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Generic library for real-time communications with async IO support

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libre README

libre is a Generic library for real-time communications with async IO support.

Build ccheck OpenSSL no-deprecated and LibreSSL

Features

  • SIP Stack (RFC 3261)
  • SDP
  • RTP and RTCP
  • SRTP and SRTCP (Secure RTP)
  • DNS-Client
  • STUN/TURN/ICE stack
  • BFCP
  • HTTP-stack with client/server
  • Websockets
  • Async I/O (select, epoll, kqueue)
  • UDP/TCP/TLS/DTLS transport
  • JSON parser
  • Real Time Messaging Protocol (RTMP)

Building

libre is using CMake. CMake and OpenSSL development headers must be installed before building.

Build with debug enabled

$ cmake -B build
$ cmake --build build -j
$ sudo cmake --install build
$ sudo ldconfig

Build/run tests

cmake -B build && cmake --build build -t retest -j
build/test/retest -rv

On some distributions, /usr/local/lib may not be included in ld.so.conf. You can check with grep "/usr/local/lib" /etc/ld.so.conf.d/*.conf and add if necessary:

$ echo "/usr/local/lib" | sudo tee /etc/ld.so.conf.d/libc.conf
$ sudo ldconfig

Build with release

$ cmake -B build -DCMAKE_BUILD_TYPE=Release 
$ cmake --build build -j
$ sudo cmake --install build
$ sudo ldconfig

Build with clang compiler

$ cmake -B build -DCMAKE_C_COMPILER=clang -DCMAKE_CXX_COMPILER=clang++
$ cmake --build build -j
$ sudo cmake --install build
$ sudo ldconfig

Examples

Coding examples are available from the redemo project.

License

The libre project is using the BSD license.

Contributing

Patches can sent via Github Pull-Requests

Design goals

  • Portable POSIX source code (ISO C99 and C11 standard)
  • Robust, fast, low memory footprint
  • RFC compliance
  • IPv4 and IPv6 support

Modules

Name Status Description
aes stable AES (Advanced Encryption Standard)
async testing Async module
base64 stable Base-64 encoding/decoding functions
bfcp stable The Binary Floor Control Protocol (BFCP)
conf stable Configuration file parser
crc32 stable 32-bit CRC defined in ITU V.42
dbg stable Debug printing
dns stable DNS resolving (NAPTR, SRV, A)
fmt stable Formatted printing and regular expression
hash stable Hashmap table
hmac stable HMAC: Keyed-Hashing for Message Authentication
http stable HTTP parser (RFC 2616)
httpauth stable HTTP-based Authentication (RFC 2617)
ice stable Interactive Connectivity Establishment (ICE)
json stable JavaScript Object Notation (JSON)
list stable Sortable doubly-linked list handling
main stable Main poll loop
mbuf stable Linear memory buffers
md5 stable The MD5 Message-Digest Algorithm (RFC 1321)
mem stable Memory referencing
mod stable Run-time module loading
mqueue stable Thread-safe message queue
msg stable Generic message component library
net stable Networking routines
odict stable Ordered Dictionary
rtmp stable Real Time Messaging Protocol
rtp stable Real-time Transport Protocol
sa stable Socket Address functions
sdp stable Session Description Protocol
sha stable Secure Hash Standard, NIST, FIPS PUB 180-1
sip stable Core SIP library
sipevent stable SIP Event framework
sipreg stable SIP register client
sipsess stable SIP Sessions
srtp stable Secure Real-time Transport Protocol (SRTP)
stun stable Session Traversal Utilities for NAT (STUN)
sys stable System information
tcp stable TCP transport
telev stable Telephony Events (RFC 4733)
thread testing C11 threads (with pthread and win32 emulation)
tls stable Transport Layer Security
tmr stable Timer handling
turn stable Obtaining Relay Addresses from STUN (TURN)
trace testing Trace Helpers JSON traces (chrome://tracing)
udp stable UDP transport
unixsock testing Unix domain sockets
uri stable Generic URI library
websock stable WebSocket Client and Server

legend:

  • stable - code complete; stable code and stable API
  • testing - code complete, but API might change
  • unstable - code complete but not completely tested
  • development - code is under development

