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UbloxCellularDriverGen.cpp
- Committer:
- rob.meades@u-blox.com
- Date:
- 2017-06-13
- Revision:
- 3:027c9eaec52c
- Parent:
- 2:08302b9cd519
- Child:
- 4:4f2c12992e17
File content as of revision 3:027c9eaec52c:
/* Copyright (c) 2017 ublox 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 "UbloxCellularDriverGen.h" #include "string.h" #if defined(FEATURE_COMMON_PAL) #include "mbed_trace.h" #define TRACE_GROUP "UCID" #else #define debug_if(_debug_trace_on, ...) (void(0)) // dummies if feature common pal is not added #define tr_info(...) (void(0)) // dummies if feature common pal is not added #define tr_error(...) (void(0)) // dummies if feature common pal is not added #endif /********************************************************************** * PROTECTED METHODS: Short Message Service **********************************************************************/ // URC for Short Message listing. void UbloxCellularDriverGen::CMGL_URC() { char buf[64]; int index; // Note: not calling _at->recv() from here as we're // already in an _at->recv() // +CMGL: <ix>,... *buf = 0; if (read_at_to_char(buf, sizeof(buf), '\n') > 0) { // Now also read out the text message, so that we don't // accidentally trigger URCs or the like on any of // its contents *_smsBuf = 0; read_at_to_char(_smsBuf, sizeof(_smsBuf), '\n'); // Note: don't put any debug in here, this URC is being // called multiple times and debug may cause it to // miss characters if (sscanf(buf, ": %d,", &index) == 1) { _smsCount++; if ((_userSmsIndex != NULL) && (_userSmsNum > 0)) { *_userSmsIndex = index; _userSmsIndex++; _userSmsNum--; } } } } // URC for new SMS messages. void UbloxCellularDriverGen::CMTI_URC() { char buf[32]; // Note: not calling _at->recv() from here as we're // already in an _at->recv() *buf = 0; if (read_at_to_char(buf, sizeof (buf), '\n') > 0) { // No need to parse, any content is good tr_info("New SMS received"); } } /********************************************************************** * PROTECTED METHODS: Unstructured Supplementary Service Data **********************************************************************/ // URC for call waiting. void UbloxCellularDriverGen::CCWA_URC() { char buf[32]; int numChars; int a; int b = 0; // Note: not calling _at->recv() from here as we're // already in an _at->recv() // +CCWA: <status>[, <class>] numChars = read_at_to_char(buf, sizeof (buf), '\n'); if (numChars > 0) { if (sscanf(buf, ": %d, %d", &a, &b) > 0) { if (_ssUrcBuf == NULL) { _ssUrcBuf = (char *) malloc(numChars + 5 + 1); if (_ssUrcBuf != NULL) { memcpy (_ssUrcBuf, "+CCWA", 5); memcpy (_ssUrcBuf + 5, buf, numChars); *(_ssUrcBuf + numChars + 5) = 0; if (a > 0) { debug_if(_debug_trace_on, "Calling Waiting is active"); } else { debug_if(_debug_trace_on, "Calling Waiting is not active"); } if (b > 0) { if (b & 0x01) { debug_if(_debug_trace_on, " for voice\n"); } if (b & 0x02) { debug_if(_debug_trace_on, " for data\n"); } if (b & 0x04) { debug_if(_debug_trace_on, " for fax\n"); } if (b & 0x08) { debug_if(_debug_trace_on, " for SMS\n"); } if (b & 0x10) { debug_if(_debug_trace_on, " for data circuit sync\n"); } if (b & 0x20) { debug_if(_debug_trace_on, " for data circuit async\n"); } if (b & 0x40) { debug_if(_debug_trace_on, " for dedicated packet access\n"); } if (b & 0x80) { debug_if(_debug_trace_on, " for dedicated PAD access\n"); } } } } } } } // URC for call forwarding. void UbloxCellularDriverGen::CCFC_URC() { char