/* * Copyright (c) 2017, Arm Limited and affiliates. * SPDX-License-Identifier: Apache-2.0 * * 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. */ #ifndef AT_HANDLER_H_ #define AT_HANDLER_H_ #include "platform/mbed_retarget.h" #include "stdio.h" #include "EventQueue.h" #include "PlatformMutex.h" #include "nsapi_types.h" #include "PlatformMutex.h" #include "Callback.h" #include "EventQueue.h" namespace mbed { class FileHandle; /** * If application calls associated FileHandle only from single thread context * then locking between AT command and response is not needed. However, * note that many cellular functions are called indirectly e.g. via socket API. * If you are unsure then AT_HANDLER_MUTEX must be defined. */ #define AT_HANDLER_MUTEX extern const char *OK; extern const char *CRLF; #define BUFF_SIZE 16 /* AT Error types enumeration */ enum DeviceErrorType { DeviceErrorTypeNoError = 0, DeviceErrorTypeError, // AT ERROR DeviceErrorTypeErrorCMS, // AT ERROR CMS DeviceErrorTypeErrorCME // AT ERROR CME }; /* struct used when getting at response error. Defines error code and type */ struct device_err_t { DeviceErrorType errType; int errCode; }; /** Class ATHandler * * Class for sending AT commands and parsing AT responses. */ class ATHandler { public: /** Constructor * * @param fh file handle used for reading AT responses and writing AT commands * @param queue Event queue used to transfer sigio events to this thread * @param timeout Timeout when reading for AT response * @param output_delimiter Default delimiter used when parsing at responses */ ATHandler(FileHandle *fh, events::EventQueue &queue, int timeout, const char *output_delimiter = "\r"); ~ATHandler(); /** Return used file handle. * * @return used file handle */ FileHandle *get_file_handle(); /** Set file handle which is used for reading AT responses and writing AT commands * * @param fh file handle used for reading AT responses and writing AT commands */ void set_file_handle(FileHandle *fh); /** Locks the mutex for file handle if AT_HANDLER_MUTEX is defined. */ void lock(); /** Unlocks the mutex for file handle if AT_HANDLER_MUTEX is defined. */ void unlock(); /** Locks the mutex for file handle if AT_HANDLER_MUTEX is defined and returns the last error. * * @return last error which happened when parsing AT responses */ nsapi_error_t unlock_return_error(); /** Set the urc callback for urc. If urc is found when parsing AT responses then call if called. * * @param prefix Register urc prefix for callback. Urc could be for example "+CMTI: " * @param callback Callback which is called if urc is found in AT response */ void set_urc_handler(const char *prefix, mbed::Callback callback); ATHandler *_nextATHandler; // linked list /** returns the last error while parsing AT responses. * * @return last error */ nsapi_error_t get_last_error() const; /** returns the last device error while parsing AT responses. Actually AT error (CME/CMS). * * @return last error struct device_err_t */ device_err_t get_last_device_error() const; /** Increase reference count. Used for counting references to this instance. */ void inc_ref_count(); /** Decrease reference count. Used for counting references to this instance. */ void dec_ref_count(); /** Get the current reference count. Used for counting references to this instance. * * @return current reference count */ int get_ref_count(); /** Set timeout in milliseconds for AT commands * * @param timeout_milliseconds Timeout in milliseconds * @param default_timeout Store as default timeout */ void set_at_timeout(uint32_t timeout_milliseconds, bool default_timeout = false); /** Restore timeout to previous timeout. Handy if there is a need to change timeout temporarily. */ void restore_at_timeout(); /** Clear pending error flag. By default error is cleared only in lock(). */ void clear_error(); /** Tries to find oob's from the AT response. Call the urc callback if one is found. */ void process_oob(); /** Set sigio for the current file handle. Sigio event goes through eventqueue so that it's handled in current thread. */ void set_filehandle_sigio(); /** * Flushes the underlying stream */ void flush(); protected: void event(); #ifdef AT_HANDLER_MUTEX PlatformMutex _fileHandleMutex; #endif FileHandle *_fileHandle; private: void set_error(nsapi_error_t err); events::EventQueue &_queue; nsapi_error_t _last_err; int _last_3gpp_error; device_err_t _last_at_err; uint16_t _oob_string_max_length; char *_output_delimiter; uint8_t _output_delimiter_length; struct oob_t { bool matching_to_received; const char *prefix; mbed::Callback cb; oob_t *next; }; oob_t *_oobs; bool _response_terminated; uint32_t _at_timeout; uint32_t _previous_at_timeout; bool _fh_sigio_set; bool _processing; int32_t _ref_count; //************************************* public: /** Starts the command writing by clearing the last error and writing the given command. * In case of failure when writing the last error is set to NSAPI_ERROR_DEVICE_ERROR. * * @param cmd AT command to be written to modem */ void cmd_start(const char* cmd); /** Writes integer type AT command subparameter. Starts with the delimiter if not the first param after cmd_start. * In case of failure when writing the last error is set to NSAPI_ERROR_DEVICE_ERROR. * * @param param int to be written to modem as AT command subparameter */ void write_int(int32_t param); /** Writes string type AT command subparamater. Quotes are added to surround the given string. * Starts with the delimiter if not the first param after cmd_start. * In case of failure when writing the last error is set to NSAPI_ERROR_DEVICE_ERROR. * * @param param string to be written to modem as AT command subparameter * @param useQuotations flag indicating if the string should be or not included in quotation marks */ void write_string(const char* param, bool useQuotations = true); /** Stops the AT command by writing command line terminator CR to mark command as finished. */ void cmd_stop(); /** Write bytes without any subparameter delimiters, such as comma. * In case of failure when writing the last error is set to NSAPI_ERROR_DEVICE_ERROR. * * @param data bytes to be written to modem * @param len length of data string * * @return number of characters successfully written */ size_t write_bytes(const uint8_t *data, size_t len); /** Sets the stop tag for the current scope(response/information response/element) * Parameter's reading routines will stop the reading when such tag is found and will set the found flag. * Consume routines will read everything until such tag is found. * * @param stop_tag_seq string to be set as stop tag */ void set_stop_tag(const char *stop_tag_seq); /** Sets the delimiter between parameters or between elements of the information response. * Parameter's reading routines will stop when such char is read. * * @param delimiter char to be set as _delimiter */ void set_delimiter(char delimiter); /** Consumes the reading buffer up to the delimiter or stop_tag * * @param count number of parameters to be skipped */ void skip_param(uint32_t count = 1); /** Consumes the given length from the reading buffer * * @param len length to be consumed from reading buffer * @param count number of parameters to be skipped */ void skip_param(ssize_t len, uint32_t count); /** Reads given number of bytes from receiving buffer without checking any subparameter delimiters, such as comma. * * @param buf output buffer for the read * @param len maximum number of bytes to read * @return number of successfully read bytes or -1 in case of error */ ssize_t read_bytes(uint8_t *buf, size_t len); /** Reads chars from reading buffer. Terminates with null. Skips the quotation marks. * Stops on delimiter or stop tag. * * @param str output buffer for the read * @param size maximum number of chars to output * @param read_even_stop_tag if true then try to read even the stop tag was found previously * @return length of output string or -1 in case of read timeout before delimiter or stop tag is found */ ssize_t read_string(char *str, size_t size, bool read_even_stop_tag = false); /** Reads as string and converts result to integer. Supports only positive integers. * * @return the positive integer or -1 in case of error. */ int32_t read_int(); /** This looks for necessary matches: prefix, OK, ERROR, URCs and sets the correct scope. * * @param prefix string to be matched from receiving buffer. If not NULL and match succeeds, then scope * will be set as information response(info_type) * @param stop flag to indicate if we go to information response scope or not. * (needed when nothing is expected to be received anymore after the prefix match: * sms case: "> ", bc95 reboot case) */ void resp_start(const char *prefix = NULL, bool stop = false); /** Ends all scopes starting from current scope. * Consumes everything until the scope's stop tag is found, then * goes to next scope, until response scope is ending. * Possible sequence: * element scope -> information response scope -> response scope */ void resp_stop(); /** Looks for matching the prefix given to resp_start() call. * If needed it ends the scope of a previous information response. * Sets the information response scope if new prefix is found and response scope if prefix is not found. * * @return true if new information response is found, false otherwise */ bool info_resp(); /** Looks for matching the start tag. * If needed it ends the scope of a previous element. * Sets the element scope if start tag is found and information response scope if start tag is not found. * * @param