customized SNICInterface
Fork of NySNICInterface by
SNIC/SNIC_Core.cpp
- Committer:
- kishino
- Date:
- 2014-06-03
- Revision:
- 33:33f1bc919486
- Parent:
- 32:ae95309643aa
- Child:
- 35:e4e7f86fd975
File content as of revision 33:33f1bc919486:
/******************* Murata Manufacturing Co.,Ltd. 2014 ***************** * * Filename: SNIC_Core.cpp * * Purpose: This module has implementation of internal common function for API. * * $Author: kishino $ * * $Date: 2014/03/26 $ * * $Revision: 0.0.0.1 $ * ***********************************************************************/ #include "mbed.h" #include "SNIC_Core.h" #include "SNIC_UartMsgUtil.h" #include <string> /** Wait signal ID of UART recv */ #define UART_DISPATCH_SIGNAL 0x00000002 #define UART_RECEIVE_SIGNAL 0x00000004 #define UART_RECVBUF_SIZE 2048 #define UART_THREAD_STACK_SIZE 512 typedef struct { tagMEMPOOL_BLOCK_T *mem_p; unsigned int size; }tagUART_RECVBUF_T; /* Define the global buffer using the area for Ethernet. */ unsigned char gUART_TEMP_BUF[UART_RECVBUF_SIZE] __attribute__((section("AHBSRAM1"))); unsigned char gUART_COMMAND_BUF[UART_REQUEST_PAYLOAD_MAX] __attribute__((section("AHBSRAM1"))); unsigned char gPAYLOAD_ARRAY[UART_REQUEST_PAYLOAD_MAX] __attribute__((section("AHBSRAM1"))); /** MemoryPool for payload of UART response */ MemoryPool<tagMEMPOOL_BLOCK_T, MEMPOOL_PAYLOAD_NUM> mMemPoolPayload __attribute__((section("AHBSRAM1"))); /** MemoryPool for UART receive */ MemoryPool<tagMEMPOOL_BLOCK_T, MEMPOOL_UART_RECV_NUM> mMemPoolUartRecv __attribute__((section("AHBSRAM1"))); Queue<tagMEMPOOL_BLOCK_T, MEMPOOL_UART_RECV_NUM> mUartRecvQueue; tagMEMPOOL_BLOCK_T *gUART_RCVBUF_p; C_SNIC_Core *C_SNIC_Core::mInstance_p = NULL; C_SNIC_Core *C_SNIC_Core::getInstance() { if( mInstance_p == NULL ) { mInstance_p = new C_SNIC_Core(); } return mInstance_p; } C_SNIC_Core::C_SNIC_Core() { int i; mUartCommand_p = new C_SNIC_UartCommandManager(); for( i = 0; i < MAX_SOCKET_ID+1; i++ ) { mConnectInfo[i].recvbuf_p = NULL; mConnectInfo[i].is_connected = false; mUdpRecvInfo[i].recvbuf_p = NULL; mUdpRecvInfo[i].is_received = false; } mUartRecvThread_p = NULL; mUartRecvDispatchThread_p = NULL; } C_SNIC_Core::~C_SNIC_Core() { } int C_SNIC_Core::resetModule( PinName reset ) { DigitalOut reset_pin( reset ); reset_pin = 0; wait(0.2); reset_pin = 1; wait(0.2); return 0; } int C_SNIC_Core::initUart(PinName tx, PinName rx, int baud) { // printf("[C_SNIC_Core::initUart]1\r\n"); mUartRequestSeq = 0; mUart_p = new RawSerial( tx, rx ); mUart_p->baud( baud ); mUart_p->format(8, SerialBase::None, 1); // Initialize uart gUART_RCVBUF_p = NULL; mUart_p->attach( C_SNIC_Core::uartRecvCallback ); // Create UART recv dispatch thread mUartRecvDispatchThread_p = new Thread( C_SNIC_Core::uartRecvDispatchThread, NULL, osPriorityNormal, UART_THREAD_STACK_SIZE); if( mUartRecvDispatchThread_p == NULL ) { printf("[C_SNIC_Core::initUart] thread create failed\r\n"); return -1; } return 0; } unsigned int C_SNIC_Core::preparationSendCommand( unsigned char cmd_id, unsigned char cmd_sid , unsigned char *req_buf_p, unsigned int req_buf_len , unsigned char *response_buf_p, unsigned char *command_p ) { unsigned short payload_len; unsigned int command_len = 0; // Make command payload payload_len = C_SNIC_UartMsgUtil::makePayload( req_buf_len, req_buf_p, gPAYLOAD_ARRAY ); // Make all command request command_len = C_SNIC_UartMsgUtil::makeRequest( cmd_id, gPAYLOAD_ARRAY, payload_len, command_p ); // Set data for response mUartCommand_p->setCommandID( cmd_id ); mUartCommand_p->setCommandSID( cmd_sid | 0x80 ); mUartCommand_p->setResponseBuf( response_buf_p ); return command_len; } int C_SNIC_Core::sendUart( unsigned int len, unsigned char *data ) { int ret = 0; mUartMutex.lock(); for( int i = 0; i < len; i++ ) { // Write to UART ret = mUart_p->putc( data[i] ); if( ret == -1 ) { ret = -1; break; } } mUartMutex.unlock(); return ret; } tagMEMPOOL_BLOCK_T *C_SNIC_Core::allocCmdBuf() { // Get buffer from MemoryPool return mMemPoolPayload.alloc(); } void C_SNIC_Core::freeCmdBuf( tagMEMPOOL_BLOCK_T *buf_p ) { mMemPoolPayload.free( buf_p ); } tagMEMPOOL_BLOCK_T *C_SNIC_Core::allocUartRcvBuf() { // Get