/* * Copyright (c) 2006-2018, RT-Thread Development Team * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2018-03-30 chenyong first version * 2018-08-17 chenyong multiple client support */ #ifndef __AT_H__ #define __AT_H__ #include #ifdef __cplusplus extern "C" { #endif #define AT_SW_VERSION "1.2.0" #define AT_CMD_NAME_LEN 16 #define AT_END_MARK_LEN 4 #ifndef AT_CMD_MAX_LEN #define AT_CMD_MAX_LEN 128 #endif /* the server AT commands new line sign */ #if defined(AT_CMD_END_MARK_CRLF) #define AT_CMD_END_MARK "\r\n" #elif defined(AT_CMD_END_MARK_CR) #define AT_CMD_END_MARK "\r" #elif defined(AT_CMD_END_MARK_LF) #define AT_CMD_END_MARK "\n" #endif #ifndef AT_SERVER_RECV_BUFF_LEN #define AT_SERVER_RECV_BUFF_LEN 256 #endif #ifndef AT_SERVER_DEVICE #define AT_SERVER_DEVICE "uart2" #endif /* the maximum number of supported AT clients */ #ifndef AT_CLIENT_NUM_MAX #define AT_CLIENT_NUM_MAX 1 #endif #define AT_CMD_EXPORT(_name_, _args_expr_, _test_, _query_, _setup_, _exec_) \ RT_USED static const struct at_cmd __at_cmd_##_test_##_query_##_setup_##_exec_ SECTION("RtAtCmdTab") = \ { \ _name_, \ _args_expr_, \ _test_, \ _query_, \ _setup_, \ _exec_, \ }; enum at_status { AT_STATUS_UNINITIALIZED = 0, AT_STATUS_INITIALIZED, AT_STATUS_BUSY, }; typedef enum at_status at_status_t; #ifdef AT_USING_SERVER enum at_result { AT_RESULT_OK = 0, /* AT result is no error */ AT_RESULT_FAILE = -1, /* AT result have a generic error */ AT_RESULT_NULL = -2, /* AT result not need return */ AT_RESULT_CMD_ERR = -3, /* AT command format error or No way to execute */ AT_RESULT_CHECK_FAILE = -4, /* AT command expression format is error */ AT_RESULT_PARSE_FAILE = -5, /* AT command arguments parse is error */ }; typedef enum at_result at_result_t; struct at_cmd { char name[AT_CMD_NAME_LEN]; char *args_expr; at_result_t (*test)(void); at_result_t (*query)(void); at_result_t (*setup)(const char *args); at_result_t (*exec)(void); }; typedef struct at_cmd *at_cmd_t; struct at_server { rt_device_t device; at_status_t status; char (*get_char)(void); rt_bool_t echo_mode; char recv_buffer[AT_SERVER_RECV_BUFF_LEN]; rt_size_t cur_recv_len; rt_sem_t rx_notice; char end_mark[AT_END_MARK_LEN]; rt_thread_t parser; void (*parser_entry)(struct at_server *server); }; typedef struct at_server *at_server_t; #endif /* AT_USING_SERVER */ #ifdef AT_USING_CLIENT enum at_resp_status { AT_RESP_OK = 0, /* AT response end is OK */ AT_RESP_ERROR = -1, /* AT response end is ERROR */ AT_RESP_TIMEOUT = -2, /* AT response is timeout */ AT_RESP_BUFF_FULL= -3, /* AT response buffer is full */ }; typedef enum at_resp_status at_resp_status_t; struct at_response { /* response buffer */ char *buf; /* the maximum response buffer size */ rt_size_t buf_size; /* the number of setting response lines * == 0: the response data will auto return when received 'OK' or 'ERROR' * != 0: the response data will return when received setting lines number data */ rt_size_t line_num; /* the count of received response lines */ rt_size_t line_counts; /* the maximum response time */ rt_int32_t timeout; }; typedef struct at_response *at_response_t; /* URC(Unsolicited Result Code) object, such as: 'RING', 'READY' request by AT server */ struct at_urc { const char *cmd_prefix; const char *cmd_suffix; void (*func)(const char *data, rt_size_t size); }; typedef struct at_urc *at_urc_t; struct at_client { rt_device_t device; at_status_t status; char end_sign; char *recv_buffer; rt_size_t recv_bufsz; rt_size_t cur_recv_len; rt_sem_t rx_notice; rt_mutex_t lock; at_response_t resp; rt_sem_t