/* * Squeezelite for esp32 * * (c) Sebastien 2019 * Philippe G. 2019, philippe_44@outlook.com * * This software is released under the MIT License. * https://opensource.org/licenses/MIT * */ #include "platform_esp32.h" #include "led.h" #include #include #include "freertos/FreeRTOS.h" #include "driver/gpio.h" #include "driver/spi_master.h" #include "freertos/task.h" #include "esp_system.h" #include "esp_spi_flash.h" #include "esp_wifi.h" #include #include "nvs_flash.h" #include "esp_log.h" #include "freertos/event_groups.h" #include "mdns.h" #include "lwip/api.h" #include "lwip/err.h" #include "lwip/netdb.h" #include "nvs_utilities.h" #include "trace.h" #include "wifi_manager.h" #include "squeezelite-ota.h" #include #include "audio_controls.h" #include "platform_config.h" #include "telnet.h" #include "messaging.h" #include "gds.h" #include "gds_default_if.h" #include "gds_draw.h" #include "gds_text.h" #include "gds_font.h" #include "display.h" #include "accessors.h" #include "cmd_system.h" static const char certs_namespace[] = "certificates"; static const char certs_key[] = "blob"; static const char certs_version[] = "version"; const char unknown_string_placeholder[] = "unknown"; const char null_string_placeholder[] = "null"; EventGroupHandle_t wifi_event_group; bool bypass_wifi_manager=false; const int CONNECTED_BIT = BIT0; #define JOIN_TIMEOUT_MS (10000) #define LOCAL_MAC_SIZE 20 static const char TAG[] = "esp_app_main"; #define DEFAULT_HOST_NAME "squeezelite" char * fwurl = NULL; RTC_NOINIT_ATTR uint32_t RebootCounter ; static bool bWifiConnected=false; extern const uint8_t server_cert_pem_start[] asm("_binary_github_pem_start"); extern const uint8_t server_cert_pem_end[] asm("_binary_github_pem_end"); // as an exception _init function don't need include extern void services_init(void); extern void display_init(char *welcome); extern void target_init(char *target); const char * str_or_unknown(const char * str) { return (str?str:unknown_string_placeholder); } const char * str_or_null(const char * str) { return (str?str:null_string_placeholder); } bool is_recovery_running; /* brief this is an exemple of a callback that you can setup in your own app to get notified of wifi manager event */ void cb_connection_got_ip(void *pvParameter){ static ip4_addr_t ip; tcpip_adapter_ip_info_t ipInfo; tcpip_adapter_get_ip_info(TCPIP_ADAPTER_IF_STA, &ipInfo); if (ip.addr && ipInfo.ip.addr != ip.addr) { ESP_LOGW(TAG, "IP change, need to reboot"); if(!wait_for_commit()){ ESP_LOGW(TAG,"Unable to commit configuration. "); } esp_restart(); } ip.addr = ipInfo.ip.addr; ESP_LOGI(TAG, "Wifi connected!"); messaging_post_message(MESSAGING_INFO,MESSAGING_CLASS_SYSTEM,"Wifi connected"); xEventGroupSetBits(wifi_event_group, CONNECTED_BIT); bWifiConnected=true; led_unpush(LED_GREEN); if(is_recovery_running){ // when running in recovery, send a LMS discovery message // to find a running instance. This is to enable using // the plugin's proxy mode for FW download and avoid // expired certificate issues. discover_ota_server(5); } } void cb_connection_sta_disconnected(void *pvParameter){ led_blink_pushed(LED_GREEN, 250, 250); messaging_post_message(MESSAGING_WARNING,MESSAGING_CLASS_SYSTEM,"Wifi disconnected"); bWifiConnected=false; xEventGroupClearBits(wifi_event_group, CONNECTED_BIT); } bool wait_for_wifi(){ bool connected=(xEventGroupGetBits(wifi_event_group) & CONNECTED_BIT)!