388 lines
9.3 KiB
C
388 lines
9.3 KiB
C
/*
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* Copyright (c) 2019 Tobias Svehagen
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* Copyright (c) 2020 Grinn
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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#ifndef ZEPHYR_INCLUDE_DRIVERS_WIFI_ESP_H_
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#define ZEPHYR_INCLUDE_DRIVERS_WIFI_ESP_H_
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#include <kernel.h>
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#include <net/net_context.h>
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#include <net/net_if.h>
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#include <net/net_ip.h>
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#include <net/net_pkt.h>
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#include <net/wifi_mgmt.h>
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#include "modem_context.h"
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#include "modem_cmd_handler.h"
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#include "modem_iface_uart.h"
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#ifdef __cplusplus
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extern "C" {
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#endif
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/* Define the commands that differ between the AT versions */
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#if defined(CONFIG_WIFI_ESP_AT_VERSION_1_7)
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#define _CWMODE "CWMODE_CUR"
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#define _CWSAP "CWSAP_CUR"
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#define _CWJAP "CWJAP_CUR"
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#define _CIPSTA "CIPSTA_CUR"
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#define _CIPSTAMAC "CIPSTAMAC_CUR"
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#define _CIPRECVDATA "+CIPRECVDATA,"
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#define _CIPRECVDATA_END ':'
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#else
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#define _CWMODE "CWMODE"
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#define _CWSAP "CWSAP"
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#define _CWJAP "CWJAP"
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#define _CIPSTA "CIPSTA"
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#define _CIPSTAMAC "CIPSTAMAC"
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#define _CIPRECVDATA "+CIPRECVDATA:"
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#define _CIPRECVDATA_END ','
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#endif
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/*
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* Passive mode differs a bit between firmware versions and the macro
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* ESP_PROTO_PASSIVE is therefore used to determine what protocol operates in
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* passive mode. For AT version 1.7 passive mode only affects TCP but in AT
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* version 2.0 it affects both TCP and UDP.
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*/
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#if defined(CONFIG_WIFI_ESP_PASSIVE_MODE)
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#if defined(CONFIG_WIFI_ESP_AT_VERSION_1_7)
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#define ESP_PROTO_PASSIVE(proto) (proto == IPPROTO_TCP)
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#else
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#define ESP_PROTO_PASSIVE(proto) \
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(proto == IPPROTO_TCP || proto == IPPROTO_UDP)
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#endif /* CONFIG_WIFI_ESP_AT_VERSION_1_7 */
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#else
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#define ESP_PROTO_PASSIVE(proto) 0
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#endif /* CONFIG_WIFI_ESP_PASSIVE_MODE */
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#define ESP_BUS DT_BUS(DT_DRV_INST(0))
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#if DT_PROP(ESP_BUS, hw_flow_control) == 1
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#define _FLOW_CONTROL "3"
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#else
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#define _FLOW_CONTROL "0"
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#endif
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#if DT_INST_NODE_HAS_PROP(0, target_speed)
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#define _UART_BAUD DT_INST_PROP(0, target_speed)
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#else
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#define _UART_BAUD DT_PROP(ESP_BUS, current_speed)
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#endif
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#define _UART_CUR \
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STRINGIFY(_UART_BAUD)",8,1,0,"_FLOW_CONTROL
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#define CONN_CMD_MAX_LEN (sizeof("AT+"_CWJAP"=\"\",\"\"") + \
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WIFI_SSID_MAX_LEN + WIFI_PSK_MAX_LEN)
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#if defined(CONFIG_WIFI_ESP_DNS_USE)
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#define ESP_MAX_DNS MIN(3, CONFIG_DNS_RESOLVER_MAX_SERVERS)
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#else
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#define ESP_MAX_DNS 0
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#endif
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#define ESP_MAX_SOCKETS 5
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/* Maximum amount that can be sent with CIPSEND and read with CIPRECVDATA */
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#define ESP_MTU 2048
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#define CIPRECVDATA_MAX_LEN ESP_MTU
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#define INVALID_LINK_ID 255
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#define MDM_RING_BUF_SIZE CONFIG_WIFI_ESP_MDM_RING_BUF_SIZE
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#define MDM_RECV_MAX_BUF CONFIG_WIFI_ESP_MDM_RX_BUF_COUNT
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#define MDM_RECV_BUF_SIZE CONFIG_WIFI_ESP_MDM_RX_BUF_SIZE
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#define ESP_CMD_TIMEOUT K_SECONDS(10)
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#define ESP_SCAN_TIMEOUT K_SECONDS(10)
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#define ESP_CONNECT_TIMEOUT K_SECONDS(20)
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#define ESP_INIT_TIMEOUT K_SECONDS(10)
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#define ESP_MODE_NONE 0
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#define ESP_MODE_STA 1
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#define ESP_MODE_AP 2
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#define ESP_MODE_STA_AP 3
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#define ESP_CMD_CWMODE(mode) \
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"AT+"_CWMODE"="STRINGIFY(_CONCAT(ESP_MODE_, mode))
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#define ESP_CWDHCP_MODE_STATION "1"
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#if defined(CONFIG_WIFI_ESP_AT_VERSION_1_7)
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#define ESP_CWDHCP_MODE_SOFTAP "0"
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#else
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#define ESP_CWDHCP_MODE_SOFTAP "2"
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#endif
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#if defined(CONFIG_WIFI_ESP_AT_VERSION_1_7)
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#define _ESP_CMD_DHCP_ENABLE(mode, enable) \
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"AT+CWDHCP_CUR=" mode "," STRINGIFY(enable)
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#else
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#define _ESP_CMD_DHCP_ENABLE(mode, enable) \
