cc
SPWFSA01.cpp
- Committer:
- mridup
- Date:
- 2016-06-30
- Revision:
- 0:9e5d98ceea74
- Child:
- 1:becf69a794fb
File content as of revision 0:9e5d98ceea74:
/* SPWFInterface Example * Copyright (c) 2015 ARM Limited * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "SPWFSA01.h" #define SPWFSA01_CONNECT_TIMEOUT 15000 #define SPWFSA01_SEND_TIMEOUT 500 #define SPWFSA01_RECV_TIMEOUT 1000//some commands like AT&F/W takes some time to get the result back! #define SPWFSA01_MISC_TIMEOUT 500 SPWFSA01::SPWFSA01(PinName tx, PinName rx, bool debug) : _serial(tx, rx, 1024), _parser(_serial), _wakeup(PC_8, PIN_INPUT, PullNone, 0), _reset(PC_12, PIN_INPUT, PullNone, 1) //Pin PC_8 is wakeup pin //Pin PA_12 is reset pin { _serial.baud(115200); _reset.output(); _wakeup.output(); _parser.debugOn(debug); } bool SPWFSA01::startup(int mode) { setTimeout(SPWFSA01_RECV_TIMEOUT); /*Test module before reset*/ waitSPWFReady(); /*Reset module*/ reset(); /*set local echo to 0*/ if(!(_parser.send("AT+S.SCFG=localecho1,%d", 0) && _parser.recv("OK"))) { printf("\r\nerror local echo set\n"); return false; } /*reset factory settings*/ if(!(_parser.send("AT&F") && _parser.recv("OK"))) { printf("\r\nerror AT&F\n"); return false; } /*set idle mode (0->idle, 1->STA,3->miniAP, 2->IBSS)*/ if(!(_parser.send("AT+S.SCFG=wifi_mode,%d\r", mode) && _parser.recv("OK"))) { printf("\r\nerror wifi mode set\n"); return false; } /* save current setting in flash */ if(!(_parser.send("AT&W") && _parser.recv("OK"))) { printf("\r\nerror AT&W\n"); return false; } /*reset again and send AT command and check for result (AT->OK)*/ reset(); return true; } bool SPWFSA01::hw_reset(void) { /* reset the pin PC12 */ _reset.write(0); wait_ms(200); _reset.write(1); wait_ms(100); return 1; } bool SPWFSA01::reset(void) { if(!_parser.send("AT+CFUN=1")) return false; while(1) { if (_parser.recv("+WIND:32:WiFi Hardware Started")) { return true; } } } void SPWFSA01::waitSPWFReady(void) { //wait_ms(200); while(1) if(_parser.send("AT") && _parser.recv("OK")) //till we get OK from AT command //printf("\r\nwaiting for reset to complete..\n"); return; } /* Security Mode None = 0, WEP = 1, WPA_Personal = 2, */ bool SPWFSA01::connect(const char *ap, const char *passPhrase, int securityMode) { uint32_t n1, n2, n3, n4; //AT+S.SCFG=wifi_wpa_psk_text,%s\r if(!(_parser.send("AT+S.SCFG=wifi_wpa_psk_text,%s", passPhrase) && _parser.recv("OK"))) { printf("\r\nerror pass set\n"); return false; } //AT+S.SSIDTXT=%s\r if(!(_parser.send("AT+S.SSIDTXT=%s", ap) && _parser.recv("OK"))) { printf("\r\nerror ssid set\n"); return false; } //AT+S.SCFG=wifi_priv_mode,%d\r if(!(_parser.send("AT+S.SCFG=wifi_priv_mode,%d", securityMode) && _parser.recv("OK"))) { printf("\r\nerror security mode set\n"); return false; } //"AT+S.SCFG=wifi_mode,%d\r" /*set idle mode (0->idle, 1->STA,3->miniAP, 2->IBSS)*/ if(!