Version of easy-connect with the u-blox cellular platforms C027 and C030 added.
esp8266-driver/ESP8266/ATParser/ATParser.cpp
- Committer:
- group-ublox
- Date:
- 2017-08-10
- Revision:
- 0:19aa55d66228
File content as of revision 0:19aa55d66228:
/* 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. * * @section DESCRIPTION * * Parser for the AT command syntax * */ #include "ATParser.h" #include "mbed_debug.h" // getc/putc handling with timeouts int ATParser::putc(char c) { Timer timer; timer.start(); while (true) { if (_serial->writeable()) { return _serial->putc(c); } if (timer.read_ms() > _timeout) { return -1; } } } int ATParser::getc() { Timer timer; timer.start(); while (true) { if (_serial->readable()) { return _serial->getc(); } if (timer.read_ms() > _timeout) { return -1; } } } void ATParser::flush() { while (_serial->readable()) { _serial->getc(); } } // read/write handling with timeouts int ATParser::write(const char *data, int size) { int i = 0; for ( ; i < size; i++) { if (putc(data[i]) < 0) { return -1; } } return i; } int ATParser::read(char *data, int size) { int i = 0; for ( ; i < size; i++) { int c = getc(); if (c < 0) { return -1; } data[i] = c; } return i; } // printf/scanf handling int ATParser::vprintf(const char *format, va_list args) { if (vsprintf(_buffer, format, args) < 0) { return false; } int i = 0; for ( ; _buffer[i]; i++) { if (putc(_buffer[i]) < 0) { return -1; } } return i; } int ATParser::vscanf(const char *format, va_list args) { // Since format is const, we need to copy it into our buffer to // add the line's null terminator and clobber value-matches with asterisks. // // We just use the beginning of the buffer to avoid unnecessary allocations. int i = 0; int offset = 0; while (format[i]) { if (format[i] == '%' && format[i+1] != '%' && format[i+1] != '*') { _buffer[offset++] = '%'; _buffer[offset++] = '*'; i++; } else { _buffer[offset++] = format[i++]; } } // Scanf has very poor support for catching errors // fortunately, we can abuse the %n specifier to determine // if the entire string was matched. _buffer[offset++] = '%'; _buffer[offset++] = 'n'; _buffer[offset++] = 0; // To workaround scanf's lack of error reporting, we actually // make two passes. One checks the validity with the modified // format string that only stores the matched characters (%n). // The other reads in the actual matched values. // // We keep trying the match until we succeed or some other error // derails us. int j = 0; while (true) { // Ran out of space if (j+1 >= _buffer_size - offset) { return false; } // Recieve next character int c = getc(); if (c < 0) { return -1; } _buffer[offset + j++] = c; _buffer[offset + j] = 0; // Check for match int count = -1; sscanf(_buffer+offset, _buffer, &count); // We only succeed if all characters in the response are matched if (count == j) { // Store the found results vsscanf(_buffer+offset, format, args); return j; } } } // Command parsing with line handling bool ATParser::vsend(const char *command, va_list args) { // Create and send command if (vsprintf(_buffer, command, args) < 0) { return false; } for (int i = 0; _buffer[i]; i++) { if (putc(_buffer[i]) < 0) { return false; } } // Finish with newline for (int i = 0; _delimiter[i]; i++) { if (putc(_delimiter[i]) < 0) { return false; } } debug_if(dbg_on, "AT> %s\r\n", _buffer); return true; } bool ATParser::vrecv(const char *response, va_list args) { vrecv_start: // Iterate through each line in the expected response while (response[0]) { // Since response is const, we need to copy it into our buffer to // add the line's null terminator and clobber value-matches with asterisks. // // We just use the beginning of the buffer to avoid unnecessary allocations. int i = 0; int offset = 0; while (response[i]) { if (memcmp(&response[i+1-_delim_size], _delimiter, _delim_size) == 0) { i++; break; } else if (response[i] == '%' && response[i+1] != '%' && response[i+1] != '*') { _buffer[offset++] = '%'; _buffer[offset++] = '*'; i++; } else { _buffer[offset++] = response[i++]; } } // Scanf has very poor support for catching errors // fortunately, we can abuse the %n specifier to determine // if the entire string was matched. _buffer[offset++] = '%'; _buffer[offset++] = 'n'; _buffer[offset++] = 0; // To workaround scanf's lack of error reporting, we actually // make two passes. One checks the validity with the modified // format string that only stores the matched characters (%n). // The other reads in the actual matched values. // // We keep trying the match until we succeed or some other error // derails us. int j = 0; while (true) { // Recieve next character int c = getc(); if (c < 0) { return false; } _buffer[offset + j++] = c; _buffer[offset + j] = 0; // Check for oob data for (int k = 0; k < _oobs.size(); k++) { if (j == _oobs[k].len && memcmp( _oobs[k].prefix, _buffer+offset, _oobs[k].len) == 0) { debug_if(dbg_on, "AT! %s\r\n", _oobs[k].prefix); _oobs[k].cb(); // oob may have corrupted non-reentrant buffer, // so we need to set it up again. // Use goto to save stack usage rather than a // recursive approach. goto vrecv_start; } } // Check for match int count = -1; sscanf(_buffer+offset, _buffer, &count); // We only succeed if all characters in the response are matched if (count == j) { debug_if(dbg_on, "AT= %s\r\n", _buffer+offset); // Reuse the front end of the buffer memcpy(_buffer, response, i); _buffer[i] = 0; // Store the found results vsscanf(_buffer+offset, _buffer, args); // Jump to next line and continue parsing response += i; break; } // Clear the buffer when we hit a newline or ran out of space // running out of space usually means we ran into binary data if (j+1 >= _buffer_size - offset || strcmp(&_buffer[offset + j-_delim_size], _delimiter) == 0) { debug_if(dbg_on, "AT< %s", _buffer+offset); j = 0; } } } return true; } // Mapping to vararg functions int ATParser::printf(const char *format, ...) { va_list args; va_start(args, format); int res = vprintf(format, args); va_end(args); return res; } int ATParser::scanf(const char *format, ...) { va_list args; va_start(args, format); int res = vscanf(format, args); va_end(args); return res; } bool ATParser::send(const char *command, ...) { va_list args; va_start(args, command); bool res = vsend(command, args); va_end(args); return res; } bool ATParser::recv(const char *response, ...) { va_list args; va_start(args, response); bool res = vrecv(response, args); va_end(args); return res; } // oob registration void ATParser::oob(const char *prefix, Callback<void()> cb) { struct oob oob; oob.len = strlen(prefix); oob.prefix = prefix; oob.cb = cb; _oobs.push_back(oob); }