diff options
author | Cristian Maglie <c.maglie@bug.st> | 2012-10-18 15:50:09 +0200 |
---|---|---|
committer | Cristian Maglie <c.maglie@bug.st> | 2012-10-18 15:50:09 +0200 |
commit | 6a45ba48ab1f2d0a168373a02ba7fded40a3470e (patch) | |
tree | 163448869b4dfcbce95dc877ffff61a709fba6b6 /firmwares/wifishield/wifiHD/src/SOFTWARE_FRAMEWORK/DRIVERS/EBI | |
parent | c313b54c00635f1be14a1b09617dc9b8b562e589 (diff) | |
parent | 6d296e0faba5b9910084c307a3f93cb2653bf7f8 (diff) |
Merged upstream arduino branch
Diffstat (limited to 'firmwares/wifishield/wifiHD/src/SOFTWARE_FRAMEWORK/DRIVERS/EBI')
-rw-r--r-- | firmwares/wifishield/wifiHD/src/SOFTWARE_FRAMEWORK/DRIVERS/EBI/SMC/smc.c | 995 | ||||
-rw-r--r-- | firmwares/wifishield/wifiHD/src/SOFTWARE_FRAMEWORK/DRIVERS/EBI/SMC/smc.h | 68 |
2 files changed, 1063 insertions, 0 deletions
diff --git a/firmwares/wifishield/wifiHD/src/SOFTWARE_FRAMEWORK/DRIVERS/EBI/SMC/smc.c b/firmwares/wifishield/wifiHD/src/SOFTWARE_FRAMEWORK/DRIVERS/EBI/SMC/smc.c new file mode 100644 index 0000000..543fed6 --- /dev/null +++ b/firmwares/wifishield/wifiHD/src/SOFTWARE_FRAMEWORK/DRIVERS/EBI/SMC/smc.c @@ -0,0 +1,995 @@ +/* This source file is part of the ATMEL AVR-UC3-SoftwareFramework-1.7.0 Release */ + +/*This file is prepared for Doxygen automatic documentation generation.*/ +/*! \file ********************************************************************* + * + * \brief SMC on EBI driver for AVR32 UC3. + * + * - Compiler: IAR EWAVR32 and GNU GCC for AVR32 + * - Supported devices: All AVR32 devices with a SMC module can be used. + * - AppNote: + * + * \author Atmel Corporation: http://www.atmel.com \n + * Support and FAQ: http://support.atmel.no/ + * + ******************************************************************************/ + +/* Copyright (c) 2009 Atmel Corporation. All rights reserved. + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions are met: + * + * 1. Redistributions of source code must retain the above copyright notice, this + * list of conditions and the following disclaimer. + * + * 2. Redistributions in binary form must reproduce the above copyright notice, + * this list of conditions and the following disclaimer in the documentation + * and/or other materials provided with the distribution. + * + * 3. The name of Atmel may not be used to endorse or promote products derived + * from this software without specific prior written permission. + * + * 4. This software may only be redistributed and used in connection with an Atmel + * AVR product. + * + * THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR IMPLIED + * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF + * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE + * EXPRESSLY AND SPECIFICALLY DISCLAIMED. IN NO EVENT SHALL ATMEL BE LIABLE FOR + * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; + * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND + * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS + * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE + * + */ + +#include "compiler.h" +#include "preprocessor.h" +#include "gpio.h" +#include "smc.h" + +// Configure the SM Controller with SM setup and timing information for all chip select +#define SMC_CS_SETUP(ncs) { \ + U32 nwe_setup = ((NWE_SETUP * hsb_mhz_up + 999) / 1000); \ + U32 ncs_wr_setup = ((NCS_WR_SETUP * hsb_mhz_up + 999) / 1000); \ + U32 nrd_setup = ((NRD_SETUP * hsb_mhz_up + 999) / 1000); \ + U32 ncs_rd_setup = ((NCS_RD_SETUP * hsb_mhz_up + 999) / 1000); \ + U32 nwe_pulse = ((NWE_PULSE * hsb_mhz_up + 999) / 1000); \ + U32 ncs_wr_pulse = ((NCS_WR_PULSE * hsb_mhz_up + 999) / 1000); \ + U32 nrd_pulse = ((NRD_PULSE * hsb_mhz_up + 999) / 1000); \ + U32 ncs_rd_pulse = ((NCS_RD_PULSE * hsb_mhz_up + 999) / 1000); \ + U32 nwe_cycle = ((NWE_CYCLE * hsb_mhz_up + 999) / 1000); \ + U32 nrd_cycle = ((NRD_CYCLE * hsb_mhz_up + 999) / 