Table of Contents
List of Tables
List of Examples
rtpengine_sock
parameterrtpengine_disable_tout
parameterrtpengine_tout
parameterrtpengine_retr
parameterextra_id_pv
parametersetid_avp
parameterrtpengine_use_set
usagertpengine_offer
usagertpengine_offer
usage with body replacertpengine_offer
usage with call recordingrtpengine_offer
usage for transcodingrtpengine_answer
usagertpengine_delete
usagertpengine_manage
usagertpengine_start_recording
usagertpengine_enable
usagertpengine_show
usageteardown
usageThis is a module that enables media streams to be proxied via an RTP proxy. The only RTP proxy currently known to work with this module is the Sipwise rtpengine https://github.com/sipwise/rtpengine. The rtpengine module is a modified version of the original rtpproxy module using a new control protocol. The module is designed to be a drop-in replacement for the old module from a configuration file point of view, however due to the incompatible control protocol, it only works with RTP proxies which specifically support it.
The rtpengine module can support multiple RTP proxies for balancing/distribution and control/selection purposes.
The module allows definition of several sets of rtpengines. Load-balancing will be performed over a set and the admin has the ability to choose what set should be used. The set is selected via its id - the id being defined with the set. Refer to the “rtpengine_sock” module parameter definition for syntax description.
The balancing inside a set is done automatically by the module based on the weight of each RTP proxy from the set.
The selection of the set is done from script prior using rtpengine_delete(), rtpengine_offer() or rtpengine_answer() functions - see the rtpengine_use_set() function.
Another way to select the set is to define setid_avp module parameter and assign setid to the defined avp before calling rtpengine_offer() or rtpengine_manage() function. If forwarding of the requests fails and there is another branch to try, remember to unset the avp after calling rtpengine_delete() function.
For backward compatibility reasons, a set with no id take by default the id 0. Also if no set is explicitly set before rtpengine_delete(), rtpengine_offer() or rtpengine_answer() the 0 id set will be used.
IMPORTANT: if you use multiple sets, take care and use the same set for both rtpengine_offer()/rtpengine_answer() and rtpengine_delete()!! If the set was selected using setid_avp, the avp needs to be set only once before rtpengine_offer() or rtpengine_manage() call.
The following modules must be loaded before this module:
tm module - (optional) if you want to have rtpengine_manage() fully functional
Definition of socket(s) used to connect to (a set) RTP proxy. It may specify a UNIX socket or an IPv4/IPv6 UDP socket.
Default value is “NONE” (disabled).
Example 1.1. Set rtpengine_sock
parameter
... # single rtproxy modparam("rtpengine", "rtpengine_sock", "udp:localhost:12221") # multiple rtproxies for LB modparam("rtpengine", "rtpengine_sock", "udp:localhost:12221 udp:localhost:12222") # multiple sets of multiple rtproxies modparam("rtpengine", "rtpengine_sock", "1 == udp:localhost:12221 udp:localhost:12222") modparam("rtpengine", "rtpengine_sock", "2 == udp:localhost:12225") ...
Once an RTP proxy was found unreachable and marked as disabled, the rtpengine module will not attempt to establish communication to that RTP proxy for rtpengine_disable_tout seconds.
Default value is “60”.
Example 1.2. Set rtpengine_disable_tout
parameter
... modparam("rtpengine", "rtpengine_disable_tout", 20) ...
Timeout value in waiting for reply from RTP proxy.
Default value is “1”.
How many times the module should retry to send and receive after timeout was generated.
Default value is “5”.
The parameter sets the PV defination to use when the “b” parameter is used on rtpengine_delete(), rtpengine_offer(), rtpengine_answer() or rtpengine_manage() command.
Default is empty, the “b” parameter may not be used then.
Example 1.5. Set extra_id_pv
parameter
... modparam("rtpengine", "extra_id_pv", "$avp(extra_id)") ...
The parameter defines an AVP that, if set, determines which RTP proxy set rtpengine_offer(), rtpengine_answer(), rtpengine_delete(), and rtpengine_manage() functions use.
There is no default value.
Sets the ID of the RTP proxy set to be used for the next rtpengine_delete(), rtpengine_offer(), rtpengine_answer() or rtpengine_manage() command. The parameter can be an integer or a config variable holding an integer.
This function can be used from REQUEST_ROUTE, ONREPLY_ROUTE, BRANCH_ROUTE.
Rewrites SDP body to ensure that media is passed through an RTP proxy. To be invoked on INVITE for the cases the SDPs are in INVITE and 200 OK and on 200 OK when SDPs are in 200 OK and ACK.
Meaning of the parameters is as follows:
flags(optional) - flags to turn on some features.
The “flags” string is a list of space-separated items. Each item is either an individual token, or a token in “key=value” format. The possible tokens are described below.
When passing an option that OpenSIPS is not aware of, it will be blindly sent to the rtpengine daemon to be processed.
via-branch=... - Include the “branch” value of one of the “Via” headers in the request to the RTP proxy. Possible values are: “1” - use the first “Via” header; “2” - use the second “Via” header; “auto” - use the first “Via” header if this is a request, or the second one if this is a reply; “extra” - don't take the value from a header, but instead use the value of the “extra_id_pv” variable. This can be used to create one media session per branch on the RTP proxy. When sending a subsequent “delete” command to the RTP proxy, you can then stop just the session for a specific branch when passing the flag '1' or '2' in the “rtpengine_delete”, or stop all sessions for a call when not passing one of those two flags there. This is especially useful if you have serially forked call scenarios where the RTP proxy gets an “offer” command for a new branch, and then a “delete” command for the previous branch, which would otherwise delete the full call, breaking the subsequent “answer” for the new branch. This flag is only supported by the Sipwise rtpengine RTP proxy at the moment!