=0; if(!connected){ ESP_LOGD(TAG,"Waiting for WiFi..."); connected = (xEventGroupWaitBits(wifi_event_group, CONNECTED_BIT, pdFALSE, pdTRUE, JOIN_TIMEOUT_MS / portTICK_PERIOD_MS)& CONNECTED_BIT)!=0; if(!connected){ ESP_LOGW(TAG,"wifi timeout."); } else { ESP_LOGI(TAG,"WiFi Connected!"); } } return connected; } char * process_ota_url(){ ESP_LOGI(TAG,"Checking for update url"); char * fwurl=config_alloc_get(NVS_TYPE_STR, "fwurl"); if(fwurl!=NULL) { ESP_LOGD(TAG,"Deleting nvs entry for Firmware URL %s", fwurl); config_delete_key("fwurl"); } return fwurl; } esp_log_level_t get_log_level_from_char(char * level){ if(!strcasecmp(level, "NONE" )) { return ESP_LOG_NONE ;} if(!strcasecmp(level, "ERROR" )) { return ESP_LOG_ERROR ;} if(!strcasecmp(level, "WARN" )) { return ESP_LOG_WARN ;} if(!strcasecmp(level, "INFO" )) { return ESP_LOG_INFO ;} if(!strcasecmp(level, "DEBUG" )) { return ESP_LOG_DEBUG ;} if(!strcasecmp(level, "VERBOSE" )) { return ESP_LOG_VERBOSE;} return ESP_LOG_WARN; } void set_log_level(char * tag, char * level){ esp_log_level_set(tag, get_log_level_from_char(level)); } esp_err_t update_certificates(bool force){ nvs_handle handle; esp_err_t esp_err; esp_app_desc_t running_app_info; ESP_LOGI(TAG, "About to check if certificates need to be updated in flash"); esp_err = nvs_open_from_partition(settings_partition, certs_namespace, NVS_READWRITE, &handle); if (esp_err != ESP_OK) { LOG_SEND(MESSAGING_INFO,"Unable to update HTTPS certificates. Could not open NVS namespace %s. Error %s", certs_namespace, esp_err_to_name(esp_err)); return esp_err; } const esp_partition_t *running = esp_ota_get_running_partition(); ESP_LOGI(TAG, "Running partition [%s] type %d subtype %d (offset 0x%08x)", running->label, running->type, running->subtype, running->address); if (esp_ota_get_partition_description(running, &running_app_info) == ESP_OK) { ESP_LOGI(TAG, "Running version: %s", running_app_info.version); } size_t len=0; char *str=NULL; bool changed=false; if ( (esp_err= nvs_get_str(handle, certs_version, NULL, &len)) == ESP_OK) { str=(char *)malloc(len+1); if(str){ memset(str,0x00,len+1); if ( (esp_err = nvs_get_str(handle, certs_version, str, &len)) == ESP_OK) { ESP_LOGI(TAG,"Certificate version: %s", str); } } } if(str!=NULL && running->subtype !=ESP_PARTITION_SUBTYPE_APP_FACTORY){ // If certificates were found in nvs, only update if we're not // running recovery. This will prevent rolling back to an older version if(strcmp((char *)running_app_info.version,(char *)str )){ // Versions are different ESP_LOGW(TAG,"Found a different software version. Updating certificates"); changed=true; } free(str); } else if(str==NULL){ ESP_LOGW(TAG,"No certificate found. Adding certificates"); changed=true; } if(changed || force){ esp_err = nvs_set_blob(handle, certs_key, server_cert_pem_start, (server_cert_pem_end-server_cert_pem_start)); if(esp_err!=ESP_OK){ log_send_messaging(MESSAGING_ERROR,"Failed to store certificate data: %s", esp_err_to_name(esp_err)); } else { esp_err = nvs_set_str(handle, certs_version, running_app_info.version); if(esp_err!=ESP_OK){ log_send_messaging(MESSAGING_ERROR,"Unable to update HTTPS Certificates version: %s",esp_err_to_name(esp_err)); } else { esp_err = nvs_commit(handle); if(esp_err!