buffer from MemoryPool return mMemPoolUartRecv.alloc(); } void C_SNIC_Core::freeUartRecvBuf( tagMEMPOOL_BLOCK_T *buf_p ) { mMemPoolUartRecv.free( buf_p ); } C_SNIC_Core::tagCONNECT_INFO_T *C_SNIC_Core::getConnectInfo( int socket_id ) { if( (socket_id < 0) || (socket_id > MAX_SOCKET_ID) ) { return NULL; } return &mConnectInfo[socket_id]; } C_SNIC_Core::tagUDP_RECVINFO_T *C_SNIC_Core::getUdpRecvInfo( int socket_id ) { if( (socket_id < 0) || (socket_id > MAX_SOCKET_ID) ) { return NULL; } return &mUdpRecvInfo[socket_id]; } C_SNIC_UartCommandManager *C_SNIC_Core::getUartCommand() { return mUartCommand_p; } unsigned char *C_SNIC_Core::getCommandBuf() { return gUART_COMMAND_BUF; } DigitalOut led1(LED1); void C_SNIC_Core::uartRecvCallback( void ) { C_SNIC_Core *instance_p = C_SNIC_Core::getInstance(); if( instance_p != NULL ) { int recvdata = 0; // set signal // instance_p->mUartRecvThread_p->signal_set( UART_RECEIVE_SIGNAL ); if( instance_p->mUart_p->readable() ) { // Receive data from UART. instance_p->mUartMutex.lock(); recvdata = instance_p->mUart_p->getc(); instance_p->mUartMutex.unlock(); // Check UART receiving buffer if( gUART_RCVBUF_p != NULL ) { gUART_RCVBUF_p->buf[ gUART_RCVBUF_p->size ] = (unsigned char)recvdata; gUART_RCVBUF_p->size++; // Check received data is EOM. if( recvdata == UART_CMD_EOM ) { led1 = 0; // Add queue mUartRecvQueue.put( gUART_RCVBUF_p ); gUART_RCVBUF_p = NULL; // set signal for dispatch thread instance_p->mUartRecvDispatchThread_p->signal_set( UART_DISPATCH_SIGNAL ); } } else { // Check received data is SOM. if( recvdata == UART_CMD_SOM ) { led1 = 1; gUART_RCVBUF_p = instance_p->allocUartRcvBuf(); gUART_RCVBUF_p->size = 0; // get buffer for Uart receive gUART_RCVBUF_p->buf[ 0 ] = (unsigned char)recvdata; gUART_RCVBUF_p->size++; } } } } } void C_SNIC_Core::uartRecvDispatchThread (void const *args_p) { C_SNIC_Core *instance_p = C_SNIC_Core::getInstance(); C_SNIC_UartCommandManager *uartCmdMgr_p = instance_p->getUartCommand(); tagMEMPOOL_BLOCK_T *uartRecvBuf_p; osEvent evt; for(;;) { // wait Thread::signal_wait( UART_DISPATCH_SIGNAL ); // Get scanresults from queue evt = mUartRecvQueue.get(500); if (evt.status == osEventMessage) { do { uartRecvBuf_p = (tagMEMPOOL_BLOCK_T *)evt.value.p; #if 0 { int i; for(i=0;i<uartRecvBuf_p->size;i++) { printf("%02x", uartRecvBuf_p->buf[i]); } printf("\r\n"); } #endif unsigned char command_id; // Get payload from received data from UART. int payload_len = C_SNIC_UartMsgUtil::getResponsePayload( uartRecvBuf_p->size, uartRecvBuf_p->buf , &command_id, gUART_TEMP_BUF ); // Check receive a TCP packet if( (command_id == UART_CMD_ID_SNIC) && (gUART_TEMP_BUF[0] == UART_CMD_SID_SNIC_CONNECTION_RECV_IND) ) { // Packet buffering uartCmdMgr_p->bufferredPacket( gUART_TEMP_BUF, payload_len ); } // Check connected from TCP client else if( (command_id == UART_CMD_ID_SNIC) && (gUART_TEMP_BUF[0] == UART_CMD_SID_SNIC_TCP_CLIENT_SOCKET_IND) ) { // Connected from TCP client uartCmdMgr_p->connectedTCPClient( gUART_TEMP_BUF, payload_len ); } // Check receive UDP packet else if( (command_id == UART_CMD_ID_SNIC) && (gUART_TEMP_BUF[0] == UART_CMD_SID_SNIC_UDP_RECV_IND) ) { // UDP packet buffering uartCmdMgr_p->bufferredUDPPacket( gUART_TEMP_BUF, payload_len ); } // Check scan results indication else if( (command_id == UART_CMD_ID_WIFI) && (gUART_TEMP_BUF[0] == UART_CMD_SID_WIFI_SCAN_RESULT_IND) ) { // Scan result indicate uartCmdMgr_p->scanResultIndicate( gUART_TEMP_BUF, payload_len ); } // Checks in the command which is waiting. else if( uartCmdMgr_p->isWaitingCommand(command_id, gUART_TEMP_BUF) ) { //lcd_printf("cid:%02x scid:%02x\r\n", command_id, gUART_TEMP_BUF[0]); // Get buffer for payload data unsigned char *payload_buf_p = uartCmdMgr_p->getResponseBuf(); if( payload_buf_p != NULL ) { memcpy( payload_buf_p, gUART_TEMP_BUF, payload_len ); uartCmdMgr_p->setResponseBuf( NULL ); } // Set status uartCmdMgr_p->setCommandStatus( gUART_TEMP_BUF[2] ); // Set signal for command response wait. uartCmdMgr_p->signal(); } // instance_p->freeUartRecvBuf( uartRecvBuf_p ); evt = mUartRecvQueue.get(500); Thread::yield(); } while( evt.status == osEventMessage ); } } }