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520 lines
15 KiB
520 lines
15 KiB
4 years ago
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/*
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This is a simple MJPEG streaming webserver implemented for AI-Thinker ESP32-CAM
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and ESP-EYE modules.
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This is tested to work with VLC and Blynk video widget and can support up to 10
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simultaneously connected streaming clients.
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Simultaneous streaming is implemented with dedicated FreeRTOS tasks.
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Inspired by and based on this Instructable: $9 RTSP Video Streamer Using the ESP32-CAM Board
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(https://www.instructables.com/id/9-RTSP-Video-Streamer-Using-the-ESP32-CAM-Board/)
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Board: AI-Thinker ESP32-CAM or ESP-EYE
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Compile as:
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ESP32 Dev Module
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CPU Freq: 240
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Flash Freq: 80
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Flash mode: QIO
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Flash Size: 4Mb
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Partrition: Minimal SPIFFS
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PSRAM: Enabled
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*/
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// ESP32 has two cores: APPlication core and PROcess core (the one that runs ESP32 SDK stack)
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#define APP_CPU 1
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#define PRO_CPU 0
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#include "esp_camera.h"
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#include "ov2640.h"
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#include <WiFi.h>
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#include <WebServer.h>
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#include <WiFiClient.h>
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#include <esp_bt.h>
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#include <esp_wifi.h>
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#include <esp_sleep.h>
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#include <driver/rtc_io.h>
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// Select camera model
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//#define CAMERA_MODEL_WROVER_KIT
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#define CAMERA_MODEL_ESP_EYE
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//#define CAMERA_MODEL_M5STACK_PSRAM
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//#define CAMERA_MODEL_M5STACK_WIDE
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//#define CAMERA_MODEL_AI_THINKER
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#define MAX_CLIENTS 10
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#include "camera_pins.h"
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/*
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Next one is an include with wifi credentials.
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This is what you need to do:
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1. Create a file called "home_wifi_multi.h" in the same folder OR under a separate subfolder of the "libraries" folder of Arduino IDE. (You are creating a "fake" library really - I called it "MySettings").
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2. Place the following text in the file:
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#define SSID1 "replace with your wifi ssid"
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#define PWD1 "replace your wifi password"
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3. Save.
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Should work then
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*/
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#include "home_wifi_multi.h"
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//OV2640 cam;
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WebServer server(80);
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// ===== rtos task handles =========================
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// Streaming is implemented with 3 tasks:
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TaskHandle_t tMjpeg; // handles client connections to the webserver
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TaskHandle_t tCam; // handles getting picture frames from the camera and storing them locally
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uint8_t noActiveClients; // number of active clients
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// frameSync semaphore is used to prevent streaming buffer as it is replaced with the next frame
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SemaphoreHandle_t frameSync = NULL;
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// We will try to achieve 24 FPS frame rate
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const int FPS = 24;
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// We will handle web client requests every 100 ms (10 Hz)
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const int WSINTERVAL = 100;
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// ======== Server Connection Handler Task ==========================
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void mjpegCB(void* pvParameters) {
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TickType_t xLastWakeTime;
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const TickType_t xFrequency = pdMS_TO_TICKS(WSINTERVAL);
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// Creating frame synchronization semaphore and initializing it
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frameSync = xSemaphoreCreateBinary();
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xSemaphoreGive( frameSync );
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//=== setup section ==================
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// Creating RTOS task for grabbing frames from the camera
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xTaskCreatePinnedToCore(
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camCB, // callback
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"cam", // name
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4 * 1024, // stacj size
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NULL, // parameters
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2, // priority
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&tCam, // RTOS task handle
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PRO_CPU); // core
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// Registering webserver handling routines
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server.on("/mjpeg/1", HTTP_GET, handleJPGSstream);
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server.on("/jpg", HTTP_GET, handleJPG);