Features

  • RFC 1321 - The MD5 Message-Digest Algorithm
  • RFC 1886 - DNS Extensions to support IP version 6
  • RFC 2616 - Hypertext Transfer Protocol -- HTTP/1.1
  • RFC 2617 - HTTP Authentication: Basic and Digest Access Authentication
  • RFC 2782 - A DNS RR for Specifying the Location of Services (DNS SRV)
  • RFC 2915 - The Naming Authority Pointer (NAPTR) DNS Resource Record
  • RFC 3261 - SIP: Session Initiation Protocol
  • RFC 3262 - SIP Reliability of Provisional Responses
  • RFC 3263 - Locating SIP Servers
  • RFC 3264 - An Offer/Answer Model with SDP
  • RFC 3265 - SIP-Specific Event Notification
  • RFC 3311 - The SIP UPDATE Method
  • RFC 3327 - SIP Extension Header Field for Registering Non-Adjacent Contacts
  • RFC 3428 - SIP Extension for Instant Messaging
  • RFC 3489 - STUN - Simple Traversal of UDP Through NATs
  • RFC 3515 - The SIP Refer Method
  • RFC 3550 - RTP: A Transport Protocol for Real-Time Applications
  • RFC 3551 - RTP Profile for Audio and Video Conferences with Minimal Control
  • RFC 3555 - MIME Type Registration of RTP Payload Formats
  • RFC 3556 - SDP Bandwidth Modifiers for RTCP Bandwidth
  • RFC 3581 - An Extension to SIP for Symmetric Response Routing
  • RFC 3605 - RTCP attribute in SDP
  • RFC 3711 - The Secure Real-time Transport Protocol (SRTP)
  • RFC 3969 - The IANA URI Parameter Registry for SIP
  • RFC 3994 - Indication of Message Composition for Instant Messaging
  • RFC 4566 - SDP: Session Description Protocol
  • RFC 4582 - The Binary Floor Control Protocol (BFCP)
  • RFC 4582bis - The Binary Floor Control Protocol (BFCP)
  • RFC 4585 - Extended RTP Profile for RTCP-Based Feedback
  • RFC 4733 - RTP Payload for DTMF Digits, Telephony Tones, and Teleph. Signals
  • RFC 4961 - Symmetric RTP / RTP Control Protocol (RTCP)
  • RFC 5104 - Codec Control Messages in AVPF
  • RFC 5118 - SIP Torture Test Messages for IPv6
  • RFC 5245 - Interactive Connectivity Establishment (ICE)
  • RFC 5246 - The TLS Protocol Version 1.2
  • RFC 5389 - Session Traversal Utilities for NAT (STUN)
  • RFC 5626 - Managing Client-Initiated Connections in SIP
  • RFC 5761 - Multiplexing RTP Data and Control Packets on a Single Port
  • RFC 5766 - Traversal Using Relays around NAT (TURN)
  • RFC 5768 - Indicating Support for ICE in SIP
  • RFC 5769 - Test vectors for STUN
  • RFC 5780 - NAT Behaviour Discovery Using STUN
  • RFC 6026 - Correct Transaction Handling for 2xx Resp. to SIP INVITE Requests
  • RFC 6156 - TURN Extension for IPv6
  • RFC 6188 - The Use of AES-192 and AES-256 in Secure RTP
  • RFC 6455 - The WebSocket Protocol
  • RFC 7159 - JavaScript Object Notation (JSON)
  • RFC 7350 - DTLS as Transport for STUN
  • RFC 7616 - HTTP Digest Access Authentication
  • RFC 7714 - AES-GCM Authenticated Encryption in SRTP

Supported platforms

System Support type Supported versions Notes
Linux Tier 1 glibc >= 2.27
Linux Tier 1 musl >= 1.2
macOS Tier 1 macOS >= 10.10
Windows Tier 1 >= Windows 8 MinGW-w64, >= VS 2019
Android Tier 2
iOS Tier 2
FreeBSD Tier 2 >= 12
OpenBSD Tier 2 >= 7.4
Linux Tier 2 uClibc

Support types

  • Tier 1: Officially supported and tested with CI. Any contributed patch MUST NOT break such systems.

  • Tier 2: Officially supported, but not necessarily tested with CI. These systems are maintained to the best of collaborators ability, without being a top priority.

  • Tier 3: Community maintained. These systems may inadvertently break and the community and interested parties are expected to help with the maintenance.

Supported versions of C Standard library

  • Android bionic
  • BSD libc
  • GNU C Library (glibc)
  • Windows C Run-Time Libraries (CRT)
  • uClibc
  • musl

Supported compilers:

  • gcc 4.9 or later
  • MSVC 2019
  • clang 3.x or later

Supported versions of OpenSSL

  • OpenSSL version 1.1.1
  • OpenSSL version 3.x.x
  • LibreSSL version 3.x

Coding guidelines

  • Use enum for constants where appropriate
  • Use const as much as possible (where appropriate)
  • Use C99 data types (intN_t, uintN_t, bool)
  • Hide data-types in .c files where possible (use struct foo)
  • Avoid malloc/free, use mem_alloc/mem_deref instead
  • CVS/svn/git tags are NOT allowed in the code!
  • Avoid bit-fields in structs which are not portable
  • Use dummy handlers for timing-critical callbacks
  • return err, return alloced objects as pointer-pointers
  • in allocating functions, first arg is always double pointer
  • Use POSIX error-codes; EINVAL for invalid args, EBADMSG for parse errors and EPROTO for protocol errors

Transport protocols

TCP UDP TLS DTLS
BFCP - yes - -
DNS yes yes - -
HTTP yes n/a yes n/a
ICE - yes - -
RTP - yes - -
RTCP - yes - -
RTMP yes - yes -
SIP yes yes yes -
STUN yes yes yes yes
TURN yes yes yes yes
WEBSOCK yes n/a yes n/a

Related projects

References

https://github.com/creytiv/re

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