enablePowerPins(PORTC3, PORTC2);
+ }
+
+ if(delayTime > 0) {
+ i2cReadDelayTime = delayTime;
+ }
+
+ if(argc > 6) {
+ // If you extend I2C_Config, handle your data here
+ }
+
+ }
+}
+
+void systemResetCallback()
+{
+ readingContinuously = false;
+ queryIndex = 0;
+}
+
+/* reference: BlinkM_funcs.h by Tod E. Kurt, ThingM, http://thingm.com/ */
+// Enables Pins A2 and A3 to be used as GND and Power
+// so that I2C devices can be plugged directly
+// into Arduino header (pins A2 - A5)
+static void enablePowerPins(byte pwrpin, byte gndpin)
+{
+ if(powerPinsEnabled == 0) {
+ DDRC |= _BV(pwrpin) | _BV(gndpin);
+ PORTC &=~ _BV(gndpin);
+ PORTC |= _BV(pwrpin);
+ powerPinsEnabled = 1;
+ Firmata.sendString("Power pins enabled");
+ delay(100);
+ }
+}
+
+void setup()
+{
+ Firmata.setFirmwareVersion(2, 0);
+
+ Firmata.attach(START_SYSEX, sysexCallback);
+ Firmata.attach(SYSTEM_RESET, systemResetCallback);
+
+ for (int i = 0; i < TOTAL_PINS; ++i) {
+ pinMode(i, OUTPUT);
+ }
+
+ Firmata.begin(57600);
+ Wire.begin();
+}
+
+void loop()
+{
+ while (Firmata.available()) {
+ Firmata.processInput();
+ }
+
+ currentMillis = millis();
+ if (currentMillis - previousMillis > samplingInterval) {
+ previousMillis += samplingInterval;
+
+ for (byte i = 0; i < queryIndex; i++) {
+ readAndReportData(query[i].addr, query[i].reg, query[i].bytes);
+ }
+ }
+}
diff --git a/libraries/Firmata/examples/OldStandardFirmata/LICENSE.txt b/libraries/Firmata/examples/OldStandardFirmata/LICENSE.txt
new file mode 100644
index 0000000..77cec6d
--- /dev/null
+++ b/libraries/Firmata/examples/OldStandardFirmata/LICENSE.txt
@@ -0,0 +1,458 @@
+
+ GNU LESSER GENERAL PUBLIC LICENSE
+ Version 2.1, February 1999
+
+ Copyright (C) 1991, 1999 Free Software Foundation, Inc.
+ 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
+ Everyone is permitted to copy and distribute verbatim copies
+ of this license document, but changing it is not allowed.
+
+[This is the first released version of the Lesser GPL. It also counts
+ as the successor of the GNU Library Public License, version 2, hence
+ the version number 2.1.]
+
+ Preamble
+
+ The licenses for most software are designed to take away your
+freedom to share and change it. By contrast, the GNU General Public
+Licenses are intended to guarantee your freedom to share and change
+free software--to make sure the software is free for all its users.
+
+ This license, the Lesser General Public License, applies to some
+specially designated software packages--typically libraries--of the
+Free Software Foundation and other authors who decide to use it. You
+can use it too, but we suggest you first think carefully about whether
+this license or the ordinary General Public License is the better
+strategy to use in any particular case, based on the explanations below.
+
+ When we speak of free software, we are referring to freedom of use,
+not price. Our General Public Licenses are designed to make sure that
+you have the freedom to distribute copies of free software (and charge
+for this service if you wish); that you receive source code or can get
+it if you want it; that you can change the software and use pieces of
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diff --git a/libraries/Firmata/examples/OldStandardFirmata/OldStandardFirmata.ino b/libraries/Firmata/examples/OldStandardFirmata/OldStandardFirmata.ino
new file mode 100644
index 0000000..d306c70
--- /dev/null
+++ b/libraries/Firmata/examples/OldStandardFirmata/OldStandardFirmata.ino
@@ -0,0 +1,239 @@
+/*
+ * Firmata is a generic protocol for communicating with microcontrollers
+ * from software on a host computer. It is intended to work with
+ * any host computer software package.
+ *
+ * To download a host software package, please clink on the following link
+ * to open the download page in your default browser.
+ *
+ * http://firmata.org/wiki/Download
+ */
+
+/*
+ Copyright (C) 2006-2008 Hans-Christoph Steiner. All rights reserved.
+
+ This library is free software; you can redistribute it and/or
+ modify it under the terms of the GNU Lesser General Public
+ License as published by the Free Software Foundation; either
+ version 2.1 of the License, or (at your option) any later version.
+
+ See file LICENSE.txt for further informations on licensing terms.
+ */
+
+/*
+ * This is an old version of StandardFirmata (v2.0). It is kept here because
+ * its the last version that works on an ATMEGA8 chip. Also, it can be used
+ * for host software that has not been updated to a newer version of the
+ * protocol. It also uses the old baud rate of 115200 rather than 57600.
+ */
+
+#include <EEPROM.h>
+#include <Firmata.h>
+
+/*==============================================================================
+ * GLOBAL VARIABLES
+ *============================================================================*/
+
+/* analog inputs */
+int analogInputsToReport = 0; // bitwise array to store pin reporting
+int analogPin = 0; // counter for reading analog pins
+
+/* digital pins */
+byte reportPINs[TOTAL_PORTS]; // PIN == input port
+byte previousPINs[TOTAL_PORTS]; // PIN == input port
+byte pinStatus[TOTAL_PINS]; // store pin status, default OUTPUT
+byte portStatus[TOTAL_PORTS];
+
+/* timer variables */
+unsigned long currentMillis; // store the current value from millis()
+unsigned long previousMillis; // for comparison with currentMillis
+
+
+/*==============================================================================
+ * FUNCTIONS
+ *============================================================================*/
+
+void outputPort(byte portNumber, byte portValue)
+{
+ portValue = portValue &~ portStatus[portNumber];
+ if(previousPINs[portNumber] != portValue) {
+ Firmata.sendDigitalPort(portNumber, portValue);
+ previousPINs[portNumber] = portValue;
+ Firmata.sendDigitalPort(portNumber, portValue);
+ }
+}
+
+/* -----------------------------------------------------------------------------
+ * check all the active digital inputs for change of state, then add any events
+ * to the Serial output queue using Serial.print() */
+void checkDigitalInputs(void)
+{
+ byte i, tmp;
+ for(i=0; i < TOTAL_PORTS; i++) {
+ if(reportPINs[i]) {
+ switch(i) {
+ case 0: outputPort(0, PIND &~ B00000011); break; // ignore Rx/Tx 0/1
+ case 1: outputPort(1, PINB); break;
+ case 2: outputPort(2, PINC); break;
+ }
+ }
+ }
+}
+
+// -----------------------------------------------------------------------------
+/* sets the pin mode to the correct state and sets the relevant bits in the
+ * two bit-arrays that track Digital I/O and PWM status
+ */
+void setPinModeCallback(byte pin, int mode) {
+ byte port = 0;
+ byte offset = 0;
+
+ if (pin < 8) {
+ port = 0;
+ offset = 0;
+ } else if (pin < 14) {
+ port = 1;
+ offset = 8;
+ } else if (pin < 22) {
+ port = 2;
+ offset = 14;
+ }
+
+ if(pin > 1) { // ignore RxTx (pins 0 and 1)
+ pinStatus[pin] = mode;
+ switch(mode) {
+ case INPUT:
+ pinMode(pin, INPUT);
+ portStatus[port] = portStatus[port] &~ (1 << (pin - offset));
+ break;
+ case OUTPUT:
+ digitalWrite(pin, LOW); // disable PWM
+ case PWM:
+ pinMode(pin, OUTPUT);
+ portStatus[port] = portStatus[port] | (1 << (pin - offset));
+ break;
+ //case ANALOG: // TODO figure this out
+ default:
+ Firmata.sendString("");
+ }
+ // TODO: save status to EEPROM here, if changed
+ }
+}
+
+void analogWriteCallback(byte pin, int value)
+{
+ setPinModeCallback(pin,PWM);
+ analogWrite(pin, value);
+}
+
+void digitalWriteCallback(byte port, int value)
+{
+ switch(port) {
+ case 0: // pins 2-7 (don't change Rx/Tx, pins 0 and 1)
+ // 0xFF03 == B1111111100000011 0x03 == B00000011
+ PORTD = (value &~ 0xFF03) | (PORTD & 0x03);
+ break;
+ case 1: // pins 8-13 (14,15 are disabled for the crystal)
+ PORTB = (byte)value;
+ break;
+ case 2: // analog pins used as digital
+ PORTC = (byte)value;
+ break;
+ }
+}
+
+// -----------------------------------------------------------------------------
+/* sets bits in a bit array (int) to toggle the reporting of the analogIns
+ */
+//void FirmataClass::setAnalogPinReporting(byte pin, byte state) {
+//}
+void reportAnalogCallback(byte pin, int value)
+{
+ if(value == 0) {
+ analogInputsToReport = analogInputsToReport &~ (1 << pin);
+ }
+ else { // everything but 0 enables reporting of that pin
+ analogInputsToReport = analogInputsToReport | (1 << pin);
+ }
+ // TODO: save status to EEPROM here, if changed
+}
+
+void reportDigitalCallback(byte port, int value)
+{
+ reportPINs[port] = (byte)value;
+ if(port == 2) // turn off analog reporting when used as digital
+ analogInputsToReport = 0;
+}
+
+/*==============================================================================
+ * SETUP()
+ *============================================================================*/
+void setup()
+{
+ byte i;
+
+ Firmata.setFirmwareVersion(2, 0);
+
+ Firmata.attach(ANALOG_MESSAGE, analogWriteCallback);
+ Firmata.attach(DIGITAL_MESSAGE, digitalWriteCallback);
+ Firmata.attach(REPORT_ANALOG, reportAnalogCallback);
+ Firmata.attach(REPORT_DIGITAL, reportDigitalCallback);
+ Firmata.attach(SET_PIN_MODE, setPinModeCallback);
+
+ portStatus[0] = B00000011; // ignore Tx/RX pins
+ portStatus[1] = B11000000; // ignore 14/15 pins
+ portStatus[2] = B00000000;
+
+// for(i=0; i<TOTAL_PINS; ++i) { // TODO make this work with analogs
+ for(i=0; i<14; ++i) {
+ setPinModeCallback(i,OUTPUT);
+ }
+ // set all outputs to 0 to make sure internal pull-up resistors are off
+ PORTB = 0; // pins 8-15
+ PORTC = 0; // analog port
+ PORTD = 0; // pins 0-7
+
+ // TODO rethink the init, perhaps it should report analog on default
+ for(i=0; i<TOTAL_PORTS; ++i) {
+ reportPINs[i] = false;
+ }
+ // TODO: load state from EEPROM here
+
+ /* send digital inputs here, if enabled, to set the initial state on the
+ * host computer, since once in the loop(), this firmware will only send
+ * digital data on change. */
+ if(reportPINs[0]) outputPort(0, PIND &~ B00000011); // ignore Rx/Tx 0/1
+ if(reportPINs[1]) outputPort(1, PINB);
+ if(reportPINs[2]) outputPort(2, PINC);
+
+ Firmata.begin(115200);
+}
+
+/*==============================================================================
+ * LOOP()
+ *============================================================================*/
+void loop()
+{
+/* DIGITALREAD - as fast as possible, check for changes and output them to the
+ * FTDI buffer using Serial.print() */
+ checkDigitalInputs();
+ currentMillis = millis();
+ if(currentMillis - previousMillis > 20) {
+ previousMillis += 20; // run this every 20ms
+ /* SERIALREAD - Serial.read() uses a 128 byte circular buffer, so handle
+ * all serialReads at once, i.e. empty the buffer */
+ while(Firmata.available())
+ Firmata.processInput();
+ /* SEND FTDI WRITE BUFFER - make sure that the FTDI buffer doesn't go over
+ * 60 bytes. use a timer to sending an event character every 4 ms to
+ * trigger the buffer to dump. */
+
+ /* ANALOGREAD - right after the event character, do all of the
+ * analogReads(). These only need to be done every 4ms. */
+ for(analogPin=0;analogPin<TOTAL_ANALOG_PINS;analogPin++) {
+ if( analogInputsToReport & (1 << analogPin) ) {
+ Firmata.sendAnalog(analogPin, analogRead(analogPin));
+ }
+ }
+ }
+}
diff --git a/libraries/Firmata/examples/ServoFirmata/ServoFirmata.ino b/libraries/Firmata/examples/ServoFirmata/ServoFirmata.ino
new file mode 100644
index 0000000..cdcfff0
--- /dev/null
+++ b/libraries/Firmata/examples/ServoFirmata/ServoFirmata.ino
@@ -0,0 +1,53 @@
+/*
+ * Firmata is a generic protocol for communicating with microcontrollers
+ * from software on a host computer. It is intended to work with
+ * any host computer software package.
+ *
+ * To download a host software package, please clink on the following link
+ * to open the download page in your default browser.
+ *
+ * http://firmata.org/wiki/Download
+ */
+
+/* This firmware supports as many servos as possible using the Servo library
+ * included in Arduino 0017
+ *
+ * TODO add message to configure minPulse/maxPulse/degrees
+ *
+ * This example code is in the public domain.
+ */
+
+#include <Servo.h>
+#include <Firmata.h>
+
+Servo servos[MAX_SERVOS];
+
+void analogWriteCallback(byte pin, int value)
+{
+ if (IS_PIN_SERVO(pin)) {
+ servos[PIN_TO_SERVO(pin)].write(value);
+ }
+}
+
+void setup()
+{
+ byte pin;
+
+ Firmata.setFirmwareVersion(0, 2);
+ Firmata.attach(ANALOG_MESSAGE, analogWriteCallback);
+
+ for (pin=0; pin < TOTAL_PINS; pin++) {
+ if (IS_PIN_SERVO(pin)) {
+ servos[PIN_TO_SERVO(pin)].attach(PIN_TO_DIGITAL(pin));
+ }
+ }
+
+ Firmata.begin(57600);
+}
+
+void loop()
+{
+ while(Firmata.available())
+ Firmata.processInput();
+}
+
diff --git a/libraries/Firmata/examples/SimpleAnalogFirmata/SimpleAnalogFirmata.ino b/libraries/Firmata/examples/SimpleAnalogFirmata/SimpleAnalogFirmata.ino
new file mode 100644
index 0000000..44ea91e
--- /dev/null
+++ b/libraries/Firmata/examples/SimpleAnalogFirmata/SimpleAnalogFirmata.ino
@@ -0,0 +1,46 @@
+/*
+ * Firmata is a generic protocol for communicating with microcontrollers
+ * from software on a host computer. It is intended to work with
+ * any host computer software package.
+ *
+ * To download a host software package, please clink on the following link
+ * to open the download page in your default browser.
+ *
+ * http://firmata.org/wiki/Download
+ */
+
+/* Supports as many analog inputs and analog PWM outputs as possible.
+ *
+ * This example code is in the public domain.
+ */
+#include <Firmata.h>
+
+byte analogPin = 0;
+
+void analogWriteCallback(byte pin, int value)
+{
+ if (IS_PIN_PWM(pin)) {
+ pinMode(PIN_TO_DIGITAL(pin), OUTPUT);
+ analogWrite(PIN_TO_PWM(pin), value);
+ }
+}
+
+void setup()
+{
+ Firmata.setFirmwareVersion(0, 1);
+ Firmata.attach(ANALOG_MESSAGE, analogWriteCallback);
+ Firmata.begin(57600);
+}
+
+void loop()
+{
+ while(Firmata.available()) {
+ Firmata.processInput();
+ }
+ // do one analogRead per loop, so if PC is sending a lot of
+ // analog write messages, we will only delay 1 analogRead
+ Firmata.sendAnalog(analogPin, analogRead(analogPin));
+ analogPin = analogPin + 1;
+ if (analogPin >= TOTAL_ANALOG_PINS) analogPin = 0;
+}
+
diff --git a/libraries/Firmata/examples/SimpleDigitalFirmata/SimpleDigitalFirmata.ino b/libraries/Firmata/examples/SimpleDigitalFirmata/SimpleDigitalFirmata.ino
new file mode 100644
index 0000000..a0d764f
--- /dev/null
+++ b/libraries/Firmata/examples/SimpleDigitalFirmata/SimpleDigitalFirmata.ino
@@ -0,0 +1,72 @@
+/*
+ * Firmata is a generic protocol for communicating with microcontrollers
+ * from software on a host computer. It is intended to work with
+ * any host computer software package.
+ *
+ * To download a host software package, please clink on the following link
+ * to open the download page in your default browser.
+ *
+ * http://firmata.org/wiki/Download
+ */
+
+/* Supports as many digital inputs and outputs as possible.
+ *
+ * This example code is in the public domain.
+ */
+#include <Firmata.h>
+
+byte previousPIN[TOTAL_PORTS]; // PIN means PORT for input
+byte previousPORT[TOTAL_PORTS];
+
+void outputPort(byte portNumber, byte portValue)
+{
+ // only send the data when it changes, otherwise you get too many messages!
+ if (previousPIN[portNumber] != portValue) {
+ Firmata.sendDigitalPort(portNumber, portValue);
+ previousPIN[portNumber] = portValue;
+ }
+}
+
+void setPinModeCallback(byte pin, int mode) {
+ if (IS_PIN_DIGITAL(pin)) {
+ pinMode(PIN_TO_DIGITAL(pin), mode);
+ }
+}
+
+void digitalWriteCallback(byte port, int value)
+{
+ byte i;
+ byte currentPinValue, previousPinValue;
+
+ if (port < TOTAL_PORTS && value != previousPORT[port]) {
+ for(i=0; i<8; i++) {
+ currentPinValue = (byte) value & (1 << i);
+ previousPinValue = previousPORT[port] & (1 << i);
+ if(currentPinValue != previousPinValue) {
+ digitalWrite(i + (port*8), currentPinValue);
+ }
+ }
+ previousPORT[port] = value;
+ }
+}
+
+void setup()
+{
+ Firmata.setFirmwareVersion(0, 1);
+ Firmata.attach(DIGITAL_MESSAGE, digitalWriteCallback);
+ Firmata.attach(SET_PIN_MODE, setPinModeCallback);
+ Firmata.begin(57600);
+}
+
+void loop()
+{
+ byte i;
+
+ for (i=0; i<TOTAL_PORTS; i++) {
+ outputPort(i, readPort(i, 0xff));
+ }
+
+ while(Firmata.available()) {
+ Firmata.processInput();
+ }
+}
diff --git a/libraries/Firmata/examples/StandardFirmata/LICENSE.txt b/libraries/Firmata/examples/StandardFirmata/LICENSE.txt
new file mode 100644
index 0000000..77cec6d
--- /dev/null
+++ b/libraries/Firmata/examples/StandardFirmata/LICENSE.txt
@@ -0,0 +1,458 @@
+
+ GNU LESSER GENERAL PUBLIC LICENSE
+ Version 2.1, February 1999
+
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+ 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
+ Everyone is permitted to copy and distribute verbatim copies
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+
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diff --git a/libraries/Firmata/examples/StandardFirmata/StandardFirmata.ino b/libraries/Firmata/examples/StandardFirmata/StandardFirmata.ino
new file mode 100644
index 0000000..1a987ee
--- /dev/null
+++ b/libraries/Firmata/examples/StandardFirmata/StandardFirmata.ino
@@ -0,0 +1,636 @@
+/*
+ * Firmata is a generic protocol for communicating with microcontrollers
+ * from software on a host computer. It is intended to work with
+ * any host computer software package.
+ *
+ * To download a host software package, please clink on the following link
+ * to open the download page in your default browser.
+ *
+ * http://firmata.org/wiki/Download
+ */
+
+/*
+ Copyright (C) 2006-2008 Hans-Christoph Steiner. All rights reserved.
+ Copyright (C) 2010-2011 Paul Stoffregen. All rights reserved.
+ Copyright (C) 2009 Shigeru Kobayashi. All rights reserved.
+ Copyright (C) 2009-2011 Jeff Hoefs. All rights reserved.
+
+ This library is free software; you can redistribute it and/or
+ modify it under the terms of the GNU Lesser General Public
+ License as published by the Free Software Foundation; either
+ version 2.1 of the License, or (at your option) any later version.
+
+ See file LICENSE.txt for further informations on licensing terms.
+
+ formatted using the GNU C formatting and indenting
+*/
+
+/*
+ * TODO: use Program Control to load stored profiles from EEPROM
+ */
+
+#include <Servo.h>
+#include <Wire.h>
+#include <Firmata.h>
+
+// move the following defines to Firmata.h?
+#define I2C_WRITE B00000000
+#define I2C_READ B00001000
+#define I2C_READ_CONTINUOUSLY B00010000
+#define I2C_STOP_READING B00011000
+#define I2C_READ_WRITE_MODE_MASK B00011000
+#define I2C_10BIT_ADDRESS_MODE_MASK B00100000
+
+#define MAX_QUERIES 8
+#define MINIMUM_SAMPLING_INTERVAL 10
+
+#define REGISTER_NOT_SPECIFIED -1
+
+/*==============================================================================
+ * GLOBAL VARIABLES
+ *============================================================================*/
+
+/* analog inputs */
+int analogInputsToReport = 0; // bitwise array to store pin reporting
+
+/* digital input ports */
+byte reportPINs[TOTAL_PORTS]; // 1 = report this port, 0 = silence
+byte previousPINs[TOTAL_PORTS]; // previous 8 bits sent
+
+/* pins configuration */
+byte pinConfig[TOTAL_PINS]; // configuration of every pin
+byte portConfigInputs[TOTAL_PORTS]; // each bit: 1 = pin in INPUT, 0 = anything else
+int pinState[TOTAL_PINS]; // any value that has been written
+
+/* timer variables */
+unsigned long currentMillis; // store the current value from millis()
+unsigned long previousMillis; // for comparison with currentMillis
+int samplingInterval = 19; // how often to run the main loop (in ms)
+
+/* i2c data */
+struct i2c_device_info {
+ byte addr;
+ byte reg;
+ byte bytes;
+};
+
+/* for i2c read continuous more */
+i2c_device_info query[MAX_QUERIES];
+
+byte i2cRxData[32];
+boolean isI2CEnabled = false;
+signed char queryIndex = -1;
+unsigned int i2cReadDelayTime = 0; // default delay time between i2c read request and Wire.requestFrom()
+
+Servo servos[MAX_SERVOS];
+/*==============================================================================
+ * FUNCTIONS
+ *============================================================================*/
+
+void readAndReportData(byte address, int theRegister, byte numBytes) {
+ // allow I2C requests that don't require a register read
+ // for example, some devices using an interrupt pin to signify new data available
+ // do not always require the register read so upon interrupt you call Wire.requestFrom()
+ if (theRegister != REGISTER_NOT_SPECIFIED) {
+ Wire.beginTransmission(address);
+ #if ARDUINO >= 100
+ Wire.write((byte)theRegister);
+ #else
+ Wire.send((byte)theRegister);
+ #endif
+ Wire.endTransmission();
+ delayMicroseconds(i2cReadDelayTime); // delay is necessary for some devices such as WiiNunchuck
+ } else {
+ theRegister = 0; // fill the register with a dummy value
+ }
+
+ Wire.requestFrom(address, numBytes); // all bytes are returned in requestFrom
+
+ // check to be sure correct number of bytes were returned by slave
+ if(numBytes == Wire.available()) {
+ i2cRxData[0] = address;
+ i2cRxData[1] = theRegister;
+ for (int i = 0; i < numBytes; i++) {
+ #if ARDUINO >= 100
+ i2cRxData[2 + i] = Wire.read();
+ #else
+ i2cRxData[2 + i] = Wire.receive();
+ #endif
+ }
+ }
+ else {
+ if(numBytes > Wire.available()) {
+ Firmata.sendString("I2C Read Error: Too many bytes received");
+ } else {
+ Firmata.sendString("I2C Read Error: Too few bytes received");
+ }
+ }
+
+ // send slave address, register and received bytes
+ Firmata.sendSysex(SYSEX_I2C_REPLY, numBytes + 2, i2cRxData);
+}
+
+void outputPort(byte portNumber, byte portValue, byte forceSend)
+{
+ // pins not configured as INPUT are cleared to zeros
+ portValue = portValue & portConfigInputs[portNumber];
+ // only send if the value is different than previously sent
+ if(forceSend || previousPINs[portNumber] != portValue) {
+ Firmata.sendDigitalPort(portNumber, portValue);
+ previousPINs[portNumber] = portValue;
+ }
+}
+
+/* -----------------------------------------------------------------------------
+ * check all the active digital inputs for change of state, then add any events
+ * to the Serial output queue using Serial.print() */
+void checkDigitalInputs(void)
+{
+ /* Using non-looping code allows constants to be given to readPort().
+ * The compiler will apply substantial optimizations if the inputs
+ * to readPort() are compile-time constants. */
+ if (TOTAL_PORTS > 0 && reportPINs[0]) outputPort(0, readPort(0, portConfigInputs[0]), false);
+ if (TOTAL_PORTS > 1 && reportPINs[1]) outputPort(1, readPort(1, portConfigInputs[1]), false);
+ if (TOTAL_PORTS > 2 && reportPINs[2]) outputPort(2, readPort(2, portConfigInputs[2]), false);
+ if (TOTAL_PORTS > 3 && reportPINs[3]) outputPort(3, readPort(3, portConfigInputs[3]), false);
+ if (TOTAL_PORTS > 4 && reportPINs[4]) outputPort(4, readPort(4, portConfigInputs[4]), false);
+ if (TOTAL_PORTS > 5 && reportPINs[5]) outputPort(5, readPort(5, portConfigInputs[5]), false);
+ if (TOTAL_PORTS > 6 && reportPINs[6]) outputPort(6, readPort(6, portConfigInputs[6]), false);
+ if (TOTAL_PORTS > 7 && reportPINs[7]) outputPort(7, readPort(7, portConfigInputs[7]), false);
+ if (TOTAL_PORTS > 8 && reportPINs[8]) outputPort(8, readPort(8, portConfigInputs[8]), false);
+ if (TOTAL_PORTS > 9 && reportPINs[9]) outputPort(9, readPort(9, portConfigInputs[9]), false);
+ if (TOTAL_PORTS > 10 && reportPINs[10]) outputPort(10, readPort(10, portConfigInputs[10]), false);
+ if (TOTAL_PORTS > 11 && reportPINs[11]) outputPort(11, readPort(11, portConfigInputs[11]), false);
+ if (TOTAL_PORTS > 12 && reportPINs[12]) outputPort(12, readPort(12, portConfigInputs[12]), false);
+ if (TOTAL_PORTS > 13 && reportPINs[13]) outputPort(13, readPort(13, portConfigInputs[13]), false);
+ if (TOTAL_PORTS > 14 && reportPINs[14]) outputPort(14, readPort(14, portConfigInputs[14]), false);
+ if (TOTAL_PORTS > 15 && reportPINs[15]) outputPort(15, readPort(15, portConfigInputs[15]), false);
+}
+
+// -----------------------------------------------------------------------------
+/* sets the pin mode to the correct state and sets the relevant bits in the
+ * two bit-arrays that track Digital I/O and PWM status
+ */
+void setPinModeCallback(byte pin, int mode)
+{
+ if (pinConfig[pin] == I2C && isI2CEnabled && mode != I2C) {
+ // disable i2c so pins can be used for other functions
+ // the following if statements should reconfigure the pins properly
+ disableI2CPins();
+ }
+ if (IS_PIN_SERVO(pin) && mode != SERVO && servos[PIN_TO_SERVO(pin)].attached()) {
+ servos[PIN_TO_SERVO(pin)].detach();
+ }
+ if (IS_PIN_ANALOG(pin)) {
+ reportAnalogCallback(PIN_TO_ANALOG(pin), mode == ANALOG ? 1 : 0); // turn on/off reporting
+ }
+ if (IS_PIN_DIGITAL(pin)) {
+ if (mode == INPUT) {
+ portConfigInputs[pin/8] |= (1 << (pin & 7));
+ } else {
+ portConfigInputs[pin/8] &= ~(1 << (pin & 7));
+ }
+ }
+ pinState[pin] = 0;
+ switch(mode) {
+ case ANALOG:
+ if (IS_PIN_ANALOG(pin)) {
+ if (IS_PIN_DIGITAL(pin)) {
+ pinMode(PIN_TO_DIGITAL(pin), INPUT); // disable output driver
+ digitalWrite(PIN_TO_DIGITAL(pin), LOW); // disable internal pull-ups
+ }
+ pinConfig[pin] = ANALOG;
+ }
+ break;
+ case INPUT:
+ if (IS_PIN_DIGITAL(pin)) {
+ pinMode(PIN_TO_DIGITAL(pin), INPUT); // disable output driver
+ digitalWrite(PIN_TO_DIGITAL(pin), LOW); // disable internal pull-ups
+ pinConfig[pin] = INPUT;
+ }
+ break;
+ case OUTPUT:
+ if (IS_PIN_DIGITAL(pin)) {
+ digitalWrite(PIN_TO_DIGITAL(pin), LOW); // disable PWM
+ pinMode(PIN_TO_DIGITAL(pin), OUTPUT);
+ pinConfig[pin] = OUTPUT;
+ }
+ break;
+ case PWM:
+ if (IS_PIN_PWM(pin)) {
+ pinMode(PIN_TO_PWM(pin), OUTPUT);
+ analogWrite(PIN_TO_PWM(pin), 0);
+ pinConfig[pin] = PWM;
+ }
+ break;
+ case SERVO:
+ if (IS_PIN_SERVO(pin)) {
+ pinConfig[pin] = SERVO;
+ if (!servos[PIN_TO_SERVO(pin)].attached()) {
+ servos[PIN_TO_SERVO(pin)].attach(PIN_TO_DIGITAL(pin));
+ }
+ }
+ break;
+ case I2C:
+ if (IS_PIN_I2C(pin)) {
+ // mark the pin as i2c
+ // the user must call I2C_CONFIG to enable I2C for a device
+ pinConfig[pin] = I2C;
+ }
+ break;
+ default:
+ Firmata.sendString("Unknown pin mode"); // TODO: put error msgs in EEPROM
+ }
+ // TODO: save status to EEPROM here, if changed
+}
+
+void analogWriteCallback(byte pin, int value)
+{
+ if (pin < TOTAL_PINS) {
+ switch(pinConfig[pin]) {
+ case SERVO:
+ if (IS_PIN_SERVO(pin))
+ servos[PIN_TO_SERVO(pin)].write(value);
+ pinState[pin] = value;
+ break;
+ case PWM:
+ if (IS_PIN_PWM(pin))
+ analogWrite(PIN_TO_PWM(pin), value);
+ pinState[pin] = value;
+ break;
+ }
+ }
+}
+
+void digitalWriteCallback(byte port, int value)
+{
+ byte pin, lastPin, mask=1, pinWriteMask=0;
+
+ if (port < TOTAL_PORTS) {
+ // create a mask of the pins on this port that are writable.
+ lastPin = port*8+8;
+ if (lastPin > TOTAL_PINS) lastPin = TOTAL_PINS;
+ for (pin=port*8; pin < lastPin; pin++) {
+ // do not disturb non-digital pins (eg, Rx & Tx)
+ if (IS_PIN_DIGITAL(pin)) {
+ // only write to OUTPUT and INPUT (enables pullup)
+ // do not touch pins in PWM, ANALOG, SERVO or other modes
+ if (pinConfig[pin] == OUTPUT || pinConfig[pin] == INPUT) {
+ pinWriteMask |= mask;
+ pinState[pin] = ((byte)value & mask) ? 1 : 0;
+ }
+ }
+ mask = mask << 1;
+ }
+ writePort(port, (byte)value, pinWriteMask);
+ }
+}
+
+
+// -----------------------------------------------------------------------------
+/* sets bits in a bit array (int) to toggle the reporting of the analogIns
+ */
+//void FirmataClass::setAnalogPinReporting(byte pin, byte state) {
+//}
+void reportAnalogCallback(byte analogPin, int value)
+{
+ if (analogPin < TOTAL_ANALOG_PINS) {
+ if(value == 0) {
+ analogInputsToReport = analogInputsToReport &~ (1 << analogPin);
+ } else {
+ analogInputsToReport = analogInputsToReport | (1 << analogPin);
+ }
+ }
+ // TODO: save status to EEPROM here, if changed
+}
+
+void reportDigitalCallback(byte port, int value)
+{
+ if (port < TOTAL_PORTS) {
+ reportPINs[port] = (byte)value;
+ }
+ // do not disable analog reporting on these 8 pins, to allow some
+ // pins used for digital, others analog. Instead, allow both types
+ // of reporting to be enabled, but check if the pin is configured
+ // as analog when sampling the analog inputs. Likewise, while
+ // scanning digital pins, portConfigInputs will mask off values from any
+ // pins configured as analog
+}
+
+/*==============================================================================
+ * SYSEX-BASED commands
+ *============================================================================*/
+
+void sysexCallback(byte command, byte argc, byte *argv)
+{
+ byte mode;
+ byte slaveAddress;
+ byte slaveRegister;
+ byte data;
+ unsigned int delayTime;
+
+ switch(command) {
+ case I2C_REQUEST:
+ mode = argv[1] & I2C_READ_WRITE_MODE_MASK;
+ if (argv[1] & I2C_10BIT_ADDRESS_MODE_MASK) {
+ Firmata.sendString("10-bit addressing mode is not yet supported");
+ return;
+ }
+ else {
+ slaveAddress = argv[0];
+ }
+
+ switch(mode) {
+ case I2C_WRITE:
+ Wire.beginTransmission(slaveAddress);
+ for (byte i = 2; i < argc; i += 2) {
+ data = argv[i] + (argv[i + 1] << 7);
+ #if ARDUINO >= 100
+ Wire.write(data);
+ #else
+ Wire.send(data);
+ #endif
+ }
+ Wire.endTransmission();
+ delayMicroseconds(70);
+ break;
+ case I2C_READ:
+ if (argc == 6) {
+ // a slave register is specified
+ slaveRegister = argv[2] + (argv[3] << 7);
+ data = argv[4] + (argv[5] << 7); // bytes to read
+ readAndReportData(slaveAddress, (int)slaveRegister, data);
+ }
+ else {
+ // a slave register is NOT specified
+ data = argv[2] + (argv[3] << 7); // bytes to read
+ readAndReportData(slaveAddress, (int)REGISTER_NOT_SPECIFIED, data);
+ }
+ break;
+ case I2C_READ_CONTINUOUSLY:
+ if ((queryIndex + 1) >= MAX_QUERIES) {
+ // too many queries, just ignore
+ Firmata.sendString("too many queries");
+ break;
+ }
+ queryIndex++;
+ query[queryIndex].addr = slaveAddress;
+ query[queryIndex].reg = argv[2] + (argv[3] << 7);
+ query[queryIndex].bytes = argv[4] + (argv[5] << 7);
+ break;
+ case I2C_STOP_READING:
+ byte queryIndexToSkip;
+ // if read continuous mode is enabled for only 1 i2c device, disable
+ // read continuous reporting for that device
+ if (queryIndex <= 0) {
+ queryIndex = -1;
+ } else {
+ // if read continuous mode is enabled for multiple devices,
+ // determine which device to stop reading and remove it's data from
+ // the array, shifiting other array data to fill the space
+ for (byte i = 0; i < queryIndex + 1; i++) {
+ if (query[i].addr = slaveAddress) {
+ queryIndexToSkip = i;
+ break;
+ }
+ }
+
+ for (byte i = queryIndexToSkip; i<queryIndex + 1; i++) {
+ if (i < MAX_QUERIES) {
+ query[i].addr = query[i+1].addr;
+ query[i].reg = query[i+1].addr;
+ query[i].bytes = query[i+1].bytes;
+ }
+ }
+ queryIndex--;
+ }
+ break;
+ default:
+ break;
+ }
+ break;
+ case I2C_CONFIG:
+ delayTime = (argv[0] + (argv[1] << 7));
+
+ if(delayTime > 0) {
+ i2cReadDelayTime = delayTime;
+ }
+
+ if (!isI2CEnabled) {
+ enableI2CPins();
+ }
+
+ break;
+ case SERVO_CONFIG:
+ if(argc > 4) {
+ // these vars are here for clarity, they'll optimized away by the compiler
+ byte pin = argv[0];
+ int minPulse = argv[1] + (argv[2] << 7);
+ int maxPulse = argv[3] + (argv[4] << 7);
+
+ if (IS_PIN_SERVO(pin)) {
+ if (servos[PIN_TO_SERVO(pin)].attached())
+ servos[PIN_TO_SERVO(pin)].detach();
+ servos[PIN_TO_SERVO(pin)].attach(PIN_TO_DIGITAL(pin), minPulse, maxPulse);
+ setPinModeCallback(pin, SERVO);
+ }
+ }
+ break;
+ case SAMPLING_INTERVAL:
+ if (argc > 1) {
+ samplingInterval = argv[0] + (argv[1] << 7);
+ if (samplingInterval < MINIMUM_SAMPLING_INTERVAL) {
+ samplingInterval = MINIMUM_SAMPLING_INTERVAL;
+ }
+ } else {
+ //Firmata.sendString("Not enough data");
+ }
+ break;
+ case EXTENDED_ANALOG:
+ if (argc > 1) {
+ int val = argv[1];
+ if (argc > 2) val |= (argv[2] << 7);
+ if (argc > 3) val |= (argv[3] << 14);
+ analogWriteCallback(argv[0], val);
+ }
+ break;
+ case CAPABILITY_QUERY:
+ Serial.write(START_SYSEX);
+ Serial.write(CAPABILITY_RESPONSE);
+ for (byte pin=0; pin < TOTAL_PINS; pin++) {
+ if (IS_PIN_DIGITAL(pin)) {
+ Serial.write((byte)INPUT);
+ Serial.write(1);
+ Serial.write((byte)OUTPUT);
+ Serial.write(1);
+ }
+ if (IS_PIN_ANALOG(pin)) {
+ Serial.write(ANALOG);
+ Serial.write(10);
+ }
+ if (IS_PIN_PWM(pin)) {
+ Serial.write(PWM);
+ Serial.write(8);
+ }
+ if (IS_PIN_SERVO(pin)) {
+ Serial.write(SERVO);
+ Serial.write(14);
+ }
+ if (IS_PIN_I2C(pin)) {
+ Serial.write(I2C);
+ Serial.write(1); // to do: determine appropriate value
+ }
+ Serial.write(127);
+ }
+ Serial.write(END_SYSEX);
+ break;
+ case PIN_STATE_QUERY:
+ if (argc > 0) {
+ byte pin=argv[0];
+ Serial.write(START_SYSEX);
+ Serial.write(PIN_STATE_RESPONSE);
+ Serial.write(pin);
+ if (pin < TOTAL_PINS) {
+ Serial.write((byte)pinConfig[pin]);
+ Serial.write((byte)pinState[pin] & 0x7F);
+ if (pinState[pin] & 0xFF80) Serial.write((byte)(pinState[pin] >> 7) & 0x7F);
+ if (pinState[pin] & 0xC000) Serial.write((byte)(pinState[pin] >> 14) & 0x7F);
+ }
+ Serial.write(END_SYSEX);
+ }
+ break;
+ case ANALOG_MAPPING_QUERY:
+ Serial.write(START_SYSEX);
+ Serial.write(ANALOG_MAPPING_RESPONSE);
+ for (byte pin=0; pin < TOTAL_PINS; pin++) {
+ Serial.write(IS_PIN_ANALOG(pin) ? PIN_TO_ANALOG(pin) : 127);
+ }
+ Serial.write(END_SYSEX);
+ break;
+ }
+}
+
+void enableI2CPins()
+{
+ byte i;
+ // is there a faster way to do this? would probaby require importing
+ // Arduino.h to get SCL and SDA pins
+ for (i=0; i < TOTAL_PINS; i++) {
+ if(IS_PIN_I2C(i)) {
+ // mark pins as i2c so they are ignore in non i2c data requests
+ setPinModeCallback(i, I2C);
+ }
+ }
+
+ isI2CEnabled = true;
+
+ // is there enough time before the first I2C request to call this here?