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server.onNotFound(handleNotFound);
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// Starting webserver
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server.begin();
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noActiveClients = 0;
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Serial.printf("\nmjpegCB: free heap (start) : %d\n", ESP.getFreeHeap());
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//=== loop() section ===================
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xLastWakeTime = xTaskGetTickCount();
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for (;;) {
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server.handleClient();
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// After every server client handling request, we let other tasks run and then pause
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taskYIELD();
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vTaskDelayUntil(&xLastWakeTime, xFrequency);
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}
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}
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// Current frame information
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volatile uint32_t frameNumber;
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volatile size_t camSize; // size of the current frame, byte
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volatile char* camBuf; // pointer to the current frame
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// ==== RTOS task to grab frames from the camera =========================
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void camCB(void* pvParameters) {
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TickType_t xLastWakeTime;
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// A running interval associated with currently desired frame rate
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const TickType_t xFrequency = pdMS_TO_TICKS(1000 / FPS);
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// Pointers to the 2 frames, their respective sizes and index of the current frame
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char* fbs[2] = { NULL, NULL };
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size_t fSize[2] = { 0, 0 };
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int ifb = 0;
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frameNumber = 0;
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//=== loop() section ===================
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xLastWakeTime = xTaskGetTickCount();
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for (;;) {
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// Grab a frame from the camera and query its size
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camera_fb_t* fb = NULL;
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fb = esp_camera_fb_get();
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size_t s = fb->len;
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// If frame size is more that we have previously allocated - request 125% of the current frame space
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if (s > fSize[ifb]) {
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fSize[ifb] = s + s;
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fbs[ifb] = allocateMemory(fbs[ifb], fSize[ifb]);
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}
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// Copy current frame into local buffer
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char* b = (char *)fb->buf;
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memcpy(fbs[ifb], b, s);
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esp_camera_fb_return(fb);
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// Let other tasks run and wait until the end of the current frame rate interval (if any time left)
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taskYIELD();
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vTaskDelayUntil(&xLastWakeTime, xFrequency);
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// Only switch frames around if no frame is currently being streamed to a client
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// Wait on a semaphore until client operation completes
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// xSemaphoreTake( frameSync, portMAX_DELAY );
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// Do not allow frame copying while switching the current frame
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xSemaphoreTake( frameSync, xFrequency );
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camBuf = fbs[ifb];
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camSize = s;
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ifb++;
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ifb &= 1; // this should produce 1, 0, 1, 0, 1 ... sequence
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frameNumber++;
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// Let anyone waiting for a frame know that the frame is ready
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xSemaphoreGive( frameSync );
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// Immediately let other (streaming) tasks run
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taskYIELD();
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// If streaming task has suspended itself (no active clients to stream to)
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// there is no need to grab frames from the camera. We can save some juice
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// by suspedning the tasks
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if ( noActiveClients == 0 ) {
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Serial.printf("mjpegCB: free heap : %d\n", ESP.getFreeHeap());
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Serial.printf("mjpegCB: min free heap) : %d\n", ESP.getMinFreeHeap());
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Serial.printf("mjpegCB: max alloc free heap : %d\n", ESP.getMaxAllocHeap());
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Serial.printf("mjpegCB: tCam stack wtrmark : %d\n", uxTaskGetStackHighWaterMark(tCam));
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Serial.flush();
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vTaskSuspend(NULL); // passing NULL means "suspend yourself"
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}
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}
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}
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// ==== Memory allocator that takes advantage of PSRAM if present =======================
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char* allocateMemory(char* aPtr, size_t aSize) {
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// Since current buffer is too smal, free it
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if (aPtr != NULL) free(aPtr);
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char* ptr = NULL;
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ptr = (char*) ps_malloc(aSize);
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// If the memory pointer is NULL, we were not able to allocate any memory, and that is a terminal condition.
