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authorMaZderMind <github@mazdermind.de>2015-07-09 18:20:32 +0200
committerMaZderMind <github@mazdermind.de>2015-07-09 18:20:32 +0200
commitbeea5f6f54513e0a94e567dc945c28e570cb79df (patch)
tree981a632974dfee75d663b3b12de9756d86ce8ec4 /voctocore
parent16cfb8c85896d9b1d4ad9a0d92c28e8dcc1324ca (diff)
First run of Documentation
Diffstat (limited to 'voctocore')
-rw-r--r--voctocore/README.md64
1 files changed, 55 insertions, 9 deletions
diff --git a/voctocore/README.md b/voctocore/README.md
index e47ec51..14855e9 100644
--- a/voctocore/README.md
+++ b/voctocore/README.md
@@ -1,13 +1,31 @@
-# Server-Pipeline Structure
-````
+# Voctocore - The videomixer core-process
+
+## Design goals
+Our Design is heavily influenced by gst-switch. We wanted a small videomixer core-process, whose sourcecode can be read and understand in about a weekend.
+All Sources (Cameras, Slide-Grabbers) and Sinks (Streaming, Recording) should be separate Processes. As far as possible we wanted to reuse our existing and well-tested ffmpeg Commandlines for streaming and recording. It should be possible to connect additional Sinks at any time while the number of Sources is predefined in our Setup. All sources and sinks should be able to die and get restarted without taking the core process down.
+While Sources ans Sinks all run on the same Machine, Control- or Monitoring-Clients, for example a GUI, should be able to run on a different machine and connect to the core-process via Gigabit Ethernet. The core-process should be controllable by a very simple protocol which can easily be scripted or spoken with usual networking tools.
+
+## Design decisions
+To meet our goal of "read and understand in about a weekend" python was chosen as language for the high-level parts, with [GStreamer](http://gstreamer.freedesktop.org/) for the low-level media handling. GStreamer can be controlled via the [PyGI](https://wiki.gnome.org/action/show/Projects/PyGObject) bindings from Python.
+As an Idea borrowed from gst-switch, all Video- and Audio-Streams to and from the core are handled via TCP-Connections. Because they transport raw Video-Frames the only reasonable transport is via the loopback interface or a dedicated GBit-NIC (1920×1080×2 (I420)×8 (Bits)×25 (fps) = ~830 MBit/s). Nevertheless TCP is a quite efficient and good supported transport mechanism. For compatibility with ffmpeg and because of its good properties when streamed over TCP, [Matroska](http://www.matroska.org/) was chosen as a Container.
+
+The ubiquitous Input/Output-Format into the core-process is therefore Raw I420 Frames and Raw S16LE Audio in a Matroska container for Timestamping via TCP over localhost. Network handling is done in python, because it allows for greater flexibility. After the TCP connection is ready, its file descriptor is passed to GStreamer which handles the low-level read/write operations. To be able to attach/detach sinks, the `multifdsink`-Element can be used. For the Sources it's more complicated:
+
+When a source is not connected, its video and audio stream must be substituted with black frames ans silence, to that the remaining parts of the pipeline can keep on running. To achive this, a separate GStreamer-Pipeline is launched for an incoming Source-Connection and destroyed in case of a disconnect or an error. To pass Video -and Audio-Buffers between the Source-Pipelines and the other parts of the Mixer, we make use of the `inter(audio/video)(sink/source)`-Elements. `intervideosrc` and `interaudiosrc` implement the creation of black frames and silence, in case no source is connected or the source broke down somehow.
-17000… VSource (Stream-Blanker) -----\
-18000 ASource (Stream-Blanker) ------\
+If enabled in Config, the core process offers two formats for most outputs: Raw-Frames in mkv as described above, which should be used to feed recording or streaming processes running on the same machine. For the GUI which usually runs on a different computer, they are not suited because of the bandwidth requirements (1920×1080 I420 @25fps = 791 MBit/s). For this reason the Servers offers Preview-Ports for each Input and the Main-Mix, which serves the same content, but the video frames there are jpeg compressed, combined with uncompressed S16LE audio and encapsulated in mkv.
+
+Also, if enabled in Config, another Building-Block is chained after the Main-Mix: the StreamBlanker. It is used in Cases when there should be no Stream, for example in Breaks between
+
+## Block-Level Diagram
+````
+17000… VSource** (Stream-Blanker) ---\
+18000 ASource** (Stream-Blanker) ----\
\
16000 VSource (Background) \
\ \
--> VideoMix \
- / \ -> StreamBlanker -> StreamOutputPort 15000
+ / \ -> StreamBlanker** -> StreamOutputPort** 15000
/ \ /
/ ------> OutputPort 11000
/ / \-> Encoder* -> PreviewPort* 12000
@@ -17,11 +35,37 @@
10000… AVSource --> MirrorPort 13000…
\-> Encoder* -> PreviewPort* 14000…
-*) only when encode_previews=true is configured
+9999 Control-Server
+
+*) only when [previews] enabled=true is configured
+**) only when [stream-blanker] enabled=true is configured
````
-# Control Protocol
-TCP-Port 9999
+## Network Ports Listing
+Ports that will accept Raw I420 Frames and Raw S16LE Audio in a Matroska container:
+ - 10000, 10001, … – Main Video-Sources, depending on the number of configured Sources
+
+Ports that will accept Raw I420 Frames without Audio in a Matroska container:
+ - 16000 Mixer – Background Loop
+ - 17000, 17001, … – Stream-Blanker Video-Input, depending on the number of configured Sources
+
+Ports that will accept Raw S16LE Audio wihout Video in a Matroska container:
+ - 18000 – Stream-Blanker Audio-Input
+
+Ports that will provide Raw I420 Frames and Raw S16LE Audio in a Matroska container:
+ - 13000, 13001, … – Main Video-Source Mirrors, depending on the number of configured Sources
+ - 11000 – Main Mixer Output
+ - 15000 – Stream Output – only when [stream-blanker] enabled=true is configured
+
+Ports that will provide JPEG Frames and Raw S16LE Audio in a Matroska container – only when [previews] enabled=true is configured
+ - 14000, 14001, … – Main Video-Source Mirrors, depending on the number of configured Sources
+ - 12000 – Main Mixer Output
+
+Port 9999 will Accept Control Protocol Connections.
+
+## Control Protocol
+To Control operation of the Video-Mixer, a simple line-based TCP-Protocol is used. TCP-Port 9999 // FIXME
+
````
< set_video_a cam1
> ok
@@ -54,7 +98,7 @@ TCP-Port 9999
````
-# Messages
+## Messages
Messages are Client-to-Client information that don't touch the server, while being distributed on its control-socket:
````
< message foo bar moo
@@ -64,3 +108,5 @@ Messages are Client-to-Client information that don't touch the server, while bei
> signal message foo bar moo
````
+
+## Configuration