buf[32]; int numChars; char num[32]; int a, b; int numValues; // Note: not calling _at->recv() from here as we're // already in an _at->recv() // +CCFC: <status>[, <class>] numChars = read_at_to_char(buf, sizeof (buf), '\n'); if (numChars > 0) { memset (num, 0, sizeof (num)); numValues = sscanf(buf, ": %d,%d,\"%32[^\"][\"]", &a, &b, num); if (numValues > 0) { if (_ssUrcBuf == NULL) { _ssUrcBuf = (char *) malloc(numChars + 5 + 1); if (_ssUrcBuf != NULL) { memcpy (_ssUrcBuf, "+CCFC", 5); memcpy (_ssUrcBuf + 5, buf, numChars); *(_ssUrcBuf + numChars + 5) = 0; if (a > 0) { debug_if(_debug_trace_on, "Calling Forwarding is active "); } else { debug_if(_debug_trace_on, "Calling Forwarding is not active "); } if (numValues > 1) { if (b > 0) { if (b & 0x01) { debug_if(_debug_trace_on, " for voice"); } if (b & 0x02) { debug_if(_debug_trace_on, " for data"); } if (b & 0x04) { debug_if(_debug_trace_on, " for fax"); } if (b & 0x08) { debug_if(_debug_trace_on, " for SMS"); } if (b & 0x10) { debug_if(_debug_trace_on, " for data circuit sync"); } if (b & 0x20) { debug_if(_debug_trace_on, " for data circuit async"); } if (b & 0x40) { debug_if(_debug_trace_on, " for dedicated packet access"); } if (b & 0x80) { debug_if(_debug_trace_on, " for dedicated PAD access"); } } } if (numValues > 2) { debug_if(_debug_trace_on, " for %s\n", num); } else { debug_if(_debug_trace_on, "\n"); } } } } } } // URC for calling line ID restriction. void UbloxCellularDriverGen::CLIR_URC() { char buf[32]; int numChars; int a, b; int numValues; // Note: not calling _at->recv() from here as we're // already in an _at->recv() // +CLIR: <n>[, <m>] numChars = read_at_to_char(buf, sizeof (buf), '\n'); if (numChars > 0) { numValues = sscanf(buf, ": %d,%d", &a, &b); if (numValues > 0) { if (_ssUrcBuf == NULL) { _ssUrcBuf = (char *) malloc(numChars + 5 + 1); if (_ssUrcBuf != NULL) { memcpy (_ssUrcBuf, "+CLIR", 5); memcpy (_ssUrcBuf + 5, buf, numChars); *(_ssUrcBuf + numChars + 5) = 0; switch (a) { case 0: debug_if(_debug_trace_on, "Calling Line ID restriction is as subscribed\n"); break; case 1: debug_if(_debug_trace_on, "Calling Line ID invocation "); break; case 2: debug_if(_debug_trace_on, "Calling Line ID suppression "); break; } if (numValues > 2) { switch (b) { case 0: debug_if(_debug_trace_on, " is not provisioned\n"); break; case 1: debug_if(_debug_trace_on, " is provisioned permanently\n"); break; case 2: debug_if(_debug_trace_on, " is unknown\n"); break; case 3: debug_if(_debug_trace_on, " is in temporary mode, presentation restricted\n"); break; case 4: debug_if(_debug_trace_on, " is in temporary mode, presentation allowed\n"); break; } } } } } } } // URC for calling line ID presentation. void UbloxCellularDriverGen::CLIP_URC() { char buf[32]; int numChars; int a, b; int numValues; // Note: not calling _at->recv() from here as we're // already in an _at->recv() // +CLIP: <n>[, <m>] numChars = read_at_to_char(buf, sizeof (buf), '\n'); if (numChars > 0) { numValues = sscanf(buf, ": %d,%d", &a, &b); if (numValues > 0) { if (_ssUrcBuf == NULL) { _ssUrcBuf = (char *) malloc(numChars + 5 + 1); if (_ssUrcBuf != NULL) { memcpy (_ssUrcBuf, "+CLIP", 5); memcpy (_ssUrcBuf + 5, buf, numChars); *(_ssUrcBuf + numChars + 5) = 0; switch (a) { case 0: debug_if(_debug_trace_on, "Calling Line ID disable "); break; case 1: debug_if(_debug_trace_on, "Calling Line ID enable "); break; } if (numValues > 1) { switch (b) { case 0: debug_if(_debug_trace_on, " is not provisioned\n"); break; case 