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if (ptr == NULL) {
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Serial.println("Out of memory!");
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delay(5000);
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ESP.restart();
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}
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return ptr;
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}
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// ==== STREAMING ======================================================
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const char HEADER[] = "HTTP/1.1 200 OK\r\n" \
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"Access-Control-Allow-Origin: *\r\n" \
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"Content-Type: multipart/x-mixed-replace; boundary=123456789000000000000987654321\r\n";
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const char BOUNDARY[] = "\r\n--123456789000000000000987654321\r\n";
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const char CTNTTYPE[] = "Content-Type: image/jpeg\r\nContent-Length: ";
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const int hdrLen = strlen(HEADER);
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const int bdrLen = strlen(BOUNDARY);
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const int cntLen = strlen(CTNTTYPE);
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struct streamInfo {
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uint32_t frame;
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WiFiClient client;
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TaskHandle_t task;
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char* buffer;
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size_t len;
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};
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// ==== Handle connection request from clients ===============================
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void handleJPGSstream(void)
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{
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if ( noActiveClients >= MAX_CLIENTS ) return;
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Serial.printf("handleJPGSstream start: free heap : %d\n", ESP.getFreeHeap());
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streamInfo* info = new streamInfo;
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info->frame = frameNumber - 1;
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info->client = server.client();
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info->buffer = NULL;
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info->len = 0;
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// Creating task to push the stream to all connected clients
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int rc = xTaskCreatePinnedToCore(
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streamCB,
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"strmCB",
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3 * 1024,
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(void*) info,
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2,
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&info->task,
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APP_CPU);
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if ( rc != pdPASS ) {
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Serial.printf("handleJPGSstream: error creating RTOS task. rc = %d\n", rc);
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Serial.printf("handleJPGSstream: free heap : %d\n", ESP.getFreeHeap());
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// Serial.printf("stk high wm: %d\n", uxTaskGetStackHighWaterMark(tSend));
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delete info;
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}
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noActiveClients++;
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// Wake up streaming tasks, if they were previously suspended:
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if ( eTaskGetState( tCam ) == eSuspended ) vTaskResume( tCam );
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}
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// ==== Actually stream content to all connected clients ========================
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void streamCB(void * pvParameters) {
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char buf[16];
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TickType_t xLastWakeTime;
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TickType_t xFrequency;
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streamInfo* info = (streamInfo*) pvParameters;
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if ( info == NULL ) {
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Serial.println("streamCB: a NULL pointer passed");
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}
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// Immediately send this client a header
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info->client.write(HEADER, hdrLen);
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info->client.write(BOUNDARY, bdrLen);
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taskYIELD();
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xLastWakeTime = xTaskGetTickCount();
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xFrequency = pdMS_TO_TICKS(1000 / FPS);
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for (;;) {
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// Only bother to send anything if there is someone watching
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if ( info->client.connected() ) {
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if ( info->frame != frameNumber) {
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xSemaphoreTake( frameSync, portMAX_DELAY );
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if ( info->buffer == NULL ) {
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info->buffer = allocateMemory (info->buffer, camSize);
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info->len = camSize;
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}
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else {
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if ( camSize > info->len ) {
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info->buffer = allocateMemory (info->buffer, camSize);
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info->len = camSize;
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}
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}
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memcpy(info->buffer, (const void*) camBuf, info->len);
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xSemaphoreGive( frameSync );
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taskYIELD();
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info->frame = frameNumber;
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info->client.write(CTNTTYPE, cntLen);
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sprintf(buf, "%d\r\n\r\n", info->len);
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info->client.write(buf, strlen(buf));
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info->client.write((char*) info->buffer, (size_t)info->len);
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info->client.write(BOUNDARY, bdrLen);
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info->client.flush();
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}
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}
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else {
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// client disconnected - clean up.