resp_notice; at_resp_status_t resp_status; const struct at_urc *urc_table; rt_size_t urc_table_size; rt_thread_t parser; }; typedef struct at_client *at_client_t; #endif /* AT_USING_CLIENT */ #ifdef AT_USING_SERVER /* AT server initialize and start */ int at_server_init(void); /* AT server send command execute result to AT device */ void at_server_printf(const char *format, ...); void at_server_printfln(const char *format, ...); void at_server_print_result(at_result_t result); /* AT server request arguments parse */ int at_req_parse_args(const char *req_args, const char *req_expr, ...); #endif /* AT_USING_SERVER */ #ifdef AT_USING_CLIENT /* AT client initialize and start*/ int at_client_init(const char *dev_name, rt_size_t recv_bufsz); /* ========================== multiple AT client function ============================ */ /* get AT client object */ at_client_t at_client_get(const char *dev_name); at_client_t at_client_get_first(void); /* AT client wait for connection to external devices. */ int at_client_obj_wait_connect(at_client_t client, rt_uint32_t timeout); /* AT client send or receive data */ rt_size_t at_client_obj_send(at_client_t client, const char *buf, rt_size_t size); rt_size_t at_client_obj_recv(at_client_t client, char *buf, rt_size_t size, rt_int32_t timeout); /* set AT client a line end sign */ void at_obj_set_end_sign(at_client_t client, char ch); /* Set URC(Unsolicited Result Code) table */ void at_obj_set_urc_table(at_client_t client, const struct at_urc * table, rt_size_t size); /* AT client send commands to AT server and waiter response */ int at_obj_exec_cmd(at_client_t client, at_response_t resp, const char *cmd_expr, ...); /* AT response object create and delete */ at_response_t at_create_resp(rt_size_t buf_size, rt_size_t line_num, rt_int32_t timeout); void at_delete_resp(at_response_t resp); at_response_t at_resp_set_info(at_response_t resp, rt_size_t buf_size, rt_size_t line_num, rt_int32_t timeout); /* AT response line buffer get and parse response buffer arguments */ const char *at_resp_get_line(at_response_t resp, rt_size_t resp_line); const char *at_resp_get_line_by_kw(at_response_t resp, const char *keyword); int at_resp_parse_line_args(at_response_t resp, rt_size_t resp_line, const char *resp_expr, ...); int at_resp_parse_line_args_by_kw(at_response_t resp, const char *keyword, const char *resp_expr, ...); /* ========================== single AT client function ============================ */ /** * NOTE: These functions can be used directly when there is only one AT client. * If there are multiple AT Client in the program, these functions can operate on the first initialized AT client. */ #define at_exec_cmd(resp, ...) at_obj_exec_cmd(at_client_get_first(), resp, __VA_ARGS__) #define at_client_wait_connect(timeout) at_client_obj_wait_connect(at_client_get_first(), timeout) #define at_client_send(buf, size) at_client_obj_send(at_client_get_first(), buf, size) #define at_client_recv(buf, size, timeout) at_client_obj_recv(at_client_get_first(), buf, size, timeout) #define at_set_end_sign(ch) at_obj_set_end_sign(at_client_get_first(), ch) #define at_set_urc_table(urc_table, table_sz) at_obj_set_urc_table(at_client_get_first(), urc_table, table_sz) #endif /* AT_USING_CLIENT */ /* ========================== User port function ============================ */ #ifdef AT_USING_SERVER /* AT server device reset */ void at_port_reset(void); /* AT server device factory reset */ void at_port_factory_reset(void); #endif #ifdef __cplusplus } #endif #endif /* __AT_H__ */