/* * ard_utils.c * * Created on: Jul 4, 2010 * Author: mlf by Metodo2 srl */ //#define _APP_DEBUG_ #include "lwip/pbuf.h" #include "wifi_spi.h" #include "ard_utils.h" #include "debug.h" #include "ard_spi.h" #include "ard_tcp.h" #define MAX_PBUF_STORED 30 tData pBufStore[MAX_PBUF_STORED][MAX_SOCK_NUM]; unsigned char headBuf[MAX_SOCK_NUM] = {0}; unsigned char tailBuf[MAX_SOCK_NUM] = {0}; #define IS_BUF_AVAIL(x) (tailBuf[x] != headBuf[x]) #define IS_BUF_EMPTY(x) ((tailBuf[x] == 0) && (headBuf[x] == 0)) void init_pBuf() { memset(pBufStore, 0, sizeof(pBufStore)); } uint8_t* insertBuf(uint8_t sock, uint8_t* buf, uint16_t len) { DUMP(buf,len); if (sock>= MAX_SOCK_NUM) { WARN("Sock out of range: sock=%d", sock); return NULL; } if (pBufStore[headBuf[sock]][sock].data != NULL) { WARN("Overwriting buffer %p idx:%d!\n", pBufStore[headBuf[sock]][sock].data, headBuf[sock]); // to avoid memory leak free the oldest buffer freetDataIdx(headBuf[sock], sock); } u8_t* p = (u8_t*)calloc(len,sizeof(u8_t)); if(p != NULL) { memcpy(p, buf, len); pBufStore[headBuf[sock]][sock].data = p; pBufStore[headBuf[sock]][sock].len = len; pBufStore[headBuf[sock]][sock].idx = 0; pBufStore[headBuf[sock]][sock].pcb = getTTCP(sock, TTCP_MODE_TRANSMIT); headBuf[sock]++; if (headBuf[sock] == MAX_PBUF_STORED) headBuf[sock] = 0; if (headBuf[sock] == tailBuf[sock]) { WARN("Avoid to Overwrite data [%d-%d]!\n", headBuf[sock], tailBuf[sock]); if (headBuf[sock] != 0) --headBuf[sock]; else headBuf[sock] = MAX_PBUF_STORED-1; } INFO_UTIL("Insert[%d]: %p:%d-%d [%d,%d]\n", sock, p, len, p[0], headBuf[sock], tailBuf[sock]); } return p; } uint16_t calcMergeLen(uint8_t sock) { uint16_t len = 0; unsigned char index = tailBuf[sock]; do { if (pBufStore[index][sock].data != NULL) { len += pBufStore[index][sock].len; } ++index; if (index == MAX_PBUF_STORED) index = 0; }while (index!=headBuf[sock]); return len; } uint16_t clearBuf(uint8_t sock) { uint16_t len = 0; unsigned char index = tailBuf[sock]; do { if (pBufStore[index][sock].data != NULL) { freetDataIdx(index,sock); } ++index; if (index == MAX_PBUF_STORED) index = 0; }while (index!=headBuf[sock]); tailBuf[sock]=index; return len; } uint8_t* mergeBuf(uint8_t sock, uint8_t** buf, uint16_t* _len) { uint16_t len = calcMergeLen(sock); uint8_t* p = (u8_t*)calloc(len,sizeof(u8_t)); uint8_t* _p = p; if(p != NULL) { unsigned char index = tailBuf[sock]; do { if (pBufStore[index][sock].data != NULL) { memcpy(p, pBufStore[index][sock].data, pBufStore[index][sock].len); p += pBufStore[index][sock].len; } ++index; if (index == MAX_PBUF_STORED) index = 0; }while (index!=headBuf[sock]); } DUMP(_p,len); if (buf != NULL) *buf = _p; if (_len != NULL) *_len = len; return _p; } uint8_t* insert_pBuf(struct pbuf* q, uint8_t sock, void* _pcb) { if (q == NULL) return NULL; if (pBufStore[headBuf[sock]][sock].data != NULL) { WARN("Overwriting buffer %p idx:%d!\n", pBufStore[headBuf[sock]][sock].data, headBuf[sock]); // to avoid memory leak free the oldest buffer freetDataIdx(headBuf[sock], sock); } u8_t* p = (u8_t*)calloc(q->tot_len,sizeof(u8_t)); if(p != NULL) { if (pbuf_copy_partial(q, p, q->tot_len,0) != q->tot_len) { WARN("pbuf_copy_partial failed: src:%p, dst:%p, len:%d\n", q, p, q->tot_len); free(p); p = NULL; return p; } pBufStore[headBuf[sock]][sock].data = p; pBufStore[headBuf[sock]][sock].len = q->tot_len; pBufStore[headBuf[sock]][sock].idx = 0; pBufStore[headBuf[sock]][sock].pcb = _pcb; headBuf[sock]++; if (headBuf[sock] == MAX_PBUF_STORED) headBuf[sock] = 0; if (headBuf[sock] == tailBuf[sock]) { WARN("Avoid to Overwrite data [%d-%d]!