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noActiveClients--;
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Serial.printf("streamCB: Stream Task stack wtrmark : %d\n", uxTaskGetStackHighWaterMark(info->task));
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Serial.flush();
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info->client.flush();
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info->client.stop();
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if ( info->buffer ) {
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free( info->buffer );
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info->buffer = NULL;
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}
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delete info;
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info = NULL;
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vTaskDelete(NULL);
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}
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// Let other tasks run after serving every client
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taskYIELD();
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vTaskDelayUntil(&xLastWakeTime, xFrequency);
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}
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}
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const char JHEADER[] = "HTTP/1.1 200 OK\r\n" \
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"Content-disposition: inline; filename=capture.jpg\r\n" \
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"Content-type: image/jpeg\r\n\r\n";
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const int jhdLen = strlen(JHEADER);
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// ==== Serve up one JPEG frame =============================================
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void handleJPG(void)
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{
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WiFiClient client = server.client();
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if (!client.connected()) return;
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camera_fb_t* fb = esp_camera_fb_get();
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client.write(JHEADER, jhdLen);
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client.write((char*)fb->buf, fb->len);
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esp_camera_fb_return(fb);
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}
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// ==== Handle invalid URL requests ============================================
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void handleNotFound()
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{
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String message = "Server is running!\n\n";
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message += "URI: ";
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message += server.uri();
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message += "\nMethod: ";
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message += (server.method() == HTTP_GET) ? "GET" : "POST";
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message += "\nArguments: ";
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message += server.args();
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message += "\n";
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server.send(200, "text / plain", message);
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}
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// ==== SETUP method ==================================================================
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void setup()
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{
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// Setup Serial connection:
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Serial.begin(115200);
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delay(1000); // wait for a second to let Serial connect
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Serial.printf("setup: free heap : %d\n", ESP.getFreeHeap());
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// Configure the camera
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// camera_config_t config;
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// config.ledc_channel = LEDC_CHANNEL_0;
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// config.ledc_timer = LEDC_TIMER_0;
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// config.pin_d0 = Y2_GPIO_NUM;
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// config.pin_d1 = Y3_GPIO_NUM;
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// config.pin_d2 = Y4_GPIO_NUM;
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// config.pin_d3 = Y5_GPIO_NUM;
