SNICInterface_PullReq

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Dependents: SNIC-httpclient-example SNIC-ntpclient-example

SNICwifi/SNICwifi.cpp@8:50d2509479cd, 2014-03-17 (annotated)

Committer:: kishino
Date:: Mon Mar 17 11:40:56 2014 +0000
Revision:: 8:50d2509479cd
Parent:: YDwifi/YDwifi.cpp@7:e88ccbe0225f
Child:: 9:a98b45e766c8

Prefix of class name and file name was changed from 'YD' to 'SNIC'.

Who changed what in which revision?

User	Revision	Line number	New contents of line
kishino	0:61c402886fbb	1	#include "mbed.h"
kishino	8:50d2509479cd	2	#include "SNICwifi.h"
kishino	8:50d2509479cd	3	#include "SNICwifi_uartmsg.h"
kishino	0:61c402886fbb	4	#include <string>
kishino	0:61c402886fbb	5	//#include <algorithm>
kishino	0:61c402886fbb	6
kishino	2:0ba43344c814	7	using namespace murata_wifi;
kishino	2:0ba43344c814	8
kishino	2:0ba43344c814	9	#define UART_RECVBUF_SIZE 2048
kishino	2:0ba43344c814	10	typedef struct
kishino	2:0ba43344c814	11	{
kishino	2:0ba43344c814	12	unsigned char buf[UART_RECVBUF_SIZE];
kishino	2:0ba43344c814	13	unsigned int size;
kishino	2:0ba43344c814	14	bool is_receive;
kishino	2:0ba43344c814	15	}tagUART_RECVBUF_T;
kishino	2:0ba43344c814	16	tagUART_RECVBUF_T gUART_RCVBUF;
kishino	3:9f90024d7fb2	17	unsigned char gUART_TEMP_BUF[UART_RECVBUF_SIZE];
kishino	2:0ba43344c814	18
kishino	8:50d2509479cd	19	C_SNICwifi *C_SNICwifi::mInstance_p;
kishino	0:61c402886fbb	20
kishino	8:50d2509479cd	21	C_SNICwifi::C_SNICwifi(PinName tx, PinName rx, PinName cts, PinName rts, PinName reset, PinName alarm, int baud):
kishino	6:70f522934032	22	mUart(tx, rx)
kishino	0:61c402886fbb	23	{
kishino	0:61c402886fbb	24	mUartRecvThread_p = NULL;
kishino	0:61c402886fbb	25	mInstance_p = this;
kishino	0:61c402886fbb	26	mUartRequestSeq = 0;
kishino	0:61c402886fbb	27
kishino	2:0ba43344c814	28	// Initialize uart
kishino	2:0ba43344c814	29	gUART_RCVBUF.is_receive = false;
kishino	2:0ba43344c814	30	gUART_RCVBUF.size = 0;
kishino	2:0ba43344c814	31	mUart.baud( 115200 );
kishino	2:0ba43344c814	32	mUart.format(8, SerialBase::None, 1);
kishino	0:61c402886fbb	33	}
kishino	0:61c402886fbb	34
kishino	8:50d2509479cd	35	int C_SNICwifi::initUart()
kishino	0:61c402886fbb	36	{
kishino	0:61c402886fbb	37	// Create UART recv thread
kishino	8:50d2509479cd	38	mUartRecvThread_p = new Thread( C_SNICwifi::uartRecvThread );
kishino	0:61c402886fbb	39	if( mUartRecvThread_p == NULL )
kishino	0:61c402886fbb	40	{
kishino	8:50d2509479cd	41	printf("[C_SNICwifi::initUart] thread cread failed\r\n");
kishino	0:61c402886fbb	42	return -1;
kishino	0:61c402886fbb	43	}
kishino	2:0ba43344c814	44
kishino	0:61c402886fbb	45	return 0;
kishino	0:61c402886fbb	46	}
kishino	0:61c402886fbb	47
kishino	8:50d2509479cd	48	int C_SNICwifi::sendUart( unsigned int len, unsigned char *data )