1: debug_if(_debug_trace_on, " is provisioned\n"); break; case 2: debug_if(_debug_trace_on, " is unknown\n"); break; } } } } } } } // URC for connected line ID presentation. void UbloxCellularDriverGen::COLP_URC() { char buf[32]; int numChars; int a, b; int numValues; // Note: not calling _at->recv() from here as we're // already in an _at->recv() // +COLP: <n>[, <m>] numChars = read_at_to_char(buf, sizeof (buf), '\n'); if (numChars > 0) { numValues = sscanf(buf, ": %d,%d", &a, &b); if (numValues > 0) { if (_ssUrcBuf == NULL) { _ssUrcBuf = (char *) malloc(numChars + 5 + 1); if (_ssUrcBuf != NULL) { memcpy (_ssUrcBuf, "+COLP", 5); memcpy (_ssUrcBuf + 5, buf, numChars); *(_ssUrcBuf + numChars + 5) = 0; switch (a) { case 0: debug_if(_debug_trace_on, "Connected Line ID disable "); break; case 1: debug_if(_debug_trace_on, "Connected Line ID enable "); break; } if (numValues > 1) { switch (b) { case 0: debug_if(_debug_trace_on, " is not provisioned\n"); break; case 1: debug_if(_debug_trace_on, " is provisioned\n"); break; case 2: debug_if(_debug_trace_on, " is unknown\n"); break; } } } } } } } // URC for connected line ID restriction. void UbloxCellularDriverGen::COLR_URC() { char buf[32]; int numChars; int a; // Note: not calling _at->recv() from here as we're // already in an _at->recv() // +COLR: <status> numChars = read_at_to_char(buf, sizeof (buf), '\n'); if (numChars > 0) { if (sscanf(buf, ": %d", &a) > 0) { if (_ssUrcBuf == NULL) { _ssUrcBuf = (char *) malloc(numChars + 5 + 1); if (_ssUrcBuf != NULL) { memcpy (_ssUrcBuf, "+COLR", 5); memcpy (_ssUrcBuf + 5, buf, numChars); *(_ssUrcBuf + numChars + 5) = 0; switch (a) { case 0: debug_if(_debug_trace_on, "Connected Line ID restriction is not provisioned\n"); break; case 1: debug_if(_debug_trace_on, "Connected Line ID restriction is provisioned\n"); break; case 2: debug_if(_debug_trace_on, "Connected Line ID restriction is unknown\n"); break; } } } } } } /********************************************************************** * PUBLIC METHODS: Generic **********************************************************************/ // Constructor. UbloxCellularDriverGen::UbloxCellularDriverGen(PinName tx, PinName rx, int baud, bool debug_on) { _userSmsIndex = NULL; _userSmsNum = 0; _smsCount = 0; _ssUrcBuf = NULL; // Initialise the base class, which starts the AT parser baseClassInit(tx, rx, baud, debug_on); // URCs related to SMS _at->oob("+CMGL", callback(this, &UbloxCellularDriverGen::CMGL_URC)); // Include the colon with this one as otherwise it could be found // by +CMT, should it ever occur _at->oob("+CMTI:", callback(this, &UbloxCellularDriverGen::CMTI_URC)); // URCs relater to supplementary services _at->oob("+CCWA", callback(this, &UbloxCellularDriverGen::CCWA_URC)); _at->oob("+CCFC", callback(this, &UbloxCellularDriverGen::CCFC_URC)); _at->oob("+CLIR", callback(this, &UbloxCellularDriverGen::CLIR_URC)); _at->oob("+CLIP", callback(this, &UbloxCellularDriverGen::CLIP_URC)); _at->oob("+COLP", callback(this, &UbloxCellularDriverGen::COLP_URC)); _at->oob("+COLR", callback(this, &UbloxCellularDriverGen::COLR_URC)); } // Destructor. UbloxCellularDriverGen::~UbloxCellularDriverGen() { } /********************************************************************** * PUBLIC METHODS: Short Message Service **********************************************************************/ // Count the number of messages on the module. int UbloxCellularDriverGen::smsList(const char* stat, int* index, int