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"AT+CWDHCP=" STRINGIFY(enable) "," mode
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#endif
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#define ESP_CMD_DHCP_ENABLE(mode, enable) \
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_ESP_CMD_DHCP_ENABLE(_CONCAT(ESP_CWDHCP_MODE_, mode), enable)
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#define ESP_CMD_SET_IP(ip, gateway, mask) "AT+"_CIPSTA"=\"" \
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ip "\",\"" gateway "\",\"" mask "\""
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extern struct esp_data esp_driver_data;
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enum esp_socket_flags {
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ESP_SOCK_IN_USE = BIT(1),
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ESP_SOCK_CONNECTING = BIT(2),
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ESP_SOCK_CONNECTED = BIT(3),
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ESP_SOCK_CLOSE_PENDING = BIT(4),
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ESP_SOCK_WORKQ_STOPPED = BIT(5),
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};
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struct esp_socket {
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/* internal */
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struct k_mutex lock;
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atomic_t refcount;
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uint8_t idx;
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uint8_t link_id;
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atomic_t flags;
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/* socket info */
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struct sockaddr dst;
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/* sem */
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union {
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/* handles blocking receive */
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struct k_sem sem_data_ready;
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/* notifies about reaching 0 refcount */
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struct k_sem sem_free;
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};
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/* work */
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struct k_work connect_work;
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struct k_work recvdata_work;
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struct k_work close_work;
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/* net context */
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struct net_context *context;
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net_context_connect_cb_t connect_cb;
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net_context_recv_cb_t recv_cb;
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/* callback data */
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void *conn_user_data;
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void *recv_user_data;
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};
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enum esp_data_flag {
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EDF_STA_CONNECTING = BIT(1),
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EDF_STA_CONNECTED = BIT(2),
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EDF_STA_LOCK = BIT(3),
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EDF_AP_ENABLED = BIT(4),
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};
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/* driver data */
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struct esp_data {
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struct net_if *net_iface;
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uint8_t flags;
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uint8_t mode;
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char conn_cmd[CONN_CMD_MAX_LEN];
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/* addresses */
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struct in_addr ip;
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struct in_addr gw;
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struct in_addr nm;
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uint8_t mac_addr[6];
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struct sockaddr_in dns_addresses[ESP_MAX_DNS];
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/* modem context */
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struct modem_context mctx;
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/* modem interface */
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struct modem_iface_uart_data iface_data;
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uint8_t iface_rb_buf[MDM_RING_BUF_SIZE];
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/* modem cmds */
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struct modem_cmd_handler_data cmd_handler_data;
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uint8_t cmd_match_buf[MDM_RECV_BUF_SIZE];
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/* socket data */
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struct esp_socket sockets[ESP_MAX_SOCKETS];
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struct esp_socket *rx_sock;
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/* work */
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struct k_work_q workq;
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struct k_work init_work;
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struct k_delayed_work ip_addr_work;
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struct k_work scan_work;
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struct k_work connect_work;
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struct k_work mode_switch_work;
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struct k_work dns_work;
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scan_result_cb_t scan_cb;
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/* semaphores */
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struct k_sem sem_tx_ready;
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struct k_sem sem_response;
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struct k_sem sem_if_ready;
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struct k_sem sem_if_up;
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};
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int esp_offload_init(struct net_if *iface);
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struct esp_socket *esp_socket_get(struct esp_data *data,
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struct net_context *context);
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int esp_socket_put(struct esp_socket *sock);
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void esp_socket_init(struct esp_data *data);
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void esp_socket_close(struct esp_socket *sock);
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void esp_socket_rx(struct esp_socket *sock, struct net_buf *buf,
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size_t offset, size_t len);
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void esp_socket_workq_stop_and_flush(struct esp_socket *sock);
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struct esp_socket *esp_socket_ref(struct esp_socket *sock);
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void esp_socket_unref(struct esp_socket *sock);
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static inline
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struct esp_socket *esp_socket_ref_from_link_id(struct esp_data *data,
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uint8_t link_id)
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{
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if (link_id >= ARRAY_SIZE(data->sockets)) {
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return NULL;
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}
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return esp_socket_ref(&data->sockets[link_id]);
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}