(_parser.send("AT+S.SCFG=wifi_mode,%d\r", 1) && _parser.recv("OK"))) { printf("\r\nerror wifi mode set\n"); return false; } //AT&W /* save current setting in flash */ if(!(_parser.send("AT&W") && _parser.recv("OK"))) { printf("\r\nerror AT&W\n"); return false; } //reset module reset(); while(1) if((_parser.recv("+WIND:24:WiFi Up:%u.%u.%u.%u",&n1, &n2, &n3, &n4))) //if((_parser.recv("+WIND:24:WiFi Up:%[^\\r]",_ip_buffer))) { break; } printf("\r\nip address:%u.%u.%u.%u\n",n1, n2, n3, n4); return true; } bool SPWFSA01::disconnect(void) { //"AT+S.SCFG=wifi_mode,%d\r" /*set idle mode (0->idle, 1->STA,3->miniAP, 2->IBSS)*/ if(!(_parser.send("AT+S.SCFG=wifi_mode,%d\r", 0) && _parser.recv("OK"))) { printf("\r\nerror wifi mode set\n"); return false; } //AT&W /* save current setting in flash */ if(!(_parser.send("AT&W") && _parser.recv("OK"))) { printf("\r\nerror AT&W\n"); return false; } //reset module reset(); return true; } bool SPWFSA01::dhcp(bool enabled, int mode) { //only 3 valid modes if(mode < 0 || mode > 2) { return false; } return _parser.send("AT+CWDHCP=%d,%d", enabled?1:0, mode) && _parser.recv("OK"); } const char *SPWFSA01::getIPAddress(void) { uint32_t n1, n2, n3, n4; if (!(_parser.send("AT+S.STS=ip_ipaddr") && _parser.recv("ip_ipaddr = %u.%u.%u.%u", &n1, &n2, &n3, &n4) && _parser.recv("OK"))) { printf("\r\ngetIPAddress error\n"); return 0; } printf("\r\nip address:%u.%u.%u.%u\n",n1, n2, n3, n4); sprintf((char*)_ip_buffer,"%u.%u.%u.%u", n1, n2, n3, n4); return _ip_buffer; } const char *SPWFSA01::getMACAddress(void) { if (!(_parser.send("AT+CIFSR") && _parser.recv("+CIFSR:STAMAC,\"%[^\"]\"", _mac_buffer) && _parser.recv("OK"))) { return 0; } return _mac_buffer; } bool SPWFSA01::isConnected(void) { return getIPAddress() != 0; } bool SPWFSA01::open(const char *type, int id, const char* addr, int port) { //IDs only 0-4 if(id > 4) { return false; } return _parser.send("AT+CIPSTART=%d,\"%s\",\"%s\",%d", id, type, addr, port) && _parser.recv("OK"); } bool SPWFSA01::send(int id, const void *data, uint32_t amount) { //May take a second try if device is busy for (unsigned i = 0; i < 2; i++) { if (_parser.send("AT+CIPSEND=%d,%d", id, amount) && _parser.recv(">") && _parser.write((char*)data, (int)amount) >= 0) { return true; } } return false; } int32_t SPWFSA01::recv(int id, void *data, uint32_t amount) { uint32_t recv_amount; int recv_id; if (!(_parser.recv("+IPD,%d,%d:", &recv_id, &recv_amount) && recv_id == id && recv_amount <= amount && _parser.read((char*)data, recv_amount) && _parser.recv("OK"))) { return -1; } return recv_amount; } bool SPWFSA01::close(int id) { //May take a second try if device is busy for (unsigned i = 0; i < 2; i++) { if (_parser.send("AT+CIPCLOSE=%d", id) && _parser.recv("OK")) { return true; } } return false; } void SPWFSA01::setTimeout(uint32_t timeout_ms) { _parser.setTimeout(timeout_ms); } bool SPWFSA01::readable() { return _serial.readable(); } bool SPWFSA01::writeable() { return _serial.writeable(); }