+ Wire.begin();
+}
+
+/* disable the i2c pins so they can be used for other functions */
+void disableI2CPins() {
+ isI2CEnabled = false;
+ // disable read continuous mode for all devices
+ queryIndex = -1;
+ // uncomment the following if or when the end() method is added to Wire library
+ // Wire.end();
+}
+
+/*==============================================================================
+ * SETUP()
+ *============================================================================*/
+
+void systemResetCallback()
+{
+ // initialize a defalt state
+ // TODO: option to load config from EEPROM instead of default
+ if (isI2CEnabled) {
+ disableI2CPins();
+ }
+ for (byte i=0; i < TOTAL_PORTS; i++) {
+ reportPINs[i] = false; // by default, reporting off
+ portConfigInputs[i] = 0; // until activated
+ previousPINs[i] = 0;
+ }
+ // pins with analog capability default to analog input
+ // otherwise, pins default to digital output
+ for (byte i=0; i < TOTAL_PINS; i++) {
+ if (IS_PIN_ANALOG(i)) {
+ // turns off pullup, configures everything
+ setPinModeCallback(i, ANALOG);
+ } else {
+ // sets the output to 0, configures portConfigInputs
+ setPinModeCallback(i, OUTPUT);
+ }
+ }
+ // by default, do not report any analog inputs
+ analogInputsToReport = 0;
+
+ /* send digital inputs to set the initial state on the host computer,
+ * since once in the loop(), this firmware will only send on change */
+ /*
+ TODO: this can never execute, since no pins default to digital input
+ but it will be needed when/if we support EEPROM stored config
+ for (byte i=0; i < TOTAL_PORTS; i++) {
+ outputPort(i, readPort(i, portConfigInputs[i]), true);
+ }
+ */
+}
+
+void setup()
+{
+ Firmata.setFirmwareVersion(FIRMATA_MAJOR_VERSION, FIRMATA_MINOR_VERSION);
+
+ Firmata.attach(ANALOG_MESSAGE, analogWriteCallback);
+ Firmata.attach(DIGITAL_MESSAGE, digitalWriteCallback);
+ Firmata.attach(REPORT_ANALOG, reportAnalogCallback);
+ Firmata.attach(REPORT_DIGITAL, reportDigitalCallback);
+ Firmata.attach(SET_PIN_MODE, setPinModeCallback);
+ Firmata.attach(START_SYSEX, sysexCallback);
+ Firmata.attach(SYSTEM_RESET, systemResetCallback);
+
+ Firmata.begin(57600);
+ systemResetCallback(); // reset to default config
+}
+
+/*==============================================================================
+ * LOOP()
+ *============================================================================*/
+void loop()
+{
+ byte pin, analogPin;
+
+ /* DIGITALREAD - as fast as possible, check for changes and output them to the
+ * FTDI buffer using Serial.print() */
+ checkDigitalInputs();
+
+ /* SERIALREAD - processing incoming messagse as soon as possible, while still
+ * checking digital inputs. */
+ while(Firmata.available())
+ Firmata.processInput();
+
+ /* SEND FTDI WRITE BUFFER - make sure that the FTDI buffer doesn't go over
+ * 60 bytes. use a timer to sending an event character every 4 ms to
+ * trigger the buffer to dump. */
+
+ currentMillis = millis();
+ if (currentMillis - previousMillis > samplingInterval) {
+ previousMillis += samplingInterval;
+ /* ANALOGREAD - do all analogReads() at the configured sampling interval */
+ for(pin=0; pin<TOTAL_PINS; pin++) {
+ if (IS_PIN_ANALOG(pin) && pinConfig[pin] == ANALOG) {
+ analogPin = PIN_TO_ANALOG(pin);
+ if (analogInputsToReport & (1 << analogPin)) {
+ Firmata.sendAnalog(analogPin, analogRead(analogPin));
+ }
+ }
+ }
+ // report i2c data for all device with read continuous mode enabled
+ if (queryIndex > -1) {
+ for (byte i = 0; i < queryIndex + 1; i++) {
+ readAndReportData(query[i].addr, query[i].reg, query[i].bytes);
+ }
+ }
+ }
+}
diff --git a/libraries/Firmata/keywords.txt b/libraries/Firmata/keywords.txt
new file mode 100644
index 0000000..52e0a9c
--- /dev/null
+++ b/libraries/Firmata/keywords.txt
@@ -0,0 +1,62 @@
+#######################################
+# Syntax Coloring Map For Firmata
+#######################################
+
+#######################################
+# Datatypes (KEYWORD1)
+#######################################
+
+Firmata KEYWORD1
+callbackFunction KEYWORD1
+systemResetCallbackFunction KEYWORD1
+stringCallbackFunction KEYWORD1
+sysexCallbackFunction KEYWORD1
+
+#######################################
+# Methods and Functions (KEYWORD2)
+#######################################
+
+begin KEYWORD2
+begin KEYWORD2
+printVersion KEYWORD2
+blinkVersion KEYWORD2
+printFirmwareVersion KEYWORD2
+setFirmwareVersion KEYWORD2
+setFirmwareNameAndVersion KEYWORD2
+available KEYWORD2
+processInput KEYWORD2
+sendAnalog KEYWORD2
+sendDigital KEYWORD2
+sendDigitalPortPair KEYWORD2
+sendDigitalPort KEYWORD2
+sendString KEYWORD2
+sendString KEYWORD2
+sendSysex KEYWORD2
+attach KEYWORD2
+detach KEYWORD2
+flush KEYWORD2
+
+
+#######################################
+# Constants (LITERAL1)
+#######################################
+
+MAX_DATA_BYTES LITERAL1
+
+DIGITAL_MESSAGE LITERAL1
+ANALOG_MESSAGE LITERAL1
+REPORT_ANALOG LITERAL1
+REPORT_DIGITAL LITERAL1
+REPORT_VERSION LITERAL1
+SET_PIN_MODE LITERAL1
+SYSTEM_RESET LITERAL1
+
+START_SYSEX LITERAL1
+END_SYSEX LITERAL1
+
+PWM LITERAL1
+
+TOTAL_ANALOG_PINS LITERAL1
+TOTAL_DIGITAL_PINS LITERAL1
+TOTAL_PORTS LITERAL1
+ANALOG_PORT LITERAL1
diff --git a/libraries/SPI/SPI.cpp b/libraries/SPI/SPI.cpp
new file mode 100644
index 0000000..5e48073
--- /dev/null
+++ b/libraries/SPI/SPI.cpp
@@ -0,0 +1,66 @@
+/*
+ * Copyright (c) 2010 by Cristian Maglie <c.maglie@bug.st>
+ * SPI Master library for arduino.
+ *
+ * This file is free software; you can redistribute it and/or modify
+ * it under the terms of either the GNU General Public License version 2
+ * or the GNU Lesser General Public License version 2.1, both as
+ * published by the Free Software Foundation.
+ */
+
+#include "pins_arduino.h"
+#include "SPI.h"
+
+SPIClass SPI;
+
+void SPIClass::begin() {
+
+ // Set SS to high so a connected chip will be "deselected" by default
+ digitalWrite(SS, HIGH);
+
+ // When the SS pin is set as OUTPUT, it can be used as
+ // a general purpose output port (it doesn't influence
+ // SPI operations).
+ pinMode(SS, OUTPUT);
+
+ // Warning: if the SS pin ever becomes a LOW INPUT then SPI
+ // automatically switches to Slave, so the data direction of
+ // the SS pin MUST be kept as OUTPUT.
+ SPCR |= _BV(MSTR);
+ SPCR |= _BV(SPE);
+
+ // Set direction register for SCK and MOSI pin.
+ // MISO pin automatically overrides to INPUT.
+ // By doing this AFTER enabling SPI, we avoid accidentally
+ // clocking in a single bit since the lines go directly
+ // from "input" to SPI control.
+ // http://code.google.com/p/arduino/issues/detail?id=888
+ pinMode(SCK, OUTPUT);
+ pinMode(MOSI, OUTPUT);
+}
+
+
+void SPIClass::end() {
+ SPCR &= ~_BV(SPE);
+}
+
+void SPIClass::setBitOrder(uint8_t bitOrder)
+{
+ if(bitOrder == LSBFIRST) {
+ SPCR |= _BV(DORD);
+ } else {
+ SPCR &= ~(_BV(DORD));
+ }
+}
+
+void SPIClass::setDataMode(uint8_t mode)
+{
+ SPCR = (SPCR & ~SPI_MODE_MASK) | mode;
+}
+
+void SPIClass::setClockDivider(uint8_t rate)
+{
+ SPCR = (SPCR & ~SPI_CLOCK_MASK) | (rate & SPI_CLOCK_MASK);
+ SPSR = (SPSR & ~SPI_2XCLOCK_MASK) | ((rate >> 2) & SPI_2XCLOCK_MASK);
+}
+
diff --git a/libraries/SPI/SPI.h b/libraries/SPI/SPI.h
new file mode 100644
index 0000000..f647d5c
--- /dev/null
+++ b/libraries/SPI/SPI.h
@@ -0,0 +1,70 @@
+/*
+ * Copyright (c) 2010 by Cristian Maglie <c.maglie@bug.st>
+ * SPI Master library for arduino.
+ *
+ * This file is free software; you can redistribute it and/or modify
+ * it under the terms of either the GNU General Public License version 2
+ * or the GNU Lesser General Public License version 2.1, both as
+ * published by the Free Software Foundation.
+ */
+
+#ifndef _SPI_H_INCLUDED
+#define _SPI_H_INCLUDED
+
+#include <stdio.h>
+#include <Arduino.h>
+#include <avr/pgmspace.h>
+
+#define SPI_CLOCK_DIV4 0x00
+#define SPI_CLOCK_DIV16 0x01
+#define SPI_CLOCK_DIV64 0x02
+#define SPI_CLOCK_DIV128 0x03
+#define SPI_CLOCK_DIV2 0x04
+#define SPI_CLOCK_DIV8 0x05
+#define SPI_CLOCK_DIV32 0x06
+//#define SPI_CLOCK_DIV64 0x07
+
+#define SPI_MODE0 0x00
+#define SPI_MODE1 0x04
+#define SPI_MODE2 0x08
+#define SPI_MODE3 0x0C
+
+#define SPI_MODE_MASK 0x0C // CPOL = bit 3, CPHA = bit 2 on SPCR
+#define SPI_CLOCK_MASK 0x03 // SPR1 = bit 1, SPR0 = bit 0 on SPCR
+#define SPI_2XCLOCK_MASK 0x01 // SPI2X = bit 0 on SPSR
+
+class SPIClass {
+public:
+ inline static byte transfer(byte _data);
+
+ // SPI Configuration methods
+
+ inline static void attachInterrupt();
+ inline static void detachInterrupt(); // Default
+
+ static void begin(); // Default
+ static void end();
+
+ static void setBitOrder(uint8_t);
+ static void setDataMode(uint8_t);
+ static void setClockDivider(uint8_t);
+};
+
+extern SPIClass SPI;
+
+byte SPIClass::transfer(byte _data) {
+ SPDR = _data;
+ while (!(SPSR & _BV(SPIF)))
+ ;
+ return SPDR;
+}
+
+void SPIClass::attachInterrupt() {
+ SPCR |= _BV(SPIE);
+}
+
+void SPIClass::detachInterrupt() {
+ SPCR &= ~_BV(SPIE);
+}
+
+#endif
diff --git a/libraries/SPI/examples/BarometricPressureSensor/BarometricPressureSensor.ino b/libraries/SPI/examples/BarometricPressureSensor/BarometricPressureSensor.ino
new file mode 100644
index 0000000..9d77a42
--- /dev/null
+++ b/libraries/SPI/examples/BarometricPressureSensor/BarometricPressureSensor.ino
@@ -0,0 +1,143 @@
+/*
+ SCP1000 Barometric Pressure Sensor Display
+
+ Shows the output of a Barometric Pressure Sensor on a
+ Uses the SPI library. For details on the sensor, see:
+ http://www.sparkfun.com/commerce/product_info.php?products_id=8161
+ http://www.vti.fi/en/support/obsolete_products/pressure_sensors/
+
+ This sketch adapted from Nathan Seidle's SCP1000 example for PIC:
+ http://www.sparkfun.com/datasheets/Sensors/SCP1000-Testing.zip
+
+ Circuit:
+ SCP1000 sensor attached to pins 6, 7, 10 - 13:
+ DRDY: pin 6
+ CSB: pin 7
+ MOSI: pin 11
+ MISO: pin 12
+ SCK: pin 13
+
+ created 31 July 2010
+ modified 14 August 2010
+ by Tom Igoe
+ */
+
+// the sensor communicates using SPI, so include the library:
+#include <SPI.h>
+
+//Sensor's memory register addresses:
+const int PRESSURE = 0x1F; //3 most significant bits of pressure
+const int PRESSURE_LSB = 0x20; //16 least significant bits of pressure
+const int TEMPERATURE = 0x21; //16 bit temperature reading
+const byte READ = 0b11111100; // SCP1000's read command
+const byte WRITE = 0b00000010; // SCP1000's write command
+
+// pins used for the connection with the sensor
+// the other you need are controlled by the SPI library):
+const int dataReadyPin = 6;
+const int chipSelectPin = 7;
+
+void setup() {
+ Serial.begin(9600);
+
+ // start the SPI library:
+ SPI.begin();
+
+ // initalize the data ready and chip select pins:
+ pinMode(dataReadyPin, INPUT);
+ pinMode(chipSelectPin, OUTPUT);
+
+ //Configure SCP1000 for low noise configuration:
+ writeRegister(0x02, 0x2D);
+ writeRegister(0x01, 0x03);
+ writeRegister(0x03, 0x02);
+ // give the sensor time to set up:
+ delay(100);
+}
+
+void loop() {
+ //Select High Resolution Mode
+ writeRegister(0x03, 0x0A);
+
+ // don't do anything until the data ready pin is high:
+ if (digitalRead(dataReadyPin) == HIGH) {
+ //Read the temperature data
+ int tempData = readRegister(0x21, 2);
+
+ // convert the temperature to celsius and display it:
+ float realTemp = (float)tempData / 20.0;
+ Serial.print("Temp[C]=");
+ Serial.print(realTemp);
+
+
+ //Read the pressure data highest 3 bits:
+ byte pressure_data_high = readRegister(0x1F, 1);
+ pressure_data_high &= 0b00000111; //you only needs bits 2 to 0
+
+ //Read the pressure data lower 16 bits:
+ unsigned int pressure_data_low = readRegister(0x20, 2);
+ //combine the two parts into one 19-bit number:
+ long pressure = ((pressure_data_high << 16) | pressure_data_low)/4;
+
+ // display the temperature:
+ Serial.println("\tPressure [Pa]=" + String(pressure));
+ }
+}
+
+//Read from or write to register from the SCP1000:
+unsigned int readRegister(byte thisRegister, int bytesToRead ) {
+ byte inByte = 0; // incoming byte from the SPI
+ unsigned int result = 0; // result to return
+ Serial.print(thisRegister, BIN);
+ Serial.print("\t");
+ // SCP1000 expects the register name in the upper 6 bits
+ // of the byte. So shift the bits left by two bits:
+ thisRegister = thisRegister << 2;
+ // now combine the address and the command into one byte
+ byte dataToSend = thisRegister & READ;
+ Serial.println(thisRegister, BIN);
+ // take the chip select low to select the device:
+ digitalWrite(chipSelectPin, LOW);
+ // send the device the register you want to read:
+ SPI.transfer(dataToSend);
+ // send a value of 0 to read the first byte returned:
+ result = SPI.transfer(0x00);
+ // decrement the number of bytes left to read:
+ bytesToRead--;
+ // if you still have another byte to read:
+ if (bytesToRead > 0) {
+ // shift the first byte left, then get the second byte:
+ result = result << 8;
+ inByte = SPI.transfer(0x00);
+ // combine the byte you just got with the previous one:
+ result = result | inByte;
+ // decrement the number of bytes left to read:
+ bytesToRead--;
+ }
+ // take the chip select high to de-select:
+ digitalWrite(chipSelectPin, HIGH);
+ // return the result:
+ return(result);
+}
+
+
+//Sends a write command to SCP1000
+
+void writeRegister(byte thisRegister, byte thisValue) {
+
+ // SCP1000 expects the register address in the upper 6 bits
+ // of the byte. So shift the bits left by two bits:
+ thisRegister = thisRegister << 2;
+ // now combine the register address and the command into one byte:
+ byte dataToSend = thisRegister | WRITE;
+
+ // take the chip select low to select the device:
+ digitalWrite(chipSelectPin, LOW);
+
+ SPI.transfer(dataToSend); //Send register location
+ SPI.transfer(thisValue); //Send value to record into register
+
+ // take the chip select high to de-select:
+ digitalWrite(chipSelectPin, HIGH);
+}
+
diff --git a/libraries/SPI/examples/BarometricPressureSensor/BarometricPressureSensor/BarometricPressureSensor.ino b/libraries/SPI/examples/BarometricPressureSensor/BarometricPressureSensor/BarometricPressureSensor.ino
new file mode 100644
index 0000000..9c9c9b6
--- /dev/null
+++ b/libraries/SPI/examples/BarometricPressureSensor/BarometricPressureSensor/BarometricPressureSensor.ino
@@ -0,0 +1,143 @@
+/*
+ SCP1000 Barometric Pressure Sensor Display
+
+ Shows the output of a Barometric Pressure Sensor on a
+ Uses the SPI library. For details on the sensor, see:
+ http://www.sparkfun.com/commerce/product_info.php?products_id=8161
+ http://www.vti.fi/en/support/obsolete_products/pressure_sensors/
+
+ This sketch adapted from Nathan Seidle's SCP1000 example for PIC:
+ http://www.sparkfun.com/datasheets/Sensors/SCP1000-Testing.zip
+
+ Circuit:
+ SCP1000 sensor attached to pins 6, 7, 10 - 13:
+ DRDY: pin 6
+ CSB: pin 7
+ MOSI: pin 11
+ MISO: pin 12
+ SCK: pin 13
+
+ created 31 July 2010
+ modified 14 August 2010
+ by Tom Igoe
+ */
+
+// the sensor communicates using SPI, so include the library:
+#include <SPI.h>
+
+//Sensor's memory register addresses:
+const int PRESSURE = 0x1F; //3 most significant bits of pressure
+const int PRESSURE_LSB = 0x20; //16 least significant bits of pressure
+const int TEMPERATURE = 0x21; //16 bit temperature reading
+cont byte READ = 0b00000000; // SCP1000's read command
+const byte WRITE = 0b00000010; // SCP1000's write command
+// pins used for the connection with the sensor
+// the other you need are controlled by the SPI library):
+const int dataReadyPin = 6;
+const int chipSelectPin = 7;
+
+void setup() {
+ Serial.begin(9600);
+
+ // start the SPI library:
+ SPI.begin();
+
+ // initalize the data ready and chip select pins:
+ pinMode(dataReadyPin, INPUT);
+ pinMode(chipSelectPin, OUTPUT);
+
+ //Configure SCP1000 for low noise configuration:
+ writeRegister(0x02, 0x2D);
+ writeRegister(0x01, 0x03);
+ writeRegister(0x03, 0x02);
+ // give the sensor time to set up:
+ delay(100);
+}
+
+void loop() {
+ //Select High Resolution Mode
+ writeRegister(0x03, 0x0A);
+
+ // don't do anything until the data ready pin is high:
+ if (digitalRead(dataReadyPin) == HIGH) {
+ //Read the temperature data
+ int tempData = readRegister(0x21, 2);
+
+ // convert the temperature to celsius and display it:
+ float realTemp = (float)tempData / 20.0;
+ Serial.print("Temp[C]=");
+ Serial.print(realTemp);
+
+
+ //Read the pressure data highest 3 bits:
+ byte pressure_data_high = readRegister(0x1F, 1);
+ pressure_data_high &= 0b00000111; //you only needs bits 2 to 0
+
+ //Read the pressure data lower 16 bits:
+ unsigned int pressure_data_low = readRegister(0x20, 2);
+ //combine the two parts into one 19-bit number:
+ long pressure = ((pressure_data_high << 16) | pressure_data_low)/4;
+
+ // display the temperature:
+ Serial.println("\tPressure [Pa]=" + String(pressure));
+ }
+}
+
+//Read from or write to register from the SCP1000:
+unsigned int readRegister(byte thisRegister, int bytesToRead ) {
+ byte inByte = 0; // incoming byte from the SPI
+ unsigned int result = 0; // result to return
+
+ // SCP1000 expects the register name in the upper 6 bits
+ // of the byte. So shift the bits left by two bits:
+ thisRegister = thisRegister << 2;
+ // now combine the address and the command into one byte
+ dataToSend = thisRegister & READ;
+
+ // take the chip select low to select the device:
+ digitalWrite(chipSelectPin, LOW);
+ // send the device the register you want to read:
+ SPI.transfer(dataToSend);
+ // send a value of 0 to read the first byte returned:
+ result = SPI.transfer(0x00);
+ // decrement the number of bytes left to read:
+ bytesToRead--;
+ // if you still have another byte to read:
+ if (bytesToRead > 0) {
+ // shift the first byte left, then get the second byte:
+ result = result << 8;
+ inByte = SPI.transfer(0x00);
+ // combine the byte you just got with the previous one:
+ result = result | inByte;
+ // decrement the number of bytes left to read:
+ bytesToRead--;
+ }
+ // take the chip select high to de-select:
+ digitalWrite(chipSelectPin, HIGH);
+ // return the result:
+ return(result);
+}
+
+
+//Sends a write command to SCP1000
+
+void writeRegister(byte thisRegister, byte thisValue) {
+
+ // SCP1000 expects the register address in the upper 6 bits
+ // of the byte. So shift the bits left by two bits:
+ thisRegister = thisRegister << 2;
+ // now combine the register address and the command into one byte:
+ dataToSend = thisRegister | WRITE;
+
+ // take the chip select low to select the device:
+ digitalWrite(chipSelectPin, LOW);
+
+ SPI.transfer(dataToSend); //Send register location
+ SPI.transfer(thisValue); //Send value to record into register
+
+ // take the chip select high to de-select:
+ digitalWrite(chipSelectPin, HIGH);
+}
+
+
+
diff --git a/libraries/SPI/examples/DigitalPotControl/DigitalPotControl.ino b/libraries/SPI/examples/DigitalPotControl/DigitalPotControl.ino
new file mode 100644
index 0000000..ef97dae
--- /dev/null
+++ b/libraries/SPI/examples/DigitalPotControl/DigitalPotControl.ino
@@ -0,0 +1,71 @@
+/*
+ Digital Pot Control
+
+ This example controls an Analog Devices AD5206 digital potentiometer.
+ The AD5206 has 6 potentiometer channels. Each channel's pins are labeled
+ A - connect this to voltage
+ W - this is the pot's wiper, which changes when you set it
+ B - connect this to ground.
+
+ The AD5206 is SPI-compatible,and to command it, you send two bytes,
+ one with the channel number (0 - 5) and one with the resistance value for the
+ channel (0 - 255).
+
+ The circuit:
+ * All A pins of AD5206 connected to +5V
+ * All B pins of AD5206 connected to ground
+ * An LED and a 220-ohm resisor in series connected from each W pin to ground
+ * CS - to digital pin 10 (SS pin)
+ * SDI - to digital pin 11 (MOSI pin)
+ * CLK - to digital pin 13 (SCK pin)
+
+ created 10 Aug 2010
+ by Tom Igoe
+
+ Thanks to Heather Dewey-Hagborg for the original tutorial, 2005
+
+*/
+
+
+// inslude the SPI library:
+#include <SPI.h>
+
+
+// set pin 10 as the slave select for the digital pot:
+const int slaveSelectPin = 10;
+
+void setup() {
+ // set the slaveSelectPin as an output:
+ pinMode (slaveSelectPin, OUTPUT);
+ // initialize SPI:
+ SPI.begin();
+}
+
+void loop() {
+ // go through the six channels of the digital pot:
+ for (int channel = 0; channel < 6; channel++) {
+ // change the resistance on this channel from min to max:
+ for (int level = 0; level < 255; level++) {
+ digitalPotWrite(channel, level);
+ delay(10);
+ }
+ // wait a second at the top:
+ delay(100);
+ // change the resistance on this channel from max to min:
+ for (int level = 0; level < 255; level++) {
+ digitalPotWrite(channel, 255 - level);
+ delay(10);
+ }
+ }
+
+}
+
+int digitalPotWrite(int address, int value) {
+ // take the SS pin low to select the chip:
+ digitalWrite(slaveSelectPin,LOW);
+ // send in the address and value via SPI:
+ SPI.transfer(address);
+ SPI.transfer(value);
+ // take the SS pin high to de-select the chip:
+ digitalWrite(slaveSelectPin,HIGH);
+} \ No newline at end of file
diff --git a/libraries/SPI/keywords.txt b/libraries/SPI/keywords.txt
new file mode 100644
index 0000000..fa76165
--- /dev/null
+++ b/libraries/SPI/keywords.txt
@@ -0,0 +1,36 @@
+#######################################
+# Syntax Coloring Map SPI
+#######################################
+
+#######################################
+# Datatypes (KEYWORD1)
+#######################################
+
+SPI KEYWORD1
+
+#######################################
+# Methods and Functions (KEYWORD2)
+#######################################
+begin KEYWORD2
+end KEYWORD2
+transfer KEYWORD2
+setBitOrder KEYWORD2
+setDataMode KEYWORD2
+setClockDivider KEYWORD2
+
+
+#######################################
+# Constants (LITERAL1)
+#######################################
+SPI_CLOCK_DIV4 LITERAL1
+SPI_CLOCK_DIV16 LITERAL1
+SPI_CLOCK_DIV64 LITERAL1
+SPI_CLOCK_DIV128 LITERAL1
+SPI_CLOCK_DIV2 LITERAL1
+SPI_CLOCK_DIV8 LITERAL1
+SPI_CLOCK_DIV32 LITERAL1
+SPI_CLOCK_DIV64 LITERAL1
+SPI_MODE0 LITERAL1
+SPI_MODE1 LITERAL1
+SPI_MODE2 LITERAL1
+SPI_MODE3 LITERAL1 \ No newline at end of file
diff --git a/libraries/Servo/Servo.cpp b/libraries/Servo/Servo.cpp
new file mode 100755
index 0000000..a716433
--- /dev/null
+++ b/libraries/Servo/Servo.cpp
@@ -0,0 +1,337 @@
+/*
+ Servo.cpp - Interrupt driven Servo library for Arduino using 16 bit timers- Version 2
+ Copyright (c) 2009 Michael Margolis. All right reserved.
+
+ This library is free software; you can redistribute it and/or
+ modify it under the terms of the GNU Lesser General Public
+ License as published by the Free Software Foundation; either
+ version 2.1 of the License, or (at your option) any later version.
+
+ This library is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+ Lesser General Public License for more details.
+
+ You should have received a copy of the GNU Lesser General Public
+ License along with this library; if not, write to the Free Software
+ Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
+ */
+
+/*
+
+ A servo is activated by creating an instance of the Servo class passing the desired pin to the attach() method.
+ The servos are pulsed in the background using the value most recently written using the write() method
+
+ Note that analogWrite of PWM on pins associated with the timer are disabled when the first servo is attached.
+ Timers are seized as needed in groups of 12 servos - 24 servos use two timers, 48 servos will use four.
+
+ The methods are:
+
+ Servo - Class for manipulating servo motors connected to Arduino pins.
+
+ attach(pin ) - Attaches a servo motor to an i/o pin.
+ attach(pin, min, max ) - Attaches to a pin setting min and max values in microseconds
+ default min is 544, max is 2400
+
+ write() - Sets the servo angle in degrees. (invalid angle that is valid as pulse in microseconds is treated as microseconds)
+ writeMicroseconds() - Sets the servo pulse width in microseconds
+ read() - Gets the last written servo pulse width as an angle between 0 and 180.
+ readMicroseconds() - Gets the last written servo pulse width in microseconds. (was read_us() in first release)
+ attached() - Returns true if there is a servo attached.
+ detach() - Stops an attached servos from pulsing its i/o pin.
+
+*/
+
+#include <avr/interrupt.h>
+#include <Arduino.h>
+
+#include "Servo.h"
+
+#define usToTicks(_us) (( clockCyclesPerMicrosecond()* _us) / 8) // converts microseconds to tick (assumes prescale of 8) // 12 Aug 2009
+#define ticksToUs(_ticks) (( (unsigned)_ticks * 8)/ clockCyclesPerMicrosecond() ) // converts from ticks back to microseconds
+
+
+#define TRIM_DURATION 2 // compensation ticks to trim adjust for digitalWrite delays // 12 August 2009
+
+//#define NBR_TIMERS (MAX_SERVOS / SERVOS_PER_TIMER)
+
+static servo_t servos[MAX_SERVOS]; // static array of servo structures
+static volatile int8_t Channel[_Nbr_16timers ]; // counter for the servo being pulsed for each timer (or -1 if refresh interval)
+
+uint8_t ServoCount = 0; // the total number of attached servos
+
+
+// convenience macros
+#define SERVO_INDEX_TO_TIMER(_servo_nbr) ((timer16_Sequence_t)(_servo_nbr / SERVOS_PER_TIMER)) // returns the timer controlling this servo
+#define SERVO_INDEX_TO_CHANNEL(_servo_nbr) (_servo_nbr % SERVOS_PER_TIMER) // returns the index of the servo on this timer
+#define SERVO_INDEX(_timer,_channel) ((_timer*SERVOS_PER_TIMER) + _channel) // macro to access servo index by timer and channel
+#define SERVO(_timer,_channel) (servos[SERVO_INDEX(_timer,_channel)]) // macro to access servo class by timer and channel
+
+#define SERVO_MIN() (MIN_PULSE_WIDTH - this->min * 4) // minimum value in uS for this servo
+#define SERVO_MAX() (MAX_PULSE_WIDTH - this->max * 4) // maximum value in uS for this servo
+
+/************ static functions common to all instances ***********************/
+
+static inline void handle_interrupts(timer16_Sequence_t timer, volatile uint16_t *TCNTn, volatile uint16_t* OCRnA)
+{
+ if( Channel[timer] < 0 )
+ *TCNTn = 0; // channel set to -1 indicated that refresh interval completed so reset the timer
+ else{
+ if( SERVO_INDEX(timer,Channel[timer]) < ServoCount && SERVO(timer,Channel[timer]).Pin.isActive == true )
+ digitalWrite( SERVO(timer,Channel[timer]).Pin.nbr,LOW); // pulse this channel low if activated
+ }
+
+ Channel[timer]++; // increment to the next channel
+ if( SERVO_INDEX(timer,Channel[timer]) < ServoCount && Channel[timer] < SERVOS_PER_TIMER) {
+ *OCRnA = *TCNTn + SERVO(timer,Channel[timer]).ticks;
+ if(SERVO(timer,Channel[timer]).Pin.isActive == true) // check if activated
+ digitalWrite( SERVO(timer,Channel[timer]).Pin.nbr,HIGH); // its an active channel so pulse it high
+ }
+ else {
+ // finished all channels so wait for the refresh period to expire before starting over
+ if( ((unsigned)*TCNTn) + 4 < usToTicks(REFRESH_INTERVAL) ) // allow a few ticks to ensure the next OCR1A not missed
+ *OCRnA = (unsigned int)usToTicks(REFRESH_INTERVAL);
+ else
+ *OCRnA = *TCNTn + 4; // at least REFRESH_INTERVAL has elapsed
+ Channel[timer] = -1; // this will get incremented at the end of the refresh period to start again at the first channel
+ }
+}
+
+#ifndef WIRING // Wiring pre-defines signal handlers so don't define any if compiling for the Wiring platform
+// Interrupt handlers for Arduino
+#if defined(_useTimer1)
+SIGNAL (TIMER1_COMPA_vect)
+{
+ handle_interrupts(_timer1, &TCNT1, &OCR1A);
+}
+#endif
+
+#if defined(_useTimer3)
+SIGNAL (TIMER3_COMPA_vect)
+{
+ handle_interrupts(_timer3, &TCNT3, &OCR3A);
+}
+#endif
+
+#if defined(_useTimer4)
+SIGNAL (TIMER4_COMPA_vect)
+{
+ handle_interrupts(_timer4, &TCNT4, &OCR4A);
+}
+#endif
+
+#if defined(_useTimer5)
+SIGNAL (TIMER5_COMPA_vect)
+{
+ handle_interrupts(_timer5, &TCNT5, &OCR5A);
+}
+#endif
+
+#elif defined WIRING
+// Interrupt handlers for Wiring
+#if defined(_useTimer1)
+void Timer1Service()
+{
+ handle_interrupts(_timer1, &TCNT1, &OCR1A);
+}
+#endif
+#if defined(_useTimer3)
+void Timer3Service()
+{
+ handle_interrupts(_timer3, &TCNT3, &OCR3A);
+}
+#endif
+#endif
+
+
+static void initISR(timer16_Sequence_t timer)
+{
+#if defined (_useTimer1)
+ if(timer == _timer1) {
+ TCCR1A = 0; // normal counting mode
+ TCCR1B = _BV(CS11); // set prescaler of 8
+ TCNT1 = 0; // clear the timer count
+#if defined(__AVR_ATmega8__)|| defined(__AVR_ATmega128__)
+ TIFR |= _BV(OCF1A); // clear any pending interrupts;
+ TIMSK |= _BV(OCIE1A) ; // enable the output compare interrupt
+#else
+ // here if not ATmega8 or ATmega128
+ TIFR1 |= _BV(OCF1A); // clear any pending interrupts;
+ TIMSK1 |= _BV(OCIE1A) ; // enable the output compare interrupt
+#endif
+#if defined(WIRING)
+ timerAttach(TIMER1OUTCOMPAREA_INT, Timer1Service);
+#endif
+ }
+#endif
+
+#if defined (_useTimer3)
+ if(timer == _timer3) {
+ TCCR3A = 0; // normal counting mode
+ TCCR3B = _BV(CS31); // set prescaler of 8
+ TCNT3 = 0; // clear the timer count
+#if defined(__AVR_ATmega128__)
+ TIFR |= _BV(OCF3A); // clear any pending interrupts;
+ ETIMSK |= _BV(OCIE3A); // enable the output compare interrupt
+#else
+ TIFR3 = _BV(OCF3A); // clear any pending interrupts;
+ TIMSK3 = _BV(OCIE3A) ; // enable the output compare interrupt
+#endif
+#if defined(WIRING)
+ timerAttach(TIMER3OUTCOMPAREA_INT, Timer3Service); // for Wiring platform only
+#endif
+ }
+#endif
+
+#if defined (_useTimer4)
+ if(timer == _timer4) {
+ TCCR4A = 0; // normal counting mode
+ TCCR4B = _BV(CS41); // set prescaler of 8
+ TCNT4 = 0; // clear the timer count
+ TIFR4 = _BV(OCF4A); // clear any pending interrupts;
+ TIMSK4 = _BV(OCIE4A) ; // enable the output compare interrupt
+ }
+#endif
+
+#if defined (_useTimer5)
+ if(timer == _timer5) {
+ TCCR5A = 0; // normal counting mode
+ TCCR5B = _BV(CS51); // set prescaler of 8
+ TCNT5 = 0; // clear the timer count
+ TIFR5 = _BV(OCF5A); // clear any pending interrupts;
+ TIMSK5 = _BV(OCIE5A) ; // enable the output compare interrupt
+ }
+#endif
+}
+
+static void finISR(timer16_Sequence_t timer)
+{
+ //disable use of the given timer
+#if defined WIRING // Wiring
+ if(timer == _timer1) {
+ #if defined(__AVR_ATmega1281__)||defined(__AVR_ATmega2561__)
+ TIMSK1 &= ~_BV(OCIE1A) ; // disable timer 1 output compare interrupt
+ #else
+ TIMSK &= ~_BV(OCIE1A) ; // disable timer 1 output compare interrupt
+ #endif
+ timerDetach(TIMER1OUTCOMPAREA_INT);
+ }
+ else if(timer == _timer3) {
+ #if defined(__AVR_ATmega1281__)||defined(__AVR_ATmega2561__)
+ TIMSK3 &= ~_BV(OCIE3A); // disable the timer3 output compare A interrupt
+ #else
+ ETIMSK &= ~_BV(OCIE3A); // disable the timer3 output compare A interrupt
+ #endif
+ timerDetach(TIMER3OUTCOMPAREA_INT);
+ }
+#else
+ //For arduino - in future: call here to a currently undefined function to reset the timer
+#endif
+}
+
+static boolean isTimerActive(timer16_Sequence_t timer)
+{
+ // returns true if any servo is active on this timer
+ for(uint8_t channel=0; channel < SERVOS_PER_TIMER; channel++) {
+ if(SERVO(timer,channel).Pin.isActive == true)
+ return true;
+ }
+ return false;
+}
+
+
+/****************** end of static functions ******************************/
+
+Servo::Servo()
+{
+ if( ServoCount < MAX_SERVOS) {
+ this->servoIndex = ServoCount++; // assign a servo index to this instance
+ servos[this->servoIndex].ticks = usToTicks(DEFAULT_PULSE_WIDTH); // store default values - 12 Aug 2009
+ }
+ else
+ this->servoIndex = INVALID_SERVO ; // too many servos
+}
+
+uint8_t Servo::attach(int pin)
+{
+ return this->attach(pin, MIN_PULSE_WIDTH, MAX_PULSE_WIDTH);
+}
+
+uint8_t Servo::attach(int pin, int min, int max)
+{
+ if(this->servoIndex < MAX_SERVOS ) {
+ pinMode( pin, OUTPUT) ; // set servo pin to output
+ servos[this->servoIndex].Pin.nbr = pin;
+ // todo min/max check: abs(min - MIN_PULSE_WIDTH) /4 < 128
+ this->min = (MIN_PULSE_WIDTH - min)/4; //resolution of min/max is 4 uS
+ this->max = (MAX_PULSE_WIDTH - max)/4;
+ // initialize the timer if it has not already been initialized
+ timer16_Sequence_t timer = SERVO_INDEX_TO_TIMER(servoIndex);
+ if(isTimerActive(timer) == false)
+ initISR(timer);
+ servos[this->servoIndex].Pin.isActive = true; // this must be set after the check for isTimerActive
+ }
+ return this->servoIndex ;
+}
+
+void Servo::detach()
+{
+ servos[this->servoIndex].Pin.isActive = false;
+ timer16_Sequence_t timer = SERVO_INDEX_TO_TIMER(servoIndex);
+ if(isTimerActive(timer) == false) {
+ finISR(timer);
+ }
+}
+
+void Servo::write(int value)
+{
+ if(value < MIN_PULSE_WIDTH)
+ { // treat values less than 544 as angles in degrees (valid values in microseconds are handled as microseconds)
+ if(value < 0) value = 0;
+ if(value > 180) value = 180;
+ value = map(value, 0, 180, SERVO_MIN(), SERVO_MAX());
+ }
+ this->writeMicroseconds(value);
+}
+
+void Servo::writeMicroseconds(int value)
+{
+ // calculate and store the values for the given channel
+ byte channel = this->servoIndex;
+ if( (channel < MAX_SERVOS) ) // ensure channel is valid
+ {
+ if( value < SERVO_MIN() ) // ensure pulse width is valid
+ value = SERVO_MIN();
+ else if( value > SERVO_MAX() )
+ value = SERVO_MAX();
+
+ value = value - TRIM_DURATION;
+ value = usToTicks(value); // convert to ticks after compensating for interrupt overhead - 12 Aug 2009
+
+ uint8_t oldSREG = SREG;
+ cli();
+ servos[channel].ticks = value;
+ SREG = oldSREG;
+ }
+}
+
+int Servo::read() // return the value as degrees
+{
+ return map( this->readMicroseconds()+1, SERVO_MIN(), SERVO_MAX(), 0, 180);
+}
+
+int Servo::readMicroseconds()
+{
+ unsigned int pulsewidth;
+ if( this->servoIndex != INVALID_SERVO )
+ pulsewidth = ticksToUs(servos[this->servoIndex].ticks) + TRIM_DURATION ; // 12 aug 2009
+ else
+ pulsewidth = 0;
+
+ return pulsewidth;
+}
+
+bool Servo::attached()
+{
+ return servos[this->servoIndex].Pin.isActive ;
+}
diff --git a/libraries/Servo/Servo.h b/libraries/Servo/Servo.h
new file mode 100755
index 0000000..8168494
--- /dev/null
+++ b/libraries/Servo/Servo.h
@@ -0,0 +1,126 @@
+/*
+ Servo.h - Interrupt driven Servo library for Arduino using 16 bit timers- Version 2
+ Copyright (c) 2009 Michael Margolis. All right reserved.