1000); \ + \ + /* Some coherence checks... */ \ + /* Ensures CS is active during Rd or Wr */ \ + if( ncs_rd_setup + ncs_rd_pulse < nrd_setup + nrd_pulse ) \ + ncs_rd_pulse = nrd_setup + nrd_pulse - ncs_rd_setup; \ + if( ncs_wr_setup + ncs_wr_pulse < nwe_setup + nwe_pulse ) \ + ncs_wr_pulse = nwe_setup + nwe_pulse - ncs_wr_setup; \ + \ + /* ncs_hold = n_cycle - ncs_setup - ncs_pulse */ \ + /* n_hold = n_cycle - n_setup - n_pulse */ \ + /* */ \ + /* All holds parameters must be positive or null, so: */ \ + /* nwe_cycle shall be >= ncs_wr_setup + ncs_wr_pulse */ \ + if( nwe_cycle < ncs_wr_setup + ncs_wr_pulse ) \ + nwe_cycle = ncs_wr_setup + ncs_wr_pulse; \ + \ + /* nwe_cycle shall be >= nwe_setup + nwe_pulse */ \ + if( nwe_cycle < nwe_setup + nwe_pulse ) \ + nwe_cycle = nwe_setup + nwe_pulse; \ + \ + /* nrd_cycle shall be >= ncs_rd_setup + ncs_rd_pulse */ \ + if( nrd_cycle < ncs_rd_setup + ncs_rd_pulse ) \ + nrd_cycle = ncs_rd_setup + ncs_rd_pulse; \ + \ + /* nrd_cycle shall be >= nrd_setup + nrd_pulse */ \ + if( nrd_cycle < nrd_setup + nrd_pulse ) \ + nrd_cycle = nrd_setup + nrd_pulse; \ + \ + AVR32_SMC.cs[ncs].setup = (nwe_setup << AVR32_SMC_SETUP0_NWE_SETUP_OFFSET) | \ + (ncs_wr_setup << AVR32_SMC_SETUP0_NCS_WR_SETUP_OFFSET) | \ + (nrd_setup << AVR32_SMC_SETUP0_NRD_SETUP_OFFSET) | \ + (ncs_rd_setup << AVR32_SMC_SETUP0_NCS_RD_SETUP_OFFSET); \ + AVR32_SMC.cs[ncs].pulse = (nwe_pulse << AVR32_SMC_PULSE0_NWE_PULSE_OFFSET) | \ + (ncs_wr_pulse << AVR32_SMC_PULSE0_NCS_WR_PULSE_OFFSET) | \ + (nrd_pulse << AVR32_SMC_PULSE0_NRD_PULSE_OFFSET) | \ + (ncs_rd_pulse << AVR32_SMC_PULSE0_NCS_RD_PULSE_OFFSET); \ + AVR32_SMC.cs[ncs].cycle = (nwe_cycle << AVR32_SMC_CYCLE0_NWE_CYCLE_OFFSET) | \ + (nrd_cycle << AVR32_SMC_CYCLE0_NRD_CYCLE_OFFSET); \ + AVR32_SMC.cs[ncs].mode = (((NCS_CONTROLLED_READ) ? AVR32_SMC_MODE0_READ_MODE_NCS_CONTROLLED : \ + AVR32_SMC_MODE0_READ_MODE_NRD_CONTROLLED) << AVR32_SMC_MODE0_READ_MODE_OFFSET) | \ + + (((NCS_CONTROLLED_WRITE) ? AVR32_SMC_MODE0_WRITE_MODE_NCS_CONTROLLED : \ + AVR32_SMC_MODE0_WRITE_MODE_NWE_CONTROLLED) << AVR32_SMC_MODE0_WRITE_MODE_OFFSET) | \ + (NWAIT_MODE << AVR32_SMC_MODE0_EXNW_MODE_OFFSET) | \ + (((SMC_8_BIT_CHIPS) ? AVR32_SMC_MODE0_BAT_BYTE_WRITE : \ + AVR32_SMC_MODE0_BAT_BYTE_SELECT) << AVR32_SMC_MODE0_BAT_OFFSET) | \ + (((SMC_DBW <= 8 ) ? AVR32_SMC_MODE0_DBW_8_BITS : \ + (SMC_DBW <= 16) ? AVR32_SMC_MODE0_DBW_16_BITS : \ + AVR32_SMC_MODE0_DBW_32_BITS) << AVR32_SMC_MODE0_DBW_OFFSET) | \ + (TDF_CYCLES << AVR32_SMC_MODE0_TDF_CYCLES_OFFSET) | \ + (TDF_OPTIM << AVR32_SMC_MODE0_TDF_MODE_OFFSET) | \ + (PAGE_MODE << AVR32_SMC_MODE0_PMEN_OFFSET) | \ + (PAGE_SIZE << AVR32_SMC_MODE0_PS_OFFSET); \ + smc_tab_cs_size[ncs] = (U8)EXT_SM_SIZE; \ + } + +static U8 smc_tab_cs_size[6]; + +static void smc_enable_muxed_pins(void); + + +void smc_init(unsigned long hsb_hz) +{ + unsigned long hsb_mhz_up = (hsb_hz + 999999) / 1000000; + +//! Whether to use the NCS0 pin +#ifdef SMC_USE_NCS0 + #include SMC_COMPONENT_CS0 + + // Setup SMC for NCS0 + SMC_CS_SETUP(0) + + #ifdef SMC_DBW_GLOBAL + #if (SMC_DBW_GLOBAL < SMC_DBW) + #undef SMC_DBW_GLOBAL + #if (SMC_DBW == 8) + #define SMC_DBW_GLOBAL 8 + #elif (SMC_DBW == 16) + #define SMC_DBW_GLOBAL 16 + #elif (SMC_DBW == 32) + #define SMC_DBW_GLOBAL 32 + #else + #error error in SMC_DBW size + #endif + #endif + #else + #if (SMC_DBW == 8) + #define SMC_DBW_GLOBAL 8 + #elif (SMC_DBW == 16) + #define SMC_DBW_GLOBAL 16 + #elif (SMC_DBW == 32) + #define SMC_DBW_GLOBAL 32 + #else + #error error in SMC_DBW size + #endif + #endif + + #ifdef SMC_8_BIT_CHIPS_GLOBAL + #if (SMC_8_BIT_CHIPS_GLOBAL < SMC_8_BIT) + #undef SMC_8_BIT_CHIPS_GLOBAL + #if (SMC_8_BIT_CHIPS == TRUE) + #define SMC_8_BIT_CHIPS_GLOBAL TRUE + #elif (SMC_8_BIT_CHIPS == FALSE) + #define SMC_8_BIT_CHIPS_GLOBAL FALSE + #else + #error error in SMC_8_BIT_CHIPS size + #endif + #endif + #else + #if (SMC_8_BIT_CHIPS == TRUE) + #define SMC_8_BIT_CHIPS_GLOBAL TRUE + #elif (SMC_8_BIT_CHIPS == FALSE) + #define SMC_8_BIT_CHIPS_GLOBAL FALSE + #else + #error error in SMC_8_BIT_CHIPS size + #endif + #endif + + #ifdef NWAIT_MODE_GLOBAL + #if (NWAIT_MODE_GLOBAL < NWAIT_MODE) + #undef NWAIT_MODE_GLOBAL + #if (NWAIT_MODE == AVR32_SMC_EXNW_MODE_DISABLED) + #define NWAIT_MODE_GLOBAL AVR32_SMC_EXNW_MODE_DISABLED + #elif (NWAIT_MODE == AVR32_SMC_EXNW_MODE_FROZEN) + #define NWAIT_MODE_GLOBAL AVR32_SMC_EXNW_MODE_FROZEN + #else + #error error in NWAIT_MODE size + #endif + #endif + #else + #if (NWAIT_MODE == AVR32_SMC_EXNW_MODE_DISABLED) + #define NWAIT_MODE_GLOBAL AVR32_SMC_EXNW_MODE_DISABLED + #elif (NWAIT_MODE == AVR32_SMC_EXNW_MODE_FROZEN) + #define NWAIT_MODE_GLOBAL AVR32_SMC_EXNW_MODE_FROZEN + #else + #error error in NWAIT_MODE size + #endif + #endif + + #undef EXT_SM_SIZE + #undef SMC_DBW + #undef SMC_8_BIT_CHIPS + #undef NWE_SETUP + #undef NCS_WR_SETUP + #undef NRD_SETUP + #undef NCS_RD_SETUP + #undef NCS_WR_PULSE + #undef NWE_PULSE + #undef NCS_RD_PULSE + #undef NRD_PULSE + #undef NCS_WR_HOLD + #undef NWE_HOLD + #undef NWE_CYCLE + #undef NCS_RD_HOLD + #undef NRD_CYCLE + #undef TDF_CYCLES + #undef TDF_OPTIM + #undef PAGE_MODE + #undef PAGE_SIZE + #undef NCS_CONTROLLED_READ + #undef NCS_CONTROLLED_WRITE + #undef NWAIT_MODE +#endif + + +//! Whether to use the NCS1 pin +#ifdef SMC_USE_NCS1 + #include SMC_COMPONENT_CS1 + + // Enable SM mode for CS1 if necessary. + AVR32_HMATRIX.sfr[AVR32_EBI_HMATRIX_NR] &= ~(1 << AVR32_EBI_SDRAM_CS); + AVR32_HMATRIX.sfr[AVR32_EBI_HMATRIX_NR]; + + // Setup SMC for NCS1 + SMC_CS_SETUP(1) + + #ifdef SMC_DBW_GLOBAL + #if (SMC_DBW_GLOBAL < SMC_DBW) + #undef SMC_DBW_GLOBAL + #if (SMC_DBW == 8) + #define SMC_DBW_GLOBAL 8 + #elif (SMC_DBW == 16) + #define SMC_DBW_GLOBAL 16 + #elif (SMC_DBW == 32) + #define SMC_DBW_GLOBAL 32 + #else + #error error in SMC_DBW size + #endif + #endif + #else + #if (SMC_DBW == 8) + #define SMC_DBW_GLOBAL 8 + #elif (SMC_DBW == 16) + #define SMC_DBW_GLOBAL 16 + #elif (SMC_DBW == 32) + #define SMC_DBW_GLOBAL 32 + #else + #error error in SMC_DBW size + #endif + #endif + + #ifdef SMC_8_BIT_CHIPS_GLOBAL + #if (SMC_8_BIT_CHIPS_GLOBAL < SMC_8_BIT) + #undef SMC_8_BIT_CHIPS_GLOBAL + #if (SMC_8_BIT_CHIPS == TRUE) + #define SMC_8_BIT_CHIPS_GLOBAL TRUE + #elif (SMC_8_BIT_CHIPS == FALSE) + #define SMC_8_BIT_CHIPS_GLOBAL FALSE + #else + #error error in SMC_8_BIT_CHIPS size + #endif + #endif + #else + #if (SMC_8_BIT_CHIPS == TRUE) + #define SMC_8_BIT_CHIPS_GLOBAL TRUE + #elif (SMC_8_BIT_CHIPS == FALSE) + #define SMC_8_BIT_CHIPS_GLOBAL FALSE + #else + #error error in SMC_8_BIT_CHIPS size + #endif + #endif + + #ifdef NWAIT_MODE_GLOBAL + #if (NWAIT_MODE_GLOBAL < NWAIT_MODE) + #undef NWAIT_MODE_GLOBAL + #if (NWAIT_MODE == AVR32_SMC_EXNW_MODE_DISABLED) + #define NWAIT_MODE_GLOBAL AVR32_SMC_EXNW_MODE_DISABLED + #elif (NWAIT_MODE == AVR32_SMC_EXNW_MODE_FROZEN) + #define NWAIT_MODE_GLOBAL AVR32_SMC_EXNW_MODE_FROZEN + #else + #error error in NWAIT_MODE size + #endif + #endif + #else + #if (NWAIT_MODE == AVR32_SMC_EXNW_MODE_DISABLED) + #define NWAIT_MODE_GLOBAL AVR32_SMC_EXNW_MODE_DISABLED + #elif (NWAIT_MODE == AVR32_SMC_EXNW_MODE_FROZEN) + #define NWAIT_MODE_GLOBAL AVR32_SMC_EXNW_MODE_FROZEN + #else + #error error in NWAIT_MODE size + #endif + #endif + + #undef EXT_SM_SIZE + #undef SMC_DBW + #undef SMC_8_BIT_CHIPS + #undef NWE_SETUP + #undef NCS_WR_SETUP + #undef NRD_SETUP + #undef NCS_RD_SETUP + #undef NCS_WR_PULSE + #undef NWE_PULSE + #undef NCS_RD_PULSE + #undef NRD_PULSE + #undef NCS_WR_HOLD + #undef NWE_HOLD + #undef NWE_CYCLE + #undef NCS_RD_HOLD + #undef NRD_CYCLE + #undef TDF_CYCLES + #undef TDF_OPTIM + #undef PAGE_MODE + #undef PAGE_SIZE + #undef NCS_CONTROLLED_READ + #undef NCS_CONTROLLED_WRITE + #undef NWAIT_MODE +#endif + +//! Whether to use the NCS2 pin +#ifdef SMC_USE_NCS2 + #include SMC_COMPONENT_CS2 + + // Setup SMC for NCS2 + SMC_CS_SETUP(2) + + #ifdef SMC_DBW_GLOBAL + #if (SMC_DBW_GLOBAL < SMC_DBW) + #undef SMC_DBW_GLOBAL + #if (SMC_DBW == 8) + #define SMC_DBW_GLOBAL 8 + #elif (SMC_DBW == 16) + #define SMC_DBW_GLOBAL 16 + #elif (SMC_DBW == 32) + #define SMC_DBW_GLOBAL 32 + #else + #error error in SMC_DBW size + #endif + #endif + #else + #if (SMC_DBW == 8) + #define SMC_DBW_GLOBAL 8 + #elif (SMC_DBW == 16) + #define SMC_DBW_GLOBAL 16 + #elif (SMC_DBW == 32) + #define SMC_DBW_GLOBAL 32 + #else + #error error in SMC_DBW size + #endif + #endif + + #ifdef SMC_8_BIT_CHIPS_GLOBAL + #if (SMC_8_BIT_CHIPS_GLOBAL < SMC_8_BIT) + #undef SMC_8_BIT_CHIPS_GLOBAL + #if (SMC_8_BIT_CHIPS == TRUE) + #define SMC_8_BIT_CHIPS_GLOBAL TRUE + #elif (SMC_8_BIT_CHIPS == FALSE) + #define SMC_8_BIT_CHIPS_GLOBAL FALSE + #else + #error error in SMC_8_BIT_CHIPS size + #endif + #endif + #else + #if (SMC_8_BIT_CHIPS == TRUE) + #define SMC_8_BIT_CHIPS_GLOBAL TRUE + #elif (SMC_8_BIT_CHIPS == FALSE) + #define SMC_8_BIT_CHIPS_GLOBAL FALSE + #else + #error error in SMC_8_BIT_CHIPS size + #endif + #endif + + #ifdef NWAIT_MODE_GLOBAL + #if (NWAIT_MODE_GLOBAL < NWAIT_MODE) + #undef NWAIT_MODE_GLOBAL + #if (NWAIT_MODE == AVR32_SMC_EXNW_MODE_DISABLED) + #define NWAIT_MODE_GLOBAL AVR32_SMC_EXNW_MODE_DISABLED + #elif (NWAIT_MODE == AVR32_SMC_EXNW_MODE_FROZEN) + #define NWAIT_MODE_GLOBAL AVR32_SMC_EXNW_MODE_FROZEN + #else + #error error in NWAIT_MODE size + #endif + #endif + #else + #if (NWAIT_MODE == AVR32_SMC_EXNW_MODE_DISABLED) + #define NWAIT_MODE_GLOBAL AVR32_SMC_EXNW_MODE_DISABLED + #elif (NWAIT_MODE == AVR32_SMC_EXNW_MODE_FROZEN) + #define NWAIT_MODE_GLOBAL AVR32_SMC_EXNW_MODE_FROZEN + #else + #error error in NWAIT_MODE size + #endif + #endif + + + #undef EXT_SM_SIZE + #undef SMC_DBW + #undef SMC_8_BIT_CHIPS + #undef NWE_SETUP + #undef NCS_WR_SETUP + #undef NRD_SETUP + #undef NCS_RD_SETUP + #undef NCS_WR_PULSE + #undef NWE_PULSE + #undef NCS_RD_PULSE + #undef NRD_PULSE + #undef NCS_WR_HOLD + #undef NWE_HOLD + #undef NWE_CYCLE + #undef NCS_RD_HOLD + #undef NRD_CYCLE + #undef TDF_CYCLES + #undef TDF_OPTIM + #undef PAGE_MODE + #undef PAGE_SIZE + #undef NCS_CONTROLLED_READ + #undef NCS_CONTROLLED_WRITE + #undef NWAIT_MODE +#endif + +//! Whether to use the NCS3 pin +#ifdef SMC_USE_NCS3 + #include SMC_COMPONENT_CS3 + + // Setup SMC for NCS3 + SMC_CS_SETUP(3) + + #ifdef SMC_DBW_GLOBAL + #if (SMC_DBW_GLOBAL < SMC_DBW) + #undef SMC_DBW_GLOBAL + #if (SMC_DBW == 8) + #define SMC_DBW_GLOBAL 8 + #elif (SMC_DBW == 16) + #define SMC_DBW_GLOBAL 16 + #elif (SMC_DBW == 32) + #define SMC_DBW_GLOBAL 32 + #else + #error error in SMC_DBW size + #endif + #endif + #else + #if (SMC_DBW == 8) + #define SMC_DBW_GLOBAL 8 + #elif (SMC_DBW == 16) + #define SMC_DBW_GLOBAL 16 + #elif (SMC_DBW == 32) + #define SMC_DBW_GLOBAL 32 + #else + #error error in SMC_DBW size + #endif + #endif + + #ifdef SMC_8_BIT_CHIPS_GLOBAL + #if (SMC_8_BIT_CHIPS_GLOBAL < SMC_8_BIT) + #undef SMC_8_BIT_CHIPS_GLOBAL + #if (SMC_8_BIT_CHIPS == TRUE) + #define SMC_8_BIT_CHIPS_GLOBAL TRUE + #elif (SMC_8_BIT_CHIPS == FALSE) + #define SMC_8_BIT_CHIPS_GLOBAL FALSE + #else + #error error in SMC_8_BIT_CHIPS size + #endif + #endif + #else + #if (SMC_8_BIT_CHIPS == TRUE) + #define SMC_8_BIT_CHIPS_GLOBAL TRUE + #elif (SMC_8_BIT_CHIPS == FALSE) + #define SMC_8_BIT_CHIPS_GLOBAL FALSE + #else + #error error in SMC_8_BIT_CHIPS size + #endif + #endif + + #ifdef NWAIT_MODE_GLOBAL + #if (NWAIT_MODE_GLOBAL < NWAIT_MODE) + #undef NWAIT_MODE_GLOBAL + #if (NWAIT_MODE == AVR32_SMC_EXNW_MODE_DISABLED) + #define NWAIT_MODE_GLOBAL AVR32_SMC_EXNW_MODE_DISABLED + #elif (NWAIT_MODE == AVR32_SMC_EXNW_MODE_FROZEN) + #define NWAIT_MODE_GLOBAL AVR32_SMC_EXNW_MODE_FROZEN + #else + #error error in NWAIT_MODE size + #endif + #endif + #else + #if (NWAIT_MODE == AVR32_SMC_EXNW_MODE_DISABLED) + #define