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// config.pin_d4 = Y6_GPIO_NUM;
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// config.pin_d5 = Y7_GPIO_NUM;
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// config.pin_d6 = Y8_GPIO_NUM;
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// config.pin_d7 = Y9_GPIO_NUM;
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// config.pin_xclk = XCLK_GPIO_NUM;
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// config.pin_pclk = PCLK_GPIO_NUM;
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// config.pin_vsync = VSYNC_GPIO_NUM;
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// config.pin_href = HREF_GPIO_NUM;
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// config.pin_sscb_sda = SIOD_GPIO_NUM;
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// config.pin_sscb_scl = SIOC_GPIO_NUM;
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// config.pin_pwdn = PWDN_GPIO_NUM;
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// config.pin_reset = RESET_GPIO_NUM;
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// config.xclk_freq_hz = 20000000;
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// config.pixel_format = PIXFORMAT_JPEG;
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//
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// // Frame parameters: pick one
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// // config.frame_size = FRAMESIZE_UXGA;
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// // config.frame_size = FRAMESIZE_SVGA;
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// // config.frame_size = FRAMESIZE_QVGA;
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// config.frame_size = FRAMESIZE_VGA;
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// config.jpeg_quality = 12;
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// config.fb_count = 2;
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static camera_config_t camera_config = {
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.pin_pwdn = PWDN_GPIO_NUM,
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.pin_reset = RESET_GPIO_NUM,
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.pin_xclk = XCLK_GPIO_NUM,
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.pin_sscb_sda = SIOD_GPIO_NUM,
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||
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.pin_sscb_scl = SIOC_GPIO_NUM,
|
||
|
.pin_d7 = Y9_GPIO_NUM,
|
||
|
.pin_d6 = Y8_GPIO_NUM,
|
||
|
.pin_d5 = Y7_GPIO_NUM,
|
||
|
.pin_d4 = Y6_GPIO_NUM,
|
||
|
.pin_d3 = Y5_GPIO_NUM,
|
||
|
.pin_d2 = Y4_GPIO_NUM,
|
||
|
.pin_d1 = Y3_GPIO_NUM,
|
||
|
.pin_d0 = Y2_GPIO_NUM,
|
||
|
.pin_vsync = VSYNC_GPIO_NUM,
|
||
|
.pin_href = HREF_GPIO_NUM,
|
||
|
.pin_pclk = PCLK_GPIO_NUM,
|
||
|
|
||
|
.xclk_freq_hz = 20000000,
|
||
|
.ledc_timer = LEDC_TIMER_0,
|
||
|
.ledc_channel = LEDC_CHANNEL_0,
|
||
|
.pixel_format = PIXFORMAT_JPEG,
|
||
|
/*
|
||
|
FRAMESIZE_96X96, // 96x96
|
||
|
FRAMESIZE_QQVGA, // 160x120
|
||
|
FRAMESIZE_QCIF, // 176x144
|
||
|
FRAMESIZE_HQVGA, // 240x176
|
||
|
FRAMESIZE_240X240, // 240x240
|
||
|
FRAMESIZE_QVGA, // 320x240
|
||
|
FRAMESIZE_CIF, // 400x296
|
||
|
FRAMESIZE_HVGA, // 480x320
|
||
|
FRAMESIZE_VGA, // 640x480
|
||
|
FRAMESIZE_SVGA, // 800x600
|
||
|
FRAMESIZE_XGA, // 1024x768
|
||
|
FRAMESIZE_HD, // 1280x720
|
||
|
FRAMESIZE_SXGA, // 1280x1024
|
||
|
FRAMESIZE_UXGA, // 1600x1200
|
||
|
*/
|
||
|
// .frame_size = FRAMESIZE_QVGA,
|
||
|
// .frame_size = FRAMESIZE_UXGA,
|
||
|
// .frame_size = FRAMESIZE_SVGA,
|
||
|
// .frame_size = FRAMESIZE_VGA,
|
||
|
.frame_size = FRAMESIZE_UXGA,
|
||
|
.jpeg_quality = 16,
|
||
|
.fb_count = 2
|
||
|
};
|
||
|
|
||
|
#if defined(CAMERA_MODEL_ESP_EYE)
|
||
|
pinMode(13, INPUT_PULLUP);
|
||
|
pinMode(14, INPUT_PULLUP);
|
||
|
#endif
|
||
|
|
||
|
if (esp_camera_init(&camera_config) != ESP_OK) {
|
||
|
Serial.println("Error initializing the camera");
|
||
|
delay(10000);
|
||
|
ESP.restart();
|
||
|
}
|
||
|
|
||
|
|
||
|
// Configure and connect to WiFi
|
||
|
IPAddress ip;
|
||
|
|
||
|
WiFi.mode(WIFI_STA);
|
||
|
WiFi.begin(SSID1, PWD1);
|
||
|
Serial.print("Connecting to WiFi");
|
||
|
while (WiFi.status() != WL_CONNECTED)
|
||
|
{
|
||
|
delay(500);
|
||
|
Serial.print(F("."));
|
||
|
}
|
||
|
ip = WiFi.localIP();
|
||
|
Serial.println(F("WiFi connected"));
|
||
|
Serial.println("");
|
||
|
Serial.print("Stream Link: http://");
|
||
|
Serial.print(ip);
|
||
|
Serial.println("/mjpeg/1");
|
||
|
|
||
|
|
||
|
// Start mainstreaming RTOS task
|
||
|
xTaskCreatePinnedToCore(
|
||
|
mjpegCB,
|
||
|
"mjpeg",
|
||
|
2*1024,
|
||
|
NULL,
|
||
|
2,
|
||
|
&tMjpeg,
|
||
|
APP_CPU);
|
||
|
|
||
|
Serial.printf("setup complete: free heap : %d\n", ESP.getFreeHeap());
|
||
|
}
|
||
|
|
||
|
void loop() {
|
||
|
// this seems to be necessary to let IDLE task run and do GC
|
||
|
vTaskDelay(1000);
|
||
|
}
|