=ESP_OK){ log_send_messaging(MESSAGING_ERROR,"Failed to commit certificates changes : %s",esp_err_to_name(esp_err)); } else { log_send_messaging(MESSAGING_INFO,"HTTPS Certificates were updated with version: %s",running_app_info.version); } } } } nvs_close(handle); return ESP_OK; } const char * get_certificate(){ nvs_handle handle; esp_err_t esp_err; char *blob =NULL; // ESP_LOGD(TAG, "Fetching certificate."); esp_err = nvs_open_from_partition(settings_partition, certs_namespace, NVS_READONLY, &handle); if(esp_err == ESP_OK){ size_t len; esp_err = nvs_get_blob(handle, certs_key, NULL, &len); if( esp_err == ESP_OK) { blob = (char *) heap_caps_malloc(len+1, (MALLOC_CAP_INTERNAL|MALLOC_CAP_8BIT)); if(!blob){ log_send_messaging(MESSAGING_ERROR,"Unable to retrieve HTTPS certificates. %s","Memory allocation failed"); return ""; } memset(blob,0x00,len+1); esp_err = nvs_get_blob(handle, certs_key, blob, &len); if ( esp_err == ESP_OK) { ESP_LOGD(TAG,"Certificates content is %d bytes long: ", len); } else { log_send_messaging(MESSAGING_ERROR,"Unable to retrieve HTTPS certificates. Get blob failed: %s", esp_err_to_name(esp_err)); } } else{ log_send_messaging(MESSAGING_ERROR,"Unable to retrieve HTTPS certificates. Get blob failed: %s",esp_err_to_name(esp_err)); } nvs_close(handle); } else{ log_send_messaging(MESSAGING_ERROR,"Unable to retrieve HTTPS certificates. NVS name space %s open failed: %s",certs_namespace, esp_err_to_name(esp_err)); } return blob; } #define DEFAULT_NAME_WITH_MAC(var,defval) char var[strlen(defval)+sizeof(macStr)]; strcpy(var,defval); strcat(var,macStr) void register_default_nvs(){ uint8_t mac[6]; char macStr[LOCAL_MAC_SIZE+1]; char default_command_line[strlen(CONFIG_DEFAULT_COMMAND_LINE)+sizeof(macStr)]; esp_read_mac((uint8_t *)&mac, ESP_MAC_WIFI_STA); snprintf(macStr, LOCAL_MAC_SIZE-1,"-%x%x%x", mac[3], mac[4], mac[5]); DEFAULT_NAME_WITH_MAC(default_host_name,DEFAULT_HOST_NAME); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "host_name", default_host_name); config_set_default(NVS_TYPE_STR, "host_name", default_host_name, 0); #if CONFIG_BT_SINK DEFAULT_NAME_WITH_MAC(default_bt_name,CONFIG_BT_NAME); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "bt_name", default_bt_name); config_set_default(NVS_TYPE_STR, "bt_name", default_bt_name, 0); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "enable_bt_sink", STR(CONFIG_BT_SINK)); config_set_default(NVS_TYPE_STR, "enable_bt_sink", STR(CONFIG_BT_SINK), 0); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "bt_sink_pin", STR(CONFIG_BT_SINK_PIN)); config_set_default(NVS_TYPE_STR, "bt_sink_pin", STR(CONFIG_BT_SINK_PIN), 0); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "bt_sink_volume", "127"); config_set_default(NVS_TYPE_STR, "bt_sink_volume", "127", 0); #endif #if CONFIG_AIRPLAY_SINK DEFAULT_NAME_WITH_MAC(default_airplay_name,CONFIG_AIRPLAY_NAME); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "airplay_name",default_airplay_name); config_set_default(NVS_TYPE_STR, "airplay_name",default_airplay_name , 0); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "airplay_port", CONFIG_AIRPLAY_PORT); config_set_default(NVS_TYPE_STR, "airplay_port", CONFIG_AIRPLAY_PORT, 0); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "enable_airplay", STR(CONFIG_AIRPLAY_SINK)); config_set_default(NVS_TYPE_STR, "enable_airplay", STR(CONFIG_AIRPLAY_SINK), 0); #endif DEFAULT_NAME_WITH_MAC(default_ap_name,CONFIG_DEFAULT_AP_SSID); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "ap_ssid", default_ap_name); config_set_default(NVS_TYPE_STR, "ap_ssid",default_ap_name , 0); strncpy(default_command_line, CONFIG_DEFAULT_COMMAND_LINE,sizeof(default_command_line)-1); strncat(default_command_line, " -n ",sizeof(default_command_line)-1); strncat(default_command_line, default_host_name,sizeof(default_command_line)-1); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "autoexec", "1"); config_set_default(NVS_TYPE_STR,"autoexec","1", 0); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "autoexec1",default_command_line); config_set_default(NVS_TYPE_STR,"autoexec1",default_command_line,0); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "a2dp_sink_name", CONFIG_A2DP_SINK_NAME); config_set_default(NVS_TYPE_STR, "a2dp_sink_name", CONFIG_A2DP_SINK_NAME, 0); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "a2dp_sink_name", STR(CONFIG_A2DP_SINK_NAME)); config_set_default(NVS_TYPE_STR, "a2dp_ctmt", STR(CONFIG_A2DP_CONNECT_TIMEOUT_MS), 0); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "a2dp_ctmt", STR(CONFIG_A2DP_CONNECT_TIMEOUT_MS)); config_set_default(NVS_TYPE_STR, "a2dp_ctrld", STR(CONFIG_A2DP_CONTROL_DELAY_MS), 0); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "release_url", CONFIG_SQUEEZELITE_ESP32_RELEASE_URL); config_set_default(NVS_TYPE_STR, "release_url", CONFIG_SQUEEZELITE_ESP32_RELEASE_URL, 0); ESP_LOGD(TAG,"Registering default value for key %s, value %s","ap_ip_address",CONFIG_DEFAULT_AP_IP ); config_set_default(NVS_TYPE_STR, "ap_ip_address",CONFIG_DEFAULT_AP_IP , 0); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "ap_ip_gateway",CONFIG_DEFAULT_AP_GATEWAY ); config_set_default(NVS_TYPE_STR, "ap_ip_gateway",CONFIG_DEFAULT_AP_GATEWAY , 0); ESP_LOGD(TAG,"Registering default value for key %s, value %s","ap_ip_netmask",CONFIG_DEFAULT_AP_NETMASK ); config_set_default(NVS_TYPE_STR, "ap_ip_netmask",CONFIG_DEFAULT_AP_NETMASK , 0); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "ap_channel",STR(CONFIG_DEFAULT_AP_CHANNEL)); config_set_default(NVS_TYPE_STR, "ap_channel",STR(CONFIG_DEFAULT_AP_CHANNEL) , 0); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "ap_pwd", CONFIG_DEFAULT_AP_PASSWORD); config_set_default(NVS_TYPE_STR, "ap_pwd", CONFIG_DEFAULT_AP_PASSWORD, 0); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "a2dp_dev_name", CONFIG_A2DP_DEV_NAME); config_set_default(NVS_TYPE_STR, "a2dp_dev_name", CONFIG_A2DP_DEV_NAME, 0); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "bypass_wm", "0"); config_set_default(NVS_TYPE_STR, "bypass_wm", "0", 0); ESP_LOGD(TAG,"Registering default value for equalizer"); config_set_default(NVS_TYPE_STR, "equalizer", "", 0); ESP_LOGD(TAG,"Registering default Audio control board type %s, value ","actrls_config"); config_set_default(NVS_TYPE_STR, "actrls_config", "", 0); ESP_LOGD(TAG,"Registering default value for key %s", "lms_ctrls_raw"); config_set_default(NVS_TYPE_STR, "lms_ctrls_raw", "n", 0); ESP_LOGD(TAG,"Registering default Audio control board type %s, value %s", "rotary_config", CONFIG_ROTARY_ENCODER); config_set_default(NVS_TYPE_STR, "rotary_config", CONFIG_ROTARY_ENCODER, 0); char number_buffer[101] = {}; snprintf(number_buffer,sizeof(number_buffer)-1,"%u",OTA_FLASH_ERASE_BLOCK); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "ota_erase_blk", number_buffer); config_set_default(NVS_TYPE_STR, "ota_erase_blk", number_buffer, 0); snprintf(number_buffer,sizeof(number_buffer)-1,"%u",OTA_STACK_SIZE); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "ota_stack", number_buffer); config_set_default(NVS_TYPE_STR, "ota_stack", number_buffer, 0); snprintf(number_buffer,sizeof(number_buffer)-1,"%d",OTA_TASK_PRIOTITY); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "ota_prio", number_buffer); config_set_default(NVS_TYPE_STR, "ota_prio", number_buffer, 0); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "display_config", CONFIG_DISPLAY_CONFIG); config_set_default(NVS_TYPE_STR, "display_config", CONFIG_DISPLAY_CONFIG, 0); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "eth_config", CONFIG_ETH_CONFIG); config_set_default(NVS_TYPE_STR, "eth_config", CONFIG_ETH_CONFIG, 0); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "i2c_config", CONFIG_I2C_CONFIG); config_set_default(NVS_TYPE_STR, "i2c_config", CONFIG_I2C_CONFIG, 0); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "spi_config", CONFIG_SPI_CONFIG); config_set_default(NVS_TYPE_STR, "spi_config", CONFIG_SPI_CONFIG, 0); ESP_LOGD(TAG,"Registering default value for key %s, value %s", "set_GPIO", CONFIG_SET_GPIO); config_set_default(NVS_TYPE_STR, "set_GPIO", CONFIG_SET_GPIO, 0); ESP_LOGD(TAG,"Registering default value for key %s", "led_brightness"); config_set_default(NVS_TYPE_STR, "led_brightness", "", 0); ESP_LOGD(TAG,"Registering default value for key %s", "spdif_config"); config_set_default(NVS_TYPE_STR, "spdif_config", "", 0); ESP_LOGD(TAG,"Registering default value for key %s", "dac_config"); config_set_default(NVS_TYPE_STR, "dac_config", "", 0); ESP_LOGD(TAG,"Registering default value for key %s", "dac_controlset"); config_set_default(NVS_TYPE_STR, "dac_controlset", "", 0); ESP_LOGD(TAG,"Registering default value for key %s", "jack_mutes_amp"); config_set_default(NVS_TYPE_STR, "jack_mutes_amp", "n", 0); ESP_LOGD(TAG,"Registering default value for key %s", "gpio_exp_config"); config_set_default(NVS_TYPE_STR, "gpio_exp_config", CONFIG_GPIO_EXP_CONFIG, 0); ESP_LOGD(TAG,"Registering default value for key %s", "bat_config"); config_set_default(NVS_TYPE_STR, "bat_config", "", 0); ESP_LOGD(TAG,"Registering default value for key %s", "metadata_config"); config_set_default(NVS_TYPE_STR, "metadata_config", "", 0); ESP_LOGD(TAG,"Registering default value for key %s", "telnet_enable"); config_set_default(NVS_TYPE_STR, "telnet_enable", "", 0); ESP_LOGD(TAG,"Registering default value for key %s", "telnet_buffer"); config_set_default(NVS_TYPE_STR, "telnet_buffer", "40000", 0); ESP_LOGD(TAG,"Registering default value for key %s", "telnet_block"); config_set_default(NVS_TYPE_STR, "telnet_block", "500", 0); ESP_LOGD(TAG,"Registering default value for key %s", "stats"); config_set_default(NVS_TYPE_STR, "stats", "n", 0); ESP_LOGD(TAG,"Registering default value for key %s", "rel_api"); config_set_default(NVS_TYPE_STR, "rel_api", CONFIG_RELEASE_API, 0); ESP_LOGD(TAG,"Registering default value for key %s", "target"); config_set_default(NVS_TYPE_STR, "target", "", 0); wait_for_commit(); ESP_LOGD(TAG,"Done setting default values in nvs."); } uint32_t halSTORAGE_RebootCounterRead(void) { return RebootCounter ; } uint32_t halSTORAGE_RebootCounterUpdate(int32_t xValue) { return (RebootCounter = (xValue != 0) ? (RebootCounter + xValue) : 0) ; } void handle_ap_connect(){ start_telnet(NULL); halSTORAGE_RebootCounterUpdate(0); } void app_main() { const esp_partition_t *running = esp_ota_get_running_partition(); is_recovery_running = (running->subtype == ESP_PARTITION_SUBTYPE_APP_FACTORY); esp_reset_reason_t xReason = esp_reset_reason(); ESP_LOGI(TAG,"Reset reason is: %u", xReason); if(!is_recovery_running && xReason != ESP_RST_SW && xReason != ESP_RST_POWERON ) { /* unscheduled restart (HW, Watchdog or similar) thus increment dynamic * counter then log current boot statistics as a warning */ uint32_t Counter = halSTORAGE_RebootCounterUpdate(1) ; // increment counter ESP_LOGI(TAG,"Reboot counter=%u\n", Counter) ; if (Counter == 5) { // before we change the partition, update the info for current running partition. halSTORAGE_RebootCounterUpdate(0); guided_factory(); } } char * fwurl = NULL; ESP_LOGI(TAG,"Starting app_main"); initialize_nvs(); ESP_LOGI(TAG,"Setting up telnet."); init_telnet(); // align on 32 bits boundaries ESP_LOGI(TAG,"Setting up config subsystem."); config_init(); ESP_LOGD(TAG,"Creating event group for wifi"); wifi_event_group = xEventGroupCreate(); ESP_LOGD(TAG,"Clearing CONNECTED_BIT from wifi group"); xEventGroupClearBits(wifi_event_group, CONNECTED_BIT); ESP_LOGI(TAG,"Registering default values"); register_default_nvs(); ESP_LOGI(TAG,"Configuring services"); services_init(); ESP_LOGI(TAG,"Initializing display"); display_init("SqueezeESP32"); char *target = config_alloc_get_str("target", CONFIG_TARGET, NULL); if (target) { target_init(target); free(target); } if(is_recovery_running && display){ GDS_ClearExt(display, true); GDS_SetFont(display, &Font_droid_sans_fallback_15x17 ); GDS_TextPos(display, GDS_FONT_MEDIUM, GDS_TEXT_CENTERED, GDS_TEXT_CLEAR | GDS_TEXT_UPDATE, "RECOVERY"); } ESP_LOGI(TAG,"Checking if certificates need to be updated"); update_certificates(false); ESP_LOGD(TAG,"Getting firmware OTA URL (if any)"); fwurl = process_ota_url(); ESP_LOGD(TAG,"Getting value for WM bypass, nvs 'bypass_wm'"); char * bypass_wm = config_alloc_get_default(NVS_TYPE_STR, "bypass_wm", "0", 0); if(bypass_wm==NULL) { ESP_LOGE(TAG, "Unable to retrieve the Wifi Manager bypass flag"); bypass_wifi_manager = false; } else { bypass_wifi_manager=(strcmp(bypass_wm,"1")==0 ||strcasecmp(bypass_wm,"y")==0); } if(!is_recovery_running){ ESP_LOGD(TAG,"Getting audio control mapping "); char *actrls_config = config_alloc_get_default(NVS_TYPE_STR, "actrls_config", "", 0); if (actrls_init(actrls_config) == ESP_OK) { ESP_LOGD(TAG,"Initializing audio control buttons type %s", actrls_config); } else { ESP_LOGD(TAG,"No audio control buttons"); } if (actrls_config) free(actrls_config); } /* start the wifi manager */ ESP_LOGD(TAG,"Blinking led"); led_blink_pushed(LED_GREEN, 250, 250); if(bypass_wifi_manager){ ESP_LOGW(TAG,"*******************************************************************************************"); ESP_LOGW(TAG,"* wifi manager is disabled. Please use wifi commands to connect to your wifi access point."); ESP_LOGW(TAG,"*******************************************************************************************"); } else { ESP_LOGI(TAG,"Starting Wifi Manager"); wifi_manager_start(); wifi_manager_set_callback(EVENT_STA_GOT_IP, &cb_connection_got_ip); wifi_manager_set_callback(EVENT_STA_DISCONNECTED, &cb_connection_sta_disconnected); /* Start the telnet service after we are certain that the network stack has been properly initialized. * This can be either after we're started the AP mode, or after we've started the STA mode */ wifi_manager_set_callback(ORDER_START_AP, &handle_ap_connect); wifi_manager_set_callback(ORDER_CONNECT_STA, &handle_ap_connect); } console_start(); if(fwurl && strlen(fwurl)>0){ if(is_recovery_running){ while(!bWifiConnected){ wait_for_wifi(); taskYIELD(); } ESP_LOGI(TAG,"Updating firmware from link: %s",fwurl); start_ota(fwurl, NULL, 0); } else { ESP_LOGE(TAG,"Restarted to application partition. We're not going to perform OTA!"); } free(fwurl); } messaging_post_message(MESSAGING_INFO,MESSAGING_CLASS_SYSTEM,"System started"); }