num) { int numMessages = -1; LOCK(); _userSmsIndex = index; _userSmsNum = num; _smsCount = 0; // There is a callback to capture the result // +CMGL: <ix>,... _at->debug_on(false); // No time for AT interface debug // as the list comes out in one long // stream and we can lose characters if we // pause to do printfs if (_at->send("AT+CMGL=\"%s\"", stat) && _at->recv("OK\n")) { numMessages = _smsCount; } _at->debug_on(_debug_trace_on); // Set this back to null so that the URC won't trample _userSmsIndex = NULL; UNLOCK(); return numMessages; } // Send an SMS message. bool UbloxCellularDriverGen::smsSend(const char* num, const char* buf) { bool success = false; char typeOfAddress = TYPE_OF_ADDRESS_NATIONAL; LOCK(); if ((strlen (num) > 0) && (*(num) == '+')) { typeOfAddress = TYPE_OF_ADDRESS_INTERNATIONAL; } if (_at->send("AT+CMGS=\"%s\",%d", num, typeOfAddress) && _at->recv(">")) { if ((_at->write(buf, (int) strlen(buf)) >= (int) strlen(buf)) && (_at->putc(0x1A) == 0) && // CTRL-Z _at->recv("OK")) { success = true; } } UNLOCK(); return success; } bool UbloxCellularDriverGen::smsDelete(int index) { bool success; LOCK(); success = _at->send("AT+CMGD=%d", index) && _at->recv("OK"); UNLOCK(); return success; } bool UbloxCellularDriverGen::smsRead(int index, char* num, char* buf, int len) { bool success = false; char * endOfString; int smsReadLength = 0; LOCK(); if (len > 0) { //+CMGR: "REC READ", "+393488535999",,"07/04/05,18:02:28+08",145,4,0,0,"+393492000466",145,93 // The text of the message. // OK memset (_smsBuf, 0, sizeof (SMS_BUFFER_SIZE)); // Ensure terminator if (_at->send("AT+CMGR=%d", index) && _at->recv("+CMGR: \"%*[^\"]\",\"%15[^\"]\"%*[^\n]\n", num) && _at->recv("%" stringify(SMS_BUFFER_SIZE) "[^\n]\n", _smsBuf) && _at->recv("OK")) { endOfString = strchr(_smsBuf, 0); if (endOfString != NULL) { smsReadLength = endOfString - _smsBuf; if (smsReadLength + 1 > len) { // +1 for terminator smsReadLength = len - 1; } memcpy(buf, _smsBuf, smsReadLength); *(buf + smsReadLength) = 0; // Add terminator success = true; } } } UNLOCK(); return success; } /********************************************************************** * PUBLIC METHODS: Unstructured Supplementary Service Data **********************************************************************/ // Perform a USSD command. bool UbloxCellularDriverGen::ussdCommand(const char* cmd, char* buf, int len) { bool success = false; char * tmpBuf; int atTimeout; int x; Timer timer; LOCK(); atTimeout = _at_timeout; // Has to be inside LOCK()s if (len > 0) { *buf = 0; if (len > USSD_STRING_LENGTH + 1) { len = USSD_STRING_LENGTH + 1; } tmpBuf = (char *) malloc(USSD_STRING_LENGTH + 1); if (tmpBuf != NULL) { memset (tmpBuf, 0, USSD_STRING_LENGTH + 1); // +CUSD: \"%*d, \"%128[^\"]\",%*d" if (_at->send("AT+CUSD=1,\"%s\"", cmd)) { // Wait for either +CUSD to come back or // one of the other SS related URCs to trigger if (_ssUrcBuf != NULL) { free (_ssUrcBuf); _ssUrcBuf = NULL; } timer.start(); _at->set_timeout(1000); while (!success && (timer.read_ms() < atTimeout)) { if (_at->recv("+CUSD: %*d,\"")) { // Note: don't wait for "OK" here as the +CUSD response may come // before or after the OK // Also, the return string may include newlines so can't just use // recv() to capture it as recv() will stop capturing at a newline. if (read_at_to_char(tmpBuf, USSD_STRING_LENGTH, '\"') > 0) { success = true; memcpy (buf, tmpBuf, len); *(buf + len - 1) = 0; } } else { // Some of the return values do not