+
+ This library is free software; you can redistribute it and/or
+ modify it under the terms of the GNU Lesser General Public
+ License as published by the Free Software Foundation; either
+ version 2.1 of the License, or (at your option) any later version.
+
+ This library is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+ Lesser General Public License for more details.
+
+ You should have received a copy of the GNU Lesser General Public
+ License along with this library; if not, write to the Free Software
+ Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
+*/
+
+/*
+
+ A servo is activated by creating an instance of the Servo class passing the desired pin to the attach() method.
+ The servos are pulsed in the background using the value most recently written using the write() method
+
+ Note that analogWrite of PWM on pins associated with the timer are disabled when the first servo is attached.
+ Timers are seized as needed in groups of 12 servos - 24 servos use two timers, 48 servos will use four.
+ The sequence used to sieze timers is defined in timers.h
+
+ The methods are:
+
+ Servo - Class for manipulating servo motors connected to Arduino pins.
+
+ attach(pin ) - Attaches a servo motor to an i/o pin.
+ attach(pin, min, max ) - Attaches to a pin setting min and max values in microseconds
+ default min is 544, max is 2400
+
+ write() - Sets the servo angle in degrees. (invalid angle that is valid as pulse in microseconds is treated as microseconds)
+ writeMicroseconds() - Sets the servo pulse width in microseconds
+ read() - Gets the last written servo pulse width as an angle between 0 and 180.
+ readMicroseconds() - Gets the last written servo pulse width in microseconds. (was read_us() in first release)
+ attached() - Returns true if there is a servo attached.
+ detach() - Stops an attached servos from pulsing its i/o pin.
+ */
+
+#ifndef Servo_h
+#define Servo_h
+
+#include <inttypes.h>
+
+/*
+ * Defines for 16 bit timers used with Servo library
+ *
+ * If _useTimerX is defined then TimerX is a 16 bit timer on the curent board
+ * timer16_Sequence_t enumerates the sequence that the timers should be allocated
+ * _Nbr_16timers indicates how many 16 bit timers are available.
+ *
+ */
+
+// Say which 16 bit timers can be used and in what order
+#if defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
+#define _useTimer5
+#define _useTimer1
+#define _useTimer3
+#define _useTimer4
+typedef enum { _timer5, _timer1, _timer3, _timer4, _Nbr_16timers } timer16_Sequence_t ;
+
+#elif defined(__AVR_ATmega32U4__)
+#define _useTimer1
+typedef enum { _timer1, _Nbr_16timers } timer16_Sequence_t ;
+
+#elif defined(__AVR_AT90USB646__) || defined(__AVR_AT90USB1286__)
+#define _useTimer3
+#define _useTimer1
+typedef enum { _timer3, _timer1, _Nbr_16timers } timer16_Sequence_t ;
+
+#elif defined(__AVR_ATmega128__) ||defined(__AVR_ATmega1281__)||defined(__AVR_ATmega2561__)
+#define _useTimer3
+#define _useTimer1
+typedef enum { _timer3, _timer1, _Nbr_16timers } timer16_Sequence_t ;
+
+#else // everything else
+#define _useTimer1
+typedef enum { _timer1, _Nbr_16timers } timer16_Sequence_t ;
+#endif
+
+#define Servo_VERSION 2 // software version of this library
+
+#define MIN_PULSE_WIDTH 544 // the shortest pulse sent to a servo
+#define MAX_PULSE_WIDTH 2400 // the longest pulse sent to a servo
+#define DEFAULT_PULSE_WIDTH 1500 // default pulse width when servo is attached
+#define REFRESH_INTERVAL 20000 // minumim time to refresh servos in microseconds
+
+#define SERVOS_PER_TIMER 12 // the maximum number of servos controlled by one timer
+#define MAX_SERVOS (_Nbr_16timers * SERVOS_PER_TIMER)
+
+#define INVALID_SERVO 255 // flag indicating an invalid servo index
+
+typedef struct {
+ uint8_t nbr :6 ; // a pin number from 0 to 63
+ uint8_t isActive :1 ; // true if this channel is enabled, pin not pulsed if false
+} ServoPin_t ;
+
+typedef struct {
+ ServoPin_t Pin;
+ unsigned int ticks;
+} servo_t;
+
+class Servo
+{
+public:
+ Servo();
+ uint8_t attach(int pin); // attach the given pin to the next free channel, sets pinMode, returns channel number or 0 if failure
+ uint8_t attach(int pin, int min, int max); // as above but also sets min and max values for writes.
+ void detach();
+ void write(int value); // if value is < 200 its treated as an angle, otherwise as pulse width in microseconds
+ void writeMicroseconds(int value); // Write pulse width in microseconds
+ int read(); // returns current pulse width as an angle between 0 and 180 degrees
+ int readMicroseconds(); // returns current pulse width in microseconds for this servo (was read_us() in first release)
+ bool attached(); // return true if this servo is attached, otherwise false
+private:
+ uint8_t servoIndex; // index into the channel data for this servo
+ int8_t min; // minimum is this value times 4 added to MIN_PULSE_WIDTH
+ int8_t max; // maximum is this value times 4 added to MAX_PULSE_WIDTH
+};
+
+#endif
diff --git a/libraries/Servo/examples/Knob/Knob.ino b/libraries/Servo/examples/Knob/Knob.ino
new file mode 100644
index 0000000..886e107
--- /dev/null
+++ b/libraries/Servo/examples/Knob/Knob.ino
@@ -0,0 +1,22 @@
+// Controlling a servo position using a potentiometer (variable resistor)
+// by Michal Rinott <http://people.interaction-ivrea.it/m.rinott>
+
+#include <Servo.h>
+
+Servo myservo; // create servo object to control a servo
+
+int potpin = 0; // analog pin used to connect the potentiometer
+int val; // variable to read the value from the analog pin
+
+void setup()
+{
+ myservo.attach(9); // attaches the servo on pin 9 to the servo object
+}
+
+void loop()
+{
+ val = analogRead(potpin); // reads the value of the potentiometer (value between 0 and 1023)
+ val = map(val, 0, 1023, 0, 179); // scale it to use it with the servo (value between 0 and 180)
+ myservo.write(val); // sets the servo position according to the scaled value
+ delay(15); // waits for the servo to get there
+}
diff --git a/libraries/Servo/examples/Sweep/Sweep.ino b/libraries/Servo/examples/Sweep/Sweep.ino
new file mode 100644
index 0000000..fb326e7
--- /dev/null
+++ b/libraries/Servo/examples/Sweep/Sweep.ino
@@ -0,0 +1,31 @@
+// Sweep
+// by BARRAGAN <http://barraganstudio.com>
+// This example code is in the public domain.
+
+
+#include <Servo.h>
+
+Servo myservo; // create servo object to control a servo
+ // a maximum of eight servo objects can be created
+
+int pos = 0; // variable to store the servo position
+
+void setup()
+{
+ myservo.attach(9); // attaches the servo on pin 9 to the servo object
+}
+
+
+void loop()
+{
+ for(pos = 0; pos < 180; pos += 1) // goes from 0 degrees to 180 degrees
+ { // in steps of 1 degree
+ myservo.write(pos); // tell servo to go to position in variable 'pos'
+ delay(15); // waits 15ms for the servo to reach the position
+ }
+ for(pos = 180; pos>=1; pos-=1) // goes from 180 degrees to 0 degrees
+ {
+ myservo.write(pos); // tell servo to go to position in variable 'pos'
+ delay(15); // waits 15ms for the servo to reach the position
+ }
+}
diff --git a/libraries/Servo/keywords.txt b/libraries/Servo/keywords.txt
new file mode 100755
index 0000000..ca5ba79
--- /dev/null
+++ b/libraries/Servo/keywords.txt
@@ -0,0 +1,24 @@
+#######################################
+# Syntax Coloring Map Servo
+#######################################
+
+#######################################
+# Datatypes (KEYWORD1)
+#######################################
+
+Servo KEYWORD1
+
+#######################################
+# Methods and Functions (KEYWORD2)
+#######################################
+attach KEYWORD2
+detach KEYWORD2
+write KEYWORD2
+read KEYWORD2
+attached KEYWORD2
+writeMicroseconds KEYWORD2
+readMicroseconds KEYWORD2
+
+#######################################
+# Constants (LITERAL1)
+#######################################
diff --git a/libraries/SoftwareSerial/SoftwareSerial.cpp b/libraries/SoftwareSerial/SoftwareSerial.cpp
new file mode 100755
index 0000000..c15bdda
--- /dev/null
+++ b/libraries/SoftwareSerial/SoftwareSerial.cpp
@@ -0,0 +1,515 @@
+/*
+SoftwareSerial.cpp (formerly NewSoftSerial.cpp) -
+Multi-instance software serial library for Arduino/Wiring
+-- Interrupt-driven receive and other improvements by ladyada
+ (http://ladyada.net)
+-- Tuning, circular buffer, derivation from class Print/Stream,
+ multi-instance support, porting to 8MHz processors,
+ various optimizations, PROGMEM delay tables, inverse logic and
+ direct port writing by Mikal Hart (http://www.arduiniana.org)
+-- Pin change interrupt macros by Paul Stoffregen (http://www.pjrc.com)
+-- 20MHz processor support by Garrett Mace (http://www.macetech.com)
+-- ATmega1280/2560 support by Brett Hagman (http://www.roguerobotics.com/)
+
+This library is free software; you can redistribute it and/or
+modify it under the terms of the GNU Lesser General Public
+License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version.
+
+This library is distributed in the hope that it will be useful,
+but WITHOUT ANY WARRANTY; without even the implied warranty of
+MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+Lesser General Public License for more details.
+
+You should have received a copy of the GNU Lesser General Public
+License along with this library; if not, write to the Free Software
+Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
+
+The latest version of this library can always be found at
+http://arduiniana.org.
+*/
+
+// When set, _DEBUG co-opts pins 11 and 13 for debugging with an
+// oscilloscope or logic analyzer. Beware: it also slightly modifies
+// the bit times, so don't rely on it too much at high baud rates
+#define _DEBUG 0
+#define _DEBUG_PIN1 11
+#define _DEBUG_PIN2 13
+//
+// Includes
+//
+#include <avr/interrupt.h>
+#include <avr/pgmspace.h>
+#include "Arduino.h"
+#include "SoftwareSerial.h"
+//
+// Lookup table
+//
+typedef struct _DELAY_TABLE
+{
+ long baud;
+ unsigned short rx_delay_centering;
+ unsigned short rx_delay_intrabit;
+ unsigned short rx_delay_stopbit;
+ unsigned short tx_delay;
+} DELAY_TABLE;
+
+#if F_CPU == 16000000
+
+static const DELAY_TABLE PROGMEM table[] =
+{
+ // baud rxcenter rxintra rxstop tx
+ { 115200, 1, 17, 17, 12, },
+ { 57600, 10, 37, 37, 33, },
+ { 38400, 25, 57, 57, 54, },
+ { 31250, 31, 70, 70, 68, },
+ { 28800, 34, 77, 77, 74, },
+ { 19200, 54, 117, 117, 114, },
+ { 14400, 74, 156, 156, 153, },
+ { 9600, 114, 236, 236, 233, },
+ { 4800, 233, 474, 474, 471, },
+ { 2400, 471, 950, 950, 947, },
+ { 1200, 947, 1902, 1902, 1899, },
+ { 300, 3804, 7617, 7617, 7614, },
+};
+
+const int XMIT_START_ADJUSTMENT = 5;
+
+#elif F_CPU == 8000000
+
+static const DELAY_TABLE table[] PROGMEM =
+{
+ // baud rxcenter rxintra rxstop tx
+ { 115200, 1, 5, 5, 3, },
+ { 57600, 1, 15, 15, 13, },
+ { 38400, 2, 25, 26, 23, },
+ { 31250, 7, 32, 33, 29, },
+ { 28800, 11, 35, 35, 32, },
+ { 19200, 20, 55, 55, 52, },
+ { 14400, 30, 75, 75, 72, },
+ { 9600, 50, 114, 114, 112, },
+ { 4800, 110, 233, 233, 230, },
+ { 2400, 229, 472, 472, 469, },
+ { 1200, 467, 948, 948, 945, },
+ { 300, 1895, 3805, 3805, 3802, },
+};
+
+const int XMIT_START_ADJUSTMENT = 4;
+
+#elif F_CPU == 20000000
+
+// 20MHz support courtesy of the good people at macegr.com.
+// Thanks, Garrett!
+
+static const DELAY_TABLE PROGMEM table[] =
+{
+ // baud rxcenter rxintra rxstop tx
+ { 115200, 3, 21, 21, 18, },
+ { 57600, 20, 43, 43, 41, },
+ { 38400, 37, 73, 73, 70, },
+ { 31250, 45, 89, 89, 88, },
+ { 28800, 46, 98, 98, 95, },
+ { 19200, 71, 148, 148, 145, },
+ { 14400, 96, 197, 197, 194, },
+ { 9600, 146, 297, 297, 294, },
+ { 4800, 296, 595, 595, 592, },
+ { 2400, 592, 1189, 1189, 1186, },
+ { 1200, 1187, 2379, 2379, 2376, },
+ { 300, 4759, 9523, 9523, 9520, },
+};
+
+const int XMIT_START_ADJUSTMENT = 6;
+
+#else
+
+#error This version of SoftwareSerial supports only 20, 16 and 8MHz processors
+
+#endif
+
+//
+// Statics
+//
+SoftwareSerial *SoftwareSerial::active_object = 0;
+char SoftwareSerial::_receive_buffer[_SS_MAX_RX_BUFF];
+volatile uint8_t SoftwareSerial::_receive_buffer_tail = 0;
+volatile uint8_t SoftwareSerial::_receive_buffer_head = 0;
+
+//
+// Debugging
+//
+// This function generates a brief pulse
+// for debugging or measuring on an oscilloscope.
+inline void DebugPulse(uint8_t pin, uint8_t count)
+{
+#if _DEBUG
+ volatile uint8_t *pport = portOutputRegister(digitalPinToPort(pin));
+
+ uint8_t val = *pport;
+ while (count--)
+ {
+ *pport = val | digitalPinToBitMask(pin);
+ *pport = val;
+ }
+#endif
+}
+
+//
+// Private methods
+//
+
+/* static */
+inline void SoftwareSerial::tunedDelay(uint16_t delay) {
+ uint8_t tmp=0;
+
+ asm volatile("sbiw %0, 0x01 \n\t"
+ "ldi %1, 0xFF \n\t"
+ "cpi %A0, 0xFF \n\t"
+ "cpc %B0, %1 \n\t"
+ "brne .-10 \n\t"
+ : "+r" (delay), "+a" (tmp)
+ : "0" (delay)
+ );
+}
+
+// This function sets the current object as the "listening"
+// one and returns true if it replaces another
+bool SoftwareSerial::listen()
+{
+ if (active_object != this)
+ {
+ _buffer_overflow = false;
+ uint8_t oldSREG = SREG;
+ cli();
+ _receive_buffer_head = _receive_buffer_tail = 0;
+ active_object = this;
+ SREG = oldSREG;
+ return true;
+ }
+
+ return false;
+}
+
+//
+// The receive routine called by the interrupt handler
+//
+void SoftwareSerial::recv()
+{
+
+#if GCC_VERSION < 40302
+// Work-around for avr-gcc 4.3.0 OSX version bug
+// Preserve the registers that the compiler misses
+// (courtesy of Arduino forum user *etracer*)
+ asm volatile(
+ "push r18 \n\t"
+ "push r19 \n\t"
+ "push r20 \n\t"
+ "push r21 \n\t"
+ "push r22 \n\t"
+ "push r23 \n\t"
+ "push r26 \n\t"
+ "push r27 \n\t"
+ ::);
+#endif
+
+ uint8_t d = 0;
+
+ // If RX line is high, then we don't see any start bit
+ // so interrupt is probably not for us
+ if (_inverse_logic ? rx_pin_read() : !rx_pin_read())
+ {
+ // Wait approximately 1/2 of a bit width to "center" the sample
+ tunedDelay(_rx_delay_centering);
+ DebugPulse(_DEBUG_PIN2, 1);
+
+ // Read each of the 8 bits
+ for (uint8_t i=0x1; i; i <<= 1)
+ {
+ tunedDelay(_rx_delay_intrabit);
+ DebugPulse(_DEBUG_PIN2, 1);
+ uint8_t noti = ~i;
+ if (rx_pin_read())
+ d |= i;
+ else // else clause added to ensure function timing is ~balanced
+ d &= noti;
+ }
+
+ // skip the stop bit
+ tunedDelay(_rx_delay_stopbit);
+ DebugPulse(_DEBUG_PIN2, 1);
+
+ if (_inverse_logic)
+ d = ~d;
+
+ // if buffer full, set the overflow flag and return
+ if ((_receive_buffer_tail + 1) % _SS_MAX_RX_BUFF != _receive_buffer_head)
+ {
+ // save new data in buffer: tail points to where byte goes
+ _receive_buffer[_receive_buffer_tail] = d; // save new byte
+ _receive_buffer_tail = (_receive_buffer_tail + 1) % _SS_MAX_RX_BUFF;
+ }
+ else
+ {
+#if _DEBUG // for scope: pulse pin as overflow indictator
+ DebugPulse(_DEBUG_PIN1, 1);
+#endif
+ _buffer_overflow = true;
+ }
+ }
+
+#if GCC_VERSION < 40302
+// Work-around for avr-gcc 4.3.0 OSX version bug
+// Restore the registers that the compiler misses
+ asm volatile(
+ "pop r27 \n\t"
+ "pop r26 \n\t"
+ "pop r23 \n\t"
+ "pop r22 \n\t"
+ "pop r21 \n\t"
+ "pop r20 \n\t"
+ "pop r19 \n\t"
+ "pop r18 \n\t"
+ ::);
+#endif
+}
+
+void SoftwareSerial::tx_pin_write(uint8_t pin_state)
+{
+ if (pin_state == LOW)
+ *_transmitPortRegister &= ~_transmitBitMask;
+ else
+ *_transmitPortRegister |= _transmitBitMask;
+}
+
+uint8_t SoftwareSerial::rx_pin_read()
+{
+ return *_receivePortRegister & _receiveBitMask;
+}
+
+//
+// Interrupt handling
+//
+
+/* static */
+inline void SoftwareSerial::handle_interrupt()
+{
+ if (active_object)
+ {
+ active_object->recv();
+ }
+}
+
+#if defined(PCINT0_vect)
+ISR(PCINT0_vect)
+{
+ SoftwareSerial::handle_interrupt();
+}
+#endif
+
+#if defined(PCINT1_vect)
+ISR(PCINT1_vect)
+{
+ SoftwareSerial::handle_interrupt();
+}
+#endif
+
+#if defined(PCINT2_vect)
+ISR(PCINT2_vect)
+{
+ SoftwareSerial::handle_interrupt();
+}
+#endif
+
+#if defined(PCINT3_vect)
+ISR(PCINT3_vect)
+{
+ SoftwareSerial::handle_interrupt();
+}
+#endif
+
+//
+// Constructor
+//
+SoftwareSerial::SoftwareSerial(uint8_t receivePin, uint8_t transmitPin, bool inverse_logic /* = false */) :
+ _rx_delay_centering(0),
+ _rx_delay_intrabit(0),
+ _rx_delay_stopbit(0),
+ _tx_delay(0),
+ _buffer_overflow(false),
+ _inverse_logic(inverse_logic)
+{
+ setTX(transmitPin);
+ setRX(receivePin);
+}
+
+//
+// Destructor
+//
+SoftwareSerial::~SoftwareSerial()
+{
+ end();
+}
+
+void SoftwareSerial::setTX(uint8_t tx)
+{
+ pinMode(tx, OUTPUT);
+ digitalWrite(tx, HIGH);
+ _transmitBitMask = digitalPinToBitMask(tx);
+ uint8_t port = digitalPinToPort(tx);
+ _transmitPortRegister = portOutputRegister(port);
+}
+
+void SoftwareSerial::setRX(uint8_t rx)
+{
+ pinMode(rx, INPUT);
+ if (!_inverse_logic)
+ digitalWrite(rx, HIGH); // pullup for normal logic!
+ _receivePin = rx;
+ _receiveBitMask = digitalPinToBitMask(rx);
+ uint8_t port = digitalPinToPort(rx);
+ _receivePortRegister = portInputRegister(port);
+}
+
+//
+// Public methods
+//
+
+void SoftwareSerial::begin(long speed)
+{
+ _rx_delay_centering = _rx_delay_intrabit = _rx_delay_stopbit = _tx_delay = 0;
+
+ for (unsigned i=0; i<sizeof(table)/sizeof(table[0]); ++i)
+ {
+ long baud = pgm_read_dword(&table[i].baud);
+ if (baud == speed)
+ {
+ _rx_delay_centering = pgm_read_word(&table[i].rx_delay_centering);
+ _rx_delay_intrabit = pgm_read_word(&table[i].rx_delay_intrabit);
+ _rx_delay_stopbit = pgm_read_word(&table[i].rx_delay_stopbit);
+ _tx_delay = pgm_read_word(&table[i].tx_delay);
+ break;
+ }
+ }
+
+ // Set up RX interrupts, but only if we have a valid RX baud rate
+ if (_rx_delay_stopbit)
+ {
+ if (digitalPinToPCICR(_receivePin))
+ {
+ *digitalPinToPCICR(_receivePin) |= _BV(digitalPinToPCICRbit(_receivePin));
+ *digitalPinToPCMSK(_receivePin) |= _BV(digitalPinToPCMSKbit(_receivePin));
+ }
+ tunedDelay(_tx_delay); // if we were low this establishes the end
+ }
+
+#if _DEBUG
+ pinMode(_DEBUG_PIN1, OUTPUT);
+ pinMode(_DEBUG_PIN2, OUTPUT);
+#endif
+
+ listen();
+}
+
+void SoftwareSerial::end()
+{
+ if (digitalPinToPCMSK(_receivePin))
+ *digitalPinToPCMSK(_receivePin) &= ~_BV(digitalPinToPCMSKbit(_receivePin));
+}
+
+
+// Read data from buffer
+int SoftwareSerial::read()
+{
+ if (!isListening())
+ return -1;
+
+ // Empty buffer?
+ if (_receive_buffer_head == _receive_buffer_tail)
+ return -1;
+
+ // Read from "head"
+ uint8_t d = _receive_buffer[_receive_buffer_head]; // grab next byte
+ _receive_buffer_head = (_receive_buffer_head + 1) % _SS_MAX_RX_BUFF;
+ return d;
+}
+
+int SoftwareSerial::available()
+{
+ if (!isListening())
+ return 0;
+
+ return (_receive_buffer_tail + _SS_MAX_RX_BUFF - _receive_buffer_head) % _SS_MAX_RX_BUFF;
+}
+
+size_t SoftwareSerial::write(uint8_t b)
+{
+ if (_tx_delay == 0) {
+ setWriteError();
+ return 0;
+ }
+
+ uint8_t oldSREG = SREG;
+ cli(); // turn off interrupts for a clean txmit
+
+ // Write the start bit
+ tx_pin_write(_inverse_logic ? HIGH : LOW);
+ tunedDelay(_tx_delay + XMIT_START_ADJUSTMENT);
+
+ // Write each of the 8 bits
+ if (_inverse_logic)
+ {
+ for (byte mask = 0x01; mask; mask <<= 1)
+ {
+ if (b & mask) // choose bit
+ tx_pin_write(LOW); // send 1
+ else
+ tx_pin_write(HIGH); // send 0
+
+ tunedDelay(_tx_delay);
+ }
+
+ tx_pin_write(LOW); // restore pin to natural state
+ }
+ else
+ {
+ for (byte mask = 0x01; mask; mask <<= 1)
+ {
+ if (b & mask) // choose bit
+ tx_pin_write(HIGH); // send 1
+ else
+ tx_pin_write(LOW); // send 0
+
+ tunedDelay(_tx_delay);
+ }
+
+ tx_pin_write(HIGH); // restore pin to natural state
+ }
+
+ SREG = oldSREG; // turn interrupts back on
+ tunedDelay(_tx_delay);
+
+ return 1;
+}
+
+void SoftwareSerial::flush()
+{
+ if (!isListening())
+ return;
+
+ uint8_t oldSREG = SREG;
+ cli();
+ _receive_buffer_head = _receive_buffer_tail = 0;
+ SREG = oldSREG;
+}
+
+int SoftwareSerial::peek()
+{
+ if (!isListening())
+ return -1;
+
+ // Empty buffer?
+ if (_receive_buffer_head == _receive_buffer_tail)
+ return -1;
+
+ // Read from "head"
+ return _receive_buffer[_receive_buffer_head];
+}
diff --git a/libraries/SoftwareSerial/SoftwareSerial.h b/libraries/SoftwareSerial/SoftwareSerial.h
new file mode 100755
index 0000000..a6a60b5
--- /dev/null
+++ b/libraries/SoftwareSerial/SoftwareSerial.h
@@ -0,0 +1,112 @@
+/*
+SoftwareSerial.h (formerly NewSoftSerial.h) -
+Multi-instance software serial library for Arduino/Wiring
+-- Interrupt-driven receive and other improvements by ladyada
+ (http://ladyada.net)
+-- Tuning, circular buffer, derivation from class Print/Stream,
+ multi-instance support, porting to 8MHz processors,
+ various optimizations, PROGMEM delay tables, inverse logic and
+ direct port writing by Mikal Hart (http://www.arduiniana.org)
+-- Pin change interrupt macros by Paul Stoffregen (http://www.pjrc.com)
+-- 20MHz processor support by Garrett Mace (http://www.macetech.com)
+-- ATmega1280/2560 support by Brett Hagman (http://www.roguerobotics.com/)
+
+This library is free software; you can redistribute it and/or
+modify it under the terms of the GNU Lesser General Public
+License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version.
+
+This library is distributed in the hope that it will be useful,
+but WITHOUT ANY WARRANTY; without even the implied warranty of
+MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+Lesser General Public License for more details.
+
+You should have received a copy of the GNU Lesser General Public
+License along with this library; if not, write to the Free Software
+Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
+
+The latest version of this library can always be found at
+http://arduiniana.org.
+*/
+
+#ifndef SoftwareSerial_h
+#define SoftwareSerial_h
+
+#include <inttypes.h>
+#include <Stream.h>
+
+/******************************************************************************
+* Definitions
+******************************************************************************/
+
+#define _SS_MAX_RX_BUFF 64 // RX buffer size
+#ifndef GCC_VERSION
+#define GCC_VERSION (__GNUC__ * 10000 + __GNUC_MINOR__ * 100 + __GNUC_PATCHLEVEL__)
+#endif
+
+class SoftwareSerial : public Stream
+{
+private:
+ // per object data
+ uint8_t _receivePin;
+ uint8_t _receiveBitMask;
+ volatile uint8_t *_receivePortRegister;
+ uint8_t _transmitBitMask;
+ volatile uint8_t *_transmitPortRegister;
+
+ uint16_t _rx_delay_centering;
+ uint16_t _rx_delay_intrabit;
+ uint16_t _rx_delay_stopbit;
+ uint16_t _tx_delay;
+
+ uint16_t _buffer_overflow:1;
+ uint16_t _inverse_logic:1;
+
+ // static data
+ static char _receive_buffer[_SS_MAX_RX_BUFF];
+ static volatile uint8_t _receive_buffer_tail;
+ static volatile uint8_t _receive_buffer_head;
+ static SoftwareSerial *active_object;
+
+ // private methods
+ void recv();
+ uint8_t rx_pin_read();
+ void tx_pin_write(uint8_t pin_state);
+ void setTX(uint8_t transmitPin);
+ void setRX(uint8_t receivePin);
+
+ // private static method for timing
+ static inline void tunedDelay(uint16_t delay);
+
+public:
+ // public methods
+ SoftwareSerial(uint8_t receivePin, uint8_t transmitPin, bool inverse_logic = false);
+ ~SoftwareSerial();
+ void begin(long speed);
+ bool listen();
+ void end();
+ bool isListening() { return this == active_object; }
+ bool overflow() { bool ret = _buffer_overflow; _buffer_overflow = false; return ret; }
+ int peek();
+
+ virtual size_t write(uint8_t byte);
+ virtual int read();
+ virtual int available();
+ virtual void flush();
+
+ using Print::write;
+
+ // public only for easy access by interrupt handlers
+ static inline void handle_interrupt();
+};
+
+// Arduino 0012 workaround
+#undef int
+#undef char
+#undef long
+#undef byte
+#undef float
+#undef abs
+#undef round
+
+#endif
diff --git a/libraries/SoftwareSerial/examples/SoftwareSerialExample/SoftwareSerialExample.ino b/libraries/SoftwareSerial/examples/SoftwareSerialExample/SoftwareSerialExample.ino
new file mode 100644
index 0000000..6101bb1
--- /dev/null
+++ b/libraries/SoftwareSerial/examples/SoftwareSerialExample/SoftwareSerialExample.ino
@@ -0,0 +1,55 @@
+/*
+ Software serial multple serial test
+
+ Receives from the hardware serial, sends to software serial.
+ Receives from software serial, sends to hardware serial.
+
+ The circuit:
+ * RX is digital pin 10 (connect to TX of other device)
+ * TX is digital pin 11 (connect to RX of other device)
+
+ Note:
+ Not all pins on the Mega and Mega 2560 support change interrupts,
+ so only the following can be used for RX:
+ 10, 11, 12, 13, 50, 51, 52, 53, 62, 63, 64, 65, 66, 67, 68, 69
+
+ Not all pins on the Leonardo support change interrupts,
+ so only the following can be used for RX:
+ 8, 9, 10, 11, 14 (MISO), 15 (SCK), 16 (MOSI).
+
+ created back in the mists of time
+ modified 25 May 2012
+ by Tom Igoe
+ based on Mikal Hart's example
+
+ This example code is in the public domain.
+
+ */
+#include <SoftwareSerial.h>
+
+SoftwareSerial mySerial(10, 11); // RX, TX
+
+void setup()
+{
+ // Open serial communications and wait for port to open:
+ Serial.begin(57600);
+ while (!Serial) {
+ ; // wait for serial port to connect. Needed for Leonardo only
+ }
+
+
+ Serial.println("Goodnight moon!");
+
+ // set the data rate for the SoftwareSerial port
+ mySerial.begin(4800);
+ mySerial.println("Hello, world?");
+}
+
+void loop() // run over and over
+{
+ if (mySerial.available())
+ Serial.write(mySerial.read());
+ if (Serial.available())
+ mySerial.write(Serial.read());
+}
+
diff --git a/libraries/SoftwareSerial/examples/TwoPortReceive/TwoPortReceive.ino b/libraries/SoftwareSerial/examples/TwoPortReceive/TwoPortReceive.ino
new file mode 100644
index 0000000..d607ee6
--- /dev/null
+++ b/libraries/SoftwareSerial/examples/TwoPortReceive/TwoPortReceive.ino
@@ -0,0 +1,93 @@
+/*
+ Software serial multple serial test
+
+ Receives from the two software serial ports,
+ sends to the hardware serial port.
+
+ In order to listen on a software port, you call port.listen().
+ When using two software serial ports, you have to switch ports
+ by listen()ing on each one in turn. Pick a logical time to switch
+ ports, like the end of an expected transmission, or when the
+ buffer is empty. This example switches ports when there is nothing
+ more to read from a port
+
+ The circuit:
+ Two devices which communicate serially are needed.
+ * First serial device's TX attached to digital pin 2, RX to pin 3
+ * Second serial device's TX attached to digital pin 4, RX to pin 5
+
+ Note:
+ Not all pins on the Mega and Mega 2560 support change interrupts,
+ so only the following can be used for RX:
+ 10, 11, 12, 13, 50, 51, 52, 53, 62, 63, 64, 65, 66, 67, 68, 69
+
+ Not all pins on the Leonardo support change interrupts,
+ so only the following can be used for RX:
+ 8, 9, 10, 11, 14 (MISO), 15 (SCK), 16 (MOSI).
+
+ created 18 Apr. 2011
+ modified 25 May 2012
+ by Tom Igoe
+ based on Mikal Hart's twoPortRXExample
+
+ This example code is in the public domain.
+
+ */
+
+#include <SoftwareSerial.h>
+// software serial #1: TX = digital pin 10, RX = digital pin 11
+SoftwareSerial portOne(10,11);
+
+// software serial #2: TX = digital pin 8, RX = digital pin 9
+// on the Mega, use other pins instead, since 8 and 9 don't work on the Mega
+SoftwareSerial portTwo(8,9);
+
+void setup()
+{
+ // Open serial communications and wait for port to open:
+ Serial.begin(9600);
+ while (!Serial) {
+ ; // wait for serial port to connect. Needed for Leonardo only
+ }
+
+
+ // Start each software serial port
+ portOne.begin(9600);
+ portTwo.begin(9600);
+}
+
+void loop()
+{
+ // By default, the last intialized port is listening.
+ // when you want to listen on a port, explicitly select it:
+ portOne.listen();
+ Serial.println("Data from port one:");
+ // while there is data coming in, read it
+ // and send to the hardware serial port:
+ while (portOne.available() > 0) {
+ char inByte = portOne.read();
+ Serial.write(inByte);
+ }
+
+ // blank line to separate data from the two ports:
+ Serial.println();
+
+ // Now listen on the second port
+ portTwo.listen();
+ // while there is data coming in, read it
+ // and send to the hardware serial port:
+ Serial.println("Data from port two:");
+ while (portTwo.available() > 0) {
+ char inByte = portTwo.read();
+ Serial.write(inByte);
+ }
+
+ // blank line to separate data from the two ports:
+ Serial.println();
+}
+
+
+
+
+
+
diff --git a/libraries/SoftwareSerial/keywords.txt b/libraries/SoftwareSerial/keywords.txt
new file mode 100755
index 0000000..90d4c15
--- /dev/null
+++ b/libraries/SoftwareSerial/keywords.txt
@@ -0,0 +1,27 @@
+#######################################
+# Syntax Coloring Map for NewSoftSerial
+#######################################
+
+#######################################
+# Datatypes (KEYWORD1)
+#######################################
+
+NewSoftSerial KEYWORD1
+
+#######################################
+# Methods and Functions (KEYWORD2)
+#######################################
+
+begin KEYWORD2
+end KEYWORD2
+read KEYWORD2
+available KEYWORD2
+isListening KEYWORD2
+overflow KEYWORD2
+flush KEYWORD2
+listen KEYWORD2
+
+#######################################
+# Constants (LITERAL1)
+#######################################
+
diff --git a/libraries/Stepper/Stepper.cpp b/libraries/Stepper/Stepper.cpp
new file mode 100644
index 0000000..5d6b5e5
--- /dev/null
+++ b/libraries/Stepper/Stepper.cpp
@@ -0,0 +1,220 @@
+/*
+ Stepper.cpp - - Stepper library for Wiring/Arduino - Version 0.4
+
+ Original library (0.1) by Tom Igoe.
+ Two-wire modifications (0.2) by Sebastian Gassner
+ Combination version (0.3) by Tom Igoe and David Mellis
+ Bug fix for four-wire (0.4) by Tom Igoe, bug fix from Noah Shibley
+
+ Drives a unipolar or bipolar stepper motor using 2 wires or 4 wires
+
+ When wiring multiple stepper motors to a microcontroller,
+ you quickly run out of output pins, with each motor requiring 4 connections.
+
+ By making use of the fact that at any time two of the four motor
+ coils are the inverse of the other two, the number of
+ control connections can be reduced from 4 to 2.
+
+ A slightly modified circuit around a Darlington transistor array or an L293 H-bridge
+ connects to only 2 microcontroler pins, inverts the signals received,
+ and delivers the 4 (2 plus 2 inverted ones) output signals required
+ for driving a stepper motor.
+
+ The sequence of control signals for 4 control wires is as follows:
+
+ Step C0 C1 C2 C3
+ 1 1 0 1 0
+ 2 0 1 1 0
+ 3 0 1 0 1
+ 4 1 0 0 1
+
+ The sequence of controls signals for 2 control wires is as follows
+ (columns C1 and C2 from above):
+
+ Step C0 C1
+ 1 0 1
+ 2 1 1
+ 3 1 0
+ 4 0 0
+
+ The circuits can be found at
+
+http://www.arduino.cc/en/Tutorial/Stepper
+
+
+ */
+
+
+#include "Arduino.h"
+#include "Stepper.h"
+
+/*
+ * two-wire constructor.
+ * Sets which wires should control the motor.
+ */
+Stepper::Stepper(int number_of_steps, int motor_pin_1, int motor_pin_2)
+{
+ this->step_number = 0; // which step the motor is on
+ this->speed = 0; // the motor speed, in revolutions per minute
+ this->direction = 0; // motor direction
+ this->last_step_time = 0; // time stamp in ms of the last step taken
+ this->number_of_steps = number_of_steps; // total number of steps for this motor
+
+ // Arduino pins for the motor control connection:
+ this->motor_pin_1 = motor_pin_1;
+ this->motor_pin_2 = motor_pin_2;
+
+ // setup the pins on the microcontroller:
+ pinMode(this->motor_pin_1, OUTPUT);
+ pinMode(this->motor_pin_2, OUTPUT);
+
+ // When there are only 2 pins, set the other two to 0:
+ this->motor_pin_3 = 0;
+ this->motor_pin_4 = 0;
+
+ // pin_count is used by the stepMotor() method:
+ this->pin_count = 2;
+}
+
+
+/*
+ * constructor for four-pin version
+ * Sets which wires should control the motor.
+ */
+
+Stepper::Stepper(int number_of_steps, int motor_pin_1, int motor_pin_2, int motor_pin_3, int motor_pin_4)
+{
+ this->step_number = 0; // which step the motor is on
+ this->speed = 0; // the motor speed, in revolutions per minute
+ this->direction = 0; // motor direction
+ this->last_step_time = 0; // time stamp in ms of the last step taken
+ this->number_of_steps = number_of_steps; // total number of steps for this motor
+
+ // Arduino pins for the motor control connection:
+ this->motor_pin_1 = motor_pin_1;
+ this->motor_pin_2 = motor_pin_2;
+ this->motor_pin_3 = motor_pin_3;
+ this->motor_pin_4 = motor_pin_4;
+
+ // setup the pins on the microcontroller:
+ pinMode(this->motor_pin_1, OUTPUT);
+ pinMode(this->motor_pin_2, OUTPUT);
+ pinMode(this->motor_pin_3, OUTPUT);
+ pinMode(this->motor_pin_4, OUTPUT);
+
+ // pin_count is used by the stepMotor() method:
+ this->pin_count = 4;
+}
+
+/*
+ Sets the speed in revs per minute
+
+*/
+void Stepper::setSpeed(long whatSpeed)
+{
+ this->step_delay = 60L * 1000L / this->number_of_steps / whatSpeed;
+}
+
+/*
+ Moves the motor steps_to_move steps. If the number is negative,
+ the motor moves in the reverse direction.