kishino	0:61c402886fbb	49	{
kishino	2:0ba43344c814	50	int ret = 0;
kishino	2:0ba43344c814	51
kishino	2:0ba43344c814	52	mUartMutex.lock();
kishino	2:0ba43344c814	53	for( int i = 0; i < len; i++ )
kishino	2:0ba43344c814	54	{
kishino	2:0ba43344c814	55	// Write to UART
kishino	2:0ba43344c814	56	ret = mUart.putc( data[i] );
kishino	2:0ba43344c814	57	if( ret == -1 )
kishino	2:0ba43344c814	58	{
kishino	2:0ba43344c814	59	ret = -1;
kishino	2:0ba43344c814	60	break;
kishino	2:0ba43344c814	61	}
kishino	2:0ba43344c814	62	}
kishino	2:0ba43344c814	63	mUartMutex.unlock();
kishino	2:0ba43344c814	64	return ret;
kishino	0:61c402886fbb	65	}
kishino	0:61c402886fbb	66
kishino	8:50d2509479cd	67	void C_SNICwifi::uartRecvThread (void const *args_p) {
kishino	2:0ba43344c814	68
kishino	8:50d2509479cd	69	C_SNICwifi *instance_p = C_SNICwifi::getInstance();
kishino	0:61c402886fbb	70	if ( instance_p == NULL )
kishino	0:61c402886fbb	71	{
kishino	0:61c402886fbb	72	printf("Socket constructor error: no wifly instance available!\r\n");
kishino	0:61c402886fbb	73	}
kishino	0:61c402886fbb	74
kishino	0:61c402886fbb	75	int recvdata = 0;
kishino	2:0ba43344c814	76	int i;
kishino	2:0ba43344c814	77
kishino	0:61c402886fbb	78	/* UART recv thread main loop */
kishino	0:61c402886fbb	79	for (;;)
kishino	0:61c402886fbb	80	{
kishino	2:0ba43344c814	81	while( instance_p->mUart.readable() )
kishino	2:0ba43344c814	82	{
kishino	2:0ba43344c814	83	// Receive data from UART.
kishino	2:0ba43344c814	84	instance_p->mUartMutex.lock();
kishino	2:0ba43344c814	85	recvdata = instance_p->mUart.getc();
kishino	2:0ba43344c814	86	instance_p->mUartMutex.unlock();
kishino	7:e88ccbe0225f	87
kishino	2:0ba43344c814	88	// Check UART receiving flg
kishino	2:0ba43344c814	89	if( gUART_RCVBUF.is_receive )
kishino	2:0ba43344c814	90	{
kishino	2:0ba43344c814	91	gUART_RCVBUF.buf[ gUART_RCVBUF.size ] = (unsigned char)recvdata;
kishino	2:0ba43344c814	92	gUART_RCVBUF.size++;
kishino	2:0ba43344c814	93	// Check received data is EOM.
kishino	2:0ba43344c814	94	if( recvdata == UART_CMD_EOM )
kishino	2:0ba43344c814	95	{
kishino	3:9f90024d7fb2	96	/*
kishino	2:0ba43344c814	97	printf("[recv]\r\n");
kishino	2:0ba43344c814	98	for( i = 0; i < gUART_RCVBUF.size; i++ )
kishino	2:0ba43344c814	99	{
kishino	2:0ba43344c814	100	printf("%02x ", gUART_RCVBUF.buf[i]);
kishino	2:0ba43344c814	101	}
kishino	2:0ba43344c814	102	printf("\r\n");
kishino	5:ef3befe3edad	103	*/
kishino	2:0ba43344c814	104	unsigned char command_id;
kishino	3:9f90024d7fb2	105	// Get payload from received data from UART.
kishino	8:50d2509479cd	106	int payload_len = C_SNIC_UartMsg::getResponsePayload( gUART_RCVBUF.size, gUART_RCVBUF.buf
kishino	3:9f90024d7fb2	107	, &command_id, gUART_TEMP_BUF );
kishino	3:9f90024d7fb2	108	/*
