Full story: https://www.hackster.io/anatoli-arkhipenko/multi-client-mjpeg-streaming-from-esp32-47768f
Video: https://youtu.be/bsAVJSZeSmc
Updated on 2021-07-01:
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OP updated to account for recent repo changes by Espressif
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Recompiled with ESP32 Arduino Core 1.0.6
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Updated with latest ESP CAM drivers
MJPEG Multiclient Streaming Server using RTOS queue to serve video to clients.
The problem with this approach is that the slowest connected client slows it down for everyone.
MJPEG Multiclient Streaming Server using dedicated RTOS tasks to serve video to clients.
This solves the problem of slowest client as every client is served independently based on their bandwidth. Slow clients are just not getting all the frames.
MJPEG Multiclient Streaming Server using dedicated RTOS tasks to serve video to clients.
All captured frames are stored in PSRAM (until you run out of memory) and served to individual clients one after another, so every client is guaranteed to get all frames in order, at their own pace (good for recording without frame drops)
The repository should compile and work AS-IS as of the date stated above. Espressif is actively working on the camera drivers, and their future updates may break the procedure below. Please report the broken process providing as much information as possible, definitely the make and model of your camera device, version of the Arduino Core and IDE used.
Remember, this is a hack, a POC and a test. This is NOT GUARANTEED to work on all ESP32-based devices. The performance could be different depending on the make, brand and manufacturer of your camera.
Please do not demand fixes and updates - you are welcome to take this repo as a baseline and improve upon it.
Have fun!
Use this process ONLY if you want to update to the very latest drivers.
Remember: updating to the latest drivers may break the code dependencies and require investigation / code changes.
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Clone or pull this repo locally using GIT
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Use AS-IS (in Arduino IDE) for guaranteed results. If you feel adventurous and brave - proceed to step 3.
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Download latest ZIP file from https://github.com/espressif/esp32-camera.git into the esp32-cam subfolder
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In the archive: delete
examples
andtest
folders -
Delete ALL FILES in the sketch folder (from step 1) except
esp32-cam*.ino
andcamera_pins.h
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In the archive: switch to subfolder
esp32-camera-master/target
and delete subfolders foresp32s2
andesp32s3
- I have not tested with those ones -
unzip using
unzip -jo esp32-camera-master.zip
command. This will place all files in the same folder in a flat file structureNOTE: please observe the
-jo
flag: the sketch assumes all files are in the same folder and will overwrite the existing old files without asking for confirmation.
In esp32-cam.ino sketch select your camera pin assignment.
The choices are:
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CAMERA_MODEL_WROVER_KIT
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CAMERA_MODEL_ESP_EYE
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CAMERA_MODEL_M5STACK_PSRAM
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CAMERA_MODEL_M5STACK_WIDE
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CAMERA_MODEL_AI_THINKER
Compile the esp32-cam.ino sketch using the following settings:
- ESP32 Dev Module
- CPU Freq: 240
- Flash Freq: 80
- Flash mode: QIO
- Flash Size: 4Mb
- Partition: Default, Minimal SPIFFS (or any other that would fit the sketch)
- PSRAM: Enabled
I was able to run multiple browser windows, multiple VLC windows and connect multiple Blynk video widgets (max: 10) to ESP-EYE chip. The delay on the browser window was almost unnoticeable. In VLC you notice a 1 second delay due to buffering. Blynk performance all depends on the phone, so no comments there.
This is incredible considering the size of this thing! The camera on ESP-EYE is actually quite good.
https://github.com/arkhipenko/esp32-cam-mjpeg
https://github.com/arkhipenko/esp32-cam-mjpeg-multiclient
ESP32 MJPEG streaming server servicing multiple clients (FreeRTOS based) with the latest camera drivers from espressif.
https://github.com/arkhipenko/esp32-mjpeg-multiclient-espcam-drivers