+ */
+void Stepper::step(int steps_to_move)
+{
+ int steps_left = abs(steps_to_move); // how many steps to take
+
+ // determine direction based on whether steps_to_mode is + or -:
+ if (steps_to_move > 0) {this->direction = 1;}
+ if (steps_to_move < 0) {this->direction = 0;}
+
+
+ // decrement the number of steps, moving one step each time:
+ while(steps_left > 0) {
+ // move only if the appropriate delay has passed:
+ if (millis() - this->last_step_time >= this->step_delay) {
+ // get the timeStamp of when you stepped:
+ this->last_step_time = millis();
+ // increment or decrement the step number,
+ // depending on direction:
+ if (this->direction == 1) {
+ this->step_number++;
+ if (this->step_number == this->number_of_steps) {
+ this->step_number = 0;
+ }
+ }
+ else {
+ if (this->step_number == 0) {
+ this->step_number = this->number_of_steps;
+ }
+ this->step_number--;
+ }
+ // decrement the steps left:
+ steps_left--;
+ // step the motor to step number 0, 1, 2, or 3:
+ stepMotor(this->step_number % 4);
+ }
+ }
+}
+
+/*
+ * Moves the motor forward or backwards.
+ */
+void Stepper::stepMotor(int thisStep)
+{
+ if (this->pin_count == 2) {
+ switch (thisStep) {
+ case 0: /* 01 */
+ digitalWrite(motor_pin_1, LOW);
+ digitalWrite(motor_pin_2, HIGH);
+ break;
+ case 1: /* 11 */
+ digitalWrite(motor_pin_1, HIGH);
+ digitalWrite(motor_pin_2, HIGH);
+ break;
+ case 2: /* 10 */
+ digitalWrite(motor_pin_1, HIGH);
+ digitalWrite(motor_pin_2, LOW);
+ break;
+ case 3: /* 00 */
+ digitalWrite(motor_pin_1, LOW);
+ digitalWrite(motor_pin_2, LOW);
+ break;
+ }
+ }
+ if (this->pin_count == 4) {
+ switch (thisStep) {
+ case 0: // 1010
+ digitalWrite(motor_pin_1, HIGH);
+ digitalWrite(motor_pin_2, LOW);
+ digitalWrite(motor_pin_3, HIGH);
+ digitalWrite(motor_pin_4, LOW);
+ break;
+ case 1: // 0110
+ digitalWrite(motor_pin_1, LOW);
+ digitalWrite(motor_pin_2, HIGH);
+ digitalWrite(motor_pin_3, HIGH);
+ digitalWrite(motor_pin_4, LOW);
+ break;
+ case 2: //0101
+ digitalWrite(motor_pin_1, LOW);
+ digitalWrite(motor_pin_2, HIGH);
+ digitalWrite(motor_pin_3, LOW);
+ digitalWrite(motor_pin_4, HIGH);
+ break;
+ case 3: //1001
+ digitalWrite(motor_pin_1, HIGH);
+ digitalWrite(motor_pin_2, LOW);
+ digitalWrite(motor_pin_3, LOW);
+ digitalWrite(motor_pin_4, HIGH);
+ break;
+ }
+ }
+}
+
+/*
+ version() returns the version of the library:
+*/
+int Stepper::version(void)
+{
+ return 4;
+}
diff --git a/libraries/Stepper/Stepper.h b/libraries/Stepper/Stepper.h
new file mode 100644
index 0000000..4094aee
--- /dev/null
+++ b/libraries/Stepper/Stepper.h
@@ -0,0 +1,83 @@
+/*
+ Stepper.h - - Stepper library for Wiring/Arduino - Version 0.4
+
+ Original library (0.1) by Tom Igoe.
+ Two-wire modifications (0.2) by Sebastian Gassner
+ Combination version (0.3) by Tom Igoe and David Mellis
+ Bug fix for four-wire (0.4) by Tom Igoe, bug fix from Noah Shibley
+
+ Drives a unipolar or bipolar stepper motor using 2 wires or 4 wires
+
+ When wiring multiple stepper motors to a microcontroller,
+ you quickly run out of output pins, with each motor requiring 4 connections.
+
+ By making use of the fact that at any time two of the four motor
+ coils are the inverse of the other two, the number of
+ control connections can be reduced from 4 to 2.
+
+ A slightly modified circuit around a Darlington transistor array or an L293 H-bridge
+ connects to only 2 microcontroler pins, inverts the signals received,
+ and delivers the 4 (2 plus 2 inverted ones) output signals required
+ for driving a stepper motor.
+
+ The sequence of control signals for 4 control wires is as follows:
+
+ Step C0 C1 C2 C3
+ 1 1 0 1 0
+ 2 0 1 1 0
+ 3 0 1 0 1
+ 4 1 0 0 1
+
+ The sequence of controls signals for 2 control wires is as follows
+ (columns C1 and C2 from above):
+
+ Step C0 C1
+ 1 0 1
+ 2 1 1
+ 3 1 0
+ 4 0 0
+
+ The circuits can be found at
+ http://www.arduino.cc/en/Tutorial/Stepper
+*/
+
+// ensure this library description is only included once
+#ifndef Stepper_h
+#define Stepper_h
+
+// library interface description
+class Stepper {
+ public:
+ // constructors:
+ Stepper(int number_of_steps, int motor_pin_1, int motor_pin_2);
+ Stepper(int number_of_steps, int motor_pin_1, int motor_pin_2, int motor_pin_3, int motor_pin_4);
+
+ // speed setter method:
+ void setSpeed(long whatSpeed);
+
+ // mover method:
+ void step(int number_of_steps);
+
+ int version(void);
+
+ private:
+ void stepMotor(int this_step);
+
+ int direction; // Direction of rotation
+ int speed; // Speed in RPMs
+ unsigned long step_delay; // delay between steps, in ms, based on speed
+ int number_of_steps; // total number of steps this motor can take
+ int pin_count; // whether you're driving the motor with 2 or 4 pins
+ int step_number; // which step the motor is on
+
+ // motor pin numbers:
+ int motor_pin_1;
+ int motor_pin_2;
+ int motor_pin_3;
+ int motor_pin_4;
+
+ long last_step_time; // time stamp in ms of when the last step was taken
+};
+
+#endif
+
diff --git a/libraries/Stepper/examples/MotorKnob/MotorKnob.ino b/libraries/Stepper/examples/MotorKnob/MotorKnob.ino
new file mode 100644
index 0000000..d428186
--- /dev/null
+++ b/libraries/Stepper/examples/MotorKnob/MotorKnob.ino
@@ -0,0 +1,41 @@
+/*
+ * MotorKnob
+ *
+ * A stepper motor follows the turns of a potentiometer
+ * (or other sensor) on analog input 0.
+ *
+ * http://www.arduino.cc/en/Reference/Stepper
+ * This example code is in the public domain.
+ */
+
+#include <Stepper.h>
+
+// change this to the number of steps on your motor
+#define STEPS 100
+
+// create an instance of the stepper class, specifying
+// the number of steps of the motor and the pins it's
+// attached to
+Stepper stepper(STEPS, 8, 9, 10, 11);
+
+// the previous reading from the analog input
+int previous = 0;
+
+void setup()
+{
+ // set the speed of the motor to 30 RPMs
+ stepper.setSpeed(30);
+}
+
+void loop()
+{
+ // get the sensor value
+ int val = analogRead(0);
+
+ // move a number of steps equal to the change in the
+ // sensor reading
+ stepper.step(val - previous);
+
+ // remember the previous value of the sensor
+ previous = val;
+} \ No newline at end of file
diff --git a/libraries/Stepper/examples/stepper_oneRevolution/stepper_oneRevolution.ino b/libraries/Stepper/examples/stepper_oneRevolution/stepper_oneRevolution.ino
new file mode 100644
index 0000000..2dbb57d
--- /dev/null
+++ b/libraries/Stepper/examples/stepper_oneRevolution/stepper_oneRevolution.ino
@@ -0,0 +1,44 @@
+
+/*
+ Stepper Motor Control - one revolution
+
+ This program drives a unipolar or bipolar stepper motor.
+ The motor is attached to digital pins 8 - 11 of the Arduino.
+
+ The motor should revolve one revolution in one direction, then
+ one revolution in the other direction.
+
+
+ Created 11 Mar. 2007
+ Modified 30 Nov. 2009
+ by Tom Igoe
+
+ */
+
+#include <Stepper.h>
+
+const int stepsPerRevolution = 200; // change this to fit the number of steps per revolution
+ // for your motor
+
+// initialize the stepper library on pins 8 through 11:
+Stepper myStepper(stepsPerRevolution, 8,9,10,11);
+
+void setup() {
+ // set the speed at 60 rpm:
+ myStepper.setSpeed(60);
+ // initialize the serial port:
+ Serial.begin(9600);
+}
+
+void loop() {
+ // step one revolution in one direction:
+ Serial.println("clockwise");
+ myStepper.step(stepsPerRevolution);
+ delay(500);
+
+ // step one revolution in the other direction:
+ Serial.println("counterclockwise");
+ myStepper.step(-stepsPerRevolution);
+ delay(500);
+}
+
diff --git a/libraries/Stepper/examples/stepper_oneStepAtATime/stepper_oneStepAtATime.ino b/libraries/Stepper/examples/stepper_oneStepAtATime/stepper_oneStepAtATime.ino
new file mode 100644
index 0000000..36d3299
--- /dev/null
+++ b/libraries/Stepper/examples/stepper_oneStepAtATime/stepper_oneStepAtATime.ino
@@ -0,0 +1,44 @@
+
+/*
+ Stepper Motor Control - one step at a time
+
+ This program drives a unipolar or bipolar stepper motor.
+ The motor is attached to digital pins 8 - 11 of the Arduino.
+
+ The motor will step one step at a time, very slowly. You can use this to
+ test that you've got the four wires of your stepper wired to the correct
+ pins. If wired correctly, all steps should be in the same direction.
+
+ Use this also to count the number of steps per revolution of your motor,
+ if you don't know it. Then plug that number into the oneRevolution
+ example to see if you got it right.
+
+ Created 30 Nov. 2009
+ by Tom Igoe
+
+ */
+
+#include <Stepper.h>
+
+const int stepsPerRevolution = 200; // change this to fit the number of steps per revolution
+ // for your motor
+
+// initialize the stepper library on pins 8 through 11:
+Stepper myStepper(stepsPerRevolution, 8,9,10,11);
+
+int stepCount = 0; // number of steps the motor has taken
+
+void setup() {
+ // initialize the serial port:
+ Serial.begin(9600);
+}
+
+void loop() {
+ // step one step:
+ myStepper.step(1);
+ Serial.print("steps:" );
+ Serial.println(stepCount);
+ stepCount++;
+ delay(500);
+}
+
diff --git a/libraries/Stepper/examples/stepper_speedControl/stepper_speedControl.ino b/libraries/Stepper/examples/stepper_speedControl/stepper_speedControl.ino
new file mode 100644
index 0000000..1a67a55
--- /dev/null
+++ b/libraries/Stepper/examples/stepper_speedControl/stepper_speedControl.ino
@@ -0,0 +1,48 @@
+
+/*
+ Stepper Motor Control - speed control
+
+ This program drives a unipolar or bipolar stepper motor.
+ The motor is attached to digital pins 8 - 11 of the Arduino.
+ A potentiometer is connected to analog input 0.
+
+ The motor will rotate in a clockwise direction. The higher the potentiometer value,
+ the faster the motor speed. Because setSpeed() sets the delay between steps,
+ you may notice the motor is less responsive to changes in the sensor value at
+ low speeds.
+
+ Created 30 Nov. 2009
+ Modified 28 Oct 2010
+ by Tom Igoe
+
+ */
+
+#include <Stepper.h>
+
+const int stepsPerRevolution = 200; // change this to fit the number of steps per revolution
+// for your motor
+
+
+// initialize the stepper library on pins 8 through 11:
+Stepper myStepper(stepsPerRevolution, 8,9,10,11);
+
+int stepCount = 0; // number of steps the motor has taken
+
+void setup() {
+ // nothing to do inside the setup
+}
+
+void loop() {
+ // read the sensor value:
+ int sensorReading = analogRead(A0);
+ // map it to a range from 0 to 100:
+ int motorSpeed = map(sensorReading, 0, 1023, 0, 100);
+ // set the motor speed:
+ if (motorSpeed > 0) {
+ myStepper.setSpeed(motorSpeed);
+ // step 1/100 of a revolution:
+ myStepper.step(stepsPerRevolution/100);
+ }
+}
+
+
diff --git a/libraries/Stepper/keywords.txt b/libraries/Stepper/keywords.txt
new file mode 100644
index 0000000..19a0fad
--- /dev/null
+++ b/libraries/Stepper/keywords.txt
@@ -0,0 +1,28 @@
+#######################################
+# Syntax Coloring Map For Test
+#######################################
+
+#######################################
+# Datatypes (KEYWORD1)
+#######################################
+
+Stepper KEYWORD1
+
+#######################################
+# Methods and Functions (KEYWORD2)
+#######################################
+
+step KEYWORD2
+setSpeed KEYWORD2
+version KEYWORD2
+
+######################################
+# Instances (KEYWORD2)
+#######################################
+direction KEYWORD2
+speed KEYWORD2
+
+
+#######################################
+# Constants (LITERAL1)
+#######################################
diff --git a/libraries/WiFi/WiFi.cpp b/libraries/WiFi/WiFi.cpp
new file mode 100755
index 0000000..c0cb001
--- /dev/null
+++ b/libraries/WiFi/WiFi.cpp
@@ -0,0 +1,199 @@
+#include "wifi_drv.h"
+#include "WiFi.h"
+
+extern "C" {
+ #include "utility/wl_definitions.h"
+ #include "utility/wl_types.h"
+ #include "debug.h"
+}
+
+// XXX: don't make assumptions about the value of MAX_SOCK_NUM.
+int16_t WiFiClass::_state[MAX_SOCK_NUM] = { 0, 0, 0, 0 };
+uint16_t WiFiClass::_server_port[MAX_SOCK_NUM] = { 0, 0, 0, 0 };
+
+WiFiClass::WiFiClass()
+{
+ // Driver initialization
+ init();
+}
+
+void WiFiClass::init()
+{
+ WiFiDrv::wifiDriverInit();
+}
+
+uint8_t WiFiClass::getSocket()
+{
+ for (uint8_t i = 0; i < MAX_SOCK_NUM; ++i)
+ {
+ if (WiFiClass::_server_port[i] == 0)
+ {
+ return i;
+ }
+ }
+ return NO_SOCKET_AVAIL;
+}
+
+char* WiFiClass::firmwareVersion()
+{
+ return WiFiDrv::getFwVersion();
+}
+
+int WiFiClass::begin(char* ssid)
+{
+ uint8_t status = WL_IDLE_STATUS;
+ uint8_t attempts = WL_MAX_ATTEMPT_CONNECTION;
+
+ if (WiFiDrv::wifiSetNetwork(ssid, strlen(ssid)) != WL_FAILURE)
+ {
+ do
+ {
+ delay(WL_DELAY_START_CONNECTION);
+ status = WiFiDrv::getConnectionStatus();
+ }
+ while ((( status == WL_IDLE_STATUS)||(status == WL_SCAN_COMPLETED))&&(--attempts>0));
+ }else
+ {
+ status = WL_CONNECT_FAILED;
+ }
+ return status;
+}
+
+int WiFiClass::begin(char* ssid, uint8_t key_idx, const char *key)
+{
+ uint8_t status = WL_IDLE_STATUS;
+ uint8_t attempts = WL_MAX_ATTEMPT_CONNECTION;
+
+ // set encryption key
+ if (WiFiDrv::wifiSetKey(ssid, strlen(ssid), key_idx, key, strlen(key)) != WL_FAILURE)
+ {
+ do
+ {
+ delay(WL_DELAY_START_CONNECTION);
+ status = WiFiDrv::getConnectionStatus();
+ }
+ while ((( status == WL_IDLE_STATUS)||(status == WL_SCAN_COMPLETED))&&(--attempts>0));
+ }else{
+ status = WL_CONNECT_FAILED;
+ }
+ return status;
+}
+
+int WiFiClass::begin(char* ssid, const char *passphrase)
+{
+ uint8_t status = WL_IDLE_STATUS;
+ uint8_t attempts = WL_MAX_ATTEMPT_CONNECTION;
+
+ // set passphrase
+ if (WiFiDrv::wifiSetPassphrase(ssid, strlen(ssid), passphrase, strlen(passphrase))!= WL_FAILURE)
+ {
+ do
+ {
+ delay(WL_DELAY_START_CONNECTION);
+ status = WiFiDrv::getConnectionStatus();
+ }
+ while ((( status == WL_IDLE_STATUS)||(status == WL_SCAN_COMPLETED))&&(--attempts>0));
+ }else{
+ status = WL_CONNECT_FAILED;
+ }
+ return status;
+}
+
+int WiFiClass::disconnect()
+{
+ return WiFiDrv::disconnect();
+}
+
+uint8_t* WiFiClass::macAddress(uint8_t* mac)
+{
+ uint8_t* _mac = WiFiDrv::getMacAddress();
+ memcpy(mac, _mac, WL_MAC_ADDR_LENGTH);
+ return mac;
+}
+
+IPAddress WiFiClass::localIP()
+{
+ IPAddress ret;
+ WiFiDrv::getIpAddress(ret);
+ return ret;
+}
+
+IPAddress WiFiClass::subnetMask()
+{
+ IPAddress ret;
+ WiFiDrv::getSubnetMask(ret);
+ return ret;
+}
+
+IPAddress WiFiClass::gatewayIP()
+{
+ IPAddress ret;
+ WiFiDrv::getGatewayIP(ret);
+ return ret;
+}
+
+char* WiFiClass::SSID()
+{
+ return WiFiDrv::getCurrentSSID();
+}
+
+uint8_t* WiFiClass::BSSID(uint8_t* bssid)
+{
+ uint8_t* _bssid = WiFiDrv::getCurrentBSSID();
+ memcpy(bssid, _bssid, WL_MAC_ADDR_LENGTH);
+ return bssid;
+}
+
+int32_t WiFiClass::RSSI()
+{
+ return WiFiDrv::getCurrentRSSI();
+}
+
+uint8_t WiFiClass::encryptionType()
+{
+ return WiFiDrv::getCurrentEncryptionType();
+}
+
+
+int8_t WiFiClass::scanNetworks()
+{
+ uint8_t attempts = 10;
+ uint8_t numOfNetworks = 0;
+
+ if (WiFiDrv::startScanNetworks() == WL_FAILURE)
+ return WL_FAILURE;
+ do
+ {
+ delay(2000);
+ numOfNetworks = WiFiDrv::getScanNetworks();
+ }
+ while (( numOfNetworks == 0)&&(--attempts>0));
+ return numOfNetworks;
+}
+
+char* WiFiClass::SSID(uint8_t networkItem)
+{
+ return WiFiDrv::getSSIDNetoworks(networkItem);
+}
+
+int32_t WiFiClass::RSSI(uint8_t networkItem)
+{
+ return WiFiDrv::getRSSINetoworks(networkItem);
+}
+
+uint8_t WiFiClass::encryptionType(uint8_t networkItem)
+{
+ return WiFiDrv::getEncTypeNetowrks(networkItem);
+}
+
+uint8_t WiFiClass::status()
+{
+ return WiFiDrv::getConnectionStatus();
+}
+
+int WiFiClass::hostByName(const char* aHostname, IPAddress& aResult)
+{
+ return WiFiDrv::getHostByName(aHostname, aResult);
+}
+
+WiFiClass WiFi;
diff --git a/libraries/WiFi/WiFi.h b/libraries/WiFi/WiFi.h
new file mode 100755
index 0000000..9a86701
--- /dev/null
+++ b/libraries/WiFi/WiFi.h
@@ -0,0 +1,183 @@
+#ifndef WiFi_h
+#define WiFi_h
+
+#include <inttypes.h>
+
+extern "C" {
+ #include "utility/wl_definitions.h"
+ #include "utility/wl_types.h"
+}
+
+#include "IPAddress.h"
+#include "WiFiClient.h"
+#include "WiFiServer.h"
+
+class WiFiClass
+{
+private:
+
+ static void init();
+public:
+ static int16_t _state[MAX_SOCK_NUM];
+ static uint16_t _server_port[MAX_SOCK_NUM];
+
+ WiFiClass();
+
+ /*
+ * Get the first socket available
+ */
+ static uint8_t getSocket();
+
+ /*
+ * Get firmware version
+ */
+ static char* firmwareVersion();
+
+
+ /* Start Wifi connection for OPEN networks
+ *
+ * param ssid: Pointer to the SSID string.
+ */
+ int begin(char* ssid);
+
+ /* Start Wifi connection with WEP encryption.
+ * Configure a key into the device. The key type (WEP-40, WEP-104)
+ * is determined by the size of the key (5 bytes for WEP-40, 13 bytes for WEP-104).
+ *
+ * param ssid: Pointer to the SSID string.
+ * param key_idx: The key index to set. Valid values are 0-3.
+ * param key: Key input buffer.
+ */
+ int begin(char* ssid, uint8_t key_idx, const char* key);
+
+ /* Start Wifi connection with passphrase
+ * the most secure supported mode will be automatically selected
+ *
+ * param ssid: Pointer to the SSID string.
+ * param passphrase: Passphrase. Valid characters in a passphrase
+ * must be between ASCII 32-126 (decimal).
+ */
+ int begin(char* ssid, const char *passphrase);
+
+ /*
+ * Disconnect from the network
+ *
+ * return: one value of wl_status_t enum
+ */
+ int disconnect(void);
+
+ /*
+ * Get the interface MAC address.
+ *
+ * return: pointer to uint8_t array with length WL_MAC_ADDR_LENGTH
+ */
+ uint8_t* macAddress(uint8_t* mac);
+
+ /*
+ * Get the interface IP address.
+ *
+ * return: Ip address value
+ */
+ IPAddress localIP();
+
+ /*
+ * Get the interface subnet mask address.
+ *
+ * return: subnet mask address value
+ */
+ IPAddress subnetMask();
+
+ /*
+ * Get the gateway ip address.
+ *
+ * return: gateway ip address value
+ */
+ IPAddress gatewayIP();
+
+ /*
+ * Return the current SSID associated with the network
+ *
+ * return: ssid string
+ */
+ char* SSID();
+
+ /*
+ * Return the current BSSID associated with the network.
+ * It is the MAC address of the Access Point
+ *
+ * return: pointer to uint8_t array with length WL_MAC_ADDR_LENGTH
+ */
+ uint8_t* BSSID(uint8_t* bssid);
+
+ /*
+ * Return the current RSSI /Received Signal Strength in dBm)
+ * associated with the network
+ *
+ * return: signed value
+ */
+ int32_t RSSI();
+
+ /*
+ * Return the Encryption Type associated with the network
+ *
+ * return: one value of wl_enc_type enum
+ */
+ uint8_t encryptionType();
+
+ /*
+ * Start scan WiFi networks available
+ *
+ * return: Number of discovered networks
+ */
+ int8_t scanNetworks();
+
+ /*
+ * Return the SSID discovered during the network scan.
+ *
+ * param networkItem: specify from which network item want to get the information
+ *
+ * return: ssid string of the specified item on the networks scanned list
+ */
+ char* SSID(uint8_t networkItem);
+
+ /*
+ * Return the encryption type of the networks discovered during the scanNetworks
+ *
+ * param networkItem: specify from which network item want to get the information
+ *
+ * return: encryption type (enum wl_enc_type) of the specified item on the networks scanned list
+ */
+ uint8_t encryptionType(uint8_t networkItem);
+
+ /*
+ * Return the RSSI of the networks discovered during the scanNetworks
+ *
+ * param networkItem: specify from which network item want to get the information
+ *
+ * return: signed value of RSSI of the specified item on the networks scanned list
+ */
+ int32_t RSSI(uint8_t networkItem);
+
+ /*
+ * Return Connection status.
+ *
+ * return: one of the value defined in wl_status_t
+ */
+ uint8_t status();
+
+ /*
+ * Resolve the given hostname to an IP address.
+ * param aHostname: Name to be resolved
+ * param aResult: IPAddress structure to store the returned IP address
+ * result: 1 if aIPAddrString was successfully converted to an IP address,
+ * else error code
+ */
+ int hostByName(const char* aHostname, IPAddress& aResult);
+
+ friend class WiFiClient;
+ friend class WiFiServer;
+};
+
+extern WiFiClass WiFi;
+
+#endif
diff --git a/libraries/WiFi/WiFiClient.cpp b/libraries/WiFi/WiFiClient.cpp
new file mode 100755
index 0000000..83c0d10
--- /dev/null
+++ b/libraries/WiFi/WiFiClient.cpp
@@ -0,0 +1,179 @@
+extern "C" {
+ #include "utility/wl_definitions.h"
+ #include "utility/wl_types.h"
+ #include "socket.h"
+ #include "string.h"
+ #include "utility/debug.h"
+}
+
+#include "WiFi.h"
+#include "WiFiClient.h"
+#include "WiFiServer.h"
+#include "server_drv.h"
+
+
+uint16_t WiFiClient::_srcport = 1024;
+
+WiFiClient::WiFiClient() : _sock(MAX_SOCK_NUM) {
+}
+
+WiFiClient::WiFiClient(uint8_t sock) : _sock(sock) {
+}
+
+int WiFiClient::connect(const char* host, uint16_t port) {
+ IPAddress remote_addr;
+ if (WiFi.hostByName(host, remote_addr))
+ {
+ return connect(remote_addr, port);
+ }
+ return 0;
+}
+
+int WiFiClient::connect(IPAddress ip, uint16_t port) {
+ _sock = getFirstSocket();
+ if (_sock != NO_SOCKET_AVAIL)
+ {
+ ServerDrv::startClient(uint32_t(ip), port, _sock);
+ WiFiClass::_state[_sock] = _sock;
+
+ unsigned long start = millis();
+
+ // wait 4 second for the connection to close
+ while (!connected() && millis() - start < 10000)
+ delay(1);
+
+ if (!connected())
+ {
+ return 0;
+ }
+ }else{
+ Serial.println("No Socket available");
+ return 0;
+ }
+ return 1;
+}
+
+size_t WiFiClient::write(uint8_t b) {
+ return write(&b, 1);
+}
+
+size_t WiFiClient::write(const uint8_t *buf, size_t size) {
+ if (_sock >= MAX_SOCK_NUM)
+ {
+ setWriteError();
+ return 0;
+ }
+ if (size==0)
+ {
+ setWriteError();
+ return 0;
+ }
+
+
+ if (!ServerDrv::sendData(_sock, buf, size))
+ {
+ setWriteError();
+ return 0;
+ }
+ if (!ServerDrv::checkDataSent(_sock))
+ {
+ setWriteError();
+ return 0;
+ }
+
+ return size;
+}
+
+int WiFiClient::available() {
+ if (_sock != 255)
+ {
+ return ServerDrv::availData(_sock);
+ }
+
+ return 0;
+}
+
+int WiFiClient::read() {
+ uint8_t b;
+ if (!available())
+ return -1;
+
+ ServerDrv::getData(_sock, &b);
+ return b;
+}
+
+
+int WiFiClient::read(uint8_t* buf, size_t size) {
+ if (!ServerDrv::getDataBuf(_sock, buf, &size))
+ return -1;
+ return 0;
+}
+
+int WiFiClient::peek() {
+ uint8_t b;
+ if (!available())
+ return -1;
+
+ ServerDrv::getData(_sock, &b, 1);
+ return b;
+}
+
+void WiFiClient::flush() {
+ while (available())
+ read();
+}
+
+void WiFiClient::stop() {
+
+ if (_sock == 255)
+ return;
+
+ ServerDrv::stopClient(_sock);
+
+ unsigned long start = millis();
+
+
+ // wait a second for the connection to close
+ while (status() != CLOSED && millis() - start < 1000)
+ delay(1);
+ _sock = 255;
+}
+
+uint8_t WiFiClient::connected() {
+
+ if (_sock == 255) {
+ return 0;
+ } else {
+ uint8_t s = status();
+
+ return !(s == LISTEN || s == CLOSED || s == FIN_WAIT_1 ||
+ s == FIN_WAIT_2 || s == TIME_WAIT ||
+ s == SYN_SENT || s== SYN_RCVD ||
+ (s == CLOSE_WAIT && !available()));
+ }
+}
+
+uint8_t WiFiClient::status() {
+ if (_sock == 255) {
+ return CLOSED;
+ } else {
+ return ServerDrv::getClientState(_sock);
+ }
+}
+
+WiFiClient::operator bool() {
+ return _sock != 255;
+}
+
+// Private Methods
+uint8_t WiFiClient::getFirstSocket()
+{
+ for (int i = 0; i < MAX_SOCK_NUM; i++) {
+ if (WiFiClass::_state[i] == 0)
+ {
+ return i;
+ }
+ }
+ return SOCK_NOT_AVAIL;
+}
+
diff --git a/libraries/WiFi/WiFiClient.h b/libraries/WiFi/WiFiClient.h
new file mode 100755
index 0000000..5a7f0f3
--- /dev/null
+++ b/libraries/WiFi/WiFiClient.h
@@ -0,0 +1,40 @@
+#ifndef wificlient_h
+#define wificlient_h
+#include "Arduino.h"
+#include "Print.h"
+#include "Client.h"
+#include "IPAddress.h"
+
+class WiFiClient : public Client {
+
+public:
+ WiFiClient();
+ WiFiClient(uint8_t sock);
+
+ uint8_t status();
+ virtual int connect(IPAddress ip, uint16_t port);
+ virtual int connect(const char *host, uint16_t port);
+ virtual size_t write(uint8_t);
+ virtual size_t write(const uint8_t *buf, size_t size);
+ virtual int available();
+ virtual int read();
+ virtual int read(uint8_t *buf, size_t size);
+ virtual int peek();
+ virtual void flush();
+ virtual void stop();
+ virtual uint8_t connected();
+ virtual operator bool();
+
+ friend class WiFiServer;
+
+ using Print::write;
+
+private:
+ static uint16_t _srcport;
+ uint8_t _sock; //not used
+ uint16_t _socket;
+
+ uint8_t getFirstSocket();
+};
+
+#endif
diff --git a/libraries/WiFi/WiFiServer.cpp b/libraries/WiFi/WiFiServer.cpp
new file mode 100644
index 0000000..77dbac0
--- /dev/null
+++ b/libraries/WiFi/WiFiServer.cpp
@@ -0,0 +1,88 @@
+#include <string.h>
+#include "server_drv.h"
+
+extern "C" {
+ #include "utility/debug.h"
+}
+
+#include "WiFi.h"
+#include "WiFiClient.h"
+#include "WiFiServer.h"
+
+WiFiServer::WiFiServer(uint16_t port)
+{
+ _port = port;
+}
+
+void WiFiServer::begin()
+{
+ uint8_t _sock = WiFiClass::getSocket();
+ if (_sock != NO_SOCKET_AVAIL)
+ {
+ ServerDrv::startServer(_port, _sock);
+ WiFiClass::_server_port[_sock] = _port;
+ }
+}
+
+WiFiClient WiFiServer::available(byte* status)
+{
+ static int cycle_server_down = 0;
+ const int TH_SERVER_DOWN = 50;
+
+ for (int sock = 0; sock < MAX_SOCK_NUM; sock++)
+ {
+ if (WiFiClass::_server_port[sock] == _port)
+ {
+ WiFiClient client(sock);
+ uint8_t _status = client.status();
+ uint8_t _ser_status = this->status();
+
+ if (status != NULL)
+ *status = _status;
+
+ //server not in listen state, restart it
+ if ((_ser_status == 0)&&(cycle_server_down++ > TH_SERVER_DOWN))
+ {
+ ServerDrv::startServer(_port, sock);
+ cycle_server_down = 0;
+ }
+
+ if (_status == ESTABLISHED)
+ {
+ return client; //TODO
+ }
+ }
+ }
+
+ return WiFiClient(255);
+}
+
+uint8_t WiFiServer::status() {
+ return ServerDrv::getServerState(0);
+}
+
+
+size_t WiFiServer::write(uint8_t b)
+{
+ return write(&b, 1);
+}
+
+size_t WiFiServer::write(const uint8_t *buffer, size_t size)
+{
+ size_t n = 0;
+
+ for (int sock = 0; sock < MAX_SOCK_NUM; sock++)
+ {
+ if (WiFiClass::_server_port[sock] != 0)
+ {
+ WiFiClient client(sock);
+
+ if (WiFiClass::_server_port[sock] == _port &&
+ client.status() == ESTABLISHED)
+ {
+ n+=client.write(buffer, size);
+ }
+ }
+ }
+ return n;
+}
diff --git a/libraries/WiFi/WiFiServer.h b/libraries/WiFi/WiFiServer.h
new file mode 100755
index 0000000..68b574c
--- /dev/null
+++ b/libraries/WiFi/WiFiServer.h
@@ -0,0 +1,27 @@
+#ifndef wifiserver_h
+#define wifiserver_h
+
+extern "C" {
+ #include "utility/wl_definitions.h"
+}
+
+#include "Server.h"
+
+class WiFiClient;
+
+class WiFiServer : public Server {
+private:
+ uint16_t _port;
+ void* pcb;
+public:
+ WiFiServer(uint16_t);
+ WiFiClient available(uint8_t* status = NULL);
+ void begin();
+ virtual size_t write(uint8_t);
+ virtual size_t write(const uint8_t *buf, size_t size);
+ uint8_t status();
+
+ using Print::write;
+};
+
+#endif
diff --git a/libraries/WiFi/examples/ConnectNoEncryption/ConnectNoEncryption.ino b/libraries/WiFi/examples/ConnectNoEncryption/ConnectNoEncryption.ino
new file mode 100644
index 0000000..f42a7f3
--- /dev/null
+++ b/libraries/WiFi/examples/ConnectNoEncryption/ConnectNoEncryption.ino
@@ -0,0 +1,121 @@
+/*
+
+ This example connects to an unencrypted Wifi network.
+ Then it prints the MAC address of the Wifi shield,
+ the IP address obtained, and other network details.
+
+ Circuit:
+ * WiFi shield attached
+
+ created 13 July 2010
+ by dlf (Metodo2 srl)
+ modified 31 May 2012
+ by Tom Igoe
+ */
+ #include <WiFi.h>
+
+char ssid[] = "yourNetwork"; // the name of your network
+int status = WL_IDLE_STATUS; // the Wifi radio's status
+
+void setup() {
+ //Initialize serial and wait for port to open:
+ Serial.begin(9600);
+ while (!Serial) {
+ ; // wait for serial port to connect. Needed for Leonardo only
+ }
+
+ // check for the presence of the shield:
+ if (WiFi.status() == WL_NO_SHIELD) {
+ Serial.println("WiFi shield not present");
+ // don't continue:
+ while(true);
+ }
+
+ // attempt to connect to Wifi network:
+ while ( status != WL_CONNECTED) {
+ Serial.print("Attempting to connect to open SSID: ");
+ Serial.println(ssid);
+ status = WiFi.begin(ssid);
+
+ // wait 10 seconds for connection:
+ delay(10000);
+ }
+
+ // you're connected now, so print out the data:
+ Serial.print("You're connected to the network");
+ printCurrentNet();
+ printWifiData();
+}
+
+void loop() {
+ // check the network connection once every 10 seconds:
+ delay(10000);
+ printCurrentNet();
+}
+
+void printWifiData() {
+ // print your WiFi shield's IP address:
+ IPAddress ip = WiFi.localIP();
+ Serial.print("IP Address: ");
+ Serial.println(ip);
+ Serial.println(ip);
+
+ // print your MAC address:
+ byte mac[6];
+ WiFi.macAddress(mac);
+ Serial.print("MAC address: ");
+ Serial.print(mac[5],HEX);
+ Serial.print(":");
+ Serial.print(mac[4],HEX);
+ Serial.print(":");
+ Serial.print(mac[3],HEX);
+ Serial.print(":");
+ Serial.print(mac[2],HEX);
+ Serial.print(":");
+ Serial.print(mac[1],HEX);
+ Serial.print(":");
+ Serial.println(mac[0],HEX);
+
+ // print your subnet mask:
+ IPAddress subnet = WiFi.subnetMask();
+ Serial.print("NetMask: ");
+ Serial.println(subnet);
+
+ // print your gateway address:
+ IPAddress gateway = WiFi.gatewayIP();
+ Serial.print("Gateway: ");
+ Serial.println(gateway);
+}
+
+void printCurrentNet() {
+ // print the SSID of the network you're attached to:
+ Serial.print("SSID: ");
+ Serial.println(WiFi.SSID());
+
+ // print the MAC address of the router you're attached to:
+ byte bssid[6];
+ WiFi.BSSID(bssid);
+ Serial.print("BSSID: ");
+ Serial.print(bssid[5],HEX);
+ Serial.print(":");
+ Serial.print(bssid[4],HEX);
+ Serial.print(":");
+ Serial.print(bssid[3],HEX);
+ Serial.print(":");
+ Serial.print(bssid[2],HEX);
+ Serial.print(":");
+ Serial.print(bssid[1],HEX);
+ Serial.print(":");
+ Serial.println(bssid[0],HEX);
+
+ // print the received signal strength:
+ long rssi = WiFi.RSSI();
+ Serial.print("signal strength (RSSI):");
+ Serial.println(rssi);
+
+ // print the encryption type:
+ byte encryption = WiFi.encryptionType();
+ Serial.print("Encryption Type:");
+ Serial.println(encryption,HEX);
+}
+
diff --git a/libraries/WiFi/examples/ConnectWithWEP/ConnectWithWEP.ino b/libraries/WiFi/examples/ConnectWithWEP/ConnectWithWEP.ino
new file mode 100644
index 0000000..19736b5
--- /dev/null
+++ b/libraries/WiFi/examples/ConnectWithWEP/ConnectWithWEP.ino
@@ -0,0 +1,126 @@
+/*
+
+ This example connects to a WEP-encrypted Wifi network.
+ Then it prints the MAC address of the Wifi shield,
+ the IP address obtained, and other network details.
+
+ If you use 40-bit WEP, you need a key that is 10 characters long,
+ and the characters must be hexadecimal (0-9 or A-F).
+ e.g. for 40-bit, ABBADEAF01 will work, but ABBADEAF won't work
+ (too short) and ABBAISDEAF won't work (I and S are not
+ hexadecimal characters).
+
+ For 128-bit, you need a string that is 26 characters long.
+ D0D0DEADF00DABBADEAFBEADED will work because it's 26 characters,
+ all in the 0-9, A-F range.
