// // Created by jedi on 25.06.21. // #include "web.h" #include "system.h" #include "lux.h" #include "wifi.h" #include "log.h" #include #include #include extern "C" { #include #include } #include #include extern "C" { #include } #include "messages.h" using namespace fiatlux; int version = 23; #define vTaskDelayMs(ms) vTaskDelay((ms) / portTICK_PERIOD_MS) const char hex_lookup[] = "0123456789ABCDEF\0\0"; uint16_t voltage_val; struct { bool global; bool connection; bool wifi; bool voltage; bool lights; } has_changed; void websocket_task(void *pvParameter) { auto *pcb = (struct tcp_pcb *) pvParameter; size_t connstarttime = xTaskGetTickCount(); has_changed = {true, true, true, true, true}; syslog_attach(); unsigned local_log_tail = syslog_current_tail(); for (;;) { if(pcb == nullptr || pcb->state != ESTABLISHED) { syslog("Connection closed, deleting task\n"); break; } //Syslog if(syslog_data_after(local_log_tail) != 0) { char response[128]; response[0] = 'L'; size_t len = syslog_copy_out(&response[4], 124, local_log_tail); response[1] = len; ((uint16_t &) response[2]) = local_log_tail & 0xFFFF; if(len < sizeof(response)) { LOCK_TCPIP_CORE(); websocket_write(pcb, (unsigned char *) response, len + 4, WS_BIN_MODE); local_log_tail += len; UNLOCK_TCPIP_CORE(); } else syslog("buffer too small -1\n"); taskYIELD(); } //Global Info if(has_changed.global) { timeval tv{}; gettimeofday(&tv, nullptr); size_t uptime = xTaskGetTickCount() * portTICK_PERIOD_MS / 1000; int heap = (int) xPortGetFreeHeapSize(); uint32_t chip_id = sdk_system_get_chip_id(); uint32_t flash_id = sdk_spi_flash_get_id(); uint32_t flash_size = sdk_flashchip.chip_size >> 10; char *hostname = nullptr; sysparam_get_string("hostname", &hostname); /* Generate response in JSON format */ messages::frame frame; frame.cmd = messages::SYSTEM_INFO; frame.msg.walltime = tv.tv_sec; frame.msg.uptime = uptime; frame.msg.heap = heap; frame.msg.chipid = chip_id; frame.msg.flashid = flash_id; frame.msg.flashsize = flash_size; frame.msg.version = version; frame.msg.peripheral_version = peripheral_version; //frame.msg. = ; // hostname LOCK_TCPIP_CORE(); websocket_write(pcb, (unsigned char *) &frame, sizeof(frame), WS_BIN_MODE); has_changed.global = false; UNLOCK_TCPIP_CORE(); free(hostname); /*LOCK_TCPIP_CORE(); websocket_write(pcb, (uint8_t * ) &frame, sizeof(frame), WS_BIN_MODE); has_changed.global = false; UNLOCK_TCPIP_CORE();*/ taskYIELD(); } else if(has_changed.lights) { messages::frame frame; frame.cmd = messages::LIGHTS; frame.msg.top_color = *(uint32_t*)&top_color; frame.msg.bottom_color = *(uint32_t*)&bottom_color; frame.msg.white_brightness = light_value; LOCK_TCPIP_CORE(); websocket_write(pcb, (unsigned char *) &frame, sizeof(frame), WS_BIN_MODE); has_changed.lights = false; UNLOCK_TCPIP_CORE(); taskYIELD(); } else if(has_changed.connection) { timeval tv{}; gettimeofday(&tv, nullptr); size_t connuptime = (xTaskGetTickCount() - connstarttime) * portTICK_PERIOD_MS / 1000; printf("conn %d: %d.%d.%d.%d <-> %d.%d.%d.%d \n", pcb->netif_idx, IP2STR(&pcb->local_ip), IP2STR(&pcb->remote_ip)); char response[192]; size_t len = snprintf(response, sizeof(response), "{\"connage\" : \"%d\"," "\"clientip\" : \"" IPSTR "\"" "}", connuptime, IP2STR(&pcb->remote_ip)); if(len < sizeof(response)) { LOCK_TCPIP_CORE(); websocket_write(pcb, (unsigned char *) response, len, WS_TEXT_MODE); has_changed.connection = false; UNLOCK_TCPIP_CORE(); } else syslog("buffer too small 1\n"); taskYIELD(); } else if(has_changed.wifi) { has_changed.wifi = false; uint8_t opmode = sdk_wifi_get_opmode(); const char *opmode_str = "??"; switch (opmode) { case NULL_MODE: opmode_str = "Null"; break; case STATION_MODE: opmode_str = "Station"; break; case SOFTAP_MODE: opmode_str = "SoftAP"; break; case STATIONAP_MODE: opmode_str = "StationAP"; break; default: break; } /*struct sockaddr_storage addr; socklen_t addr_len = sizeof(addr); if (getpeername(s, (struct sockaddr *)&addr, &addr_len) == 