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static inline atomic_val_t esp_socket_flags_update(struct esp_socket *sock,
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atomic_val_t value,
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atomic_val_t mask)
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{
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atomic_val_t flags;
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do {
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flags = atomic_get(&sock->flags);
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} while (!atomic_cas(&sock->flags, flags, (flags & ~mask) | value));
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return flags;
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}
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static inline
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atomic_val_t esp_socket_flags_clear_and_set(struct esp_socket *sock,
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atomic_val_t clear_flags,
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atomic_val_t set_flags)
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{
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return esp_socket_flags_update(sock, set_flags,
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clear_flags | set_flags);
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}
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static inline atomic_val_t esp_socket_flags_set(struct esp_socket *sock,
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atomic_val_t flags)
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{
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return atomic_or(&sock->flags, flags);
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}
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static inline bool esp_socket_flags_test_and_clear(struct esp_socket *sock,
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atomic_val_t flags)
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{
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return (atomic_and(&sock->flags, ~flags) & flags);
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}
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static inline bool esp_socket_flags_test_and_set(struct esp_socket *sock,
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atomic_val_t flags)
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{
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return (atomic_or(&sock->flags, flags) & flags);
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}
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static inline atomic_val_t esp_socket_flags_clear(struct esp_socket *sock,
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atomic_val_t flags)
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{
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return atomic_and(&sock->flags, ~flags);
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}
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static inline atomic_val_t esp_socket_flags(struct esp_socket *sock)
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{
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return atomic_get(&sock->flags);
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}
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static inline struct esp_data *esp_socket_to_dev(struct esp_socket *sock)
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{
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return CONTAINER_OF(sock - sock->idx, struct esp_data, sockets);
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}
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static inline void __esp_socket_work_submit(struct esp_socket *sock,
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struct k_work *work)
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{
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struct esp_data *data = esp_socket_to_dev(sock);
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k_work_submit_to_queue(&data->workq, work);
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}
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static inline int esp_socket_work_submit(struct esp_socket *sock,
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struct k_work *work)
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{
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int ret = -EBUSY;
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k_mutex_lock(&sock->lock, K_FOREVER);
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if (!(esp_socket_flags(sock) & ESP_SOCK_WORKQ_STOPPED)) {
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__esp_socket_work_submit(sock, work);
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ret = 0;
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}
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k_mutex_unlock(&sock->lock);
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return ret;
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}
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static inline bool esp_socket_connected(struct esp_socket *sock)
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{
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return (esp_socket_flags(sock) & ESP_SOCK_CONNECTED) != 0;
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}
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static inline void esp_flags_set(struct esp_data *dev, uint8_t flags)
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{
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dev->flags |= flags;
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}
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static inline void esp_flags_clear(struct esp_data *dev, uint8_t flags)
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{
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dev->flags &= (~flags);
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}
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static inline bool esp_flags_are_set(struct esp_data *dev, uint8_t flags)
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{
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return (dev->flags & flags) != 0;
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}
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static inline enum net_sock_type esp_socket_type(struct esp_socket *sock)
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{
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return net_context_get_type(sock->context);
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}
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static inline enum net_ip_protocol esp_socket_ip_proto(struct esp_socket *sock)
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{
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return net_context_get_ip_proto(sock->context);
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}
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static inline int esp_cmd_send(struct esp_data *data,
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const struct modem_cmd *handlers,
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size_t handlers_len, const char *buf,
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k_timeout_t timeout)
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{
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return modem_cmd_send(&data->mctx.iface, &data->mctx.cmd_handler,
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handlers, handlers_len, buf, &data->sem_response,
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timeout);
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}
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void esp_connect_work(struct k_work *work);
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void esp_recvdata_work(struct k_work *work);
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void esp_close_work(struct k_work *work);
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#ifdef __cplusplus
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}
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#endif
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#endif /* ZEPHYR_INCLUDE_DRIVERS_WIFI_ESP_H_ */
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