NWAIT_MODE_GLOBAL AVR32_SMC_EXNW_MODE_DISABLED + #elif (NWAIT_MODE == AVR32_SMC_EXNW_MODE_FROZEN) + #define NWAIT_MODE_GLOBAL AVR32_SMC_EXNW_MODE_FROZEN + #else + #error error in NWAIT_MODE size + #endif + #endif + + + #undef EXT_SM_SIZE + #undef SMC_DBW + #undef SMC_8_BIT_CHIPS + #undef NWE_SETUP + #undef NCS_WR_SETUP + #undef NRD_SETUP + #undef NCS_RD_SETUP + #undef NCS_WR_PULSE + #undef NWE_PULSE + #undef NCS_RD_PULSE + #undef NRD_PULSE + #undef NCS_WR_HOLD + #undef NWE_HOLD + #undef NWE_CYCLE + #undef NCS_RD_HOLD + #undef NRD_CYCLE + #undef TDF_CYCLES + #undef TDF_OPTIM + #undef PAGE_MODE + #undef PAGE_SIZE + #undef NCS_CONTROLLED_READ + #undef NCS_CONTROLLED_WRITE + #undef NWAIT_MODE +#endif + +//! Whether to use the NCS4 pin +#ifdef SMC_USE_NCS4 + #include SMC_COMPONENT_CS4 + + // Setup SMC for NCS4 + SMC_CS_SETUP(4) + + #ifdef SMC_DBW_GLOBAL + #if (SMC_DBW_GLOBAL < SMC_DBW) + #undef SMC_DBW_GLOBAL + #if (SMC_DBW == 8) + #define SMC_DBW_GLOBAL 8 + #elif (SMC_DBW == 16) + #define SMC_DBW_GLOBAL 16 + #elif (SMC_DBW == 32) + #define SMC_DBW_GLOBAL 32 + #else + #error error in SMC_DBW size + #endif + #endif + #else + #if (SMC_DBW == 8) + #define SMC_DBW_GLOBAL 8 + #elif (SMC_DBW == 16) + #define SMC_DBW_GLOBAL 16 + #elif (SMC_DBW == 32) + #define SMC_DBW_GLOBAL 32 + #else + #error error in SMC_DBW size + #endif + #endif + + #ifdef SMC_8_BIT_CHIPS_GLOBAL + #if (SMC_8_BIT_CHIPS_GLOBAL < SMC_8_BIT) + #undef SMC_8_BIT_CHIPS_GLOBAL + #if (SMC_8_BIT_CHIPS == TRUE) + #define SMC_8_BIT_CHIPS_GLOBAL TRUE + #elif (SMC_8_BIT_CHIPS == FALSE) + #define SMC_8_BIT_CHIPS_GLOBAL FALSE + #else + #error error in SMC_8_BIT_CHIPS size + #endif + #endif + #else + #if (SMC_8_BIT_CHIPS == TRUE) + #define SMC_8_BIT_CHIPS_GLOBAL TRUE + #elif (SMC_8_BIT_CHIPS == FALSE) + #define SMC_8_BIT_CHIPS_GLOBAL FALSE + #else + #error error in SMC_8_BIT_CHIPS size + #endif + #endif + + #ifdef NWAIT_MODE_GLOBAL + #if (NWAIT_MODE_GLOBAL < NWAIT_MODE) + #undef NWAIT_MODE_GLOBAL + #if (NWAIT_MODE == AVR32_SMC_EXNW_MODE_DISABLED) + #define NWAIT_MODE_GLOBAL AVR32_SMC_EXNW_MODE_DISABLED + #elif (NWAIT_MODE == AVR32_SMC_EXNW_MODE_FROZEN) + #define NWAIT_MODE_GLOBAL AVR32_SMC_EXNW_MODE_FROZEN + #else + #error error in NWAIT_MODE size + #endif + #endif + #else + #if (NWAIT_MODE == AVR32_SMC_EXNW_MODE_DISABLED) + #define NWAIT_MODE_GLOBAL AVR32_SMC_EXNW_MODE_DISABLED + #elif (NWAIT_MODE == AVR32_SMC_EXNW_MODE_FROZEN) + #define NWAIT_MODE_GLOBAL AVR32_SMC_EXNW_MODE_FROZEN + #else + #error error in NWAIT_MODE size + #endif + #endif + + + #undef EXT_SM_SIZE + #undef SMC_DBW + #undef SMC_8_BIT_CHIPS + #undef NWE_SETUP + #undef NCS_WR_SETUP + #undef NRD_SETUP + #undef NCS_RD_SETUP + #undef NCS_WR_PULSE + #undef NWE_PULSE + #undef NCS_RD_PULSE + #undef NRD_PULSE + #undef NCS_WR_HOLD + #undef NWE_HOLD + #undef NWE_CYCLE + #undef NCS_RD_HOLD + #undef NRD_CYCLE + #undef TDF_CYCLES + #undef TDF_OPTIM + #undef PAGE_MODE + #undef PAGE_SIZE + #undef NCS_CONTROLLED_READ + #undef NCS_CONTROLLED_WRITE + #undef NWAIT_MODE +#endif + +//! Whether to use the NCS5 pin +#ifdef SMC_USE_NCS5 + #include SMC_COMPONENT_CS5 + + // Setup SMC for NCS5 + SMC_CS_SETUP(5) + + #ifdef SMC_DBW_GLOBAL + #if (SMC_DBW_GLOBAL < SMC_DBW) + #undef SMC_DBW_GLOBAL + #if (SMC_DBW == 8) + #define SMC_DBW_GLOBAL 8 + #elif (SMC_DBW == 16) + #define SMC_DBW_GLOBAL 16 + #elif (SMC_DBW == 32) + #define SMC_DBW_GLOBAL 32 + #else + #error error in SMC_DBW size + #endif + #endif + #else + #if (SMC_DBW == 8) + #define SMC_DBW_GLOBAL 8 + #elif (SMC_DBW == 16) + #define SMC_DBW_GLOBAL 16 + #elif (SMC_DBW == 32) + #define SMC_DBW_GLOBAL 32 + #else + #error error in SMC_DBW size + #endif + #endif + + #ifdef SMC_8_BIT_CHIPS_GLOBAL + #if (SMC_8_BIT_CHIPS_GLOBAL < SMC_8_BIT) + #undef SMC_8_BIT_CHIPS_GLOBAL + #if (SMC_8_BIT_CHIPS == TRUE) + #define SMC_8_BIT_CHIPS_GLOBAL TRUE + #elif (SMC_8_BIT_CHIPS == FALSE) + #define SMC_8_BIT_CHIPS_GLOBAL FALSE + #else + #error error in SMC_8_BIT_CHIPS size + #endif + #endif + #else + #if (SMC_8_BIT_CHIPS == TRUE) + #define SMC_8_BIT_CHIPS_GLOBAL TRUE + #elif (SMC_8_BIT_CHIPS == FALSE) + #define SMC_8_BIT_CHIPS_GLOBAL FALSE + #else + #error error in SMC_8_BIT_CHIPS size + #endif + #endif + + #ifdef NWAIT_MODE_GLOBAL + #if (NWAIT_MODE_GLOBAL < NWAIT_MODE) + #undef NWAIT_MODE_GLOBAL + #if (NWAIT_MODE == AVR32_SMC_EXNW_MODE_DISABLED) + #define NWAIT_MODE_GLOBAL AVR32_SMC_EXNW_MODE_DISABLED + #elif (NWAIT_MODE == AVR32_SMC_EXNW_MODE_FROZEN) + #define NWAIT_MODE_GLOBAL AVR32_SMC_EXNW_MODE_FROZEN + #else + #error error in NWAIT_MODE size + #endif + #endif + #else + #if (NWAIT_MODE == AVR32_SMC_EXNW_MODE_DISABLED) + #define NWAIT_MODE_GLOBAL AVR32_SMC_EXNW_MODE_DISABLED + #elif (NWAIT_MODE == AVR32_SMC_EXNW_MODE_FROZEN) + #define NWAIT_MODE_GLOBAL AVR32_SMC_EXNW_MODE_FROZEN + #else + #error error in NWAIT_MODE size + #endif + #endif + + + #undef EXT_SM_SIZE + #undef SMC_DBW + #undef SMC_8_BIT_CHIPS + #undef NWE_SETUP + #undef NCS_WR_SETUP + #undef NRD_SETUP + #undef NCS_RD_SETUP + #undef NCS_WR_PULSE + #undef NWE_PULSE + #undef NCS_RD_PULSE + #undef NRD_PULSE + #undef NCS_WR_HOLD + #undef NWE_HOLD + #undef NWE_CYCLE + #undef NCS_RD_HOLD + #undef NRD_CYCLE + #undef TDF_CYCLES + #undef TDF_OPTIM + #undef PAGE_MODE + #undef PAGE_SIZE + #undef NCS_CONTROLLED_READ + #undef NCS_CONTROLLED_WRITE + #undef NWAIT_MODE +#endif + // Put the multiplexed MCU pins used for the SM under control of the SMC. + smc_enable_muxed_pins(); +} + +/*! \brief Puts the multiplexed MCU pins used for the SMC + * + */ +static void smc_enable_muxed_pins(void) +{ + static const gpio_map_t SMC_EBI_GPIO_MAP = + { + // Enable data pins. +#ifdef EBI_DATA_0 + {ATPASTE2(EBI_DATA_0,_PIN),ATPASTE2(EBI_DATA_0,_FUNCTION)}, +#endif +#ifdef EBI_DATA_1 + {ATPASTE2(EBI_DATA_1,_PIN),ATPASTE2(EBI_DATA_1,_FUNCTION)}, +#endif +#ifdef EBI_DATA_2 + {ATPASTE2(EBI_DATA_2,_PIN),ATPASTE2(EBI_DATA_2,_FUNCTION)}, +#endif +#ifdef EBI_DATA_3 + {ATPASTE2(EBI_DATA_3,_PIN),ATPASTE2(EBI_DATA_3,_FUNCTION)}, +#endif +#ifdef EBI_DATA_4 + {ATPASTE2(EBI_DATA_4,_PIN),ATPASTE2(EBI_DATA_4,_FUNCTION)}, +#endif +#ifdef EBI_DATA_5 + {ATPASTE2(EBI_DATA_5,_PIN),ATPASTE2(EBI_DATA_5,_FUNCTION)}, +#endif +#ifdef EBI_DATA_6 + {ATPASTE2(EBI_DATA_6,_PIN),ATPASTE2(EBI_DATA_6,_FUNCTION)}, +#endif +#ifdef EBI_DATA_7 + {ATPASTE2(EBI_DATA_7,_PIN),ATPASTE2(EBI_DATA_7,_FUNCTION)}, +#endif +#ifdef EBI_DATA_8 + {ATPASTE2(EBI_DATA_8,_PIN),ATPASTE2(EBI_DATA_8,_FUNCTION)}, +#endif +#ifdef EBI_DATA_9 + {ATPASTE2(EBI_DATA_9,_PIN),ATPASTE2(EBI_DATA_9,_FUNCTION)}, +#endif +#ifdef EBI_DATA_10 + {ATPASTE2(EBI_DATA_10,_PIN),ATPASTE2(EBI_DATA_10,_FUNCTION)}, +#endif +#ifdef EBI_DATA_11 + {ATPASTE2(EBI_DATA_11,_PIN),ATPASTE2(EBI_DATA_11,_FUNCTION)}, +#endif +#ifdef EBI_DATA_12 + {ATPASTE2(EBI_DATA_12,_PIN),ATPASTE2(EBI_DATA_12,_FUNCTION)}, +#endif +#ifdef EBI_DATA_13 + {ATPASTE2(EBI_DATA_13,_PIN),ATPASTE2(EBI_DATA_13,_FUNCTION)}, +#endif +#ifdef EBI_DATA_14 + {ATPASTE2(EBI_DATA_14,_PIN),ATPASTE2(EBI_DATA_14,_FUNCTION)}, +#endif +#ifdef EBI_DATA_15 + {ATPASTE2(EBI_DATA_15,_PIN),ATPASTE2(EBI_DATA_15,_FUNCTION)}, +#endif +#ifdef EBI_DATA_16 + {ATPASTE2(EBI_DATA_16,_PIN),ATPASTE2(EBI_DATA_16,_FUNCTION)}, +#endif +#ifdef EBI_DATA_17 + {ATPASTE2(EBI_DATA_17,_PIN),ATPASTE2(EBI_DATA_17,_FUNCTION)}, +#endif +#ifdef EBI_DATA_18 + {ATPASTE2(EBI_DATA_18,_PIN),ATPASTE2(EBI_DATA_18,_FUNCTION)}, +#endif +#ifdef EBI_DATA_19 + {ATPASTE2(EBI_DATA_19,_PIN),ATPASTE2(EBI_DATA_19,_FUNCTION)}, +#endif +#ifdef EBI_DATA_20 + {ATPASTE2(EBI_DATA_20,_PIN),ATPASTE2(EBI_DATA_20,_FUNCTION)}, +#endif +#ifdef EBI_DATA_21 + {ATPASTE2(EBI_DATA_21,_PIN),ATPASTE2(EBI_DATA_21,_FUNCTION)}, +#endif +#ifdef EBI_DATA_22 + {ATPASTE2(EBI_DATA_22,_PIN),ATPASTE2(EBI_DATA_22,_FUNCTION)}, +#endif +#ifdef EBI_DATA_23 + {ATPASTE2(EBI_DATA_23,_PIN),ATPASTE2(EBI_DATA_23,_FUNCTION)}, +#endif +#ifdef EBI_DATA_24 + {ATPASTE2(EBI_DATA_24,_PIN),ATPASTE2(EBI_DATA_24,_FUNCTION)}, +#endif +#ifdef EBI_DATA_25 + {ATPASTE2(EBI_DATA_25,_PIN),ATPASTE2(EBI_DATA_25,_FUNCTION)}, +#endif +#ifdef EBI_DATA_26 + {ATPASTE2(EBI_DATA_26,_PIN),ATPASTE2(EBI_DATA_26,_FUNCTION)}, +#endif +#ifdef EBI_DATA_27 + {ATPASTE2(EBI_DATA_27,_PIN),ATPASTE2(EBI_DATA_27,_FUNCTION)}, +#endif +#ifdef EBI_DATA_28 + {ATPASTE2(EBI_DATA_28,_PIN),ATPASTE2(EBI_DATA_28,_FUNCTION)}, +#endif +#ifdef EBI_DATA_29 + {ATPASTE2(EBI_DATA_29,_PIN),ATPASTE2(EBI_DATA_29,_FUNCTION)}, +#endif +#ifdef EBI_DATA_30 + {ATPASTE2(EBI_DATA_30,_PIN),ATPASTE2(EBI_DATA_30,_FUNCTION)}, +#endif +#ifdef EBI_DATA_31 + {ATPASTE2(EBI_DATA_31,_PIN),ATPASTE2(EBI_DATA_31,_FUNCTION)}, +#endif + + // Enable address pins. +#if SMC_DBW_GLOBAL <= 8 +#ifdef EBI_ADDR_0 + {ATPASTE2(EBI_ADDR_0,_PIN),ATPASTE2(EBI_ADDR_0,_FUNCTION)}, +#endif +#endif +#if SMC_DBW_GLOBAL <= 16 +#ifdef EBI_ADDR_1 + {ATPASTE2(EBI_ADDR_1,_PIN),ATPASTE2(EBI_ADDR_1,_FUNCTION)}, +#endif +#endif + +#ifdef EBI_ADDR_2 + {ATPASTE2(EBI_ADDR_2,_PIN),ATPASTE2(EBI_ADDR_2,_FUNCTION)}, +#endif +#ifdef EBI_ADDR_3 + {ATPASTE2(EBI_ADDR_3,_PIN),ATPASTE2(EBI_ADDR_3,_FUNCTION)}, +#endif +#ifdef EBI_ADDR_4 + {ATPASTE2(EBI_ADDR_4,_PIN),ATPASTE2(EBI_ADDR_4,_FUNCTION)}, +#endif +#ifdef EBI_ADDR_5 + {ATPASTE2(EBI_ADDR_5,_PIN),ATPASTE2(EBI_ADDR_5,_FUNCTION)}, +#endif +#ifdef EBI_ADDR_6 + {ATPASTE2(EBI_ADDR_6,_PIN),ATPASTE2(EBI_ADDR_6,_FUNCTION)}, +#endif +#ifdef EBI_ADDR_7 + {ATPASTE2(EBI_ADDR_7,_PIN),ATPASTE2(EBI_ADDR_7,_FUNCTION)}, +#endif +#ifdef EBI_ADDR_8 + {ATPASTE2(EBI_ADDR_8,_PIN),ATPASTE2(EBI_ADDR_8,_FUNCTION)}, +#endif +#ifdef EBI_ADDR_9 + {ATPASTE2(EBI_ADDR_9,_PIN),ATPASTE2(EBI_ADDR_9,_FUNCTION)}, +#endif +#ifdef EBI_ADDR_10 + {ATPASTE2(EBI_ADDR_10,_PIN),ATPASTE2(EBI_ADDR_10,_FUNCTION)}, +#endif +#ifdef EBI_ADDR_11 + {ATPASTE2(EBI_ADDR_11,_PIN),ATPASTE2(EBI_ADDR_11,_FUNCTION)}, +#endif +#ifdef EBI_ADDR_12 + {ATPASTE2(EBI_ADDR_12,_PIN),ATPASTE2(EBI_ADDR_12,_FUNCTION)}, +#endif +#ifdef EBI_ADDR_13 + {ATPASTE2(EBI_ADDR_13,_PIN),ATPASTE2(EBI_ADDR_13,_FUNCTION)}, +#endif +#ifdef EBI_ADDR_14 + {ATPASTE2(EBI_ADDR_14,_PIN),ATPASTE2(EBI_ADDR_14,_FUNCTION)}, +#endif +#ifdef EBI_ADDR_15 + {ATPASTE2(EBI_ADDR_15,_PIN),ATPASTE2(EBI_ADDR_15,_FUNCTION)}, +#endif +#ifdef EBI_ADDR_16 + {ATPASTE2(EBI_ADDR_16,_PIN),ATPASTE2(EBI_ADDR_16,_FUNCTION)}, +#endif +#ifdef EBI_ADDR_17 + {ATPASTE2(EBI_ADDR_17,_PIN),ATPASTE2(EBI_ADDR_17,_FUNCTION)}, +#endif +#ifdef EBI_ADDR_18 + {ATPASTE2(EBI_ADDR_18,_PIN),ATPASTE2(EBI_ADDR_18,_FUNCTION)}, +#endif +#ifdef EBI_ADDR_19 + {ATPASTE2(EBI_ADDR_19,_PIN),ATPASTE2(EBI_ADDR_19,_FUNCTION)}, +#endif +#ifdef EBI_ADDR_20 + {ATPASTE2(EBI_ADDR_20,_PIN),ATPASTE2(EBI_ADDR_20,_FUNCTION)}, +#endif +#ifdef EBI_ADDR_21 + {ATPASTE2(EBI_ADDR_21,_PIN),ATPASTE2(EBI_ADDR_21,_FUNCTION)}, +#endif +#ifdef EBI_ADDR_22 + {ATPASTE2(EBI_ADDR_22,_PIN),ATPASTE2(EBI_ADDR_22,_FUNCTION)}, +#endif +#ifdef EBI_ADDR_23 + {ATPASTE2(EBI_ADDR_23,_PIN),ATPASTE2(EBI_ADDR_23,_FUNCTION)}, +#endif + +#if SMC_DBW_GLOBAL <= 8 + #undef SMC_8_BIT_CHIPS + #define SMC_8_BIT_CHIPS TRUE +#endif + + // Enable data mask pins. +#if !SMC_8_BIT_CHIPS_GLOBAL +#ifdef EBI_ADDR_0 + {ATPASTE2(EBI_ADDR_0,_PIN),ATPASTE2(EBI_ADDR_0,_FUNCTION)}, +#endif +#endif +#ifdef EBI_NWE0 + {ATPASTE2(EBI_NWE0,_PIN),ATPASTE2(EBI_NWE0,_FUNCTION)}, +#endif + +#if SMC_DBW_GLOBAL >= 16 + #ifdef EBI_NWE1 + {ATPASTE2(EBI_NWE1,_PIN),ATPASTE2(EBI_NWE1,_FUNCTION)}, + #endif + #if SMC_DBW_GLOBAL >= 32 + #ifdef EBI_ADDR_1 + {ATPASTE2(EBI_ADDR_1,_PIN),ATPASTE2(EBI_ADDR_1,_FUNCTION)}, + #endif + #ifdef EBI_NWE3 + {ATPASTE2(EBI_NWE3,_PIN),ATPASTE2(EBI_NWE3,_FUNCTION)}, + #endif + #endif +#endif + #ifdef EBI_NRD + {ATPASTE2(EBI_NRD,_PIN),ATPASTE2(EBI_NRD,_FUNCTION)}, + #endif + + // Enable control pins. +#if