appear as +CUSD but // instead as the relevant URC for call waiting, call forwarding, // etc. Test those here. if (_ssUrcBuf != NULL) { success = true; x = strlen (_ssUrcBuf); if (x > len - 1 ) { x = len - 1; } memcpy (buf, _ssUrcBuf, x); *(buf + x) = 0; free (_ssUrcBuf); _ssUrcBuf = NULL; } } } at_set_timeout(atTimeout); timer.stop(); } } } UNLOCK(); return success; } /********************************************************************** * PUBLIC: Module File System **********************************************************************/ // Delete a file from the module's file system. bool UbloxCellularDriverGen::delFile(const char* filename) { bool success; LOCK(); success = _at->send("AT+UDELFILE=\"%s\"", filename) && _at->recv("OK"); UNLOCK(); return success; } // Write a buffer of data to a file in the module's file system. int UbloxCellularDriverGen::writeFile(const char* filename, const char* buf, int len) { int bytesWritten = -1; LOCK(); if (_at->send("AT+UDWNFILE=\"%s\",%d", filename, len) && _at->recv(">")) { if ((_at->write(buf, len) >= len) && _at->recv("OK")) { bytesWritten = len; } } UNLOCK(); return bytesWritten; } // Read a file from the module's file system // Note: this is implemented with block reads since UARTSerial // does not currently allow flow control and there is a danger // of character loss with large whole-file reads int UbloxCellularDriverGen::readFile(const char* filename, char* buf, int len) { int countBytes = -1; // Counter for file reading (default value) int bytesToRead = fileSize(filename); // Retrieve the size of the file int offset = 0; int blockSize = FILE_BUFFER_SIZE; char respFilename[48 + 1]; int sz, sz_read; bool success = true; int ch = 0; int timeLimit; Timer timer; debug_if(_debug_trace_on, "readFile: filename is %s; size is %d\n", filename, bytesToRead); memset(respFilename, 0, sizeof (respFilename)); // Ensure terminator if (bytesToRead > 0) { if (bytesToRead > len) { bytesToRead = len; } while (success && (bytesToRead > 0)) { if (bytesToRead < blockSize) { blockSize = bytesToRead; } LOCK(); if (blockSize > 0) { if (_at->send("AT+URDBLOCK=\"%s\",%d,%d\r\n", filename, offset, blockSize) && _at->recv("+URDBLOCK: \"%48[^\"]\",%d,\"", respFilename, &sz) && (strcmp(filename, respFilename) == 0)) { // Would use _at->read() here, but if it runs ahead of the // serial stream it returns -1 instead of the number of characters // read so far, which is not very helpful so instead use _at->getc() and // a time limit. The time limit is twice the amount of time it should take to // read the block at the working baud rate timer.reset(); timer.start(); timeLimit = blockSize * 2 / ((MBED_CONF_UBLOX_CELL_BAUD_RATE / 8) / 1000); sz_read = 0; while ((sz_read < blockSize) && (timer.read_ms() < timeLimit)) { ch = _at->getc(); if (ch >= 0) { *buf = ch; buf++; sz_read++; } } timer.stop(); if (sz_read == blockSize) { bytesToRead -= sz_read; offset += sz_read; _at->recv("OK"); } else { debug_if(_debug_trace_on, "blockSize %d but only received %d bytes\n", blockSize, sz_read); success = false; } } else { success = false; } } UNLOCK(); } if (success) { countBytes = offset; } } return countBytes; } // Return the size of a file. int UbloxCellularDriverGen::fileSize(const char* filename) { int returnValue = -1; int fileSize; LOCK(); if (_at->send("AT+ULSTFILE=2,\"%s\"", filename) && _at->recv("+ULSTFILE: %d\n", &fileSize) && _at->recv("OK")) { returnValue = fileSize; } UNLOCK(); return returnValue; } // End of file