+
+ Circuit:
+ * WiFi shield attached
+
+ created 13 July 2010
+ by dlf (Metodo2 srl)
+ modified 31 May 2012
+ by Tom Igoe
+ */
+#include <WiFi.h>
+
+char ssid[] = "yourNetwork"; // your network SSID (name)
+char key[] = "D0D0DEADF00DABBADEAFBEADED"; // your network key
+int keyIndex = 0; // your network key Index number
+int status = WL_IDLE_STATUS; // the Wifi radio's status
+
+void setup() {
+ //Initialize serial and wait for port to open:
+ Serial.begin(9600);
+ while (!Serial) {
+ ; // wait for serial port to connect. Needed for Leonardo only
+ }
+
+ // check for the presence of the shield:
+ if (WiFi.status() == WL_NO_SHIELD) {
+ Serial.println("WiFi shield not present");
+ // don't continue:
+ while(true);
+ }
+
+ // attempt to connect to Wifi network:
+ while ( status != WL_CONNECTED) {
+ Serial.print("Attempting to connect to WEP network, SSID: ");
+ Serial.println(ssid);
+ status = WiFi.begin(ssid, keyIndex, key);
+
+ // wait 10 seconds for connection:
+ delay(10000);
+ }
+
+ // once you are connected :
+ Serial.print("You're connected to the network");
+ printCurrentNet();
+ printWifiData();
+}
+
+void loop() {
+ // check the network connection once every 10 seconds:
+ delay(10000);
+ printCurrentNet();
+}
+
+void printWifiData() {
+ // print your WiFi shield's IP address:
+ IPAddress ip = WiFi.localIP();
+ Serial.print("IP Address: ");
+ Serial.println(ip);
+ Serial.println(ip);
+
+ // print your MAC address:
+ byte mac[6];
+ WiFi.macAddress(mac);
+ Serial.print("MAC address: ");
+ Serial.print(mac[5],HEX);
+ Serial.print(":");
+ Serial.print(mac[4],HEX);
+ Serial.print(":");
+ Serial.print(mac[3],HEX);
+ Serial.print(":");
+ Serial.print(mac[2],HEX);
+ Serial.print(":");
+ Serial.print(mac[1],HEX);
+ Serial.print(":");
+ Serial.println(mac[0],HEX);
+}
+
+void printCurrentNet() {
+ // print the SSID of the network you're attached to:
+ Serial.print("SSID: ");
+ Serial.println(WiFi.SSID());
+
+ // print the MAC address of the router you're attached to:
+ byte bssid[6];
+ WiFi.BSSID(bssid);
+ Serial.print("BSSID: ");
+ Serial.print(bssid[5],HEX);
+ Serial.print(":");
+ Serial.print(bssid[4],HEX);
+ Serial.print(":");
+ Serial.print(bssid[3],HEX);
+ Serial.print(":");
+ Serial.print(bssid[2],HEX);
+ Serial.print(":");
+ Serial.print(bssid[1],HEX);
+ Serial.print(":");
+ Serial.println(bssid[0],HEX);
+
+ // print the received signal strength:
+ long rssi = WiFi.RSSI();
+ Serial.print("signal strength (RSSI):");
+ Serial.println(rssi);
+
+ // print the encryption type:
+ byte encryption = WiFi.encryptionType();
+ Serial.print("Encryption Type:");
+ Serial.println(encryption,HEX);
+ Serial.println();
+}
+
+
+
diff --git a/libraries/WiFi/examples/ConnectWithWPA/ConnectWithWPA.ino b/libraries/WiFi/examples/ConnectWithWPA/ConnectWithWPA.ino
new file mode 100644
index 0000000..fcc33ec
--- /dev/null
+++ b/libraries/WiFi/examples/ConnectWithWPA/ConnectWithWPA.ino
@@ -0,0 +1,116 @@
+/*
+
+ This example connects to an unencrypted Wifi network.
+ Then it prints the MAC address of the Wifi shield,
+ the IP address obtained, and other network details.
+
+ Circuit:
+ * WiFi shield attached
+
+ created 13 July 2010
+ by dlf (Metodo2 srl)
+ modified 31 May 2012
+ by Tom Igoe
+ */
+ #include <WiFi.h>
+
+char ssid[] = "yourNetwork"; // your network SSID (name)
+char pass[] = "secretPassword"; // your network password
+int status = WL_IDLE_STATUS; // the Wifi radio's status
+
+void setup() {
+ //Initialize serial and wait for port to open:
+ Serial.begin(9600);
+ while (!Serial) {
+ ; // wait for serial port to connect. Needed for Leonardo only
+ }
+
+ // check for the presence of the shield:
+ if (WiFi.status() == WL_NO_SHIELD) {
+ Serial.println("WiFi shield not present");
+ // don't continue:
+ while(true);
+ }
+
+ // attempt to connect to Wifi network:
+ while ( status != WL_CONNECTED) {
+ Serial.print("Attempting to connect to WPA SSID: ");
+ Serial.println(ssid);
+ // Connect to WPA/WPA2 network:
+ status = WiFi.begin(ssid, pass);
+
+ // wait 10 seconds for connection:
+ delay(10000);
+ }
+
+ // you're connected now, so print out the data:
+ Serial.print("You're connected to the network");
+ printCurrentNet();
+ printWifiData();
+
+}
+
+void loop() {
+ // check the network connection once every 10 seconds:
+ delay(10000);
+ printCurrentNet();
+}
+
+void printWifiData() {
+ // print your WiFi shield's IP address:
+ IPAddress ip = WiFi.localIP();
+ Serial.print("IP Address: ");
+ Serial.println(ip);
+ Serial.println(ip);
+
+ // print your MAC address:
+ byte mac[6];
+ WiFi.macAddress(mac);
+ Serial.print("MAC address: ");
+ Serial.print(mac[5],HEX);
+ Serial.print(":");
+ Serial.print(mac[4],HEX);
+ Serial.print(":");
+ Serial.print(mac[3],HEX);
+ Serial.print(":");
+ Serial.print(mac[2],HEX);
+ Serial.print(":");
+ Serial.print(mac[1],HEX);
+ Serial.print(":");
+ Serial.println(mac[0],HEX);
+
+}
+
+void printCurrentNet() {
+ // print the SSID of the network you're attached to:
+ Serial.print("SSID: ");
+ Serial.println(WiFi.SSID());
+
+ // print the MAC address of the router you're attached to:
+ byte bssid[6];
+ WiFi.BSSID(bssid);
+ Serial.print("BSSID: ");
+ Serial.print(bssid[5],HEX);
+ Serial.print(":");
+ Serial.print(bssid[4],HEX);
+ Serial.print(":");
+ Serial.print(bssid[3],HEX);
+ Serial.print(":");
+ Serial.print(bssid[2],HEX);
+ Serial.print(":");
+ Serial.print(bssid[1],HEX);
+ Serial.print(":");
+ Serial.println(bssid[0],HEX);
+
+ // print the received signal strength:
+ long rssi = WiFi.RSSI();
+ Serial.print("signal strength (RSSI):");
+ Serial.println(rssi);
+
+ // print the encryption type:
+ byte encryption = WiFi.encryptionType();
+ Serial.print("Encryption Type:");
+ Serial.println(encryption,HEX);
+ Serial.println();
+}
+
diff --git a/libraries/WiFi/examples/ScanNetworks/ScanNetworks.ino b/libraries/WiFi/examples/ScanNetworks/ScanNetworks.ino
new file mode 100644
index 0000000..93b3000
--- /dev/null
+++ b/libraries/WiFi/examples/ScanNetworks/ScanNetworks.ino
@@ -0,0 +1,119 @@
+/*
+
+ This example prints the Wifi shield's MAC address, and
+ scans for available Wifi networks using the Wifi shield.
+ Every ten seconds, it scans again. It doesn't actually
+ connect to any network, so no encryption scheme is specified.
+
+ Circuit:
+ * WiFi shield attached
+
+ created 13 July 2010
+ by dlf (Metodo2 srl)
+ modified 21 Junn 2012
+ by Tom Igoe and Jaymes Dec
+ */
+
+
+#include <SPI.h>
+#include <WiFi.h>
+
+void setup() {
+ //Initialize serial and wait for port to open:
+ Serial.begin(9600);
+ while (!Serial) {
+ ; // wait for serial port to connect. Needed for Leonardo only
+ }
+
+ // check for the presence of the shield:
+ if (WiFi.status() == WL_NO_SHIELD) {
+ Serial.println("WiFi shield not present");
+ // don't continue:
+ while(true);
+ }
+
+ // Print WiFi MAC address:
+ printMacAddress();
+
+ // scan for existing networks:
+ Serial.println("Scanning available networks...");
+ listNetworks();
+}
+
+void loop() {
+ delay(10000);
+ // scan for existing networks:
+ Serial.println("Scanning available networks...");
+ listNetworks();
+}
+
+void printMacAddress() {
+ // the MAC address of your Wifi shield
+ byte mac[6];
+
+ // print your MAC address:
+ WiFi.macAddress(mac);
+ Serial.print("MAC: ");
+ Serial.print(mac[5],HEX);
+ Serial.print(":");
+ Serial.print(mac[4],HEX);
+ Serial.print(":");
+ Serial.print(mac[3],HEX);
+ Serial.print(":");
+ Serial.print(mac[2],HEX);
+ Serial.print(":");
+ Serial.print(mac[1],HEX);
+ Serial.print(":");
+ Serial.println(mac[0],HEX);
+}
+
+void listNetworks() {
+ // scan for nearby networks:
+ Serial.println("** Scan Networks **");
+ int numSsid = WiFi.scanNetworks();
+ if (numSsid == -1)
+ {
+ Serial.println("Couldn't get a wifi connection");
+ while(true);
+ }
+
+ // print the list of networks seen:
+ Serial.print("number of available networks:");
+ Serial.println(numSsid);
+
+ // print the network number and name for each network found:
+ for (int thisNet = 0; thisNet<numSsid; thisNet++) {
+ Serial.print(thisNet);
+ Serial.print(") ");
+ Serial.print(WiFi.SSID(thisNet));
+ Serial.print("\tSignal: ");
+ Serial.print(WiFi.RSSI(thisNet));
+ Serial.print(" dBm");
+ Serial.print("\tEncryption: ");
+ printEncryptionType(WiFi.encryptionType(thisNet));
+ }
+}
+
+void printEncryptionType(int thisType) {
+ // read the encryption type and print out the name:
+ switch (thisType) {
+ case ENC_TYPE_WEP:
+ Serial.println("WEP");
+ break;
+ case ENC_TYPE_TKIP:
+ Serial.println("WPA");
+ break;
+ case ENC_TYPE_CCMP:
+ Serial.println("WPA2");
+ break;
+ case ENC_TYPE_NONE:
+ Serial.println("None");
+ break;
+ case ENC_TYPE_AUTO:
+ Serial.println("Auto");
+ break;
+ }
+}
+
+
+
diff --git a/libraries/WiFi/examples/WifiChatServer/WifiChatServer.ino b/libraries/WiFi/examples/WifiChatServer/WifiChatServer.ino
new file mode 100644
index 0000000..e4b1d1a
--- /dev/null
+++ b/libraries/WiFi/examples/WifiChatServer/WifiChatServer.ino
@@ -0,0 +1,111 @@
+/*
+ Chat Server
+
+ A simple server that distributes any incoming messages to all
+ connected clients. To use telnet to your device's IP address and type.
+ You can see the client's input in the serial monitor as well.
+
+ This example is written for a network using WPA encryption. For
+ WEP or WPA, change the Wifi.begin() call accordingly.
+
+
+ Circuit:
+ * WiFi shield attached
+
+ created 18 Dec 2009
+ by David A. Mellis
+ modified 31 May 2012
+ by Tom Igoe
+
+ */
+
+#include <SPI.h>
+#include <WiFi.h>
+
+char ssid[] = "yourNetwork"; // your network SSID (name)
+char pass[] = "secretPassword"; // your network password (use for WPA, or use as key for WEP)
+
+int keyIndex = 0; // your network key Index number (needed only for WEP)
+
+int status = WL_IDLE_STATUS;
+
+WiFiServer server(23);
+
+boolean alreadyConnected = false; // whether or not the client was connected previously
+
+void setup() {
+ //Initialize serial and wait for port to open:
+ Serial.begin(9600);
+ while (!Serial) {
+ ; // wait for serial port to connect. Needed for Leonardo only
+ }
+
+ // check for the presence of the shield:
+ if (WiFi.status() == WL_NO_SHIELD) {
+ Serial.println("WiFi shield not present");
+ // don't continue:
+ while(true);
+ }
+
+ // attempt to connect to Wifi network:
+ while ( status != WL_CONNECTED) {
+ Serial.print("Attempting to connect to SSID: ");
+ Serial.println(ssid);
+ // Connect to WPA/WPA2 network. Change this line if using open or WEP network:
+ status = WiFi.begin(ssid, pass);
+
+ // wait 10 seconds for connection:
+ delay(10000);
+ }
+ // start the server:
+ server.begin();
+ // you're connected now, so print out the status:
+ printWifiStatus();
+ }
+
+
+void loop() {
+ // wait for a new client:
+ WiFiClient client = server.available();
+
+
+ // when the client sends the first byte, say hello:
+ if (client) {
+ if (!alreadyConnected) {
+ // clead out the input buffer:
+ client.flush();
+ Serial.println("We have a new client");
+ client.println("Hello, client!");
+ alreadyConnected = true;
+ }
+
+ if (client.available() > 0) {
+ // read the bytes incoming from the client:
+ char thisChar = client.read();
+ // echo the bytes back to the client:
+ server.write(thisChar);
+ // echo the bytes to the server as well:
+ Serial.write(thisChar);
+ }
+ }
+}
+
+
+void printWifiStatus() {
+ // print the SSID of the network you're attached to:
+ Serial.print("SSID: ");
+ Serial.println(WiFi.SSID());
+
+ // print your WiFi shield's IP address:
+ IPAddress ip = WiFi.localIP();
+ Serial.print("IP Address: ");
+ Serial.println(ip);
+
+ // print the received signal strength:
+ long rssi = WiFi.RSSI();
+ Serial.print("signal strength (RSSI):");
+ Serial.print(rssi);
+ Serial.println(" dBm");
+}
+
+
diff --git a/libraries/WiFi/examples/WifiPachubeClient/WifiPachubeClient.ino b/libraries/WiFi/examples/WifiPachubeClient/WifiPachubeClient.ino
new file mode 100644
index 0000000..f8ffc07
--- /dev/null
+++ b/libraries/WiFi/examples/WifiPachubeClient/WifiPachubeClient.ino
@@ -0,0 +1,190 @@
+/*
+ Wifi Pachube sensor client
+
+ This sketch connects an analog sensor to Pachube (http://www.pachube.com)
+ using an Arduino Wifi shield.
+
+ This example is written for a network using WPA encryption. For
+ WEP or WPA, change the Wifi.begin() call accordingly.
+
+ This example has been updated to use version 2.0 of the Pachube API.
+ To make it work, create a feed with a datastream, and give it the ID
+ sensor1. Or change the code below to match your feed.
+
+ Circuit:
+ * Analog sensor attached to analog in 0
+ * Wifi shield attached to pins 10, 11, 12, 13
+
+ created 13 Mar 2012
+ modified 31 May 2012
+ by Tom Igoe
+ modified 8 Sept 2012
+ by Scott Fitzgerald
+
+ This code is in the public domain.
+
+ */
+#include <SPI.h>
+#include <WiFi.h>
+
+#define APIKEY "YOUR API KEY GOES HERE" // replace your pachube api key here
+#define FEEDID 00000 // replace your feed ID
+#define USERAGENT "My Arduino Project" // user agent is the project name
+
+char ssid[] = "yourNetwork"; // your network SSID (name)
+char pass[] = "secretPassword"; // your network password
+
+int status = WL_IDLE_STATUS;
+
+// initialize the library instance:
+WiFiClient client;
+// if you don't want to use DNS (and reduce your sketch size)
+// use the numeric IP instead of the name for the server:
+IPAddress server(216,52,233,121); // numeric IP for api.pachube.com
+//char server[] = "api.pachube.com"; // name address for pachube API
+
+unsigned long lastConnectionTime = 0; // last time you connected to the server, in milliseconds
+boolean lastConnected = false; // state of the connection last time through the main loop
+const unsigned long postingInterval = 10*1000; //delay between updates to pachube.com
+
+void setup() {
+ //Initialize serial and wait for port to open:
+ Serial.begin(9600);
+ while (!Serial) {
+ ; // wait for serial port to connect. Needed for Leonardo only
+ }
+
+ // check for the presence of the shield:
+ if (WiFi.status() == WL_NO_SHIELD) {
+ Serial.println("WiFi shield not present");
+ // don't continue:
+ while(true);
+ }
+
+ // attempt to connect to Wifi network:
+ while ( status != WL_CONNECTED) {
+ Serial.print("Attempting to connect to SSID: ");
+ Serial.println(ssid);
+ // Connect to WPA/WPA2 network. Change this line if using open or WEP network:
+ status = WiFi.begin(ssid, pass);
+
+ // wait 10 seconds for connection:
+ delay(10000);
+ }
+ // you're connected now, so print out the status:
+ printWifiStatus();
+}
+
+
+void loop() {
+ // read the analog sensor:
+ int sensorReading = analogRead(A0);
+
+ // if there's incoming data from the net connection.
+ // send it out the serial port. This is for debugging
+ // purposes only:
+ while (client.available()) {
+ char c = client.read();
+ Serial.print(c);
+ }
+
+ // if there's no net connection, but there was one last time
+ // through the loop, then stop the client:
+ if (!client.connected() && lastConnected) {
+ Serial.println();
+ Serial.println("disconnecting.");
+ client.stop();
+ }
+
+ // if you're not connected, and ten seconds have passed since
+ // your last connection, then connect again and send data:
+ if(!client.connected() && (millis() - lastConnectionTime > postingInterval)) {
+ sendData(sensorReading);
+ }
+ // store the state of the connection for next time through
+ // the loop:
+ lastConnected = client.connected();
+}
+
+// this method makes a HTTP connection to the server:
+void sendData(int thisData) {
+ // if there's a successful connection:
+ if (client.connect(server, 80)) {
+ Serial.println("connecting...");
+ // send the HTTP PUT request:
+ client.print("PUT /v2/feeds/");
+ client.print(FEEDID);
+ client.println(".csv HTTP/1.1");
+ client.println("Host: api.pachube.com");
+ client.print("X-ApiKey: ");
+ client.println(APIKEY);
+ client.print("User-Agent: ");
+ client.println(USERAGENT);
+ client.print("Content-Length: ");
+
+ // calculate the length of the sensor reading in bytes:
+ // 8 bytes for "sensor1," + number of digits of the data:
+ int thisLength = 8 + getLength(thisData);
+ client.println(thisLength);
+
+ // last pieces of the HTTP PUT request:
+ client.println("Content-Type: text/csv");
+ client.println("Connection: close");
+ client.println();
+
+ // here's the actual content of the PUT request:
+ client.print("sensor1,");
+ client.println(thisData);
+
+ }
+ else {
+ // if you couldn't make a connection:
+ Serial.println("connection failed");
+ Serial.println();
+ Serial.println("disconnecting.");
+ client.stop();
+ }
+ // note the time that the connection was made or attempted:
+ lastConnectionTime = millis();
+}
+
+
+// This method calculates the number of digits in the
+// sensor reading. Since each digit of the ASCII decimal
+// representation is a byte, the number of digits equals
+// the number of bytes:
+
+int getLength(int someValue) {
+ // there's at least one byte:
+ int digits = 1;
+ // continually divide the value by ten,
+ // adding one to the digit count for each
+ // time you divide, until you're at 0:
+ int dividend = someValue /10;
+ while (dividend > 0) {
+ dividend = dividend /10;
+ digits++;
+ }
+ // return the number of digits:
+ return digits;
+}
+
+void printWifiStatus() {
+ // print the SSID of the network you're attached to:
+ Serial.print("SSID: ");
+ Serial.println(WiFi.SSID());
+
+ // print your WiFi shield's IP address:
+ IPAddress ip = WiFi.localIP();
+ Serial.print("IP Address: ");
+ Serial.println(ip);
+
+ // print the received signal strength:
+ long rssi = WiFi.RSSI();
+ Serial.print("signal strength (RSSI):");
+ Serial.print(rssi);
+ Serial.println(" dBm");
+}
+
+
+
diff --git a/libraries/WiFi/examples/WifiPachubeClientString/WifiPachubeClientString.ino b/libraries/WiFi/examples/WifiPachubeClientString/WifiPachubeClientString.ino
new file mode 100644
index 0000000..243fe83
--- /dev/null
+++ b/libraries/WiFi/examples/WifiPachubeClientString/WifiPachubeClientString.ino
@@ -0,0 +1,177 @@
+/*
+ Wifi Pachube sensor client with Strings
+
+ This sketch connects an analog sensor to Pachube (http://www.pachube.com)
+ using a Arduino Wifi shield.
+
+ This example is written for a network using WPA encryption. For
+ WEP or WPA, change the Wifi.begin() call accordingly.
+
+ This example has been updated to use version 2.0 of the pachube.com API.
+ To make it work, create a feed with a datastream, and give it the ID
+ sensor1. Or change the code below to match your feed.
+
+ This example uses the String library, which is part of the Arduino core from
+ version 0019.
+
+ Circuit:
+ * Analog sensor attached to analog in 0
+ * Wifi shield attached to pins 10, 11, 12, 13
+
+ created 16 Mar 2012
+ modified 31 May 2012
+ by Tom Igoe
+ modified 8 Sept 2012
+ by Scott Fitzgerald
+
+ This code is in the public domain.
+
+ */
+
+#include <SPI.h>
+#include <WiFi.h>
+
+#define APIKEY "YOUR API KEY GOES HERE" // replace your pachube api key here
+#define FEEDID 00000 // replace your feed ID
+#define USERAGENT "My Arduino Project" // user agent is the project name
+
+char ssid[] = "yourNetwork"; // your network SSID (name)
+char pass[] = "secretPassword"; // your network password
+
+int status = WL_IDLE_STATUS;
+
+// initialize the library instance:
+WiFiClient client;
+
+// if you don't want to use DNS (and reduce your sketch size)
+// use the numeric IP instead of the name for the server:
+//IPAddress server(216,52,233,121); // numeric IP for api.pachube.com
+char server[] = "api.pachube.com"; // name address for pachube API
+
+unsigned long lastConnectionTime = 0; // last time you connected to the server, in milliseconds
+boolean lastConnected = false; // state of the connection last time through the main loop
+const unsigned long postingInterval = 10*1000; //delay between updates to pachube.com
+
+void setup() {
+ //Initialize serial and wait for port to open:
+ Serial.begin(9600);
+ while (!Serial) {
+ ; // wait for serial port to connect. Needed for Leonardo only
+ }
+
+ // check for the presence of the shield:
+ if (WiFi.status() == WL_NO_SHIELD) {
+ Serial.println("WiFi shield not present");
+ // don't continue:
+ while(true);
+ }
+
+ // attempt to connect to Wifi network:
+ while ( status != WL_CONNECTED) {
+ Serial.print("Attempting to connect to SSID: ");
+ Serial.println(ssid);
+ // Connect to WPA/WPA2 network. Change this line if using open or WEP network:
+ status = WiFi.begin(ssid, pass);
+
+ // wait 10 seconds for connection:
+ delay(10000);
+ }
+ // you're connected now, so print out the status:
+ printWifiStatus();
+}
+
+void loop() {
+ // read the analog sensor:
+ int sensorReading = analogRead(A0);
+ // convert the data to a String to send it:
+
+ String dataString = "sensor1,";
+ dataString += sensorReading;
+
+ // you can append multiple readings to this String if your
+ // pachube feed is set up to handle multiple values:
+ int otherSensorReading = analogRead(A1);
+ dataString += "\nsensor2,";
+ dataString += otherSensorReading;
+
+ // if there's incoming data from the net connection.
+ // send it out the serial port. This is for debugging
+ // purposes only:
+ while (client.available()) {
+ char c = client.read();
+ Serial.print(c);
+ }
+
+ // if there's no net connection, but there was one last time
+ // through the loop, then stop the client:
+ if (!client.connected() && lastConnected) {
+ Serial.println();
+ Serial.println("disconnecting.");
+ client.stop();
+ }
+
+ // if you're not connected, and ten seconds have passed since
+ // your last connection, then connect again and send data:
+ if(!client.connected() && (millis() - lastConnectionTime > postingInterval)) {
+ sendData(dataString);
+ }
+ // store the state of the connection for next time through
+ // the loop:
+ lastConnected = client.connected();
+}
+
+// this method makes a HTTP connection to the server:
+void sendData(String thisData) {
+ // if there's a successful connection:
+ if (client.connect(server, 80)) {
+ Serial.println("connecting...");
+ // send the HTTP PUT request:
+ client.print("PUT /v2/feeds/");
+ client.print(FEEDID);
+ client.println(".csv HTTP/1.1");
+ client.println("Host: api.pachube.com");
+ client.print("X-ApiKey: ");
+ client.println(APIKEY);
+ client.print("User-Agent: ");
+ client.println(USERAGENT);
+ client.print("Content-Length: ");
+ client.println(thisData.length());
+
+ // last pieces of the HTTP PUT request:
+ client.println("Content-Type: text/csv");
+ client.println("Connection: close");
+ client.println();
+
+ // here's the actual content of the PUT request:
+ client.println(thisData);
+ }
+ else {
+ // if you couldn't make a connection:
+ Serial.println("connection failed");
+ Serial.println();
+ Serial.println("disconnecting.");
+ client.stop();
+ }
+ // note the time that the connection was made or attempted:
+ lastConnectionTime = millis();
+}
+
+
+void printWifiStatus() {
+ // print the SSID of the network you're attached to:
+ Serial.print("SSID: ");
+ Serial.println(WiFi.SSID());
+
+ // print your WiFi shield's IP address:
+ IPAddress ip = WiFi.localIP();
+ Serial.print("IP Address: ");
+ Serial.println(ip);
+
+ // print the received signal strength:
+ long rssi = WiFi.RSSI();
+ Serial.print("signal strength (RSSI):");
+ Serial.print(rssi);
+ Serial.println(" dBm");
+}
+
+
diff --git a/libraries/WiFi/examples/WifiTwitterClient/WifiTwitterClient.ino b/libraries/WiFi/examples/WifiTwitterClient/WifiTwitterClient.ino
new file mode 100644
index 0000000..3dc2c8d
--- /dev/null
+++ b/libraries/WiFi/examples/WifiTwitterClient/WifiTwitterClient.ino
@@ -0,0 +1,163 @@
+/*
+ Wifi Twitter Client with Strings
+
+ This sketch connects to Twitter using using an Arduino WiFi shield.
+ It parses the XML returned, and looks for <text>this is a tweet</text>
+
+ This example is written for a network using WPA encryption. For
+ WEP or WPA, change the Wifi.begin() call accordingly.
+
+ This example uses the String library, which is part of the Arduino core from
+ version 0019.
+
+ Circuit:
+ * WiFi shield attached to pins 10, 11, 12, 13
+
+ created 23 apr 2012
+ modified 31 May 2012
+ by Tom Igoe
+
+ This code is in the public domain.
+
+ */
+#include <SPI.h>
+#include <WiFi.h>
+
+char ssid[] = "yourNetwork"; // your network SSID (name)
+char pass[] = "password"; // your network password (use for WPA, or use as key for WEP)
+int keyIndex = 0; // your network key Index number (needed only for WEP)
+
+int status = WL_IDLE_STATUS; // status of the wifi connection
+
+// initialize the library instance:
+WiFiClient client;
+
+const unsigned long requestInterval = 30*1000; // delay between requests; 30 seconds
+
+// if you don't want to use DNS (and reduce your sketch size)
+// use the numeric IP instead of the name for the server:
+//IPAddress server(199,59,149,200); // numeric IP for api.twitter.com
+char server[] = "api.twitter.com"; // name address for twitter API
+
+boolean requested; // whether you've made a request since connecting
+unsigned long lastAttemptTime = 0; // last time you connected to the server, in milliseconds
+
+String currentLine = ""; // string to hold the text from server
+String tweet = ""; // string to hold the tweet
+boolean readingTweet = false; // if you're currently reading the tweet
+
+void setup() {
+ // reserve space for the strings:
+ currentLine.reserve(256);
+ tweet.reserve(150);
+ //Initialize serial and wait for port to open:
+ Serial.begin(9600);
+ while (!Serial) {
+ ; // wait for serial port to connect. Needed for Leonardo only
+ }
+
+ // check for the presence of the shield:
+ if (WiFi.status() == WL_NO_SHIELD) {
+ Serial.println("WiFi shield not present");
+ // don't continue:
+ while(true);
+ }
+
+ // attempt to connect to Wifi network:
+ while ( status != WL_CONNECTED) {
+ Serial.print("Attempting to connect to SSID: ");
+ Serial.println(ssid);
+ // Connect to WPA/WPA2 network. Change this line if using open or WEP network:
+ status = WiFi.begin(ssid, pass);
+
+ // wait 10 seconds for connection:
+ delay(10000);
+ }
+ // you're connected now, so print out the status:
+ printWifiStatus();
+ connectToServer();
+}
+
+void loop()
+{
+ if (client.connected()) {
+ if (client.available()) {
+ // read incoming bytes:
+ char inChar = client.read();
+
+ // add incoming byte to end of line:
+ currentLine += inChar;
+
+ // if you get a newline, clear the line:
+ if (inChar == '\n') {
+ currentLine = "";
+ }
+ // if the current line ends with <text>, it will
+ // be followed by the tweet:
+ if ( currentLine.endsWith("<text>")) {
+ // tweet is beginning. Clear the tweet string:
+ readingTweet = true;
+ tweet = "";
+ // break out of the loop so this character isn't added to the tweet:
+ return;
+ }
+ // if you're currently reading the bytes of a tweet,
+ // add them to the tweet String:
+ if (readingTweet) {
+ if (inChar != '<') {
+ tweet += inChar;
+ }
+ else {
+ // if you got a "<" character,
+ // you've reached the end of the tweet:
+ readingTweet = false;
+ Serial.println(tweet);
+ // close the connection to the server:
+ client.stop();
+ }
+ }
+ }
+ }
+ else if (millis() - lastAttemptTime > requestInterval) {
+ // if you're not connected, and two minutes have passed since
+ // your last connection, then attempt to connect again:
+ connectToServer();
+ }
+}
+
+void connectToServer() {
+ // attempt to connect, and wait a millisecond:
+ Serial.println("connecting to server...");
+ if (client.connect(server, 80)) {
+ Serial.println("making HTTP request...");
+ // make HTTP GET request to twitter:
+ client.println("GET /1/statuses/user_timeline.xml?screen_name=arduino HTTP/1.1");
+ client.println("Host:api.twitter.com");
+ client.println("Connection:close");
+ client.println();
+ }
+ // note the time of this connect attempt:
+ lastAttemptTime = millis();
+}
+
+
+void printWifiStatus() {
+ // print the SSID of the network you're attached to:
+ Serial.print("SSID: ");
+ Serial.println(WiFi.SSID());
+
+ // print your WiFi shield's IP address:
+ IPAddress ip = WiFi.localIP();
+ Serial.print("IP Address: ");
+ Serial.println(ip);
+
+ // print the received signal strength:
+ long rssi = WiFi.RSSI();
+ Serial.print("signal strength (RSSI):");
+ Serial.print(rssi);
+ Serial.println(" dBm");
+}
+
+
+
+
diff --git a/libraries/WiFi/examples/WifiWebClient/WifiWebClient.ino b/libraries/WiFi/examples/WifiWebClient/WifiWebClient.ino
new file mode 100644
index 0000000..17f44a3
--- /dev/null
+++ b/libraries/WiFi/examples/WifiWebClient/WifiWebClient.ino
@@ -0,0 +1,121 @@
+
+/*
+ Web client
+
+ This sketch connects to a website (http://www.google.com)
+ using a WiFi shield.
+
+ This example is written for a network using WPA encryption. For
+ WEP or WPA, change the Wifi.begin() call accordingly.
+
+ This example is written for a network using WPA encryption. For
+ WEP or WPA, change the Wifi.begin() call accordingly.
+
+ Circuit:
+ * WiFi shield attached
+
+ created 13 July 2010
+ by dlf (Metodo2 srl)
+ modified 31 May 2012
+ by Tom Igoe
+ */
+
+
+#include <SPI.h>
+#include <WiFi.h>
+
+char ssid[] = "yourNetwork"; // your network SSID (name)
+char pass[] = "secretPassword"; // your network password (use for WPA, or use as key for WEP)
+int keyIndex = 0; // your network key Index number (needed only for WEP)
+
+int status = WL_IDLE_STATUS;
+// if you don't want to use DNS (and reduce your sketch size)
+// use the numeric IP instead of the name for the server:
+IPAddress server(173,194,73,105); // numeric IP for Google (no DNS)
+//char server[] = "www.google.com"; // name address for Google (using DNS)
+
+// Initialize the Ethernet client library
+// with the IP address and port of the server
+// that you want to connect to (port 80 is default for HTTP):
+WiFiClient client;
+
+void setup() {
+ //Initialize serial and wait for port to open:
+ Serial.begin(9600);
+ while (!Serial) {
+ ; // wait for serial port to connect. Needed for Leonardo only
+ }
+
+ // check for the presence of the shield:
+ if (WiFi.status() == WL_NO_SHIELD) {
+ Serial.println("WiFi shield not present");
+ // don't continue:
+ while(true);
+ }
+
+ // attempt to connect to Wifi network:
+ while ( status != WL_CONNECTED) {
+ Serial.print("Attempting to connect to SSID: ");
+ Serial.println(ssid);
+ // Connect to WPA/WPA2 network. Change this line if using open or WEP network:
+ status = WiFi.begin(ssid, pass);
+
+ // wait 10 seconds for connection:
+ delay(10000);
+ }
+ Serial.println("Connected to wifi");
+ printWifiStatus();
+
+ Serial.println("\nStarting connection to server...");
+ // if you get a connection, report back via serial:
+ if (client.connect(server, 80)) {
+ Serial.println("connected to server");
+ // Make a HTTP request:
+ client.println("GET /search?q=arduino HTTP/1.1");
+ client.println("Host:www.google.com");
+ client.println("Connection: close");
+ client.println();
+ }
+}
+
+void loop() {
+ // if there are incoming bytes available
+ // from the server, read them and print them:
+ while (client.available()) {
+ char c = client.read();
+ Serial.write(c);
+ }
+
+ // if the server's disconnected, stop the client:
+ if (!client.connected()) {
+ Serial.println();
+ Serial.println("disconnecting from server.");
+ client.stop();
+
+ // do nothing forevermore:
+ while(true);
+ }
+}
+
+
+void printWifiStatus() {
+ // print the SSID of the network you're attached to:
+ Serial.print("SSID: ");
+ Serial.println(WiFi.SSID());
+
+ // print your WiFi shield's IP address:
+ IPAddress ip = WiFi.localIP();
+ Serial.print("IP Address: ");
+ Serial.println(ip);
+
+ // print the received signal strength:
+ long rssi = WiFi.RSSI();
+ Serial.print("signal strength (RSSI):");
+ Serial.print(rssi);
+ Serial.println(" dBm");
+}
+
+
+
+
+
diff --git a/libraries/WiFi/examples/WifiWebClientRepeating/WifiWebClientRepeating.ino b/libraries/WiFi/examples/WifiWebClientRepeating/WifiWebClientRepeating.ino
new file mode 100644
index 0000000..96eb628
--- /dev/null
+++ b/libraries/WiFi/examples/WifiWebClientRepeating/WifiWebClientRepeating.ino
@@ -0,0 +1,138 @@
+/*
+ Repeating Wifi Web client
+
+ This sketch connects to a a web server and makes a request
+ using an Arduino Wifi shield.
+
+ Circuit:
+ * Wifi shield attached to pins 10, 11, 12, 13
+
+ created 23 April 2012
+ modifide 31 May 2012
+ by Tom Igoe
+
+ http://arduino.cc/en/Tutorial/WifiWebClientRepeating
+ This code is in the public domain.
+ */
+
+#include <SPI.h>
+#include <WiFi.h>
+
+char ssid[] = "yourNetwork"; // your network SSID (name)
+char pass[] = "secretPassword"; // your network password
+int keyIndex = 0; // your network key Index number (needed only for WEP)
+
+int status = WL_IDLE_STATUS;
+
+// Initialize the Wifi client library
+WiFiClient client;
+
+// server address:
+char server[] = "www.arduino.cc";
+//IPAddress server(64,131,82,241);
+
+unsigned long lastConnectionTime = 0; // last time you connected to the server, in milliseconds
+boolean lastConnected = false; // state of the connection last time through the main loop
+const unsigned long postingInterval = 10*1000; // delay between updates, in milliseconds
+
+void setup() {
+ //Initialize serial and wait for port to open:
+ Serial.begin(9600);
+ while (!Serial) {
+ ; // wait for serial port to connect. Needed for Leonardo only
+ }
+
+ // check for the presence of the shield:
+ if (WiFi.status() == WL_NO_SHIELD) {
+ Serial.println("WiFi shield not present");
+ // don't continue:
+ while(true);
+ }
+
+ // attempt to connect to Wifi network:
+ while ( status != WL_CONNECTED) {
+ Serial.print("Attempting to connect to SSID: ");
+ Serial.println(ssid);
+ // Connect to WPA/WPA2 network. Change this line if using open or WEP network:
+ status = WiFi.begin(ssid, pass);
+
+ // wait 10 seconds for connection:
+ delay(10000);
+ }
+ // you're connected now, so print out the status:
+ printWifiStatus();
+}
+
+void loop() {
+ // if there's incoming data from the net connection.
+ // send it out the serial port. This is for debugging
+ // purposes only:
+ while (client.available()) {
+ char c = client.read();
+ Serial.write(c);
+ }
+
+ // if there's no net connection, but there was one last time
+ // through the loop, then stop the client:
+ if (!client.connected() && lastConnected) {
+ Serial.println();
+ Serial.println("disconnecting.");
+ client.stop();
+ }
+
+ // if you're not connected, and ten seconds have passed since
+ // your last connection, then connect again and send data:
+ if(!client.connected() && (millis() - lastConnectionTime > postingInterval)) {
+ httpRequest();
+ }
+ // store the state of the connection for next time through
+ // the loop:
+ lastConnected = client.connected();
+}
+
+// this method makes a HTTP connection to the server:
+void httpRequest() {
+ // if there's a successful connection:
+ if (client.connect(server, 80)) {
+ Serial.println("connecting...");
+ // send the HTTP PUT request:
+ client.println("GET /latest.txt HTTP/1.1");
+ client.println("Host: www.arduino.cc");
+ client.println("User-Agent: arduino-ethernet");
+ client.println("Connection: close");
+ client.println();
+
+ // note the time that the connection was made:
+ lastConnectionTime = millis();
+ }
+ else {
+ // if you couldn't make a connection:
+ Serial.println("connection failed");
+ Serial.println("disconnecting.");
+ client.stop();
+ }
+}
+
+
+void printWifiStatus() {
+ // print the SSID of the network you're attached to:
+ Serial.print("SSID: ");
+ Serial.println(WiFi.SSID());
+
+ // print your WiFi shield's IP address:
+ IPAddress ip = WiFi.localIP();
+ Serial.print("IP Address: ");
+ Serial.println(ip);
+
+ // print the received signal strength:
+ long rssi = WiFi.RSSI();
+ Serial.print("signal strength (RSSI):");
+ Serial.print(rssi);
+ Serial.println(" dBm");
+}
+
+
+
+
+
+
diff --git a/libraries/WiFi/examples/WifiWebServer/WifiWebServer.ino b/libraries/WiFi/examples/WifiWebServer/WifiWebServer.ino
new file mode 100644
index 0000000..ac5f056
--- /dev/null
+++ b/libraries/WiFi/examples/WifiWebServer/WifiWebServer.ino
@@ -0,0 +1,132 @@
+/*
+ Web Server
+
+ A simple web server that shows the value of the analog input pins.
+ using a WiFi shield.
+
+ This example is written for a network using WPA encryption. For
+ WEP or WPA, change the Wifi.begin() call accordingly.
