/* * Copyright (c) 2019 Tobias Svehagen * * SPDX-License-Identifier: Apache-2.0 */ #ifndef ZEPHYR_INCLUDE_DRIVERS_WIFI_ESP_H_ #define ZEPHYR_INCLUDE_DRIVERS_WIFI_ESP_H_ #include #include #include #include #include #include #include "modem_context.h" #include "modem_cmd_handler.h" #include "modem_iface_uart.h" #ifdef __cplusplus extern "C" { #endif /* Define the commands that differ between the AT versions */ #if defined(CONFIG_WIFI_ESP_AT_VERSION_1_7) #define _CWMODE "CWMODE_CUR" #define _CWSAP "CWSAP_CUR" #define _CWJAP "CWJAP_CUR" #define _CIPSTA "CIPSTA_CUR" #define _CIPSTAMAC "CIPSTAMAC_CUR" #else #define _CWMODE "CWMODE" #define _CWSAP "CWSAP" #define _CWJAP "CWJAP" #define _CIPSTA "CIPSTA" #define _CIPSTAMAC "CIPSTAMAC" #endif #define ESP_BUS DT_BUS(DT_DRV_INST(0)) #if DT_PROP(ESP_BUS, hw_flow_control) == 1 #define _FLOW_CONTROL "3" #else #define _FLOW_CONTROL "0" #endif #define _UART_CUR \ STRINGIFY(DT_PROP(ESP_BUS, current_speed))",8,1,0,"_FLOW_CONTROL #define CONN_CMD_MAX_LEN (sizeof("AT+"_CWJAP"=\"\",\"\"") + \ WIFI_SSID_MAX_LEN + WIFI_PSK_MAX_LEN) #define ESP_MAX_SOCKETS 5 /* Maximum amount that can be sent with CIPSEND and read with CIPRECVDATA */ #define ESP_MTU 2048 #define CIPRECVDATA_MAX_LEN ESP_MTU #define INVALID_LINK_ID 255 #define MDM_RING_BUF_SIZE 1024 #define MDM_RECV_MAX_BUF 30 #define MDM_RECV_BUF_SIZE 128 #define CMD_BUF_ALLOC_TIMEOUT K_SECONDS(1) #define ESP_CMD_TIMEOUT K_SECONDS(10) #define ESP_SCAN_TIMEOUT K_SECONDS(10) #define ESP_CONNECT_TIMEOUT K_SECONDS(20) #define ESP_INIT_TIMEOUT K_SECONDS(10) extern struct esp_data esp_driver_data; enum esp_socket_flags { ESP_SOCK_IN_USE = BIT(1), ESP_SOCK_CONNECTING = BIT(2), ESP_SOCK_CONNECTED = BIT(3) }; struct esp_socket { /* internal */ u8_t idx; u8_t link_id; u8_t flags; /* socket info */ sa_family_t family; enum net_sock_type type; enum net_ip_protocol ip_proto; struct sockaddr src; struct sockaddr dst; /* for +CIPRECVDATA */ size_t bytes_avail; /* packets */ struct k_fifo fifo_rx_pkt; struct net_pkt *tx_pkt; /* sem */ struct k_sem sem_data_ready; /* work */ struct k_work connect_work; struct k_work send_work; struct k_work recv_work; struct k_work recvdata_work; /* net context */ struct net_context *context; net_context_connect_cb_t connect_cb; net_context_send_cb_t send_cb; net_context_recv_cb_t recv_cb; /* callback data */ void *conn_user_data; void *send_user_data; void *recv_user_data; }; enum esp_data_flag { EDF_STA_CONNECTING = BIT(1), EDF_STA_CONNECTED = BIT(2) }; /* driver data */ struct esp_data { struct net_if *net_iface; u8_t flags; char conn_cmd[CONN_CMD_MAX_LEN]; /* addresses */ struct in_addr ip; struct in_addr gw; struct in_addr nm; u8_t mac_addr[6]; /* modem context */ struct modem_context mctx; /* modem interface */ struct modem_iface_uart_data iface_data; u8_t iface_isr_buf[MDM_RECV_BUF_SIZE]; u8_t iface_rb_buf[MDM_RING_BUF_SIZE]; /* modem cmds */ struct modem_cmd_handler_data cmd_handler_data; u8_t cmd_read_buf[MDM_RECV_BUF_SIZE]; u8_t cmd_match_buf[MDM_RECV_BUF_SIZE]; /* socket data */ struct esp_socket sockets[ESP_MAX_SOCKETS]; struct esp_socket *rx_sock; /* work */ struct k_work_q workq; struct k_work init_work; struct k_delayed_work ip_addr_work; struct k_work scan_work; struct k_work connect_work; scan_result_cb_t scan_cb; /* response semaphore */ struct k_sem sem_tx_ready; struct k_sem sem_response; struct k_sem sem_if_up; }; int esp_offload_init(struct net_if *iface); struct net_pkt *esp_prepare_pkt(struct esp_data *dev, struct net_buf *src, size_t offset, size_t len); struct esp_socket *esp_socket_get(); int esp_socket_put(struct esp_socket *sock); struct esp_socket *esp_socket_from_link_id(struct esp_data *data, u8_t link_id); void esp_socket_init(struct esp_data *data); static inline struct esp_data *esp_socket_to_dev(struct esp_socket *sock) { return CONTAINER_OF(sock - sock->idx, struct esp_data, sockets); } static inline bool esp_socket_in_use(struct esp_socket *sock) { return (sock->flags & ESP_SOCK_IN_USE) != 0; } static inline bool esp_socket_connected(struct esp_socket *sock) { return (sock->flags & ESP_SOCK_CONNECTED) != 0; } static inline void esp_flag_set(struct esp_data *dev, enum esp_data_flag flag) { dev->flags |= flag; } static inline void esp_flag_clear(struct esp_data *dev, enum esp_data_flag flag) { dev->flags &= (~flag); } static inline bool esp_flag_is_set(struct esp_data *dev, enum esp_data_flag flag) { return (dev->flags & flag) != 0; } #ifdef __cplusplus } #endif #endif /* ZEPHYR_INCLUDE_DRIVERS_WIFI_ESP_H_ */