kishino	3:9f90024d7fb2	109	printf("[payload]\r\n");
kishino	3:9f90024d7fb2	110	for( i = 0; i < payload_len; i++ )
kishino	3:9f90024d7fb2	111	{
kishino	3:9f90024d7fb2	112	printf("%02x ", gUART_TEMP_BUF[i]);
kishino	3:9f90024d7fb2	113	}
kishino	3:9f90024d7fb2	114	printf("\r\n");
kishino	5:ef3befe3edad	115	*/
kishino	3:9f90024d7fb2	116	// Check scan results indication
kishino	3:9f90024d7fb2	117	if( (command_id == UART_CMD_ID_WIFI) \|\| (gUART_TEMP_BUF[0] == UART_CMD_SID_WIFI_SCAN_RESULT_IND) )
kishino	3:9f90024d7fb2	118	{
kishino	3:9f90024d7fb2	119	// Scan result indicate
kishino	3:9f90024d7fb2	120	instance_p->mUartCommand.scanResultIndicate( gUART_TEMP_BUF, payload_len );
kishino	3:9f90024d7fb2	121	}
kishino	2:0ba43344c814	122
kishino	3:9f90024d7fb2	123	// Checks in the command which is waiting.
kishino	3:9f90024d7fb2	124	if( instance_p->mUartCommand.isWaitingCommand(command_id, gUART_TEMP_BUF) )
kishino	2:0ba43344c814	125	{
kishino	3:9f90024d7fb2	126	// Get buffer for payload data
kishino	3:9f90024d7fb2	127	unsigned char *payload_buf_p = instance_p->mUartCommand.getResponseBuf();
kishino	3:9f90024d7fb2	128	if( payload_buf_p != NULL )
kishino	2:0ba43344c814	129	{
kishino	3:9f90024d7fb2	130	memcpy( payload_buf_p, gUART_TEMP_BUF, payload_len );
kishino	3:9f90024d7fb2	131	instance_p->mUartCommand.setResponseBuf( NULL );
kishino	2:0ba43344c814	132	}
kishino	3:9f90024d7fb2	133	// Set status
kishino	3:9f90024d7fb2	134	instance_p->mUartCommand.setCommandStatus( gUART_TEMP_BUF[2] );
kishino	3:9f90024d7fb2	135	// Set signal for command response wait.
kishino	3:9f90024d7fb2	136	instance_p->mUartCommand.signal();
kishino	2:0ba43344c814	137	}
kishino	3:9f90024d7fb2	138
kishino	2:0ba43344c814	139	gUART_RCVBUF.size = 0;
kishino	2:0ba43344c814	140	gUART_RCVBUF.is_receive = false;
kishino	2:0ba43344c814	141	}
kishino	2:0ba43344c814	142	}
kishino	2:0ba43344c814	143	else
kishino	2:0ba43344c814	144	{
kishino	2:0ba43344c814	145	// Check received data is SOM.
kishino	2:0ba43344c814	146	if( recvdata == UART_CMD_SOM )
kishino	2:0ba43344c814	147	{
kishino	2:0ba43344c814	148	gUART_RCVBUF.size = 0;
kishino	2:0ba43344c814	149	gUART_RCVBUF.buf[ gUART_RCVBUF.size ] = (unsigned char)recvdata;
kishino	2:0ba43344c814	150	gUART_RCVBUF.size++;
kishino	2:0ba43344c814	151	gUART_RCVBUF.is_receive = true;
kishino	2:0ba43344c814	152	}
kishino	2:0ba43344c814	153	}
kishino	7:e88ccbe0225f	154	// Thread::yield();
kishino	2:0ba43344c814	155	}
kishino	2:0ba43344c814	156	Thread::yield();
kishino	0:61c402886fbb	157	}
kishino	0:61c402886fbb	158	}
kishino	0:61c402886fbb	159

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Type:	Library
Created:	21 Nov 2014
Imports:	2
Forks:	1
Commits:	47
Dependents:	2
Dependencies:	0
Followers:	1

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