start_tag tag to be matched to begin parsing an element of an information response * @return true if new element is found, false otherwise */ bool info_elem(char start_tag); /** Consumes the received content until current stop tag is found. * * @return true if stop tag is found, false otherwise */ bool consume_to_stop_tag(); /** Sets _debug_on flag. * * @param enable value to be set for _debug_on flag */ void enable_debug(bool enable); /** Return the last 3GPP error code. * @return last 3GPP error code */ int get_3gpp_error(); private: // should fit any prefix and int char _recv_buff[BUFF_SIZE]; // reading position size_t _recv_len; // reading length size_t _recv_pos; // resp_type: the part of the response that doesn't include the information response(+CMD1,+CMD2..) // ends with OK or (CME)(CMS)ERROR // info_type: the information response part of the response: starts with +CMD1 and ends with CRLF // information response contains parameters or subsets of parameters(elements), both separated by comma // elem_type: subsets of parameters that are part of information response, its parameters are separated by comma enum ScopeType {RespType, InfoType, ElemType, NotSet}; void set_scope(ScopeType scope_type); ScopeType _current_scope; struct tag_t { char tag[7]; size_t len; bool found; }; // tag to stop response scope tag_t _resp_stop; // tag to stop information response scope tag_t _info_stop; // tag to stop element scope tag_t _elem_stop; // reference to the stop tag of current scope(resp/info/elem) tag_t *_stop_tag; // delimiter between parameters and also used for delimiting elements of information response char _delimiter; // set true on prefix match -> indicates start of an information response or of an element bool _prefix_matched; // set true on urc match bool _urc_matched; // set true on (CME)(CMS)ERROR bool _error_found; // Max length of OK,(CME)(CMS)ERROR and URCs size_t _max_resp_length; // prefix set during resp_start and used to try matching possible information responses char _info_resp_prefix[BUFF_SIZE]; bool _debug_on; bool _cmd_start; // Gets char from receiving buffer. // Resets and fills the buffer if all are already read (receiving position equals receiving length). int get_char(); // Sets to 0 the reading position, reading length and the whole buffer content. void reset_buffer(); // Reading position set to 0 and buffer's unread content moved to beginning void rewind_buffer(); // Reads from serial to receiving buffer. // Returns on first successful read OR on timeout. void fill_buffer(); void set_tag(tag_t* tag_dest, const char *tag_seq); // Rewinds the receiving buffer and compares it against given str. bool match(const char* str, size_t size); // Iterates URCs and check if they match the receiving buffer content. // If URC match sets the scope to information response and after urc's cb returns // finishes the information response scope(consumes to CRLF). bool match_urc(); // Checks if any of the error strings are matching the receiving buffer content. bool match_error(); // Checks is current char in buffer matches ch and consumes it, // if no match lets the buffer unchanged. bool consume_char(char ch); // Consumes the received content until tag is found. // Consumes the tag only if consume_tag flag is true. bool consume_to_tag(const char *tag, bool consume_tag); // Checks if receiving buffer contains OK, ERROR, URC or given prefix. void resp(const char *prefix, bool check_urc); ScopeType get_scope(); // Consumes to information response stop tag which is CRLF. Sets scope to response. void information_response_stop(); // Consumes to element stop tag. Sets scope to information response void information_response_element_stop(); // Reads the error code if expected and sets it as last error. void at_error(bool error_code, DeviceErrorType error_type); /** Convert AT error code to 3GPP error codes * @param err AT error code read from CME/CMS ERROR responses * @param error_type error type (CMS/CME/ERROR) */ void set_3gpp_error(int err, DeviceErrorType error_type); bool check_cmd_send(); bool write_char(char c); /** Copy content of one char buffer to another buffer and sets NULL terminator * * @param dest destination char buffer * @param src source char buffer * @param src_len number of bytes to copy * */ void set_string(char *dest, const char *src, size_t src_len); /** Finds occurence of one char buffer inside another char buffer. * * @param dest destination char buffer * @param dest_len length of dest * @param src string to be searched for * @param src_len length of string to be searched for * * @return pointer to first occurrence of src in dest */ const char* mem_str(const char* dest, size_t dest_len, const char* src, size_t src_len); }; } // namespace mbed #endif //AT_HANDLER_H_