0) { printf("peer\n"); }*/ if(opmode == SOFTAP_MODE || opmode == STATIONAP_MODE) { uint8_t hwaddr[6]; sdk_wifi_get_macaddr(SOFTAP_IF, hwaddr); ip_info info{}; sdk_wifi_get_ip_info(SOFTAP_IF, &info); char *apssid = nullptr; sysparam_get_string("wifi_ap_ssid", &apssid); /* Generate response in JSON format */ char response[128]; size_t len = snprintf(response, sizeof(response), "{\"opmode\" : \"%s\"," " \"apssid\" : \"%s\"," " \"apip\" : \"" IPSTR "\"," " \"apmac\" : \"" MACSTR "\"" "}", opmode_str, apssid, IP2STR(&info.ip), MAC2STR(hwaddr)); free(apssid); if(len < sizeof(response)) { LOCK_TCPIP_CORE(); websocket_write(pcb, (unsigned char *) response, len, WS_TEXT_MODE); UNLOCK_TCPIP_CORE(); } else syslog("buffer too small 2\n"); } taskYIELD(); if(opmode == STATION_MODE || opmode == STATIONAP_MODE) { uint8_t hwaddr[6]; sdk_wifi_get_macaddr(STATION_IF, hwaddr); ip_info info{}; sdk_wifi_get_ip_info(STATION_IF, &info); char *stassid = nullptr; sysparam_get_string("wifi_sta_ssid", &stassid); /* Generate response in JSON format */ char response[128]; size_t len = snprintf(response, sizeof(response), "{\"opmode\" : \"%s\"," " \"stassid\" : \"%s\"," " \"staip\" : \"" IPSTR "\"," " \"stamac\" : \"" MACSTR "\"" "}", opmode_str, stassid, IP2STR(&info.ip), MAC2STR(hwaddr)); free(stassid); if(len < sizeof(response)) { LOCK_TCPIP_CORE(); websocket_write(pcb, (unsigned char *) response, len, WS_TEXT_MODE); UNLOCK_TCPIP_CORE(); } else syslog("buffer too small 3\n"); } taskYIELD(); } else if(has_changed.voltage) { has_changed.voltage = false; messages::response res; res.val = voltage_val; res.ret = OK; res.cmd = (messages::id) 'V'; LOCK_TCPIP_CORE(); websocket_write(pcb, (uint8_t *) &res, sizeof(res), WS_BIN_MODE); UNLOCK_TCPIP_CORE(); taskYIELD(); } else { //taskYIELD(); //printf("no change a\n"); vTaskDelay(50); //printf("no change b\n"); } //printf("9: %d\n",gpio_read(9)); //printf("10: %d\n",gpio_read(10)); vTaskDelayMs(250); { uint8_t response[3]; uint16_t val; val = sdk_system_adc_read(); response[2] = (uint8_t) val; response[1] = val >> 8; response[0] = 'V'; LOCK_TCPIP_CORE(); websocket_write(pcb, response, 3, WS_BIN_MODE); UNLOCK_TCPIP_CORE(); } vTaskDelayMs(500); } syslog_detach(); vTaskDelete(nullptr); } char str[] = "L00000000\n"; /** * This function is called when websocket frame is received. * * Note: this function is executed on TCP thread and should return as soon * as possible. */ void websocket_cb(struct tcp_pcb *pcb, char *data, u16_t data_len, uint8_t /*mode*/) { //mode should be WS_BIN_MODE or WS_TEXT_MODE messages::response res; res.cmd = messages::NONE; res.ret = ERROR; res.val = 0; bool togl = false; if(data[0] == 'R') { // Restart res.cmd = (messages::id) 'R'; res.ret = OK; } else if(data[0] == 'X') { // Clear Config res.cmd = (messages::id) 'X'; res.ret = OK; } else if(data[0] == 'B') { // Disable LED uint32_t val = data[7] | (data[6] << 8) | (data[5] << 16) | (data[4] << 24); bottom_color.r = data[7]; bottom_color.g = data[6]; bottom_color.b = data[5]; has_changed.lights = true; syslog("B"); syslog_i32(val); syslog("\n"); //signal_led(false); res.cmd = (messages::id) 'B'; res.ret = OK; res.val = 1; } else if(data[0] == 'T') { // Disable LED uint32_t val = data[7] | (data[6] << 8) | (data[5] << 16) | (data[4] << 24); top_color.r = data[7]; top_color.g = data[6]; top_color.b = data[5]; has_changed.lights = true; syslog("T"); syslog_i32(val); syslog("\n"); //signal_led(false); res.cmd = (messages::id) 'T'; res.ret = OK; res.val = 1; } else if(data[0] == 'J') { // Disable LED uint32_t val = data[7] | (data[6] << 8) | (data[5] << 16) | (data[4] << 24); light_value = data[7] | (data[6] << 8); has_changed.lights = true; syslog("J"); syslog_i32(val); syslog("\n"); //signal_led(false); res.cmd = (messages::id) 'J'; res.ret = OK; res.val = 1; } else if(data[0] == 'D') { // Disable LED syslog("G\n"); signal_led(false); res.cmd = (messages::id) 'G'; res.ret = OK; res.val = 1; } else if(data[0] == 'E') { // Enable