#user html;
worker_processes 1;
#error_log logs/error.log;
#error_log logs/error.log notice;
#error_log logs/error.log info;
#pid logs/nginx.pid;
events {
worker_connections 1024;
}
http {
include mime.types;
default_type application/octet-stream;
#log_format main '$remote_addr - $remote_user [$time_local] "$request" '
# '$status $body_bytes_sent "$http_referer" '
# '"$http_user_agent" "$http_x_forwarded_for"';
#access_log logs/access.log main;
sendfile on;
#tcp_nopush on;
#keepalive_timeout 0;
keepalive_timeout 65;
#gzip on;
server {
listen 80;
server_name localhost;
location / {
root /usr/share/nginx/html;
index index.html index.htm;
}
error_page 500 502 503 504 /50x.html;
location = /50x.html {
root /usr/share/nginx/html;
}
# This URL provides RTMP statistics in XML
location /stat {
rtmp_stat all;
# Use this stylesheet to view XML as web page
# in browser
rtmp_stat_stylesheet stat.xsl;
}
location /stat.xsl {
# XML stylesheet to view RTMP stats.
# Copy stat.xsl wherever you want
# and put the full directory path here
root /path/to/stat.xsl/;
}
location /hls {
# Serve HLS fragments
types {
application/vnd.apple.mpegurl m3u8;
video/mp2t ts;
}
root /tmp;
add_header Cache-Control no-cache;
add_header Access-Control-Allow-Origin *;
}
location /dash {
# Serve DASH fragments
root /tmp;
add_header Cache-Control no-cache;
add_header Access-Control-Allow-Origin *;
}
}
# another virtual host using mix of IP-, name-, and port-based configuration
#
#server {
# listen 8000;
# listen somename:8080;
# server_name somename alias another.alias;
# location / {
# root html;
# index index.html index.htm;
# }
#}
# HTTPS server
#
#server {
# listen 443 ssl;
# server_name localhost;
# ssl_certificate cert.pem;
# ssl_certificate_key cert.key;
# ssl_session_cache shared:SSL:1m;
# ssl_session_timeout 5m;
# ssl_ciphers HIGH:!aNULL:!MD5;
# ssl_prefer_server_ciphers on;
# location / {
# root html;
# index index.html index.htm;
# }
#}
}
rtmp {
server {
# Documentation
# https://github.com/arut/nginx-rtmp-module/wiki/Directives
listen 1935;
chunk_size 4000;
# Video on demand
application vod {
play /var/vod;
}
# HLS
# Incoming stream must be in H264/AAC. For iPhones use baseline H264
# profile (see ffmpeg example).
# This example creates RTMP stream from movie ready for HLS:
#
# ffmpeg -loglevel verbose -re -i movie.avi -vcodec libx264
# -vprofile baseline -acodec libmp3lame -ar 44100 -ac 1
# -f flv rtmp://localhost:1935/hls/movie
#
# Example gstreamer pipeline:
# gst-launch-1.0 videotestsrc is-live=true ! timeoverlay ! x264enc
# byte-stream=true tune=zerolatency key-int-max=30 !
# "video/x-h264, profile=baseline" ! flvmux streamable=true !
# rtmpsink location=rtmp://localhost:1935/hls/live
#
# Playback url is http://localhost/hls/live.m3u8
application hls {
live on;
hls on;
hls_path /tmp/hls;
}
application dash {
live on;
dash on;
dash_path /tmp/dash;
}
# TV mode: one publisher, many subscribers
#application mytv {
# enable live streaming
#live on;
# record first 1K of stream
#record all;
#record_path /tmp/av;
#record_max_size 1K;
# append current timestamp to each flv
#record_unique on;
# publish only from localhost
#allow publish 127.0.0.1;
#deny publish all;
#allow play all;
#}
# Transcoding (ffmpeg needed)
#application big {
#live on;
# On every pusblished stream run this command (ffmpeg)
# with substitutions: $app/${app}, $name/${name} for application & stream name.
#
# This ffmpeg call receives stream from this application &
# reduces the resolution down to 32x32. The stream is the published to
# 'small' application (see below) under the same name.
#
# ffmpeg can do anything with the stream like video/audio
# transcoding, resizing, altering container/codec params etc
#
# Multiple exec lines can be specified.
#exec ffmpeg -re -i rtmp://localhost:1935/$app/$name -vcodec flv -acodec copy -s 32x32
# -f flv rtmp://localhost:1935/small/${name};
#}
#application small {
#live on;
# Video with reduced resolution comes here from ffmpeg
#}
#application webcam {
#live on;
# Stream from local webcam
#exec_static ffmpeg -f video4linux2 -i /dev/video0 -c:v libx264 -an
# -f flv rtmp://localhost:1935/webcam/mystream;
#}
#application mypush {
# live on;
# Every stream published here
# is automatically pushed to
# these two machines
#push rtmp1.example.com;
#push rtmp2.example.com:1934;
#}
#application mypull {
#live on;
# Pull all streams from remote machine
# and play locally
#pull rtmp://rtmp3.example.com pageUrl=www.example.com/index.html;
#}
#application mystaticpull {
#live on;
# Static pull is started at nginx start
#pull rtmp://rtmp4.example.com pageUrl=www.example.com/index.html name=mystream static;
#}
# Many publishers, many subscribers
# no checks, no recording
#application videochat {
#live on;
# The following notifications receive all
# the session variables as well as
# particular call arguments in HTTP POST
# request
# Make HTTP request & use HTTP retcode
# to decide whether to allow publishing
# from this connection or not
#on_publish http://localhost:8080/publish;
# Same with playing
#on_play http://localhost:8080/play;
# Publish/play end (repeats on disconnect)
#on_done http://localhost:8080/done;
# All above mentioned notifications receive
# standard connect() arguments as well as
# play/publish ones. If any arguments are sent
# with GET-style syntax to play & publish
# these are also included.
# Example URL:
# rtmp://localhost/myapp/mystream?a=b&c=d
# record 10 video keyframes (no audio) every 2 minutes
#record keyframes;
#record_path /tmp/vc;
#record_max_frames 10;
#record_interval 2m;
# Async notify about an flv recorded
#on_record_done http://localhost:8080/record_done;
#}
}
}