\n", headBuf[sock], tailBuf[sock]); if (headBuf[sock] != 0) --headBuf[sock]; else headBuf[sock] = MAX_PBUF_STORED-1; } INFO_UTIL("Insert[%d]: %p:%d-%d [%d,%d]\n", sock, p, q->tot_len, p[0], headBuf[sock], tailBuf[sock]); } return p; } void dumpPbuf(uint8_t sock) { unsigned char index = tailBuf[sock]; printk("headBuf=%d tailBuf=%d\n", headBuf[sock], tailBuf[sock]); do { if (pBufStore[index][sock].data != NULL) { printk("Buf: %p Len:%d\n", pBufStore[index][sock].data, pBufStore[index][sock].len); } ++index; if (index == MAX_PBUF_STORED) index = 0; }while (index!=headBuf[sock]); } tData* get_pBuf(uint8_t sock) { if (IS_BUF_EMPTY(sock)) return NULL; if (IS_BUF_AVAIL(sock)) { tData* p = &(pBufStore[tailBuf[sock]][sock]); INFO_UTIL_VER("%p [%d,%d]\n", p, headBuf[sock], tailBuf[sock]); return p; } return NULL; } void freetData(void * buf, uint8_t sock) { if (buf==NULL) { WARN("Buf == NULL!"); return; } pBufStore[tailBuf[sock]][sock].data = NULL; pBufStore[tailBuf[sock]][sock].len = 0; pBufStore[tailBuf[sock]][sock].idx = 0; pBufStore[tailBuf[sock]][sock].pcb = 0; if (++tailBuf[sock] == MAX_PBUF_STORED) tailBuf[sock] = 0; INFO_UTIL("%p [%d,%d]\n", buf, headBuf[sock], tailBuf[sock]); free(buf); } void freetDataIdx(uint8_t idxBuf, uint8_t sock) { if (idxBuf >=MAX_PBUF_STORED) { WARN("idxBuf out of range: %d\n", idxBuf); return; } void * buf = pBufStore[idxBuf][sock].data; INFO_UTIL("%p idx:%d\n", buf, idxBuf); free(buf); pBufStore[idxBuf][sock].data = 0; pBufStore[idxBuf][sock].len = 0; pBufStore[idxBuf][sock].idx = 0; pBufStore[idxBuf][sock].pcb = 0; } void ack_recved(void* pcb, int len); void ackAndFreeData(void* pcb, int len, uint8_t sock, uint8_t* data) { INFO_UTIL("Ack pcb:%p len:%d sock:%d data:%p\n", pcb, len, sock, data); if (!IS_UDP_SOCK(sock)) ack_recved(pcb, len); if (data != NULL) freetData(data, sock); } bool isAvailTcpDataByte(uint8_t sock) { tData* p = get_pBuf(sock); if (p != NULL) { INFO_UTIL_VER("check:%d %d %p\n",p->idx, p->len, p->data); if (p->idx == p->len) { INFO_UTIL("Free %p other buf %d tail:%d head:%d\n", p->data, IS_BUF_AVAIL(sock), tailBuf[sock], headBuf[sock]); ackAndFreeData(p->pcb, p->len, sock, p->data); return (IS_BUF_AVAIL(sock)); }else{ return true; } } return false; } uint16_t getAvailTcpDataByte(uint8_t sock) { uint16_t len = calcMergeLen(sock); INFO_UTIL("Availabled data: %d\n", len); return len; } bool getTcpDataByte(uint8_t sock, uint8_t* payload, uint8_t peek) { // ref field in struct pbuf has been used as index pointer for byte data tData* p = get_pBuf(sock); if (p != NULL) { if (p->idx < p->len) { uint8_t* buf = (uint8_t*)p->data; if (peek) *payload = buf[p->idx]; else *payload = buf[p->idx++]; INFO_UTIL_VER("get:%d %p %d\n",p->idx, p->data, *payload); return true; }else{ ackAndFreeData(p->pcb, p->len, sock, p->data); } } return false; } bool getTcpData(uint8_t sock, void** payload, uint16_t* len) { tData* p = NULL; p = get_pBuf(sock); if (p != NULL) { *payload = p->data; *len = p->len; return true; } return false; } bool freeTcpData(uint8_t sock) { tData* p = NULL; p = get_pBuf(sock); if (p != NULL) { ackAndFreeData(p->pcb, p->len, sock, p->data); return true; } return false; } void freeAllTcpData(uint8_t sock) { tData* p = NULL; do{ p = get_pBuf(sock); if (p != NULL) freetData(p->data, sock); }while(p!=NULL); }