NWAIT_MODE_GLOBAL != AVR32_SMC_EXNW_MODE_DISABLED + #ifdef EBI_NWAIT + {ATPASTE2(EBI_NWAIT,_PIN),ATPASTE2(EBI_NWAIT,_FUNCTION)}, + #endif +#endif +#ifdef SMC_USE_NCS0 + #ifdef EBI_NCS_0 + {ATPASTE2(EBI_NCS_0,_PIN),ATPASTE2(EBI_NCS_0,_FUNCTION)}, + #endif +#endif +#ifdef SMC_USE_NCS1 + #ifdef EBI_NCS_1 + {ATPASTE2(EBI_NCS_1,_PIN),ATPASTE2(EBI_NCS_1,_FUNCTION)}, + #endif +#endif +#ifdef SMC_USE_NCS2 + #ifdef EBI_NCS_2 + {ATPASTE2(EBI_NCS_2,_PIN),ATPASTE2(EBI_NCS_2,_FUNCTION)}, + #endif +#endif +#ifdef SMC_USE_NCS3 + #ifdef EBI_NCS_3 + {ATPASTE2(EBI_NCS_3,_PIN),ATPASTE2(EBI_NCS_3,_FUNCTION)}, + #endif +#endif +#ifdef SMC_USE_NCS4 + #ifdef EBI_NCS_4 + {ATPASTE2(EBI_NCS_4,_PIN),ATPASTE2(EBI_NCS_4,_FUNCTION)}, + #endif +#endif +#ifdef SMC_USE_NCS5 + #ifdef EBI_NCS_5 + {ATPASTE2(EBI_NCS_5,_PIN),ATPASTE2(EBI_NCS_5,_FUNCTION)}, + #endif +#endif + }; + + gpio_enable_module(SMC_EBI_GPIO_MAP, sizeof(SMC_EBI_GPIO_MAP) / sizeof(SMC_EBI_GPIO_MAP[0])); +} + +unsigned char smc_get_cs_size(unsigned char cs) +{ + return smc_tab_cs_size[cs]; +} diff --git a/firmwares/wifishield/wifiHD/src/SOFTWARE_FRAMEWORK/DRIVERS/EBI/SMC/smc.h b/firmwares/wifishield/wifiHD/src/SOFTWARE_FRAMEWORK/DRIVERS/EBI/SMC/smc.h new file mode 100644 index 0000000..c3bdf43 --- /dev/null +++ b/firmwares/wifishield/wifiHD/src/SOFTWARE_FRAMEWORK/DRIVERS/EBI/SMC/smc.h @@ -0,0 +1,68 @@ +/* This header file is part of the ATMEL AVR-UC3-SoftwareFramework-1.7.0 Release */ + +/*This file is prepared for Doxygen automatic documentation generation.*/ +/*! \file ********************************************************************* + * + * \brief SMC on EBI driver for AVR32 UC3. + * + * - Compiler: IAR EWAVR32 and GNU GCC for AVR32 + * - Supported devices: All AVR32 devices with a SMC module can be used. + * - AppNote: + * + * \author Atmel Corporation: http://www.atmel.com \n + * Support and FAQ: http://support.atmel.no/ + * + ******************************************************************************/ + +/* Copyright (c) 2009 Atmel Corporation. All rights reserved. + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions are met: + * + * 1. Redistributions of source code must retain the above copyright notice, this + * list of conditions and the following disclaimer. + * + * 2. Redistributions in binary form must reproduce the above copyright notice, + * this list of conditions and the following disclaimer in the documentation + * and/or other materials provided with the distribution. + * + * 3. The name of Atmel may not be used to endorse or promote products derived + * from this software without specific prior written permission. + * + * 4. This software may only be redistributed and used in connection with an Atmel + * AVR product. + * + * THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR IMPLIED + * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF + * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE + * EXPRESSLY AND SPECIFICALLY DISCLAIMED. IN NO EVENT SHALL ATMEL BE LIABLE FOR + * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; + * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND + * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS + * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE + * + */ + +#ifndef _SMC_H_ +#define _SMC_H_ + +#include <avr32/io.h> + +#include "compiler.h" +#include "conf_ebi.h" + +/*! \brief Initializes the AVR32 SMC module and the connected SRAM(s). + * \param hsb_hz HSB frequency in Hz (the HSB frequency is applied to the SMC). + * \note Each access to the SMC address space validates the mode of the SMC + * and generates an operation corresponding to this mode. + */ +extern void smc_init(unsigned long hsb_hz); + +/*! \brief Return the size of the peripheral connected . + * \param cs The chip select value + */ +extern unsigned char smc_get_cs_size(unsigned char cs); + +#endif // _SMC_H_ |