+
+ Circuit:
+ * WiFi shield attached
+ * Analog inputs attached to pins A0 through A5 (optional)
+
+ created 13 July 2010
+ by dlf (Metodo2 srl)
+ modified 31 May 2012
+ by Tom Igoe
+ */
+#include <SPI.h>
+#include <WiFi.h>
+
+
+char ssid[] = "yourNetwork"; // your network SSID (name)
+char pass[] = "secretPassword"; // your network password
+int keyIndex = 0; // your network key Index number (needed only for WEP)
+
+int status = WL_IDLE_STATUS;
+
+WiFiServer server(80);
+
+void setup() {
+ //Initialize serial and wait for port to open:
+ Serial.begin(9600);
+ while (!Serial) {
+ ; // wait for serial port to connect. Needed for Leonardo only
+ }
+
+ // check for the presence of the shield:
+ if (WiFi.status() == WL_NO_SHIELD) {
+ Serial.println("WiFi shield not present");
+ // don't continue:
+ while(true);
+ }
+
+ // attempt to connect to Wifi network:
+ while ( status != WL_CONNECTED) {
+ Serial.print("Attempting to connect to SSID: ");
+ Serial.println(ssid);
+ // Connect to WPA/WPA2 network. Change this line if using open or WEP network:
+ status = WiFi.begin(ssid, pass);
+
+ // wait 10 seconds for connection:
+ delay(10000);
+ }
+ server.begin();
+ // you're connected now, so print out the status:
+ printWifiStatus();
+}
+
+
+void loop() {
+ // listen for incoming clients
+ WiFiClient client = server.available();
+ if (client) {
+ Serial.println("new client");
+ // an http request ends with a blank line
+ boolean currentLineIsBlank = true;
+ while (client.connected()) {
+ if (client.available()) {
+ char c = client.read();
+ Serial.write(c);
+ // if you've gotten to the end of the line (received a newline
+ // character) and the line is blank, the http request has ended,
+ // so you can send a reply
+ if (c == '\n' && currentLineIsBlank) {
+ // send a standard http response header
+ client.println("HTTP/1.1 200 OK");
+ client.println("Content-Type: text/html");
+ client.println("Connnection: close");
+ client.println();
+ client.println("<!DOCTYPE HTML>");
+ client.println("<html>");
+ // add a meta refresh tag, so the browser pulls again every 5 seconds:
+ client.println("<meta http-equiv=\"refresh\" content=\"5\">");
+ // output the value of each analog input pin
+ for (int analogChannel = 0; analogChannel < 6; analogChannel++) {
+ int sensorReading = analogRead(analogChannel);
+ client.print("analog input ");
+ client.print(analogChannel);
+ client.print(" is ");
+ client.print(sensorReading);
+ client.println("<br />");
+ }
+ client.println("</html>");
+ break;
+ }
+ if (c == '\n') {
+ // you're starting a new line
+ currentLineIsBlank = true;
+ }
+ else if (c != '\r') {
+ // you've gotten a character on the current line
+ currentLineIsBlank = false;
+ }
+ }
+ }
+ // give the web browser time to receive the data
+ delay(1);
+ // close the connection:
+ client.stop();
+ Serial.println("client disonnected");
+ }
+}
+
+
+void printWifiStatus() {
+ // print the SSID of the network you're attached to:
+ Serial.print("SSID: ");
+ Serial.println(WiFi.SSID());
+
+ // print your WiFi shield's IP address:
+ IPAddress ip = WiFi.localIP();
+ Serial.print("IP Address: ");
+ Serial.println(ip);
+
+ // print the received signal strength:
+ long rssi = WiFi.RSSI();
+ Serial.print("signal strength (RSSI):");
+ Serial.print(rssi);
+ Serial.println(" dBm");
+}
+
diff --git a/libraries/WiFi/keywords.txt b/libraries/WiFi/keywords.txt
new file mode 100755
index 0000000..47704cd
--- /dev/null
+++ b/libraries/WiFi/keywords.txt
@@ -0,0 +1,43 @@
+#######################################
+# Syntax Coloring Map For WiFi
+#######################################
+
+#######################################
+# Datatypes (KEYWORD1)
+#######################################
+
+WiFi KEYWORD1
+Client KEYWORD1
+Server KEYWORD1
+
+#######################################
+# Methods and Functions (KEYWORD2)
+#######################################
+
+status KEYWORD2
+connect KEYWORD2
+write KEYWORD2
+available KEYWORD2
+read KEYWORD2
+flush KEYWORD2
+stop KEYWORD2
+connected KEYWORD2
+begin KEYWORD2
+disconnect KEYWORD2
+macAddress KEYWORD2
+localIP KEYWORD2
+subnetMask KEYWORD2
+gatewayIP KEYWORD2
+SSID KEYWORD2
+BSSID KEYWORD2
+RSSI KEYWORD2
+encryptionType KEYWORD2
+getResult KEYWORD2
+getSocket KEYWORD2
+WiFiClient KEYWORD2
+WiFiServer KEYWORD2
+
+#######################################
+# Constants (LITERAL1)
+#######################################
+
diff --git a/libraries/WiFi/utility/debug.h b/libraries/WiFi/utility/debug.h
new file mode 100644
index 0000000..9f71055
--- /dev/null
+++ b/libraries/WiFi/utility/debug.h
@@ -0,0 +1,77 @@
+//*********************************************/
+//
+// File: debug.h
+//
+// Author: dlf (Metodo2 srl)
+//
+//********************************************/
+
+
+#ifndef Debug_H
+#define Debug_H
+
+#include <stdio.h>
+#include <string.h>
+
+#define PRINT_FILE_LINE() do { \
+ Serial.print("[");Serial.print(__FILE__); \
+ Serial.print("::");Serial.print(__LINE__);Serial.print("]");\
+}while (0);
+
+#ifdef _DEBUG_
+
+#define INFO(format, args...) do { \
+ char buf[250]; \
+ sprintf(buf, format, args); \
+ Serial.println(buf); \
+} while(0);
+
+#define INFO1(x) do { PRINT_FILE_LINE() Serial.print("-I-");\
+ Serial.println(x); \
+}while (0);
+
+
+#define INFO2(x,y) do { PRINT_FILE_LINE() Serial.print("-I-");\
+ Serial.print(x,16);Serial.print(",");Serial.println(y,16); \
+}while (0);
+
+
+#else
+#define INFO1(x) do {} while(0);
+#define INFO2(x,y) do {} while(0);
+#define INFO(format, args...) do {} while(0);
+#endif
+
+#if 0
+#define WARN(args) do { PRINT_FILE_LINE() \
+ Serial.print("-W-"); Serial.println(args); \
+}while (0);
+#else
+#define WARN(args) do {} while (0);
+#endif
+
+#if _DEBUG_SPI_
+#define DBG_PIN2 5
+#define DBG_PIN 4
+
+#define START() digitalWrite(DBG_PIN2, HIGH);
+#define END() digitalWrite(DBG_PIN2, LOW);
+#define SET_TRIGGER() digitalWrite(DBG_PIN, HIGH);
+#define RST_TRIGGER() digitalWrite(DBG_PIN, LOW);
+
+#define INIT_TRIGGER() pinMode(DBG_PIN, OUTPUT); \
+ pinMode(DBG_PIN2, OUTPUT); \
+ RST_TRIGGER()
+#define TOGGLE_TRIGGER() SET_TRIGGER() \
+ delayMicroseconds(2); \
+ RST_TRIGGER()
+#else
+#define START()
+#define END()
+#define SET_TRIGGER()
+#define RST_TRIGGER()
+#define INIT_TRIGGER()
+#define TOGGLE_TRIGGER()
+#endif
+
+#endif
diff --git a/libraries/WiFi/utility/server_drv.cpp b/libraries/WiFi/utility/server_drv.cpp
new file mode 100644
index 0000000..ce03604
--- /dev/null
+++ b/libraries/WiFi/utility/server_drv.cpp
@@ -0,0 +1,260 @@
+//#define _DEBUG_
+
+#include "server_drv.h"
+
+#include "Arduino.h"
+#include "spi_drv.h"
+
+extern "C" {
+#include "wl_types.h"
+#include "debug.h"
+}
+
+
+// Start server TCP on port specified
+void ServerDrv::startServer(uint16_t port, uint8_t sock)
+{
+ WAIT_FOR_SLAVE_SELECT();
+ // Send Command
+ SpiDrv::sendCmd(START_SERVER_TCP_CMD, PARAM_NUMS_2);
+ SpiDrv::sendParam(port);
+ SpiDrv::sendParam(&sock, 1, LAST_PARAM);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ uint8_t _data = 0;
+ uint8_t _dataLen = 0;
+ if (!SpiDrv::waitResponseCmd(START_SERVER_TCP_CMD, PARAM_NUMS_1, &_data, &_dataLen))
+ {
+ WARN("error waitResponse");
+ }
+ SpiDrv::spiSlaveDeselect();
+}
+
+// Start server TCP on port specified
+void ServerDrv::startClient(uint32_t ipAddress, uint16_t port, uint8_t sock)
+{
+ WAIT_FOR_SLAVE_SELECT();
+ // Send Command
+ SpiDrv::sendCmd(START_CLIENT_TCP_CMD, PARAM_NUMS_3);
+ SpiDrv::sendParam((uint8_t*)&ipAddress, sizeof(ipAddress));
+ SpiDrv::sendParam(port);
+ SpiDrv::sendParam(&sock, 1, LAST_PARAM);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ uint8_t _data = 0;
+ uint8_t _dataLen = 0;
+ if (!SpiDrv::waitResponseCmd(START_CLIENT_TCP_CMD, PARAM_NUMS_1, &_data, &_dataLen))
+ {
+ WARN("error waitResponse");
+ }
+ SpiDrv::spiSlaveDeselect();
+}
+
+// Start server TCP on port specified
+void ServerDrv::stopClient(uint8_t sock)
+{
+ WAIT_FOR_SLAVE_SELECT();
+ // Send Command
+ SpiDrv::sendCmd(STOP_CLIENT_TCP_CMD, PARAM_NUMS_1);
+ SpiDrv::sendParam(&sock, 1, LAST_PARAM);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ uint8_t _data = 0;
+ uint8_t _dataLen = 0;
+ if (!SpiDrv::waitResponseCmd(STOP_CLIENT_TCP_CMD, PARAM_NUMS_1, &_data, &_dataLen))
+ {
+ WARN("error waitResponse");
+ }
+ SpiDrv::spiSlaveDeselect();
+}
+
+
+uint8_t ServerDrv::getServerState(uint8_t sock)
+{
+ WAIT_FOR_SLAVE_SELECT();
+ // Send Command
+ SpiDrv::sendCmd(GET_STATE_TCP_CMD, PARAM_NUMS_1);
+ SpiDrv::sendParam(&sock, sizeof(sock), LAST_PARAM);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ uint8_t _data = 0;
+ uint8_t _dataLen = 0;
+ if (!SpiDrv::waitResponseCmd(GET_STATE_TCP_CMD, PARAM_NUMS_1, &_data, &_dataLen))
+ {
+ WARN("error waitResponse");
+ }
+ SpiDrv::spiSlaveDeselect();
+ return _data;
+}
+
+uint8_t ServerDrv::getClientState(uint8_t sock)
+{
+ WAIT_FOR_SLAVE_SELECT();
+ // Send Command
+ SpiDrv::sendCmd(GET_CLIENT_STATE_TCP_CMD, PARAM_NUMS_1);
+ SpiDrv::sendParam(&sock, sizeof(sock), LAST_PARAM);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ uint8_t _data = 0;
+ uint8_t _dataLen = 0;
+ if (!SpiDrv::waitResponseCmd(GET_CLIENT_STATE_TCP_CMD, PARAM_NUMS_1, &_data, &_dataLen))
+ {
+ WARN("error waitResponse");
+ }
+ SpiDrv::spiSlaveDeselect();
+ return _data;
+}
+
+uint8_t ServerDrv::availData(uint8_t sock)
+{
+ WAIT_FOR_SLAVE_SELECT();
+ // Send Command
+ SpiDrv::sendCmd(AVAIL_DATA_TCP_CMD, PARAM_NUMS_1);
+ SpiDrv::sendParam(&sock, sizeof(sock), LAST_PARAM);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ uint8_t _data = 0;
+ uint8_t _dataLen = 0;
+ if (!SpiDrv::waitResponseCmd(AVAIL_DATA_TCP_CMD, PARAM_NUMS_1, &_data, &_dataLen))
+ {
+ WARN("error waitResponse");
+ }
+ SpiDrv::spiSlaveDeselect();
+
+ if (_dataLen!=0)
+ {
+ return (_data == 1);
+ }
+ return false;
+}
+
+bool ServerDrv::getData(uint8_t sock, uint8_t *data, uint8_t peek)
+{
+ WAIT_FOR_SLAVE_SELECT();
+ // Send Command
+ SpiDrv::sendCmd(GET_DATA_TCP_CMD, PARAM_NUMS_2);
+ SpiDrv::sendParam(&sock, sizeof(sock));
+ SpiDrv::sendParam(peek, LAST_PARAM);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ uint8_t _data = 0;
+ uint8_t _dataLen = 0;
+ if (!SpiDrv::waitResponseData8(GET_DATA_TCP_CMD, &_data, &_dataLen))
+ {
+ WARN("error waitResponse");
+ }
+ SpiDrv::spiSlaveDeselect();
+ if (_dataLen!=0)
+ {
+ *data = _data;
+ return true;
+ }
+ return false;
+}
+
+bool ServerDrv::getDataBuf(uint8_t sock, uint8_t *_data, uint16_t *_dataLen)
+{
+ WAIT_FOR_SLAVE_SELECT();
+ // Send Command
+ SpiDrv::sendCmd(GET_DATABUF_TCP_CMD, PARAM_NUMS_1);
+ SpiDrv::sendBuffer(&sock, sizeof(sock), LAST_PARAM);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ if (!SpiDrv::waitResponseData16(GET_DATABUF_TCP_CMD, _data, _dataLen))
+ {
+ WARN("error waitResponse");
+ }
+ SpiDrv::spiSlaveDeselect();
+ if (*_dataLen!=0)
+ {
+ return true;
+ }
+ return false;
+}
+
+
+bool ServerDrv::sendData(uint8_t sock, const uint8_t *data, uint16_t len)
+{
+ WAIT_FOR_SLAVE_SELECT();
+ // Send Command
+ SpiDrv::sendCmd(SEND_DATA_TCP_CMD, PARAM_NUMS_2);
+ SpiDrv::sendBuffer(&sock, sizeof(sock));
+ SpiDrv::sendBuffer((uint8_t *)data, len, LAST_PARAM);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ uint8_t _data = 0;
+ uint8_t _dataLen = 0;
+ if (!SpiDrv::waitResponseData8(SEND_DATA_TCP_CMD, &_data, &_dataLen))
+ {
+ WARN("error waitResponse");
+ }
+ SpiDrv::spiSlaveDeselect();
+ if (_dataLen!=0)
+ {
+ return (_data == 1);
+ }
+ return false;
+}
+
+
+uint8_t ServerDrv::checkDataSent(uint8_t sock)
+{
+ const uint16_t TIMEOUT_DATA_SENT = 25;
+ uint16_t timeout = 0;
+ uint8_t _data = 0;
+ uint8_t _dataLen = 0;
+
+ do {
+ WAIT_FOR_SLAVE_SELECT();
+ // Send Command
+ SpiDrv::sendCmd(DATA_SENT_TCP_CMD, PARAM_NUMS_1);
+ SpiDrv::sendParam(&sock, sizeof(sock), LAST_PARAM);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ if (!SpiDrv::waitResponseCmd(DATA_SENT_TCP_CMD, PARAM_NUMS_1, &_data, &_dataLen))
+ {
+ WARN("error waitResponse isDataSent");
+ }
+ SpiDrv::spiSlaveDeselect();
+
+ if (_data) timeout = 0;
+ else{
+ ++timeout;
+ delay(100);
+ }
+
+ }while((_data==0)&&(timeout<TIMEOUT_DATA_SENT));
+ return (timeout==TIMEOUT_DATA_SENT)?0:1;
+}
+
+ServerDrv serverDrv;
diff --git a/libraries/WiFi/utility/server_drv.h b/libraries/WiFi/utility/server_drv.h
new file mode 100644
index 0000000..69ba593
--- /dev/null
+++ b/libraries/WiFi/utility/server_drv.h
@@ -0,0 +1,34 @@
+#ifndef Server_Drv_h
+#define Server_Drv_h
+
+#include <inttypes.h>
+#include "wifi_spi.h"
+
+class ServerDrv
+{
+public:
+ // Start server TCP on port specified
+ static void startServer(uint16_t port, uint8_t sock);
+
+ static void startClient(uint32_t ipAddress, uint16_t port, uint8_t sock);
+
+ static void stopClient(uint8_t sock);
+
+ static uint8_t getServerState(uint8_t sock);
+
+ static uint8_t getClientState(uint8_t sock);
+
+ static bool getData(uint8_t sock, uint8_t *data, uint8_t peek = 0);
+
+ static bool getDataBuf(uint8_t sock, uint8_t *data, uint16_t *len);
+
+ static bool sendData(uint8_t sock, const uint8_t *data, uint16_t len);
+
+ static uint8_t availData(uint8_t sock);
+
+ static uint8_t checkDataSent(uint8_t sock);
+};
+
+extern ServerDrv serverDrv;
+
+#endif
diff --git a/libraries/WiFi/utility/socket.c b/libraries/WiFi/utility/socket.c
new file mode 100644
index 0000000..665073b
--- /dev/null
+++ b/libraries/WiFi/utility/socket.c
@@ -0,0 +1,20 @@
+/*
+*
+@file socket.c
+@brief define function of socket API
+*
+*/
+#include <inttypes.h>
+#include "socket.h"
+
+SOCKET socket(uint8 protocol) {return 0;} // Opens a socket(TCP or UDP or IP_RAW mode)
+void close(SOCKET s) {} // Close socket
+uint8 connect(SOCKET s, uint8 * addr, uint16 port) {return 0;} // Establish TCP connection (Active connection)
+void disconnect(SOCKET s) {} // disconnect the connection
+uint8 listen(SOCKET s) { return 0;} // Establish TCP connection (Passive connection)
+uint16 send(SOCKET s, const uint8 * buf, uint16 len) { return 0;} // Send data (TCP)
+uint16 recv(SOCKET s, uint8 * buf, uint16 len) {return 0;} // Receive data (TCP)
+uint16 sendto(SOCKET s, const uint8 * buf, uint16 len, uint8 * addr, uint16 port) {return 0;} // Send data (UDP/IP RAW)
+uint16 recvfrom(SOCKET s, uint8 * buf, uint16 len, uint8 * addr, uint16 *port) {return 0;} // Receive data (UDP/IP RAW)
+
+uint16 igmpsend(SOCKET s, const uint8 * buf, uint16 len) {return 0;}
diff --git a/libraries/WiFi/utility/socket.h b/libraries/WiFi/utility/socket.h
new file mode 100644
index 0000000..9b06d00
--- /dev/null
+++ b/libraries/WiFi/utility/socket.h
@@ -0,0 +1,87 @@
+/*
+*
+@file socket.h
+@brief define function of socket API
+*
+*/
+
+#ifndef _SOCKET_H_
+#define _SOCKET_H_
+
+#define TCP_SOCKET 1
+#define UDP_SOCKET 2
+#define RAW_SOCKET 3
+
+#define SOCK_NOT_AVAIL 255
+
+#include "wl_definitions.h"
+/**
+ * The 8-bit signed data type.
+ */
+typedef char int8;
+/**
+ * The volatile 8-bit signed data type.
+ */
+typedef volatile char vint8;
+/**
+ * The 8-bit unsigned data type.
+ */
+typedef unsigned char uint8;
+/**
+ * The volatile 8-bit unsigned data type.
+ */
+typedef volatile unsigned char vuint8;
+
+/**
+ * The 16-bit signed data type.
+ */
+typedef int int16;
+/**
+ * The volatile 16-bit signed data type.
+ */
+typedef volatile int vint16;
+/**
+ * The 16-bit unsigned data type.
+ */
+typedef unsigned int uint16;
+/**
+ * The volatile 16-bit unsigned data type.
+ */
+typedef volatile unsigned int vuint16;
+/**
+ * The 32-bit signed data type.
+ */
+typedef long int32;
+/**
+ * The volatile 32-bit signed data type.
+ */
+typedef volatile long vint32;
+/**
+ * The 32-bit unsigned data type.
+ */
+typedef unsigned long uint32;
+/**
+ * The volatile 32-bit unsigned data type.
+ */
+typedef volatile unsigned long vuint32;
+
+/* bsd */
+typedef uint8 u_char; /**< 8-bit value */
+typedef uint16_t SOCKET;
+typedef uint16 u_short; /**< 16-bit value */
+typedef uint16 u_int; /**< 16-bit value */
+typedef uint32 u_long; /**< 32-bit value */
+
+extern SOCKET socket(uint8 protocol); // Opens a socket(TCP or UDP or IP_RAW mode)
+extern void close(SOCKET s); // Close socket
+extern uint8 connect(SOCKET s, uint8 * addr, uint16 port); // Establish TCP connection (Active connection)
+extern void disconnect(SOCKET s); // disconnect the connection
+extern uint8 listen(SOCKET s); // Establish TCP connection (Passive connection)
+extern uint16 send(SOCKET s, const uint8 * buf, uint16 len); // Send data (TCP)
+extern uint16 recv(SOCKET s, uint8 * buf, uint16 len); // Receive data (TCP)
+extern uint16 sendto(SOCKET s, const uint8 * buf, uint16 len, uint8 * addr, uint16 port); // Send data (UDP/IP RAW)
+extern uint16 recvfrom(SOCKET s, uint8 * buf, uint16 len, uint8 * addr, uint16 *port); // Receive data (UDP/IP RAW)
+
+extern uint16 igmpsend(SOCKET s, const uint8 * buf, uint16 len);
+#endif
+/* _SOCKET_H_ */
diff --git a/libraries/WiFi/utility/spi_drv.cpp b/libraries/WiFi/utility/spi_drv.cpp
new file mode 100644
index 0000000..12a320b
--- /dev/null
+++ b/libraries/WiFi/utility/spi_drv.cpp
@@ -0,0 +1,506 @@
+
+#include "Arduino.h"
+#include "spi_drv.h"
+#include "pins_arduino.h"
+//#define _DEBUG_
+extern "C" {
+#include "debug.h"
+}
+
+#define DATAOUT 11 // MOSI
+#define DATAIN 12 // MISO
+#define SPICLOCK 13 // sck
+#define SLAVESELECT 10 // ss
+#define SLAVEREADY 7 // handshake pin
+#define WIFILED 9 // led on wifi shield
+
+#define DELAY_100NS do { asm volatile("nop"); }while(0);
+#define DELAY_SPI(X) { int ii=0; do { asm volatile("nop"); }while(++ii<X);}
+#define DELAY_TRANSFER() DELAY_SPI(10)
+
+void SpiDrv::begin()
+{
+ // Set direction register for SCK and MOSI pin.
+ // MISO pin automatically overrides to INPUT.
+ // When the SS pin is set as OUTPUT, it can be used as
+ // a general purpose output port (it doesn't influence
+ // SPI operations).
+
+ pinMode(SCK, OUTPUT);
+ pinMode(MOSI, OUTPUT);
+ pinMode(SS, OUTPUT);
+ pinMode(SLAVESELECT, OUTPUT);
+ pinMode(SLAVEREADY, INPUT);
+ pinMode(WIFILED, OUTPUT);
+
+ digitalWrite(SCK, LOW);
+ digitalWrite(MOSI, LOW);
+ digitalWrite(SS, HIGH);
+ digitalWrite(SLAVESELECT, HIGH);
+ digitalWrite(WIFILED, LOW);
+
+#ifdef _DEBUG_
+ INIT_TRIGGER()
+#endif
+
+ // Warning: if the SS pin ever becomes a LOW INPUT then SPI
+ // automatically switches to Slave, so the data direction of
+ // the SS pin MUST be kept as OUTPUT.
+ SPCR |= _BV(MSTR);
+ SPCR |= _BV(SPE);
+ //SPSR |= _BV(SPI2X);
+}
+
+void SpiDrv::end() {
+ SPCR &= ~_BV(SPE);
+}
+
+void SpiDrv::spiSlaveSelect()
+{
+ digitalWrite(SLAVESELECT,LOW);
+}
+
+
+void SpiDrv::spiSlaveDeselect()
+{
+ digitalWrite(SLAVESELECT,HIGH);
+}
+
+void delaySpi()
+{
+ int i = 0;
+ const int DELAY = 1000;
+ for (;i<DELAY;++i)
+ {
+ int a =a+1;
+ }
+}
+
+char SpiDrv::spiTransfer(volatile char data)
+{
+ SPDR = data; // Start the transmission
+ while (!(SPSR & (1<<SPIF))) // Wait the end of the transmission
+ {
+ };
+ char result = SPDR;
+ DELAY_TRANSFER();
+
+ return result; // return the received byte
+}
+
+int SpiDrv::waitSpiChar(unsigned char waitChar)
+{
+ int timeout = TIMEOUT_CHAR;
+ unsigned char _readChar = 0;
+ do{
+ _readChar = readChar(); //get data byte
+ if (_readChar == ERR_CMD)
+ {
+ WARN("Err cmd received\n");
+ return -1;
+ }
+ }while((timeout-- > 0) && (_readChar != waitChar));
+ return (_readChar == waitChar);
+}
+
+int SpiDrv::readAndCheckChar(char checkChar, char* readChar)
+{
+ getParam((uint8_t*)readChar);
+
+ return (*readChar == checkChar);
+}
+
+char SpiDrv::readChar()
+{
+ uint8_t readChar = 0;
+ getParam(&readChar);
+ return readChar;
+}
+
+#define WAIT_START_CMD(x) waitSpiChar(START_CMD)
+
+#define IF_CHECK_START_CMD(x) \
+ if (!WAIT_START_CMD(_data)) \
+ { \
+ TOGGLE_TRIGGER() \
+ WARN("Error waiting START_CMD"); \
+ return 0; \
+ }else \
+
+#define CHECK_DATA(check, x) \
+ if (!readAndCheckChar(check, &x)) \
+ { \
+ TOGGLE_TRIGGER() \
+ WARN("Reply error"); \
+ INFO2(check, (uint8_t)x); \
+ return 0; \
+ }else \
+
+#define waitSlaveReady() (digitalRead(SLAVEREADY) == LOW)
+#define waitSlaveSign() (digitalRead(SLAVEREADY) == HIGH)
+#define waitSlaveSignalH() while(digitalRead(SLAVEREADY) != HIGH){}
+#define waitSlaveSignalL() while(digitalRead(SLAVEREADY) != LOW){}
+
+void SpiDrv::waitForSlaveSign()
+{
+ while (!waitSlaveSign());
+}
+
+void SpiDrv::waitForSlaveReady()
+{
+ while (!waitSlaveReady());
+}
+
+void SpiDrv::getParam(uint8_t* param)
+{
+ // Get Params data
+ *param = spiTransfer(DUMMY_DATA);
+ DELAY_TRANSFER();
+}
+
+int SpiDrv::waitResponseCmd(uint8_t cmd, uint8_t numParam, uint8_t* param, uint8_t* param_len)
+{
+ char _data = 0;
+ int ii = 0;
+
+ IF_CHECK_START_CMD(_data)
+ {
+ CHECK_DATA(cmd | REPLY_FLAG, _data){};
+
+ CHECK_DATA(numParam, _data);
+ {
+ readParamLen8(param_len);
+ for (ii=0; ii<(*param_len); ++ii)
+ {
+ // Get Params data
+ //param[ii] = spiTransfer(DUMMY_DATA);
+ getParam(&param[ii]);
+ }
+ }
+
+ readAndCheckChar(END_CMD, &_data);
+ }
+
+ return 1;
+}
+/*
+int SpiDrv::waitResponse(uint8_t cmd, uint8_t numParam, uint8_t* param, uint16_t* param_len)
+{
+ char _data = 0;
+ int i =0, ii = 0;
+
+ IF_CHECK_START_CMD(_data)
+ {
+ CHECK_DATA(cmd | REPLY_FLAG, _data){};
+
+ CHECK_DATA(numParam, _data);
+ {
+ readParamLen16(param_len);
+ for (ii=0; ii<(*param_len); ++ii)
+ {
+ // Get Params data
+ param[ii] = spiTransfer(DUMMY_DATA);
+ }
+ }
+
+ readAndCheckChar(END_CMD, &_data);
+ }
+
+ return 1;
+}
+*/
+
+int SpiDrv::waitResponseData16(uint8_t cmd, uint8_t* param, uint16_t* param_len)
+{
+ char _data = 0;
+ uint16_t ii = 0;
+
+ IF_CHECK_START_CMD(_data)
+ {
+ CHECK_DATA(cmd | REPLY_FLAG, _data){};
+
+ uint8_t numParam = readChar();
+ if (numParam != 0)
+ {
+ readParamLen16(param_len);
+ for (ii=0; ii<(*param_len); ++ii)
+ {
+ // Get Params data
+ param[ii] = spiTransfer(DUMMY_DATA);
+ }
+ }
+
+ readAndCheckChar(END_CMD, &_data);
+ }
+
+ return 1;
+}
+
+int SpiDrv::waitResponseData8(uint8_t cmd, uint8_t* param, uint8_t* param_len)
+{
+ char _data = 0;
+ int ii = 0;
+
+ IF_CHECK_START_CMD(_data)
+ {
+ CHECK_DATA(cmd | REPLY_FLAG, _data){};
+
+ uint8_t numParam = readChar();
+ if (numParam != 0)
+ {
+ readParamLen8(param_len);
+ for (ii=0; ii<(*param_len); ++ii)
+ {
+ // Get Params data
+ param[ii] = spiTransfer(DUMMY_DATA);
+ }
+ }
+
+ readAndCheckChar(END_CMD, &_data);
+ }
+
+ return 1;
+}
+
+int SpiDrv::waitResponseParams(uint8_t cmd, uint8_t numParam, tParam* params)
+{
+ char _data = 0;
+ int i =0, ii = 0;
+
+
+ IF_CHECK_START_CMD(_data)
+ {
+ CHECK_DATA(cmd | REPLY_FLAG, _data){};
+
+ uint8_t _numParam = readChar();
+ if (_numParam != 0)
+ {
+ for (i=0; i<_numParam; ++i)
+ {
+ params[i].paramLen = readParamLen8();
+ for (ii=0; ii<params[i].paramLen; ++ii)
+ {
+ // Get Params data
+ params[i].param[ii] = spiTransfer(DUMMY_DATA);
+ }
+ }
+ } else
+ {
+ WARN("Error numParam == 0");
+ return 0;
+ }
+
+ if (numParam != _numParam)
+ {
+ WARN("Mismatch numParam");
+ return 0;
+ }
+
+ readAndCheckChar(END_CMD, &_data);
+ }
+ return 1;
+}
+
+/*
+int SpiDrv::waitResponse(uint8_t cmd, tParam* params, uint8_t* numParamRead, uint8_t maxNumParams)
+{
+ char _data = 0;
+ int i =0, ii = 0;
+
+ IF_CHECK_START_CMD(_data)
+ {
+ CHECK_DATA(cmd | REPLY_FLAG, _data){};
+
+ uint8_t numParam = readChar();
+
+ if (numParam > maxNumParams)
+ {
+ numParam = maxNumParams;
+ }
+ *numParamRead = numParam;
+ if (numParam != 0)
+ {
+ for (i=0; i<numParam; ++i)
+ {
+ params[i].paramLen = readParamLen8();
+
+ for (ii=0; ii<params[i].paramLen; ++ii)
+ {
+ // Get Params data
+ params[i].param[ii] = spiTransfer(DUMMY_DATA);
+ }
+ }
+ } else
+ {
+ WARN("Error numParams == 0");
+ Serial.println(cmd, 16);
+ return 0;
+ }
+ readAndCheckChar(END_CMD, &_data);
+ }
+ return 1;
+}
+*/
+
+int SpiDrv::waitResponse(uint8_t cmd, uint8_t* numParamRead, uint8_t** params, uint8_t maxNumParams)
+{
+ char _data = 0;
+ int i =0, ii = 0;
+
+ char *index[WL_SSID_MAX_LENGTH];
+
+ for (i = 0 ; i < WL_NETWORKS_LIST_MAXNUM ; i++)
+ index[i] = (char *)params + WL_SSID_MAX_LENGTH*i;
+
+ IF_CHECK_START_CMD(_data)
+ {
+ CHECK_DATA(cmd | REPLY_FLAG, _data){};
+
+ uint8_t numParam = readChar();
+
+ if (numParam > maxNumParams)
+ {
+ numParam = maxNumParams;
+ }
+ *numParamRead = numParam;
+ if (numParam != 0)
+ {
+ for (i=0; i<numParam; ++i)
+ {
+ uint8_t paramLen = readParamLen8();
+ for (ii=0; ii<paramLen; ++ii)
+ {
+ //ssid[ii] = spiTransfer(DUMMY_DATA);
+ // Get Params data
+ index[i][ii] = (uint8_t)spiTransfer(DUMMY_DATA);
+
+ }
+ index[i][ii]=0;
+ }
+ } else
+ {
+ WARN("Error numParams == 0");
+ readAndCheckChar(END_CMD, &_data);
+ return 0;
+ }
+ readAndCheckChar(END_CMD, &_data);
+ }
+ return 1;
+}
+
+
+void SpiDrv::sendParam(uint8_t* param, uint8_t param_len, uint8_t lastParam)
+{
+ int i = 0;
+ // Send Spi paramLen
+ sendParamLen8(param_len);
+
+ // Send Spi param data
+ for (i=0; i<param_len; ++i)
+ {
+ spiTransfer(param[i]);
+ }
+
+ // if lastParam==1 Send Spi END CMD
+ if (lastParam == 1)
+ spiTransfer(END_CMD);
+}
+
+void SpiDrv::sendParamLen8(uint8_t param_len)
+{
+ // Send Spi paramLen
+ spiTransfer(param_len);
+}
+
+void SpiDrv::sendParamLen16(uint16_t param_len)
+{
+ // Send Spi paramLen
+ spiTransfer((uint8_t)((param_len & 0xff00)>>8));
+ spiTransfer((uint8_t)(param_len & 0xff));
+}
+
+uint8_t SpiDrv::readParamLen8(uint8_t* param_len)
+{
+ uint8_t _param_len = spiTransfer(DUMMY_DATA);
+ if (param_len != NULL)
+ {
+ *param_len = _param_len;
+ }
+ return _param_len;
+}
+
+uint16_t SpiDrv::readParamLen16(uint16_t* param_len)
+{
+ uint16_t _param_len = spiTransfer(DUMMY_DATA)<<8 | (spiTransfer(DUMMY_DATA)& 0xff);
+ if (param_len != NULL)
+ {
+ *param_len = _param_len;
+ }
+ return _param_len;
+}
+
+
+void SpiDrv::sendBuffer(uint8_t* param, uint16_t param_len, uint8_t lastParam)
+{
+ uint16_t i = 0;
+
+ // Send Spi paramLen
+ sendParamLen16(param_len);
+
+ // Send Spi param data
+ for (i=0; i<param_len; ++i)
+ {
+ spiTransfer(param[i]);
+ }
+
+ // if lastParam==1 Send Spi END CMD
+ if (lastParam == 1)
+ spiTransfer(END_CMD);
+}
+
+
+void SpiDrv::sendParam(uint16_t param, uint8_t lastParam)
+{
+ // Send Spi paramLen
+ sendParamLen8(2);
+
+ spiTransfer((uint8_t)((param & 0xff00)>>8));
+ spiTransfer((uint8_t)(param & 0xff));
+
+ // if lastParam==1 Send Spi END CMD
+ if (lastParam == 1)
+ spiTransfer(END_CMD);
+}
+
+/* Cmd Struct Message */
+/* _________________________________________________________________________________ */
+/*| START CMD | C/R | CMD |[TOT LEN]| N.PARAM | PARAM LEN | PARAM | .. | END CMD | */
+/*|___________|______|______|_________|_________|___________|________|____|_________| */
+/*| 8 bit | 1bit | 7bit | 8bit | 8bit | 8bit | nbytes | .. | 8bit | */
+/*|___________|______|______|_________|_________|___________|________|____|_________| */
+
+void SpiDrv::sendCmd(uint8_t cmd, uint8_t numParam)
+{
+ // Send Spi START CMD
+ spiTransfer(START_CMD);
+
+ //waitForSlaveSign();
+ //wait the interrupt trigger on slave
+ delayMicroseconds(SPI_START_CMD_DELAY);
+
+ // Send Spi C + cmd
+ spiTransfer(cmd & ~(REPLY_FLAG));
+
+ // Send Spi totLen
+ //spiTransfer(totLen);
+
+ // Send Spi numParam
+ spiTransfer(numParam);
+
+ // If numParam == 0 send END CMD
+ if (numParam == 0)
+ spiTransfer(END_CMD);
+
+}
+
+SpiDrv spiDrv;
diff --git a/libraries/WiFi/utility/spi_drv.h b/libraries/WiFi/utility/spi_drv.h
new file mode 100644
index 0000000..5c2e706
--- /dev/null
+++ b/libraries/WiFi/utility/spi_drv.h
@@ -0,0 +1,83 @@
+#ifndef SPI_Drv_h
+#define SPI_Drv_h
+
+#include <inttypes.h>
+#include "wifi_spi.h"
+
+#define SPI_START_CMD_DELAY 12
+
+#define NO_LAST_PARAM 0
+#define LAST_PARAM 1
+
+#define DUMMY_DATA 0xFF
+
+#define WAIT_FOR_SLAVE_SELECT() \
+ SpiDrv::waitForSlaveReady(); \
+ SpiDrv::spiSlaveSelect();
+
+
+
+class SpiDrv
+{
+private:
+ //static bool waitSlaveReady();
+ static void waitForSlaveSign();
+ static void getParam(uint8_t* param);
+public:
+
+ static void begin();
+
+ static void end();
+
+ static void spiDriverInit();
+
+ static void spiSlaveSelect();
+
+ static void spiSlaveDeselect();
+
+ static char spiTransfer(volatile char data);
+
+ static void waitForSlaveReady();
+
+ //static int waitSpiChar(char waitChar, char* readChar);
+
+ static int waitSpiChar(unsigned char waitChar);
+
+ static int readAndCheckChar(char checkChar, char* readChar);
+
+ static char readChar();
+
+ static int waitResponseParams(uint8_t cmd, uint8_t numParam, tParam* params);
+
+ static int waitResponseCmd(uint8_t cmd, uint8_t numParam, uint8_t* param, uint8_t* param_len);
+
+ static int waitResponseData8(uint8_t cmd, uint8_t* param, uint8_t* param_len);
+
+ static int waitResponseData16(uint8_t cmd, uint8_t* param, uint16_t* param_len);
+ /*
+ static int waitResponse(uint8_t cmd, tParam* params, uint8_t* numParamRead, uint8_t maxNumParams);
+
+ static int waitResponse(uint8_t cmd, uint8_t numParam, uint8_t* param, uint16_t* param_len);
+*/
+ static int waitResponse(uint8_t cmd, uint8_t* numParamRead, uint8_t** params, uint8_t maxNumParams);
+
+ static void sendParam(uint8_t* param, uint8_t param_len, uint8_t lastParam = NO_LAST_PARAM);
+
+ static void sendParamLen8(uint8_t param_len);
+
+ static void sendParamLen16(uint16_t param_len);
+
+ static uint8_t readParamLen8(uint8_t* param_len = NULL);
+
+ static uint16_t readParamLen16(uint16_t* param_len = NULL);
+
+ static void sendBuffer(uint8_t* param, uint16_t param_len, uint8_t lastParam = NO_LAST_PARAM);
+
+ static void sendParam(uint16_t param, uint8_t lastParam = NO_LAST_PARAM);
+
+ static void sendCmd(uint8_t cmd, uint8_t numParam);
+};
+
+extern SpiDrv spiDrv;
+
+#endif
diff --git a/libraries/WiFi/utility/wifi_drv.cpp b/libraries/WiFi/utility/wifi_drv.cpp
new file mode 100644
index 0000000..1ca1696
--- /dev/null
+++ b/libraries/WiFi/utility/wifi_drv.cpp
@@ -0,0 +1,491 @@
+#include <stdio.h>
+#include <string.h>
+#include <stdint.h>
+
+#include "Arduino.h"
+#include "spi_drv.h"
+#include "wifi_drv.h"
+
+#define _DEBUG_
+
+extern "C" {
+#include "wifi_spi.h"