LED syslog("E\n"); signal_led(true); res.cmd = (messages::id) 'G'; res.ret = OK; res.val = 0; } else if(data[0] == 'F') { togl = !togl; signal_led(togl); auto *f = (messages::fw_frame *) data; if(f->seq == 0) { system_otaflash_init(); } uint16_t ack = 0; res.ret = system_otaflash_chunk(f->data, ntohs(f->len), ntohs(f->seq), ntohl(f->hash), &ack); res.val = htons(ack); res.cmd = (messages::id) 'F'; } else if(data[0] == 'C') { signal_led(false); auto *f = (messages::fw_check *) data; res.ret = system_otaflash_verify_and_switch(ntohl(f->len), ntohl(f->hash)); res.cmd = (messages::id) 'C'; } else if(data[0] == 'S') { int8_t en = 0; if(data[1] == 'E') en = 1; char *ssid = &data[2]; size_t ssid_len = strlen(ssid); char *password = &data[3 + ssid_len]; size_t password_len = strlen(password); (void) password_len; sysparam_set_int8("wifi_sta_enable", en); sysparam_set_string("wifi_sta_ssid", ssid); sysparam_set_string("wifi_sta_password", password); //sysparam_get_int8("wifi_sta_dhcp", wifi_sta_dhcp); //sysparam_get_int32("wifi_sta_ip_addr", wifi_sta_ip_addr); //sysparam_get_int32("wifi_sta_netmask", wifi_sta_netmask); //sysparam_get_int32("wifi_sta_gateway", wifi_sta_gateway); res.cmd = (messages::id) 'S'; } else if(data[0] == 'A') { int8_t en = 0; uint8_t dns_enable = 0; uint8_t mdns_enable = 0; if(data[1] == 'E') en = 1; char *ssid = &data[2]; size_t ssid_len = strlen(ssid); char *password = &data[3 + ssid_len]; size_t password_len = strlen(password); (void) password_len; sysparam_set_int8("wifi_ap_enable", en); sysparam_set_string("wifi_ap_ssid", ssid); sysparam_set_string("wifi_ap_password", password); //sysparam_get_int32("wifi_ap_ip_addr", "172.16.0.1"); //sysparam_get_int32("wifi_ap_netmask", "255.255.0.0"); //sysparam_set_int8("wifi_ap_dns", dns_enable); //sysparam_set_int8("wifi_ap_mdns", mdns_enable); res.cmd = (messages::id) 'A'; } else { printf("[websocket_callback]:\n%.*s\n", (int) data_len, (char *) data); printf("Unknown command %c\n", data[0]); res.ret = ERROR; } LOCK_TCPIP_CORE(); websocket_write(pcb, (uint8_t *) &res, sizeof(res), WS_BIN_MODE); UNLOCK_TCPIP_CORE(); if(res.ret == OK) { if(res.cmd == 'R' || res.cmd == 'C') { // Restart printf("rebooting now"); taskYIELD(); vPortEnterCritical(); sdk_system_restart(); } else if(res.cmd == 'X') { // Clear Config taskYIELD(); system_clear_config(); } } } /** * This function is called when new websocket is open and * creates a new websocket_task if requested URI equals '/stream'. */ void websocket_open_cb(struct tcp_pcb *pcb, const char *uri) { printf("WS URI: %s\n", uri); if(!strcmp(uri, "/stream")) { xTaskCreate(&websocket_task, "websocket_task", 512, (void *) pcb, 3, nullptr); } } /*const char *gpio_cgi_handler(int iIndex, int iNumParams, char *pcParam[], char *pcValue[]) { for (int i = 0; i < iNumParams; i++) { if(strcmp(pcParam[i], "on") == 0) { uint8_t gpio_num = atoi(pcValue[i]); gpio_enable(gpio_num, GPIO_OUTPUT); gpio_write(gpio_num, true); } else if(strcmp(pcParam[i], "off") == 0) { uint8_t gpio_num = atoi(pcValue[i]); gpio_enable(gpio_num, GPIO_OUTPUT); gpio_write(gpio_num, false); } else if(strcmp(pcParam[i], "toggle") == 0) { uint8_t gpio_num = atoi(pcValue[i]); gpio_enable(gpio_num, GPIO_OUTPUT); gpio_toggle(gpio_num); } } return "/index.html"; }*/ extern "C" void httpd_task(void *pvParameters) { (void) pvParameters; //while (!uxSemaphoreGetCount(wifi_available_semaphore)) // vTaskDelay(500 / portTICK_PERIOD_MS); /*tCGI pCGIs[] = { {"/gpio", (tCGIHandler) gpio_cgi_handler}, }; // register handlers and start the server http_set_cgi_handlers(pCGIs, sizeof(pCGIs) / sizeof(pCGIs[0]));*/ websocket_register_callbacks((tWsOpenHandler) websocket_open_cb, (tWsHandler) websocket_cb); httpd_init(); uint16_t last_voltage = 0; while (1) { uint16_t voltage = sdk_system_adc_read(); if(false && voltage != last_voltage) { last_voltage = voltage; voltage_val = voltage; has_changed.voltage = true; } //has_changed.global = true; vTaskDelayMs(5000); } }