+#include "wl_types.h"
+#include "debug.h"
+}
+
+// Array of data to cache the information related to the networks discovered
+char WiFiDrv::_networkSsid[][WL_SSID_MAX_LENGTH] = {{"1"},{"2"},{"3"},{"4"},{"5"}};
+int32_t WiFiDrv::_networkRssi[WL_NETWORKS_LIST_MAXNUM] = { 0 };
+uint8_t WiFiDrv::_networkEncr[WL_NETWORKS_LIST_MAXNUM] = { 0 };
+
+// Cached values of retrieved data
+char WiFiDrv::_ssid[] = {0};
+uint8_t WiFiDrv::_bssid[] = {0};
+uint8_t WiFiDrv::_mac[] = {0};
+uint8_t WiFiDrv::_localIp[] = {0};
+uint8_t WiFiDrv::_subnetMask[] = {0};
+uint8_t WiFiDrv::_gatewayIp[] = {0};
+// Firmware version
+char WiFiDrv::fwVersion[] = {0};
+
+
+// Private Methods
+
+void WiFiDrv::getNetworkData(uint8_t *ip, uint8_t *mask, uint8_t *gwip)
+{
+ tParam params[PARAM_NUMS_3] = { {0, (char*)ip}, {0, (char*)mask}, {0, (char*)gwip}};
+
+ WAIT_FOR_SLAVE_SELECT();
+
+ // Send Command
+ SpiDrv::sendCmd(GET_IPADDR_CMD, PARAM_NUMS_1);
+
+ uint8_t _dummy = DUMMY_DATA;
+ SpiDrv::sendParam(&_dummy, sizeof(_dummy), LAST_PARAM);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ SpiDrv::waitResponseParams(GET_IPADDR_CMD, PARAM_NUMS_3, params);
+
+ SpiDrv::spiSlaveDeselect();
+}
+
+// Public Methods
+
+
+void WiFiDrv::wifiDriverInit()
+{
+ SpiDrv::begin();
+}
+
+int8_t WiFiDrv::wifiSetNetwork(char* ssid, uint8_t ssid_len)
+{
+ WAIT_FOR_SLAVE_SELECT();
+ // Send Command
+ SpiDrv::sendCmd(SET_NET_CMD, PARAM_NUMS_1);
+ SpiDrv::sendParam((uint8_t*)ssid, ssid_len, LAST_PARAM);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ uint8_t _data = 0;
+ uint8_t _dataLen = 0;
+ if (!SpiDrv::waitResponseCmd(SET_NET_CMD, PARAM_NUMS_1, &_data, &_dataLen))
+ {
+ WARN("error waitResponse");
+ _data = WL_FAILURE;
+ }
+ SpiDrv::spiSlaveDeselect();
+
+ return(_data == WIFI_SPI_ACK) ? WL_SUCCESS : WL_FAILURE;
+}
+
+int8_t WiFiDrv::wifiSetPassphrase(char* ssid, uint8_t ssid_len, const char *passphrase, const uint8_t len)
+{
+ WAIT_FOR_SLAVE_SELECT();
+ // Send Command
+ SpiDrv::sendCmd(SET_PASSPHRASE_CMD, PARAM_NUMS_2);
+ SpiDrv::sendParam((uint8_t*)ssid, ssid_len, NO_LAST_PARAM);
+ SpiDrv::sendParam((uint8_t*)passphrase, len, LAST_PARAM);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ uint8_t _data = 0;
+ uint8_t _dataLen = 0;
+ if (!SpiDrv::waitResponseCmd(SET_PASSPHRASE_CMD, PARAM_NUMS_1, &_data, &_dataLen))
+ {
+ WARN("error waitResponse");
+ _data = WL_FAILURE;
+ }
+ SpiDrv::spiSlaveDeselect();
+ return _data;
+}
+
+
+int8_t WiFiDrv::wifiSetKey(char* ssid, uint8_t ssid_len, uint8_t key_idx, const void *key, const uint8_t len)
+{
+ WAIT_FOR_SLAVE_SELECT();
+ // Send Command
+ SpiDrv::sendCmd(SET_KEY_CMD, PARAM_NUMS_3);
+ SpiDrv::sendParam((uint8_t*)ssid, ssid_len, NO_LAST_PARAM);
+ SpiDrv::sendParam(&key_idx, KEY_IDX_LEN, NO_LAST_PARAM);
+ SpiDrv::sendParam((uint8_t*)key, len, LAST_PARAM);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ uint8_t _data = 0;
+ uint8_t _dataLen = 0;
+ if (!SpiDrv::waitResponseCmd(SET_KEY_CMD, PARAM_NUMS_1, &_data, &_dataLen))
+ {
+ WARN("error waitResponse");
+ _data = WL_FAILURE;
+ }
+ SpiDrv::spiSlaveDeselect();
+ return _data;
+}
+
+int8_t WiFiDrv::disconnect()
+{
+ WAIT_FOR_SLAVE_SELECT();
+ // Send Command
+ SpiDrv::sendCmd(DISCONNECT_CMD, PARAM_NUMS_1);
+
+ uint8_t _dummy = DUMMY_DATA;
+ SpiDrv::sendParam(&_dummy, 1, LAST_PARAM);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ uint8_t _data = 0;
+ uint8_t _dataLen = 0;
+ int8_t result = SpiDrv::waitResponseCmd(DISCONNECT_CMD, PARAM_NUMS_1, &_data, &_dataLen);
+
+ SpiDrv::spiSlaveDeselect();
+
+ return result;
+}
+
+uint8_t WiFiDrv::getConnectionStatus()
+{
+ WAIT_FOR_SLAVE_SELECT();
+
+ // Send Command
+ SpiDrv::sendCmd(GET_CONN_STATUS_CMD, PARAM_NUMS_0);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ uint8_t _data = -1;
+ uint8_t _dataLen = 0;
+ SpiDrv::waitResponseCmd(GET_CONN_STATUS_CMD, PARAM_NUMS_1, &_data, &_dataLen);
+
+ SpiDrv::spiSlaveDeselect();
+
+ return _data;
+}
+
+uint8_t* WiFiDrv::getMacAddress()
+{
+ WAIT_FOR_SLAVE_SELECT();
+
+ // Send Command
+ SpiDrv::sendCmd(GET_MACADDR_CMD, PARAM_NUMS_1);
+
+ uint8_t _dummy = DUMMY_DATA;
+ SpiDrv::sendParam(&_dummy, 1, LAST_PARAM);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ uint8_t _dataLen = 0;
+ SpiDrv::waitResponseCmd(GET_MACADDR_CMD, PARAM_NUMS_1, _mac, &_dataLen);
+
+ SpiDrv::spiSlaveDeselect();
+
+ return _mac;
+}
+
+void WiFiDrv::getIpAddress(IPAddress& ip)
+{
+ getNetworkData(_localIp, _subnetMask, _gatewayIp);
+ ip = _localIp;
+}
+
+ void WiFiDrv::getSubnetMask(IPAddress& mask)
+ {
+ getNetworkData(_localIp, _subnetMask, _gatewayIp);
+ mask = _subnetMask;
+ }
+
+ void WiFiDrv::getGatewayIP(IPAddress& ip)
+ {
+ getNetworkData(_localIp, _subnetMask, _gatewayIp);
+ ip = _gatewayIp;
+ }
+
+char* WiFiDrv::getCurrentSSID()
+{
+ WAIT_FOR_SLAVE_SELECT();
+
+ // Send Command
+ SpiDrv::sendCmd(GET_CURR_SSID_CMD, PARAM_NUMS_1);
+
+ uint8_t _dummy = DUMMY_DATA;
+ SpiDrv::sendParam(&_dummy, 1, LAST_PARAM);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ uint8_t _dataLen = 0;
+ SpiDrv::waitResponseCmd(GET_CURR_SSID_CMD, PARAM_NUMS_1, (uint8_t*)_ssid, &_dataLen);
+
+ SpiDrv::spiSlaveDeselect();
+
+ return _ssid;
+}
+
+uint8_t* WiFiDrv::getCurrentBSSID()
+{
+ WAIT_FOR_SLAVE_SELECT();
+
+ // Send Command
+ SpiDrv::sendCmd(GET_CURR_BSSID_CMD, PARAM_NUMS_1);
+
+ uint8_t _dummy = DUMMY_DATA;
+ SpiDrv::sendParam(&_dummy, 1, LAST_PARAM);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ uint8_t _dataLen = 0;
+ SpiDrv::waitResponseCmd(GET_CURR_BSSID_CMD, PARAM_NUMS_1, _bssid, &_dataLen);
+
+ SpiDrv::spiSlaveDeselect();
+
+ return _bssid;
+}
+
+int32_t WiFiDrv::getCurrentRSSI()
+{
+ WAIT_FOR_SLAVE_SELECT();
+
+ // Send Command
+ SpiDrv::sendCmd(GET_CURR_RSSI_CMD, PARAM_NUMS_1);
+
+ uint8_t _dummy = DUMMY_DATA;
+ SpiDrv::sendParam(&_dummy, 1, LAST_PARAM);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ uint8_t _dataLen = 0;
+ int32_t rssi = 0;
+ SpiDrv::waitResponseCmd(GET_CURR_RSSI_CMD, PARAM_NUMS_1, (uint8_t*)&rssi, &_dataLen);
+
+ SpiDrv::spiSlaveDeselect();
+
+ return rssi;
+}
+
+uint8_t WiFiDrv::getCurrentEncryptionType()
+{
+ WAIT_FOR_SLAVE_SELECT();
+
+ // Send Command
+ SpiDrv::sendCmd(GET_CURR_ENCT_CMD, PARAM_NUMS_1);
+
+ uint8_t _dummy = DUMMY_DATA;
+ SpiDrv::sendParam(&_dummy, 1, LAST_PARAM);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ uint8_t dataLen = 0;
+ uint8_t encType = 0;
+ SpiDrv::waitResponseCmd(GET_CURR_ENCT_CMD, PARAM_NUMS_1, (uint8_t*)&encType, &dataLen);
+
+ SpiDrv::spiSlaveDeselect();
+
+ return encType;
+}
+
+int8_t WiFiDrv::startScanNetworks()
+{
+ WAIT_FOR_SLAVE_SELECT();
+
+ // Send Command
+ SpiDrv::sendCmd(START_SCAN_NETWORKS, PARAM_NUMS_0);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ uint8_t _data = 0;
+ uint8_t _dataLen = 0;
+
+ if (!SpiDrv::waitResponseCmd(START_SCAN_NETWORKS, PARAM_NUMS_1, &_data, &_dataLen))
+ {
+ WARN("error waitResponse");
+ _data = WL_FAILURE;
+ }
+
+ SpiDrv::spiSlaveDeselect();
+
+ return (_data == WL_FAILURE)? _data : WL_SUCCESS;
+}
+
+
+uint8_t WiFiDrv::getScanNetworks()
+{
+ WAIT_FOR_SLAVE_SELECT();
+
+ // Send Command
+ SpiDrv::sendCmd(SCAN_NETWORKS, PARAM_NUMS_0);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ uint8_t ssidListNum = 0;
+ SpiDrv::waitResponse(SCAN_NETWORKS, &ssidListNum, (uint8_t**)_networkSsid, WL_NETWORKS_LIST_MAXNUM);
+
+ SpiDrv::spiSlaveDeselect();
+
+ return ssidListNum;
+}
+
+char* WiFiDrv::getSSIDNetoworks(uint8_t networkItem)
+{
+ if (networkItem >= WL_NETWORKS_LIST_MAXNUM)
+ return NULL;
+
+ return _networkSsid[networkItem];
+}
+
+uint8_t WiFiDrv::getEncTypeNetowrks(uint8_t networkItem)
+{
+ if (networkItem >= WL_NETWORKS_LIST_MAXNUM)
+ return NULL;
+
+ WAIT_FOR_SLAVE_SELECT();
+
+ // Send Command
+ SpiDrv::sendCmd(GET_IDX_ENCT_CMD, PARAM_NUMS_1);
+
+ SpiDrv::sendParam(&networkItem, 1, LAST_PARAM);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ uint8_t dataLen = 0;
+ uint8_t encType = 0;
+ SpiDrv::waitResponseCmd(GET_IDX_ENCT_CMD, PARAM_NUMS_1, (uint8_t*)&encType, &dataLen);
+
+ SpiDrv::spiSlaveDeselect();
+
+ return encType;
+}
+
+int32_t WiFiDrv::getRSSINetoworks(uint8_t networkItem)
+{
+ if (networkItem >= WL_NETWORKS_LIST_MAXNUM)
+ return NULL;
+ int32_t networkRssi = 0;
+
+ WAIT_FOR_SLAVE_SELECT();
+
+ // Send Command
+ SpiDrv::sendCmd(GET_IDX_RSSI_CMD, PARAM_NUMS_1);
+
+ SpiDrv::sendParam(&networkItem, 1, LAST_PARAM);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ uint8_t dataLen = 0;
+ SpiDrv::waitResponseCmd(GET_IDX_RSSI_CMD, PARAM_NUMS_1, (uint8_t*)&networkRssi, &dataLen);
+
+ SpiDrv::spiSlaveDeselect();
+
+ return networkRssi;
+}
+
+uint8_t WiFiDrv::reqHostByName(const char* aHostname)
+{
+ WAIT_FOR_SLAVE_SELECT();
+
+ // Send Command
+ SpiDrv::sendCmd(REQ_HOST_BY_NAME_CMD, PARAM_NUMS_1);
+ SpiDrv::sendParam((uint8_t*)aHostname, strlen(aHostname), LAST_PARAM);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ uint8_t _data = 0;
+ uint8_t _dataLen = 0;
+ uint8_t result = SpiDrv::waitResponseCmd(REQ_HOST_BY_NAME_CMD, PARAM_NUMS_1, &_data, &_dataLen);
+
+ SpiDrv::spiSlaveDeselect();
+
+ return result;
+}
+
+int WiFiDrv::getHostByName(IPAddress& aResult)
+{
+ uint8_t _ipAddr[WL_IPV4_LENGTH];
+ IPAddress dummy(0xFF,0xFF,0xFF,0xFF);
+ int result = 0;
+
+ WAIT_FOR_SLAVE_SELECT();
+ // Send Command
+ SpiDrv::sendCmd(GET_HOST_BY_NAME_CMD, PARAM_NUMS_0);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ uint8_t _dataLen = 0;
+ if (!SpiDrv::waitResponseCmd(GET_HOST_BY_NAME_CMD, PARAM_NUMS_1, _ipAddr, &_dataLen))
+ {
+ WARN("error waitResponse");
+ }else{
+ aResult = _ipAddr;
+ result = (aResult != dummy);
+ }
+ SpiDrv::spiSlaveDeselect();
+ return result;
+}
+
+int WiFiDrv::getHostByName(const char* aHostname, IPAddress& aResult)
+{
+ uint8_t retry = 10;
+ if (reqHostByName(aHostname))
+ {
+ while(!getHostByName(aResult) && --retry > 0)
+ {
+ delay(1000);
+ }
+ }else{
+ return 0;
+ }
+ return (retry>0);
+}
+
+char* WiFiDrv::getFwVersion()
+{
+ WAIT_FOR_SLAVE_SELECT();
+ // Send Command
+ SpiDrv::sendCmd(GET_FW_VERSION_CMD, PARAM_NUMS_0);
+
+ //Wait the reply elaboration
+ SpiDrv::waitForSlaveReady();
+
+ // Wait for reply
+ uint8_t _dataLen = 0;
+ if (!SpiDrv::waitResponseCmd(GET_FW_VERSION_CMD, PARAM_NUMS_1, (uint8_t*)fwVersion, &_dataLen))
+ {
+ WARN("error waitResponse");
+ }
+ SpiDrv::spiSlaveDeselect();
+ return fwVersion;
+}
+
+WiFiDrv wiFiDrv;
diff --git a/libraries/WiFi/utility/wifi_drv.h b/libraries/WiFi/utility/wifi_drv.h
new file mode 100644
index 0000000..c4f04db
--- /dev/null
+++ b/libraries/WiFi/utility/wifi_drv.h
@@ -0,0 +1,219 @@
+#ifndef WiFi_Drv_h
+#define WiFi_Drv_h
+
+#include <inttypes.h>
+#include "wifi_spi.h"
+#include "IPAddress.h"
+
+// Key index length
+#define KEY_IDX_LEN 1
+// 5 secs of delay to have the connection established
+#define WL_DELAY_START_CONNECTION 5000
+// firmware version string length
+#define WL_FW_VER_LENGTH 6
+
+class WiFiDrv
+{
+private:
+ // settings of requested network
+ static char _networkSsid[WL_NETWORKS_LIST_MAXNUM][WL_SSID_MAX_LENGTH];
+ static int32_t _networkRssi[WL_NETWORKS_LIST_MAXNUM];
+ static uint8_t _networkEncr[WL_NETWORKS_LIST_MAXNUM];
+
+ // firmware version string in the format a.b.c
+ static char fwVersion[WL_FW_VER_LENGTH];
+
+ // settings of current selected network
+ static char _ssid[WL_SSID_MAX_LENGTH];
+ static uint8_t _bssid[WL_MAC_ADDR_LENGTH];
+ static uint8_t _mac[WL_MAC_ADDR_LENGTH];
+ static uint8_t _localIp[WL_IPV4_LENGTH];
+ static uint8_t _subnetMask[WL_IPV4_LENGTH];
+ static uint8_t _gatewayIp[WL_IPV4_LENGTH];
+
+ /*
+ * Get network Data information
+ */
+ static void getNetworkData(uint8_t *ip, uint8_t *mask, uint8_t *gwip);
+
+ static uint8_t reqHostByName(const char* aHostname);
+
+ static int getHostByName(IPAddress& aResult);
+
+public:
+
+ /*
+ * Driver initialization
+ */
+ static void wifiDriverInit();
+
+ /*
+ * Set the desired network which the connection manager should try to
+ * connect to.
+ *
+ * The ssid of the desired network should be specified.
+ *
+ * param ssid: The ssid of the desired network.
+ * param ssid_len: Lenght of ssid string.
+ * return: WL_SUCCESS or WL_FAILURE
+ */
+ static int8_t wifiSetNetwork(char* ssid, uint8_t ssid_len);
+
+ /* Start Wifi connection with passphrase
+ * the most secure supported mode will be automatically selected
+ *
+ * param ssid: Pointer to the SSID string.
+ * param ssid_len: Lenght of ssid string.
+ * param passphrase: Passphrase. Valid characters in a passphrase
+ * must be between ASCII 32-126 (decimal).
+ * param len: Lenght of passphrase string.
+ * return: WL_SUCCESS or WL_FAILURE
+ */
+ static int8_t wifiSetPassphrase(char* ssid, uint8_t ssid_len, const char *passphrase, const uint8_t len);
+
+ /* Start Wifi connection with WEP encryption.
+ * Configure a key into the device. The key type (WEP-40, WEP-104)
+ * is determined by the size of the key (5 bytes for WEP-40, 13 bytes for WEP-104).
+ *
+ * param ssid: Pointer to the SSID string.
+ * param ssid_len: Lenght of ssid string.
+ * param key_idx: The key index to set. Valid values are 0-3.
+ * param key: Key input buffer.
+ * param len: Lenght of key string.
+ * return: WL_SUCCESS or WL_FAILURE
+ */
+ static int8_t wifiSetKey(char* ssid, uint8_t ssid_len, uint8_t key_idx, const void *key, const uint8_t len);
+
+ /*
+ * Disconnect from the network
+ *
+ * return: WL_SUCCESS or WL_FAILURE
+ */
+ static int8_t disconnect();
+
+ /*
+ * Disconnect from the network
+ *
+ * return: one value of wl_status_t enum
+ */
+ static uint8_t getConnectionStatus();
+
+ /*
+ * Get the interface MAC address.
+ *
+ * return: pointer to uint8_t array with length WL_MAC_ADDR_LENGTH
+ */
+ static uint8_t* getMacAddress();
+
+ /*
+ * Get the interface IP address.
+ *
+ * return: copy the ip address value in IPAddress object
+ */
+ static void getIpAddress(IPAddress& ip);
+
+ /*
+ * Get the interface subnet mask address.
+ *
+ * return: copy the subnet mask address value in IPAddress object
+ */
+ static void getSubnetMask(IPAddress& mask);
+
+ /*
+ * Get the gateway ip address.
+ *
+ * return: copy the gateway ip address value in IPAddress object
+ */
+ static void getGatewayIP(IPAddress& ip);
+
+ /*
+ * Return the current SSID associated with the network
+ *
+ * return: ssid string
+ */
+ static char* getCurrentSSID();
+
+ /*
+ * Return the current BSSID associated with the network.
+ * It is the MAC address of the Access Point
+ *
+ * return: pointer to uint8_t array with length WL_MAC_ADDR_LENGTH
+ */
+ static uint8_t* getCurrentBSSID();
+
+ /*
+ * Return the current RSSI /Received Signal Strength in dBm)
+ * associated with the network
+ *
+ * return: signed value
+ */
+ static int32_t getCurrentRSSI();
+
+ /*
+ * Return the Encryption Type associated with the network
+ *
+ * return: one value of wl_enc_type enum
+ */
+ static uint8_t getCurrentEncryptionType();
+
+ /*
+ * Start scan WiFi networks available
+ *
+ * return: Number of discovered networks
+ */
+ static int8_t startScanNetworks();
+
+ /*
+ * Get the networks available
+ *
+ * return: Number of discovered networks
+ */
+ static uint8_t getScanNetworks();
+
+ /*
+ * Return the SSID discovered during the network scan.
+ *
+ * param networkItem: specify from which network item want to get the information
+ *
+ * return: ssid string of the specified item on the networks scanned list
+ */
+ static char* getSSIDNetoworks(uint8_t networkItem);
+
+ /*
+ * Return the RSSI of the networks discovered during the scanNetworks
+ *
+ * param networkItem: specify from which network item want to get the information
+ *
+ * return: signed value of RSSI of the specified item on the networks scanned list
+ */
+ static int32_t getRSSINetoworks(uint8_t networkItem);
+
+ /*
+ * Return the encryption type of the networks discovered during the scanNetworks
+ *
+ * param networkItem: specify from which network item want to get the information
+ *
+ * return: encryption type (enum wl_enc_type) of the specified item on the networks scanned list
+ */
+ static uint8_t getEncTypeNetowrks(uint8_t networkItem);
+
+ /*
+ * Resolve the given hostname to an IP address.
+ * param aHostname: Name to be resolved
+ * param aResult: IPAddress structure to store the returned IP address
+ * result: 1 if aIPAddrString was successfully converted to an IP address,
+ * else error code
+ */
+ static int getHostByName(const char* aHostname, IPAddress& aResult);
+
+ /*
+ * Get the firmware version
+ * result: version as string with this format a.b.c
+ */
+ static char* getFwVersion();
+
+};
+
+extern WiFiDrv wiFiDrv;
+
+#endif
diff --git a/libraries/WiFi/utility/wifi_spi.h b/libraries/WiFi/utility/wifi_spi.h
new file mode 100644
index 0000000..bf479e2
--- /dev/null
+++ b/libraries/WiFi/utility/wifi_spi.h
@@ -0,0 +1,144 @@
+#ifndef WiFi_Spi_h
+#define WiFi_Spi_h
+
+#include "wl_definitions.h"
+
+#define CMD_FLAG 0
+#define REPLY_FLAG 1<<7
+#define DATA_FLAG 0x40
+
+#define WIFI_SPI_ACK 1
+#define WIFI_SPI_ERR 0xFF
+
+#define TIMEOUT_CHAR 1000
+
+//#define MAX_SOCK_NUM 4 /**< Maxmium number of socket */
+#define NO_SOCKET_AVAIL 255
+
+#define START_CMD 0xE0
+#define END_CMD 0xEE
+#define ERR_CMD 0xEF
+
+enum {
+ SET_NET_CMD = 0x10,
+ SET_PASSPHRASE_CMD = 0x11,
+ SET_KEY_CMD = 0x12,
+ TEST_CMD = 0x13,
+
+ GET_CONN_STATUS_CMD = 0x20,
+ GET_IPADDR_CMD = 0x21,
+ GET_MACADDR_CMD = 0x22,
+ GET_CURR_SSID_CMD = 0x23,
+ GET_CURR_BSSID_CMD = 0x24,
+ GET_CURR_RSSI_CMD = 0x25,
+ GET_CURR_ENCT_CMD = 0x26,
+ SCAN_NETWORKS = 0x27,
+ START_SERVER_TCP_CMD= 0x28,
+ GET_STATE_TCP_CMD = 0x29,
+ DATA_SENT_TCP_CMD = 0x2A,
+ AVAIL_DATA_TCP_CMD = 0x2B,
+ GET_DATA_TCP_CMD = 0x2C,
+ START_CLIENT_TCP_CMD= 0x2D,
+ STOP_CLIENT_TCP_CMD = 0x2E,
+ GET_CLIENT_STATE_TCP_CMD= 0x2F,
+ DISCONNECT_CMD = 0x30,
+ GET_IDX_SSID_CMD = 0x31,
+ GET_IDX_RSSI_CMD = 0x32,
+ GET_IDX_ENCT_CMD = 0x33,
+ REQ_HOST_BY_NAME_CMD= 0x34,
+ GET_HOST_BY_NAME_CMD= 0x35,
+ START_SCAN_NETWORKS = 0x36,
+ GET_FW_VERSION_CMD = 0x37,
+
+ // All command with DATA_FLAG 0x40 send a 16bit Len
+
+ SEND_DATA_TCP_CMD = 0x44,
+ GET_DATABUF_TCP_CMD = 0x45,
+};
+
+
+enum wl_tcp_state {
+ CLOSED = 0,
+ LISTEN = 1,
+ SYN_SENT = 2,
+ SYN_RCVD = 3,
+ ESTABLISHED = 4,
+ FIN_WAIT_1 = 5,
+ FIN_WAIT_2 = 6,
+ CLOSE_WAIT = 7,
+ CLOSING = 8,
+ LAST_ACK = 9,
+ TIME_WAIT = 10
+};
+
+
+enum numParams{
+ PARAM_NUMS_0,
+ PARAM_NUMS_1,
+ PARAM_NUMS_2,
+ PARAM_NUMS_3,
+ PARAM_NUMS_4,
+ PARAM_NUMS_5,
+ MAX_PARAM_NUMS
+};
+
+#define MAX_PARAMS MAX_PARAM_NUMS-1
+#define PARAM_LEN_SIZE 1
+
+typedef struct __attribute__((__packed__))
+{
+ uint8_t paramLen;
+ char* param;
+}tParam;
+
+typedef struct __attribute__((__packed__))
+{
+ uint16_t dataLen;
+ char* data;
+}tDataParam;
+
+
+typedef struct __attribute__((__packed__))
+{
+ unsigned char cmd;
+ unsigned char tcmd;
+ unsigned char nParam;
+ tParam params[MAX_PARAMS];
+}tSpiMsg;
+
+typedef struct __attribute__((__packed__))
+{
+ unsigned char cmd;
+ unsigned char tcmd;
+ unsigned char nParam;
+ tDataParam params[MAX_PARAMS];
+}tSpiMsgData;
+
+
+typedef struct __attribute__((__packed__))
+{
+ unsigned char cmd;
+ unsigned char tcmd;
+ //unsigned char totLen;
+ unsigned char nParam;
+}tSpiHdr;
+
+typedef struct __attribute__((__packed__))
+{
+ uint8_t paramLen;
+ uint32_t param;
+}tLongParam;
+
+typedef struct __attribute__((__packed__))
+{
+ uint8_t paramLen;
+ uint16_t param;
+}tIntParam;
+
+typedef struct __attribute__((__packed__))
+{
+ uint8_t paramLen;
+ uint8_t param;
+}tByteParam;
+
+#endif
diff --git a/libraries/WiFi/utility/wl_definitions.h b/libraries/WiFi/utility/wl_definitions.h
new file mode 100644
index 0000000..15de781
--- /dev/null
+++ b/libraries/WiFi/utility/wl_definitions.h
@@ -0,0 +1,50 @@
+/*
+ * wl_definitions.h
+ *
+ * Created on: Mar 6, 2011
+ * Author: dlafauci
+ */
+
+#ifndef WL_DEFINITIONS_H_
+#define WL_DEFINITIONS_H_
+
+// Maximum size of a SSID
+#define WL_SSID_MAX_LENGTH 32
+// Length of passphrase. Valid lengths are 8-63.
+#define WL_WPA_KEY_MAX_LENGTH 63
+// Length of key in bytes. Valid values are 5 and 13.
+#define WL_WEP_KEY_MAX_LENGTH 13
+// Size of a MAC-address or BSSID
+#define WL_MAC_ADDR_LENGTH 6
+// Size of a MAC-address or BSSID
+#define WL_IPV4_LENGTH 4
+// Maximum size of a SSID list
+#define WL_NETWORKS_LIST_MAXNUM 10
+// Maxmium number of socket
+#define MAX_SOCK_NUM 4
+//Maximum number of attempts to establish wifi connection
+#define WL_MAX_ATTEMPT_CONNECTION 10
+
+typedef enum {
+ WL_NO_SHIELD = 255,
+ WL_IDLE_STATUS = 0,
+ WL_NO_SSID_AVAIL,
+ WL_SCAN_COMPLETED,
+ WL_CONNECTED,
+ WL_CONNECT_FAILED,
+ WL_CONNECTION_LOST,
+ WL_DISCONNECTED
+} wl_status_t;
+
+/* Encryption modes */
+enum wl_enc_type { /* Values map to 802.11 encryption suites... */
+ ENC_TYPE_WEP = 5,
+ ENC_TYPE_TKIP = 2,
+ ENC_TYPE_CCMP = 4,
+ /* ... except these two, 7 and 8 are reserved in 802.11-2007 */
+ ENC_TYPE_NONE = 7,
+ ENC_TYPE_AUTO = 8
+};
+
+
+#endif /* WL_DEFINITIONS_H_ */
diff --git a/libraries/WiFi/utility/wl_types.h b/libraries/WiFi/utility/wl_types.h
new file mode 100644
index 0000000..82b309d
--- /dev/null
+++ b/libraries/WiFi/utility/wl_types.h
@@ -0,0 +1,31 @@
+/*
+ * wl_types.h
+ *
+ * Created on: Jul 30, 2010
+ * Author: dlafauci
+ */
+
+
+#ifndef _WL_TYPES_H_
+#define _WL_TYPES_H_
+
+#include <inttypes.h>
+
+typedef enum {
+ WL_FAILURE = -1,
+ WL_SUCCESS = 1,
+} wl_error_code_t;
+
+/* Authentication modes */
+enum wl_auth_mode {
+ AUTH_MODE_INVALID,
+ AUTH_MODE_AUTO,
+ AUTH_MODE_OPEN_SYSTEM,
+ AUTH_MODE_SHARED_KEY,
+ AUTH_MODE_WPA,
+ AUTH_MODE_WPA2,
+ AUTH_MODE_WPA_PSK,
+ AUTH_MODE_WPA2_PSK
+};
+
+#endif //_WL_TYPES_H_
diff --git a/libraries/Wire/Wire.cpp b/libraries/Wire/Wire.cpp
new file mode 100755
index 0000000..4e7a17c
--- /dev/null
+++ b/libraries/Wire/Wire.cpp
@@ -0,0 +1,298 @@
+/*
+ TwoWire.cpp - TWI/I2C library for Wiring & Arduino
+ Copyright (c) 2006 Nicholas Zambetti. All right reserved.
+
+ This library is free software; you can redistribute it and/or
+ modify it under the terms of the GNU Lesser General Public
+ License as published by the Free Software Foundation; either
+ version 2.1 of the License, or (at your option) any later version.
+
+ This library is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+ Lesser General Public License for more details.
+
+ You should have received a copy of the GNU Lesser General Public
+ License along with this library; if not, write to the Free Software
+ Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
+
+ Modified 2012 by Todd Krein (todd@krein.org) to implement repeated starts
+*/
+
+extern "C" {
+ #include <stdlib.h>
+ #include <string.h>
+ #include <inttypes.h>
+ #include "twi.h"
+}
+
+#include "Wire.h"
+
+// Initialize Class Variables //////////////////////////////////////////////////
+
+uint8_t TwoWire::rxBuffer[BUFFER_LENGTH];
+uint8_t TwoWire::rxBufferIndex = 0;
+uint8_t TwoWire::rxBufferLength = 0;
+
+uint8_t TwoWire::txAddress = 0;
+uint8_t TwoWire::txBuffer[BUFFER_LENGTH];
+uint8_t TwoWire::txBufferIndex = 0;
+uint8_t TwoWire::txBufferLength = 0;
+
+uint8_t TwoWire::transmitting = 0;
+void (*TwoWire::user_onRequest)(void);
+void (*TwoWire::user_onReceive)(int);
+
+// Constructors ////////////////////////////////////////////////////////////////
+
+TwoWire::TwoWire()
+{
+}
+
+// Public Methods //////////////////////////////////////////////////////////////
+
+void TwoWire::begin(void)
+{
+ rxBufferIndex = 0;
+ rxBufferLength = 0;
+
+ txBufferIndex = 0;
+ txBufferLength = 0;
+
+ twi_init();
+}
+
+void TwoWire::begin(uint8_t address)
+{
+ twi_setAddress(address);
+ twi_attachSlaveTxEvent(onRequestService);
+ twi_attachSlaveRxEvent(onReceiveService);
+ begin();
+}
+
+void TwoWire::begin(int address)
+{
+ begin((uint8_t)address);
+}
+
+uint8_t TwoWire::requestFrom(uint8_t address, uint8_t quantity, uint8_t sendStop)
+{
+ // clamp to buffer length
+ if(quantity > BUFFER_LENGTH){
+ quantity = BUFFER_LENGTH;
+ }
+ // perform blocking read into buffer
+ uint8_t read = twi_readFrom(address, rxBuffer, quantity, sendStop);
+ // set rx buffer iterator vars
+ rxBufferIndex = 0;
+ rxBufferLength = read;
+
+ return read;
+}
+
+uint8_t TwoWire::requestFrom(uint8_t address, uint8_t quantity)
+{
+ return requestFrom((uint8_t)address, (uint8_t)quantity, (uint8_t)true);
+}
+
+uint8_t TwoWire::requestFrom(int address, int quantity)
+{
+ return requestFrom((uint8_t)address, (uint8_t)quantity, (uint8_t)true);
+}
+
+uint8_t TwoWire::requestFrom(int address, int quantity, int sendStop)
+{
+ return requestFrom((uint8_t)address, (uint8_t)quantity, (uint8_t)sendStop);
+}
+
+void TwoWire::beginTransmission(uint8_t address)
+{
+ // indicate that we are transmitting
+ transmitting = 1;
+ // set address of targeted slave
+ txAddress = address;
+ // reset tx buffer iterator vars
+ txBufferIndex = 0;
+ txBufferLength = 0;
+}
+
+void TwoWire::beginTransmission(int address)
+{
+ beginTransmission((uint8_t)address);
+}
+
+//
+// Originally, 'endTransmission' was an f(void) function.
+// It has been modified to take one parameter indicating
+// whether or not a STOP should be performed on the bus.
+// Calling endTransmission(false) allows a sketch to
+// perform a repeated start.
+//
+// WARNING: Nothing in the library keeps track of whether
+// the bus tenure has been properly ended with a STOP. It
+// is very possible to leave the bus in a hung state if
+// no call to endTransmission(true) is made. Some I2C
+// devices will behave oddly if they do not see a STOP.
+//
+uint8_t TwoWire::endTransmission(uint8_t sendStop)
+{
+ // transmit buffer (blocking)
+ int8_t ret = twi_writeTo(txAddress, txBuffer, txBufferLength, 1, sendStop);
+ // reset tx buffer iterator vars
+ txBufferIndex = 0;
+ txBufferLength = 0;
+ // indicate that we are done transmitting
+ transmitting = 0;
+ return ret;
+}
+
+// This provides backwards compatibility with the original
+// definition, and expected behaviour, of endTransmission
+//
+uint8_t TwoWire::endTransmission(void)
+{
+ return endTransmission(true);
+}
+
+// must be called in:
+// slave tx event callback
+// or after beginTransmission(address)
+size_t TwoWire::write(uint8_t data)
+{
+ if(transmitting){
+ // in master transmitter mode
+ // don't bother if buffer is full
+ if(txBufferLength >= BUFFER_LENGTH){
+ setWriteError();
+ return 0;
+ }
+ // put byte in tx buffer
+ txBuffer[txBufferIndex] = data;
+ ++txBufferIndex;
+ // update amount in buffer
+ txBufferLength = txBufferIndex;
+ }else{
+ // in slave send mode
+ // reply to master
+ twi_transmit(&data, 1);
+ }
+ return 1;
+}
+
+// must be called in:
+// slave tx event callback
+// or after beginTransmission(address)
+size_t TwoWire::write(const uint8_t *data, size_t quantity)
+{
+ if(transmitting){
+ // in master transmitter mode
+ for(size_t i = 0; i < quantity; ++i){
+ write(data[i]);
+ }
+ }else{
+ // in slave send mode
+ // reply to master
+ twi_transmit(data, quantity);
+ }
+ return quantity;
+}
+
+// must be called in:
+// slave rx event callback
+// or after requestFrom(address, numBytes)
+int TwoWire::available(void)
+{
+ return rxBufferLength - rxBufferIndex;
+}
+
+// must be called in:
+// slave rx event callback
+// or after requestFrom(address, numBytes)
+int TwoWire::read(void)
+{
+ int value = -1;
+
+ // get each successive byte on each call
+ if(rxBufferIndex < rxBufferLength){
+ value = rxBuffer[rxBufferIndex];
+ ++rxBufferIndex;
+ }
+
+ return value;
+}
+
+// must be called in:
+// slave rx event callback
+// or after requestFrom(address, numBytes)
+int TwoWire::peek(void)
+{
+ int value = -1;
+
+ if(rxBufferIndex < rxBufferLength){
+ value = rxBuffer[rxBufferIndex];
+ }
+
+ return value;
+}
+
+void TwoWire::flush(void)
+{
+ // XXX: to be implemented.
+}
+
+// behind the scenes function that is called when data is received
+void TwoWire::onReceiveService(uint8_t* inBytes, int numBytes)
+{
+ // don't bother if user hasn't registered a callback
+ if(!user_onReceive){
+ return;
+ }
+ // don't bother if rx buffer is in use by a master requestFrom() op
+ // i know this drops data, but it allows for slight stupidity
+ // meaning, they may not have read all the master requestFrom() data yet
+ if(rxBufferIndex < rxBufferLength){
+ return;
+ }
+ // copy twi rx buffer into local read buffer
+ // this enables new reads to happen in parallel
+ for(uint8_t i = 0; i < numBytes; ++i){
+ rxBuffer[i] = inBytes[i];
+ }
+ // set rx iterator vars
+ rxBufferIndex = 0;
+ rxBufferLength = numBytes;
+ // alert user program
+ user_onReceive(numBytes);
+}
+
+// behind the scenes function that is called when data is requested
+void TwoWire::onRequestService(void)
+{
+ // don't bother if user hasn't registered a callback
+ if(!user_onRequest){
+ return;
+ }
+ // reset tx buffer iterator vars
+ // !!! this will kill any pending pre-master sendTo() activity
+ txBufferIndex = 0;
+ txBufferLength = 0;
+ // alert user program
+ user_onRequest();
+}
+
+// sets function called on slave write
+void TwoWire::onReceive( void (*function)(int) )
+{
+ user_onReceive = function;
+}
+
+// sets function called on slave read
+void TwoWire::onRequest( void (*function)(void) )
+{
+ user_onRequest = function;
+}
+
+// Preinstantiate Objects //////////////////////////////////////////////////////
+
+TwoWire Wire = TwoWire();
+
diff --git a/libraries/Wire/Wire.h b/libraries/Wire/Wire.h
new file mode 100755
index 0000000..a93d0f5
--- /dev/null
+++ b/libraries/Wire/Wire.h
@@ -0,0 +1,79 @@
+/*
+ TwoWire.h - TWI/I2C library for Arduino & Wiring
+ Copyright (c) 2006 Nicholas Zambetti. All right reserved.
+
+ This library is free software; you can redistribute it and/or
+ modify it under the terms of the GNU Lesser General Public
+ License as published by the Free Software Foundation; either
+ version 2.1 of the License, or (at your option) any later version.
+
+ This library is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+ Lesser General Public License for more details.
+
+ You should have received a copy of the GNU Lesser General Public
+ License along with this library; if not, write to the Free Software
+ Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
+
+ Modified 2012 by Todd Krein (todd@krein.org) to implement repeated starts
+*/
+
+#ifndef TwoWire_h
+#define TwoWire_h
+
+#include <inttypes.h>
+#include "Stream.h"
+
+#define BUFFER_LENGTH 32
+
+class TwoWire : public Stream
+{
+ private:
+ static uint8_t rxBuffer[];
+ static uint8_t rxBufferIndex;
+ static uint8_t rxBufferLength;
+
+ static uint8_t txAddress;
+ static uint8_t txBuffer[];
+ static uint8_t txBufferIndex;
+ static uint8_t txBufferLength;
+
+ static uint8_t transmitting;
+ static void (*user_onRequest)(void);
+ static void (*user_onReceive)(int);
+ static void onRequestService(void);
+ static void onReceiveService(uint8_t*, int);
+ public:
+ TwoWire();
+ void begin();
+ void begin(uint8_t);
+ void begin(int);
+ void beginTransmission(uint8_t);
+ void beginTransmission(int);
+ uint8_t endTransmission(void);
+ uint8_t endTransmission(uint8_t);
+ uint8_t requestFrom(uint8_t, uint8_t);
+ uint8_t requestFrom(uint8_t, uint8_t, uint8_t);
+ uint8_t requestFrom(int, int);
+ uint8_t requestFrom(int, int, int);
+ virtual size_t write(uint8_t);
+ virtual size_t write(const uint8_t *, size_t);
+ virtual int available(void);
+ virtual int read(void);
+ virtual int peek(void);
+ virtual void flush(void);
+ void onReceive( void (*)(int) );
+ void onRequest( void (*)(void) );
+
+ inline size_t write(unsigned long n) { return write((uint8_t)n); }
+ inline size_t write(long n) { return write((uint8_t)n); }
+ inline size_t write(unsigned int n) { return write((uint8_t)n); }
+ inline size_t write(int n) { return write((uint8_t)n); }
+ using Print::write;
+};
+
+extern TwoWire Wire;
+
+#endif
+
diff --git a/libraries/Wire/examples/SFRRanger_reader/SFRRanger_reader.ino b/libraries/Wire/examples/SFRRanger_reader/SFRRanger_reader.ino
new file mode 100755
index 0000000..9c41c18
--- /dev/null
+++ b/libraries/Wire/examples/SFRRanger_reader/SFRRanger_reader.ino
@@ -0,0 +1,87 @@
+// I2C SRF10 or SRF08 Devantech Ultrasonic Ranger Finder
+// by Nicholas Zambetti <http://www.zambetti.com>
+// and James Tichenor <http://www.jamestichenor.net>
+
+// Demonstrates use of the Wire library reading data from the
+// Devantech Utrasonic Rangers SFR08 and SFR10
+
+// Created 29 April 2006
+
+// This example code is in the public domain.
+
+
+#include <Wire.h>
+
+void setup()
+{
+ Wire.begin(); // join i2c bus (address optional for master)
+ Serial.begin(9600); // start serial communication at 9600bps
+}
+
+int reading = 0;
+
+void loop()
+{
+ // step 1: instruct sensor to read echoes
+ Wire.beginTransmission(112); // transmit to device #112 (0x70)
+ // the address specified in the datasheet is 224 (0xE0)
+ // but i2c adressing uses the high 7 bits so it's 112
+ Wire.write(byte(0x00)); // sets register pointer to the command register (0x00)
+ Wire.write(byte(0x50)); // command sensor to measure in "inches" (0x50)
+ // use 0x51 for centimeters
+ // use 0x52 for ping microseconds
+ Wire.endTransmission(); // stop transmitting
+
+ // step 2: wait for readings to happen
+ delay(70); // datasheet suggests at least 65 milliseconds
+
+ // step 3: instruct sensor to return a particular echo reading
+ Wire.beginTransmission(112); // transmit to device #112
+ Wire.write(byte(0x02)); // sets register pointer to echo #1 register (0x02)
+ Wire.endTransmission(); // stop transmitting
+
+ // step 4: request reading from sensor
+ Wire.requestFrom(112, 2); // request 2 bytes from slave device #112
+
+ // step 5: receive reading from sensor
+ if(2 <= Wire.available()) // if two bytes were received
+ {
+ reading = Wire.read(); // receive high byte (overwrites previous reading)
+ reading = reading << 8; // shift high byte to be high 8 bits
+ reading |= Wire.read(); // receive low byte as lower 8 bits
+ Serial.println(reading); // print the reading
+ }
+
+ delay(250); // wait a bit since people have to read the output :)
+}
+
+
+/*
+
+// The following code changes the address of a Devantech Ultrasonic Range Finder (SRF10 or SRF08)
+// usage: changeAddress(0x70, 0xE6);
+
+void changeAddress(byte oldAddress, byte newAddress)
+{
+ Wire.beginTransmission(oldAddress);
+ Wire.write(byte(0x00));
+ Wire.write(byte(0xA0));
+ Wire.endTransmission();
+
+ Wire.beginTransmission(oldAddress);
+ Wire.write(byte(0x00));
+ Wire.write(byte(0xAA));
+ Wire.endTransmission();
+
+ Wire.beginTransmission(oldAddress);
+ Wire.write(byte(0x00));
+ Wire.write(byte(0xA5));
+ Wire.endTransmission();
+
+ Wire.beginTransmission(oldAddress);
+ Wire.write(byte(0x00));
+ Wire.write(newAddress);
+ Wire.endTransmission();
+}
+
+*/
diff --git a/libraries/Wire/examples/digital_potentiometer/digital_potentiometer.ino b/libraries/Wire/examples/digital_potentiometer/digital_potentiometer.ino
new file mode 100644
index 0000000..38da1c5
--- /dev/null
+++ b/libraries/Wire/examples/digital_potentiometer/digital_potentiometer.ino
@@ -0,0 +1,39 @@
+// I2C Digital Potentiometer
+// by Nicholas Zambetti <http://www.zambetti.com>
+// and Shawn Bonkowski <http://people.interaction-ivrea.it/s.bonkowski/>
+
+// Demonstrates use of the Wire library
+// Controls AD5171 digital potentiometer via I2C/TWI
+
+// Created 31 March 2006
+
+// This example code is in the public domain.
+
+// This example code is in the public domain.
+
+
+#include <Wire.h>
+
+void setup()
+{
+ Wire.begin(); // join i2c bus (address optional for master)
+}
+
+byte val = 0;
+
+void loop()
+{
+ Wire.beginTransmission(44); // transmit to device #44 (0x2c)
+ // device address is specified in datasheet
+ Wire.write(byte(0x00)); // sends instruction byte
+ Wire.write(val); // sends potentiometer value byte
+ Wire.endTransmission(); // stop transmitting
+
+ val++; // increment value
+ if(val == 64) // if reached 64th position (max)
+ {
+ val = 0; // start over from lowest value
+ }
+ delay(500);
+}
+
diff --git a/libraries/Wire/examples/master_reader/master_reader.ino b/libraries/Wire/examples/master_reader/master_reader.ino
new file mode 100644
index 0000000..4124d7d
--- /dev/null
+++ b/libraries/Wire/examples/master_reader/master_reader.ino
@@ -0,0 +1,32 @@
+// Wire Master Reader
+// by Nicholas Zambetti <http://www.zambetti.com>
+
+// Demonstrates use of the Wire library
+// Reads data from an I2C/TWI slave device
+// Refer to the "Wire Slave Sender" example for use with this
+
+// Created 29 March 2006
+
+// This example code is in the public domain.
+
+
+#include <Wire.h>
+
+void setup()
+{
+ Wire.begin(); // join i2c bus (address optional for master)
+ Serial.begin(9600); // start serial for output
+}
+
+void loop()
+{
+ Wire.requestFrom(2, 6); // request 6 bytes from slave device #2
+
+ while(Wire.available()) // slave may send less than requested
+ {
+ char c = Wire.read(); // receive a byte as character
+ Serial.print(c); // print the character
+ }
+
+ delay(500);
+}
diff --git a/libraries/Wire/examples/master_writer/master_writer.ino b/libraries/Wire/examples/master_writer/master_writer.ino
new file mode 100644
index 0000000..ccaa036
--- /dev/null
+++ b/libraries/Wire/examples/master_writer/master_writer.ino
@@ -0,0 +1,31 @@
+// Wire Master Writer
+// by Nicholas Zambetti <http://www.zambetti.com>
+
+// Demonstrates use of the Wire library
+// Writes data to an I2C/TWI slave device
+// Refer to the "Wire Slave Receiver" example for use with this
+
+// Created 29 March 2006
+
+// This example code is in the public domain.
+
+
+#include <Wire.h>
+
+void setup()
+{
+ Wire.begin(); // join i2c bus (address optional for master)
+}
+
+byte x = 0;
+
+void loop()
+{
+ Wire.beginTransmission(4); // transmit to device #4
+ Wire.write("x is "); // sends five bytes
+ Wire.write(x); // sends one byte
+ Wire.endTransmission(); // stop transmitting
+
+ x++;
+ delay(500);
+}
diff --git a/libraries/Wire/examples/slave_receiver/slave_receiver.ino b/libraries/Wire/examples/slave_receiver/slave_receiver.ino
new file mode 100644
index 0000000..60dd4bd
--- /dev/null
+++ b/libraries/Wire/examples/slave_receiver/slave_receiver.ino
@@ -0,0 +1,38 @@
+// Wire Slave Receiver
+// by Nicholas Zambetti <http://www.zambetti.com>
+
+// Demonstrates use of the Wire library
+// Receives data as an I2C/TWI slave device
+// Refer to the "Wire Master Writer" example for use with this
+
+// Created 29 March 2006
+
+// This example code is in the public domain.
+
+
+#include <Wire.h>
+
+void setup()
+{
+ Wire.begin(4); // join i2c bus with address #4
+ Wire.onReceive(receiveEvent); // register event
+ Serial.begin(9600); // start serial for output
+}
+
+void loop()
+{
+ delay(100);
+}
+
+// function that executes whenever data is received from master
+// this function is registered as an event, see setup()
+void receiveEvent(int howMany)
+{
+ while(1 < Wire.available()) // loop through all but the last
+ {
+ char c = Wire.read(); // receive byte as a character
+ Serial.print(c); // print the character
+ }
+ int x = Wire.read(); // receive byte as an integer
+ Serial.println(x); // print the integer
+}
diff --git a/libraries/Wire/examples/slave_sender/slave_sender.ino b/libraries/Wire/examples/slave_sender/slave_sender.ino
new file mode 100644
index 0000000..d3b238a
--- /dev/null
+++ b/libraries/Wire/examples/slave_sender/slave_sender.ino
@@ -0,0 +1,32 @@
+// Wire Slave Sender
+// by Nicholas Zambetti <http://www.zambetti.com>
+
+// Demonstrates use of the Wire library
+// Sends data as an I2C/TWI slave device
+// Refer to the "Wire Master Reader" example for use with this
+
+// Created 29 March 2006
+
+// This example code is in the public domain.
+
+
+#include <Wire.h>
+
+void setup()
+{
+ Wire.begin(2); // join i2c bus with address #2
+ Wire.onRequest(requestEvent); // register event
+}
+
+void loop()
+{
+ delay(100);
+}
+
+// function that executes whenever data is requested by master
+// this function is registered as an event, see setup()
+void requestEvent()
+{
+ Wire.write("hello "); // respond with message of 6 bytes
+ // as expected by master
+}
diff --git a/libraries/Wire/keywords.txt b/libraries/Wire/keywords.txt
new file mode 100644
index 0000000..12f129b
--- /dev/null
+++ b/libraries/Wire/keywords.txt
@@ -0,0 +1,31 @@
+#######################################
+# Syntax Coloring Map For Wire
+#######################################
+
+#######################################
+# Datatypes (KEYWORD1)
+#######################################
+
+#######################################
+# Methods and Functions (KEYWORD2)
+#######################################
+
+begin KEYWORD2
+beginTransmission KEYWORD2
+endTransmission KEYWORD2
+requestFrom KEYWORD2
+send KEYWORD2
+receive KEYWORD2
+onReceive KEYWORD2
+onRequest KEYWORD2
+
+#######################################
+# Instances (KEYWORD2)
+#######################################
+
+Wire KEYWORD2
+
+#######################################
+# Constants (LITERAL1)
+#######################################
+
diff --git a/libraries/Wire/utility/twi.c b/libraries/Wire/utility/twi.c
new file mode 100644
index 0000000..6b2db3c
--- /dev/null
+++ b/libraries/Wire/utility/twi.c
@@ -0,0 +1,527 @@
+/*
+ twi.c - TWI/I2C library for Wiring & Arduino
+ Copyright (c) 2006 Nicholas Zambetti. All right reserved.
+
+ This library is free software; you can redistribute it and/or
+ modify it under the terms of the GNU Lesser General Public
+ License as published by the Free Software Foundation; either
+ version 2.1 of the License, or (at your option) any later version.
+
+ This library is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+ Lesser General Public License for more details.
+
+ You should have received a copy of the GNU Lesser General Public
+ License along with this library; if not, write to the Free Software
+ Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
+
+ Modified 2012 by Todd Krein (todd@krein.org) to implement repeated starts
+*/
+
+#include <math.h>
+#include <stdlib.h>
+#include <inttypes.h>
+#include <avr/io.h>
+#include <avr/interrupt.h>
+#include <compat/twi.h>
+#include "Arduino.h" // for digitalWrite
+
+#ifndef cbi
+#define cbi(sfr, bit) (_SFR_BYTE(sfr) &= ~_BV(bit))
+#endif
+
+#ifndef sbi
+#define sbi(sfr, bit) (_SFR_BYTE(sfr) |= _BV(bit))
+#endif
+
+#include "pins_arduino.h"
+#include "twi.h"
+
+static volatile uint8_t twi_state;
+static volatile uint8_t twi_slarw;
+static volatile uint8_t twi_sendStop; // should the transaction end with a stop
+static volatile uint8_t twi_inRepStart; // in the middle of a repeated start
+
+static void (*twi_onSlaveTransmit)(void);
+static void (*twi_onSlaveReceive)(uint8_t*, int);
+
+static uint8_t twi_masterBuffer[TWI_BUFFER_LENGTH];
+static volatile uint8_t twi_masterBufferIndex;
+static volatile uint8_t twi_masterBufferLength;
+
+static uint8_t twi_txBuffer[TWI_BUFFER_LENGTH];
+static volatile uint8_t twi_txBufferIndex;
+static volatile uint8_t twi_txBufferLength;
+
+static uint8_t twi_rxBuffer[TWI_BUFFER_LENGTH];
+static volatile uint8_t twi_rxBufferIndex;
+
+static volatile uint8_t twi_error;
+
+/*
+ * Function twi_init
+ * Desc readys twi pins and sets twi bitrate
+ * Input none
+ * Output none
+ */
+void twi_init(void)
+{
+ // initialize state
+ twi_state = TWI_READY;
+ twi_sendStop = true; // default value
+ twi_inRepStart = false;
+
+ // activate internal pullups for twi.
+ digitalWrite(SDA, 1);
+ digitalWrite(SCL, 1);
+
+ // initialize twi prescaler and bit rate
+ cbi(TWSR, TWPS0);
+ cbi(TWSR, TWPS1);
+ TWBR = ((F_CPU / TWI_FREQ) - 16) / 2;
+
+ /* twi bit rate formula from atmega128 manual pg 204
+ SCL Frequency = CPU Clock Frequency / (16 + (2 * TWBR))
+ note: TWBR should be 10 or higher for master mode
+ It is 72 for a 16mhz Wiring board with 100kHz TWI */
+
+ // enable twi module, acks, and twi interrupt
+ TWCR = _BV(TWEN) | _BV(TWIE) | _BV(TWEA);
+}
+
+/*
+ * Function twi_slaveInit
+ * Desc sets slave address and enables interrupt
+ * Input none
+ * Output none
+ */
+void twi_setAddress(uint8_t address)
+{
+ // set twi slave address (skip over TWGCE bit)
+ TWAR = address << 1;
+}
+
+/*
+ * Function twi_readFrom
+ * Desc attempts to become twi bus master and read a
+ * series of bytes from a device on the bus
+ * Input address: 7bit i2c device address
+ * data: pointer to byte array
+ * length: number of bytes to read into array
+ * sendStop: Boolean indicating whether to send a stop at the end
+ * Output number of bytes read
+ */
+uint8_t twi_readFrom(uint8_t address, uint8_t* data, uint8_t length, uint8_t sendStop)
+{
+ uint8_t i;
+
+ // ensure data will fit into buffer
+ if(TWI_BUFFER_LENGTH < length){
+ return 0;
+ }
+
+ // wait until twi is ready, become master receiver
+ while(TWI_READY != twi_state){
+ continue;
+ }
+ twi_state = TWI_MRX;
+ twi_sendStop = sendStop;
+ // reset error state (0xFF.. no error occured)
+ twi_error = 0xFF;
+
+ // initialize buffer iteration vars
+ twi_masterBufferIndex = 0;
+ twi_masterBufferLength = length-1; // This is not intuitive, read on...
+ // On receive, the previously configured ACK/NACK setting is transmitted in
+ // response to the received byte before the interrupt is signalled.
+ // Therefor we must actually set NACK when the _next_ to last byte is
+ // received, causing that NACK to be sent in response to receiving the last
+ // expected byte of data.
+
+ // build sla+w, slave device address + w bit
+ twi_slarw = TW_READ;
+ twi_slarw |= address << 1;
+
+ if (true == twi_inRepStart) {
+ // if we're in the repeated start state, then we've already sent the start,
+ // (@@@ we hope), and the TWI statemachine is just waiting for the address byte.
+ // We need to remove ourselves from the repeated start state before we enable interrupts,
+ // since the ISR is ASYNC, and we could get confused if we hit the ISR before cleaning
+ // up. Also, don't enable the START interrupt. There may be one pending from the
+ // repeated start that we sent outselves, and that would really confuse things.
+ twi_inRepStart = false; // remember, we're dealing with an ASYNC ISR
+ TWDR = twi_slarw;
+ TWCR = _BV(TWINT) | _BV(TWEA) | _BV(TWEN) | _BV(TWIE); // enable INTs, but not START
+ }
+ else
+ // send start condition
+ TWCR = _BV(TWEN) | _BV(TWIE) | _BV(TWEA) | _BV(TWINT) | _BV(TWSTA);
+
+ // wait for read operation to complete
+ while(TWI_MRX == twi_state){
+ continue;
+ }
+
+ if (twi_masterBufferIndex < length)
+ length = twi_masterBufferIndex;
+
+ // copy twi buffer to data
+ for(i = 0; i < length; ++i){
+ data[i] = twi_masterBuffer[i];
+ }
+
+ return length;
+}
+
+/*
+ * Function twi_writeTo
+ * Desc attempts to become twi bus master and write a
+ * series of bytes to a device on the bus
+ * Input address: 7bit i2c device address
+ * data: pointer to byte array
+ * length: number of bytes in array
+ * wait: boolean indicating to wait for write or not
+ * sendStop: boolean indicating whether or not to send a stop at the end
+ * Output 0 .. success
+ * 1 .. length to long for buffer
+ * 2 .. address send, NACK received
+ * 3 .. data send, NACK received
+ * 4 .. other twi error (lost bus arbitration, bus error, ..)
+ */
+uint8_t twi_writeTo(uint8_t address, uint8_t* data, uint8_t length, uint8_t wait, uint8_t sendStop)
+{
+ uint8_t i;
+
+ // ensure data will fit into buffer
+ if(TWI_BUFFER_LENGTH < length){
+ return 1;
+ }
+
+ // wait until twi is ready, become master transmitter
+ while(TWI_READY != twi_state){
+ continue;
+ }
+ twi_state = TWI_MTX;
+ twi_sendStop = sendStop;
+ // reset error state (0xFF.. no error occured)
+ twi_error = 0xFF;
+
+ // initialize buffer iteration vars
+ twi_masterBufferIndex = 0;
+ twi_masterBufferLength = length;
+
+ // copy data to twi buffer
+ for(i = 0; i < length; ++i){
+ twi_masterBuffer[i] = data[i];
+ }
+
+ // build sla+w, slave device address + w bit
+ twi_slarw = TW_WRITE;
+ twi_slarw |= address << 1;
+
+ // if we're in a repeated start, then we've already sent the START
+ // in the ISR. Don't do it again.
+ //
+ if (true == twi_inRepStart) {
+ // if we're in the repeated start state, then we've already sent the start,
+ // (@@@ we hope), and the TWI statemachine is just waiting for the address byte.
+ // We need to remove ourselves from the repeated start state before we enable interrupts,
+ // since the ISR is ASYNC, and we could get confused if we hit the ISR before cleaning
+ // up. Also, don't enable the START interrupt. There may be one pending from the
+ // repeated start that we sent outselves, and that would really confuse things.
+ twi_inRepStart = false; // remember, we're dealing with an ASYNC ISR
+ TWDR = twi_slarw;
+ TWCR = _BV(TWINT) | _BV(TWEA) | _BV(TWEN) | _BV(TWIE); // enable INTs, but not START
+ }
+ else
+ // send start condition
+ TWCR = _BV(TWINT) | _BV(TWEA) | _BV(TWEN) | _BV(TWIE) | _BV(TWSTA); // enable INTs
+
+ // wait for write operation to complete
+ while(wait && (TWI_MTX == twi_state)){
+ continue;
+ }
+
+ if (twi_error == 0xFF)
+ return 0; // success
+ else if (twi_error == TW_MT_SLA_NACK)
+ return 2; // error: address send, nack received
+ else if (twi_error == TW_MT_DATA_NACK)
+ return 3; // error: data send, nack received
+ else
+ return 4; // other twi error
+}
+
+/*
+ * Function twi_transmit
+ * Desc fills slave tx buffer with data
+ * must be called in slave tx event callback
+ * Input data: pointer to byte array
+ * length: number of bytes in array
+ * Output 1 length too long for buffer
+ * 2 not slave transmitter
+ * 0 ok
+ */
+uint8_t twi_transmit(const uint8_t* data, uint8_t length)
+{
+ uint8_t i;
+
+ // ensure data will fit into buffer
+ if(TWI_BUFFER_LENGTH < length){
+ return 1;
+ }
+
+ // ensure we are currently a slave transmitter
+ if(TWI_STX != twi_state){
+ return 2;
+ }
+
+ // set length and copy data into tx buffer
+ twi_txBufferLength = length;
+ for(i = 0; i < length; ++i){
+ twi_txBuffer[i] = data[i];
+ }
+
+ return 0;
+}
+
+/*
+ * Function twi_attachSlaveRxEvent
+ * Desc sets function called before a slave read operation
+ * Input function: callback function to use
+ * Output none
+ */
+void twi_attachSlaveRxEvent( void (*function)(uint8_t*, int) )
+{
+ twi_onSlaveReceive = function;
+}
+
+/*
+ * Function twi_attachSlaveTxEvent
+ * Desc sets function called before a slave write operation
+ * Input function: callback function to use
+ * Output none
+ */
+void twi_attachSlaveTxEvent( void (*function)(void) )
+{
+ twi_onSlaveTransmit = function;
+}
+
+/*
+ * Function twi_reply
+ * Desc sends byte or readys receive line
+ * Input ack: byte indicating to ack or to nack
+ * Output none
+ */
+void twi_reply(uint8_t ack)
+{
+ // transmit master read ready signal, with or without ack
+ if(ack){
+ TWCR = _BV(TWEN) | _BV(TWIE) | _BV(TWINT) | _BV(TWEA);
+ }else{
+ TWCR = _BV(TWEN) | _BV(TWIE) | _BV(TWINT);
+ }
+}
+
+/*
+ * Function twi_stop
+ * Desc relinquishes bus master status
+ * Input none
+ * Output none
+ */
+void twi_stop(void)
+{
+ // send stop condition
+ TWCR = _BV(TWEN) | _BV(TWIE) | _BV(TWEA) | _BV(TWINT) | _BV(TWSTO);
+
+ // wait for stop condition to be exectued on bus
+ // TWINT is not set after a stop condition!
+ while(TWCR & _BV(TWSTO)){
+ continue;
+ }
+
+ // update twi state
+ twi_state = TWI_READY;
+}
+
+/*
+ * Function twi_releaseBus
+ * Desc releases bus control
+ * Input none
+ * Output none
+ */
+void twi_releaseBus(void)
+{
+ // release bus
+ TWCR = _BV(TWEN) | _BV(TWIE) | _BV(TWEA) | _BV(TWINT);
+
+ // update twi state
+ twi_state = TWI_READY;
+}
+
+SIGNAL(TWI_vect)
+{
+ switch(TW_STATUS){
+ // All Master
+ case TW_START: // sent start condition
+ case TW_REP_START: // sent repeated start condition
+ // copy device address and r/w bit to output register and ack
+ TWDR = twi_slarw;
+ twi_reply(1);
+ break;
+
+ // Master Transmitter
+ case TW_MT_SLA_ACK: // slave receiver acked address
+ case TW_MT_DATA_ACK: // slave receiver acked data
+ // if there is data to send, send it, otherwise stop
+ if(twi_masterBufferIndex < twi_masterBufferLength){
+ // copy data to output register and ack
+ TWDR = twi_masterBuffer[twi_masterBufferIndex++];
+ twi_reply(1);
+ }else{
+ if (twi_sendStop)
+ twi_stop();
+ else {
+ twi_inRepStart = true; // we're gonna send the START
+ // don't enable the interrupt. We'll generate the start, but we
+ // avoid handling the interrupt until we're in the next transaction,
+ // at the point where we would normally issue the start.
+ TWCR = _BV(TWINT) | _BV(TWSTA)| _BV(TWEN) ;
+ twi_state = TWI_READY;
+ }
+ }
+ break;
+ case TW_MT_SLA_NACK: // address sent, nack received
+ twi_error = TW_MT_SLA_NACK;
+ twi_stop();
+ break;
+ case TW_MT_DATA_NACK: // data sent, nack received
+ twi_error = TW_MT_DATA_NACK;
+ twi_stop();
+ break;
+ case TW_MT_ARB_LOST: // lost bus arbitration
+ twi_error = TW_MT_ARB_LOST;
+ twi_releaseBus();
+ break;
+
+ // Master Receiver
+ case TW_MR_DATA_ACK: // data received, ack sent
+ // put byte into buffer
+ twi_masterBuffer[twi_masterBufferIndex++] = TWDR;
+ case TW_MR_SLA_ACK: // address sent, ack received
+ // ack if more bytes are expected, otherwise nack
+ if(twi_masterBufferIndex < twi_masterBufferLength){
+ twi_reply(1);
+ }else{
+ twi_reply(0);
+ }
+ break;
+ case TW_MR_DATA_NACK: // data received, nack sent
+ // put final byte into buffer
+ twi_masterBuffer[twi_masterBufferIndex++] = TWDR;
+ if (twi_sendStop)
+ twi_stop();
+ else {
+ twi_inRepStart = true; // we're gonna send the START
+ // don't enable the interrupt. We'll generate the start, but we
+ // avoid handling the interrupt until we're in the next transaction,
+ // at the point where we would normally issue the start.
+ TWCR = _BV(TWINT) | _BV(TWSTA)| _BV(TWEN) ;
+ twi_state = TWI_READY;
+ }
+ break;
+ case TW_MR_SLA_NACK: // address sent, nack received
+ twi_stop();
+ break;
+ // TW_MR_ARB_LOST handled by TW_MT_ARB_LOST case
+
+ // Slave Receiver
+ case TW_SR_SLA_ACK: // addressed, returned ack
+ case TW_SR_GCALL_ACK: // addressed generally, returned ack
+ case TW_SR_ARB_LOST_SLA_ACK: // lost arbitration, returned ack
+ case TW_SR_ARB_LOST_GCALL_ACK: // lost arbitration, returned ack
+ // enter slave receiver mode
+ twi_state = TWI_SRX;
+ // indicate that rx buffer can be overwritten and ack
+ twi_rxBufferIndex = 0;
+ twi_reply(1);
+ break;
+ case TW_SR_DATA_ACK: // data received, returned ack
+ case TW_SR_GCALL_DATA_ACK: // data received generally, returned ack
+ // if there is still room in the rx buffer
+ if(twi_rxBufferIndex < TWI_BUFFER_LENGTH){
+ // put byte in buffer and ack
+ twi_rxBuffer[twi_rxBufferIndex++] = TWDR;
+ twi_reply(1);
+ }else{
+ // otherwise nack
+ twi_reply(0);
+ }
+ break;
+ case TW_SR_STOP: // stop or repeated start condition received
+ // put a null char after data if there's room
+ if(twi_rxBufferIndex < TWI_BUFFER_LENGTH){
+ twi_rxBuffer[twi_rxBufferIndex] = '\0';
+ }
+ // sends ack and stops interface for clock stretching
+ twi_stop();
+ // callback to user defined callback
+ twi_onSlaveReceive(twi_rxBuffer, twi_rxBufferIndex);
+ // since we submit rx buffer to "wire" library, we can reset it
+ twi_rxBufferIndex = 0;
+ // ack future responses and leave slave receiver state
+ twi_releaseBus();
+ break;
+ case TW_SR_DATA_NACK: // data received, returned nack
+ case TW_SR_GCALL_DATA_NACK: // data received generally, returned nack
+ // nack back at master
+ twi_reply(0);
+ break;
+
+ // Slave Transmitter
+ case TW_ST_SLA_ACK: // addressed, returned ack
+ case TW_ST_ARB_LOST_SLA_ACK: // arbitration lost, returned ack
+ // enter slave transmitter mode
+ twi_state = TWI_STX;
+ // ready the tx buffer index for iteration
+ twi_txBufferIndex = 0;
+ // set tx buffer length to be zero, to verify if user changes it
+ twi_txBufferLength = 0;
+ // request for txBuffer to be filled and length to be set
+ // note: user must call twi_transmit(bytes, length) to do this
+ twi_onSlaveTransmit();
+ // if they didn't change buffer & length, initialize it
+ if(0 == twi_txBufferLength){
+ twi_txBufferLength = 1;
+ twi_txBuffer[0] = 0x00;
+ }
+ // transmit first byte from buffer, fall
+ case TW_ST_DATA_ACK: // byte sent, ack returned
+ // copy data to output register
+ TWDR = twi_txBuffer[twi_txBufferIndex++];
+ // if there is more to send, ack, otherwise nack
+ if(twi_txBufferIndex < twi_txBufferLength){
+ twi_reply(1);
+ }else{
+ twi_reply(0);
+ }
+ break;
+ case TW_ST_DATA_NACK: // received nack, we are done
+ case TW_ST_LAST_DATA: // received ack, but we are done already!
+ // ack future responses
+ twi_reply(1);
+ // leave slave receiver state
+ twi_state = TWI_READY;
+ break;
+
+ // All
+ case TW_NO_INFO: // no state information
+ break;
+ case TW_BUS_ERROR: // bus error, illegal stop/start
+ twi_error = TW_BUS_ERROR;
+ twi_stop();
+ break;
+ }
+}
+
diff --git a/libraries/Wire/utility/twi.h b/libraries/Wire/utility/twi.h
new file mode 100755
index 0000000..6526593
--- /dev/null
+++ b/libraries/Wire/utility/twi.h
@@ -0,0 +1,53 @@
+/*
+ twi.h - TWI/I2C library for Wiring & Arduino
+ Copyright (c) 2006 Nicholas Zambetti. All right reserved.
+
+ This library is free software; you can redistribute it and/or
+ modify it under the terms of the GNU Lesser General Public
+ License as published by the Free Software Foundation; either
+ version 2.1 of the License, or (at your option) any later version.
+
+ This library is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+ Lesser General Public License for more details.
+
+ You should have received a copy of the GNU Lesser General Public
+ License along with this library; if not, write to the Free Software
+ Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
+*/
+
+#ifndef twi_h
+#define twi_h
+
+ #include <inttypes.h>
+
+ //#define ATMEGA8
+
+ #ifndef TWI_FREQ
+ #define TWI_FREQ 100000L
+ #endif
+
+ #ifndef TWI_BUFFER_LENGTH
+ #define TWI_BUFFER_LENGTH 32
+ #endif
+
+ #define TWI_READY 0
+ #define TWI_MRX 1
+ #define TWI_MTX 2
+ #define TWI_SRX 3
+ #define TWI_STX 4
+
+ void twi_init(void);
+ void twi_setAddress(uint8_t);
+ uint8_t twi_readFrom(uint8_t, uint8_t*, uint8_t, uint8_t);
+ uint8_t twi_writeTo(uint8_t, uint8_t*, uint8_t, uint8_t, uint8_t);
+ uint8_t twi_transmit(const uint8_t*, uint8_t);
+ void twi_attachSlaveRxEvent( void (*)(uint8_t*, int) );
+ void twi_attachSlaveTxEvent( void (*)(void) );
+ void twi_reply(uint8_t);
+ void twi_stop(void);
+ void twi_releaseBus(void);
+
+#endif
+
diff --git a/platform.txt b/platform.txt
new file mode 100644
index 0000000..d439ddd
--- /dev/null
+++ b/platform.txt
@@ -0,0 +1,75 @@
+
+# AVR compile variables
+# ---------------------
+
+name=Arduino AVR Boards
+# Default "compiler.path" is correct, change only if you want to overidde the initial value
+#compiler.path={ide.path}/tools/avr/bin/..
+compiler.c.cmd=avr-gcc
+compiler.c.flags=-c -g -Os -w -ffunction-sections -fdata-sections -MMD
+compiler.c.elf.flags=-Os -Wl,--gc-sections
+compiler.c.elf.cmd=avr-gcc
+compiler.S.flags=-c -g -assembler-with-cpp
+compiler.cpp.cmd=avr-g++
+compiler.cpp.flags=-c -g -Os -w -fno-exceptions -ffunction-sections -fdata-sections -MMD
+compiler.ar.cmd=avr-ar
+compiler.ar.flags=rcs
+compiler.objcopy.cmd=avr-objcopy
+compiler.objcopy.eep.flags=-O ihex -j .eeprom --set-section-flags=.eeprom=alloc,load --no-change-warnings --change-section-lma .eeprom=0
+compiler.elf2hex.flags=-O ihex -R .eeprom
+compiler.elf2hex.cmd=avr-objcopy
+compiler.ldflags=
+compiler.size.cmd=avr-size
+# this can be overriden in boards.txt
+build.extra_flags=
+
+# AVR compile patterns
+# --------------------
+
+## Compile c files
+recipe.c.o.pattern="{compiler.path}{compiler.c.cmd}" {compiler.c.flags} -mmcu={build.mcu} -DF_CPU={build.f_cpu} -D{software}={runtime.ide.version} {build.extra_flags} {includes} "{source_file}" -o "{object_file}"
+
+## Compile c++ files
+recipe.cpp.o.pattern="{compiler.path}{compiler.cpp.cmd}" {compiler.cpp.flags} -mmcu={build.mcu} -DF_CPU={build.f_cpu} -D{software}={runtime.ide.version} {build.extra_flags} {includes} "{source_file}" -o "{object_file}"
+
+## Create archives
+recipe.ar.pattern="{compiler.path}{compiler.ar.cmd}" {compiler.ar.flags} "{build.path}/{archive_file}" "{object_file}"
+
+## Combine gc-sections, archives, and objects
+recipe.c.combine.pattern="{compiler.path}{compiler.c.elf.cmd}" {compiler.c.elf.flags} -mmcu={build.mcu} -o "{build.path}/{build.project_name}.elf" {object_files} "{build.path}/{archive_file}" "-L{build.path}" -lm
+
+## Create eeprom
+recipe.objcopy.eep.pattern="{compiler.path}{compiler.objcopy.cmd}" {compiler.objcopy.eep.flags} "{build.path}/{build.project_name}.elf" "{build.path}/{build.project_name}.eep"
+
+## Create hex
+recipe.objcopy.hex.pattern="{compiler.path}{compiler.elf2hex.cmd}" {compiler.elf2hex.flags} "{build.path}/{build.project_name}.elf" "{build.path}/{build.project_name}.hex"
+
+## Compute size
+recipe.size.pattern="{compiler.path}{compiler.size.cmd}" -A "{build.path}/{build.project_name}.hex"
+recipe.size.regex=Total\s+([0-9]+).*
+
+
+# AVR Uploader/Programmers tools
+# -------------------
+
+tools.avrdude.cmd.path={runtime.ide.path}/hardware/tools/avr/bin/avrdude
+tools.avrdude.config.path={runtime.ide.path}/hardware/tools/avr/etc/avrdude.conf
+tools.avrdude.cmd.path.linux={runtime.ide.path}/hardware/tools/avrdude
+tools.avrdude.config.path.linux={runtime.ide.path}/hardware/tools/avrdude.conf
+
+tools.avrdude.upload.params.verbose=-v -v -v -v
+tools.avrdude.upload.params.quiet=-q -q
+tools.avrdude.upload.pattern="{cmd.path}" "-C{config.path}" {upload.verbose} -p{build.mcu} -c{upload.protocol} -P{serial.port} -b{upload.speed} -D "-Uflash:w:{build.path}/{build.project_name}.hex:i"
+
+tools.avrdude.program.params.verbose=-v -v -v -v
+tools.avrdude.program.params.quiet=-q -q
+tools.avrdude.program.pattern="{cmd.path}" "-C{config.path}" {program.verbose} -p{build.mcu} -c{protocol} {program.extra_params} "-Uflash:w:{build.path}/{build.project_name}.hex:i"
+
+tools.avrdude.erase.params.verbose=-v -v -v -v
+tools.avrdude.erase.params.quiet=-q -q
+tools.avrdude.erase.pattern="{cmd.path}" "-C{config.path}" {erase.verbose} -p{build.mcu} -c{protocol} {program.extra_params} -e -Ulock:w:{bootloader.unlock_bits}:m -Uefuse:w:{bootloader.extended_fuses}:m -Uhfuse:w:{bootloader.high_fuses}:m -Ulfuse:w:{bootloader.low_fuses}:m
+
+tools.avrdude.bootloader.params.verbose=-v -v -v -v
+tools.avrdude.bootloader.params.quiet=-q -q
+tools.avrdude.bootloader.pattern="{cmd.path}" "-C{config.path}" {bootloader.verbose} -p{build.mcu} -c{protocol} {program.extra_params} "-Uflash:w:{runtime.ide.path}/hardware/arduino/avr/bootloaders/{bootloader.file}:i" -Ulock:w:{bootloader.lock_bits}:m
+
diff --git a/programmers.txt b/programmers.txt
index c34b88c..65d8cdb 100644
--- a/programmers.txt
+++ b/programmers.txt
@@ -1,26 +1,41 @@
-# See: http://code.google.com/p/arduino/wiki/Platforms
-
avrisp.name=AVR ISP
avrisp.communication=serial
avrisp.protocol=stk500v1
+avrisp.program.protocol=stk500v1
+avrisp.program.tool=avrdude
+avrisp.program.extra_params=-P{serial.port}
avrispmkii.name=AVRISP mkII
avrispmkii.communication=usb
avrispmkii.protocol=stk500v2
+avrispmkii.program.protocol=stk500v2
+avrispmkii.program.tool=avrdude
+avrispmkii.program.extra_params=-Pusb
usbtinyisp.name=USBtinyISP
usbtinyisp.protocol=usbtiny
+usbtinyisp.program.tool=avrdude
+usbtinyisp.program.extra_params=
usbasp.name=USBasp
usbasp.communication=usb
usbasp.protocol=usbasp
+usbasp.program.protocol=usbasp
+usbasp.program.tool=avrdude
+usbasp.program.extra_params=-Pusb
parallel.name=Parallel Programmer
parallel.protocol=dapa
parallel.force=true
# parallel.delay=200
+parallel.program.tool=avrdude
+parallel.program.extra_params=-F
arduinoisp.name=Arduino as ISP
arduinoisp.communication=serial
arduinoisp.protocol=stk500v1
-arduinoisp.speed=19200
+arduinoisp.speed=9600
+arduinoisp.program.protocol=stk500v1
+arduinoisp.program.speed=9600
+arduinoisp.program.tool=avrdude
+arduinoisp.program.extra_params=-P{serial.port} -b{program.speed}