asymmetric - flags that UA from which message is received doesn't support symmetric RTP. (automatically sets the 'r' flag)
force-answer - force “answer”, that is, only rewrite SDP when corresponding session already exists in the RTP proxy. By default is on when the session is to be completed.
internal, external - these flags specify the direction of the SIP message. These flags only make sense when the RTP proxy is running in bridge mode. “internal” corresponds to the proxy's first interface, “external” corresponds to the RTP proxy's second interface. You always have to specify two flags to define the incoming network and the outgoing network. For example, “internal external” should be used for SIP message received from the local interface and sent out on the external interface, and “external internal” vice versa. Other options are “internal internal” and “external external”. So, for example if a SIP requests is processed with “internal external” flags, the corresponding response must be processed with “internal external” flags.
auto-bridge - this flag an alternative to the “internal” and “external” flags in order to do automatic bridging between IPv4 on the "internal network" and IPv6 on the "external network". Instead of explicitly instructing the RTP proxy to select a particular address family, the distinction is done by the given IP in the SDP body by the RTP proxy itself. Not supported by Sipwise rtpengine.
address-family=... - instructs the RTP proxy that the recipient of this SDP body expects to see addresses of a particular family. Possible values are “IP4” and “IP6”. For example, if the SDP body contains IPv4 addresses but the recipient only speaks IPv6, you would use “address-family=IP6” to bridge between the two address families.
Sipwise rtpengine remembers the address family preference of each party after it has seen an SDP body from them. This means that normally it is only necessary to explicitly specify the address family in the “offer”, but not in the “answer”.
Note: Please note, that this will only work properly with non-dual-stack user-agents or with dual-stack clients according to RFC6157 (which suggest ICE for Dual-Stack implementations). This short-cut will not work properly with RFC4091 (ANAT) compatible clients, which suggests having different m-lines with different IP-protocols grouped together.
force - instructs the RTP proxy to ignore marks inserted by another RTP proxy in transit to indicate that the session is already goes through another proxy. Allows creating a chain of proxies. Not supported and ignored by Sipwise rtpengine.
trust-address - flags that IP address in SDP should be trusted. Without this flag, the RTP proxy ignores address in the SDP and uses source address of the SIP message as media address which is passed to the RTP proxy.
replace-origin - flags that IP from the origin description (o=) should be also changed.
replace-session-connection - flags to change the session-level SDP connection (c=) IP if media description also includes connection information.
symmetric - flags that for the UA from which message is received, support symmetric RTP must be forced.
repacketize=NN - requests the RTP proxy to perform re-packetization of RTP traffic coming from the UA which has sent the current message to increase or decrease payload size per each RTP packet forwarded if possible. The NN is the target payload size in ms, for the most codecs its value should be in 10ms increments, however for some codecs the increment could differ (e.g. 30ms for GSM or 20ms for G.723). The RTP proxy would select the closest value supported by the codec. This feature could be used for significantly reducing bandwith overhead for low bitrate codecs, for example with G.729 going from 10ms to 100ms saves two thirds of the network bandwith. Not supported by Sipwise rtpengine.
ICE=... - controls the RTP proxy's behaviour regarding ICE attributes within the SDP body. Possible values are: “force” - discard any ICE attributes already present in the SDP body and then generate and insert new ICE data, leaving itself as the only ICE candidates; “remove” instructs the RTP proxy to discard any ICE attributes and not insert any new ones into the SDP. The default (if no “ICE=...” is given at all), new ICE data will only be generated if no ICE was present in the SDP originally; otherwise the RTP proxy will only insert itself as an additional ICE candidate. Other SDP substitutions (c=, m=, etc) are unaffected by this flag.
RTP, SRTP, AVP, AVPF - These flags control the RTP transport protocol that should be used towards the recipient of the SDP. If none of them are specified, the protocol given in the SDP is left untouched. Otherwise, the “SRTP” flag indicates that SRTP should be used, while “RTP” indicates that SRTP should not be used. “AVPF” indicates that the advanced RTCP profile with feedback messages should be used, and “AVP” indicates that the regular RTCP profile should be used. See also the next set of flags below.
RTP/AVP, RTP/SAVP, RTP/AVPF, RTP/SAVPF - these serve as an alternative, more explicit way to select between the different RTP protocols and profiles supported by the RTP proxy. For example, giving the flag “RTP/SAVPF” has the same effect as giving the two flags “SRTP AVPF”.
to-tag - force inclusion of the “To” tag. Normally, the “To” tag is always included when present, except for “delete” messages. Including the “To” tag in a “delete” messages allows you to be more selective about which dialogues within a call are being torn down.
rtcp-mux-demux - if rtcp-mux (RFC 5761) was offered, make the RTP proxy accept the offer, but not offer it to the recipient of this message.
rtcp-mux-reject - if rtcp-mux was offered, make the RTP proxy reject the offer, but still offer it to the recipient. Can be combined with “rtcp-mux-offer” to always offer it.
rtcp-mux-offer - make the RTP proxy offer rtcp-mux to the recipient of this message, regardless of whether it was offered originally or not.
rtcp-mux-require - Similar to offer but pretends that the client has accepted rtcp-mux. This breaks RFC 5761 and will not advertise seperate RTCP ports. This option is necessary for WebRTC clients.
rtcp-mux-accept - if rtcp-mux was offered, make the RTP proxy accept the offer and also offer it to the recipient of this message. Can be combined with “rtcp-mux-offer” to always offer it.
media-address=... - force a particular media address to be used in the SDP body. Address family is detected automatically.
record-call=yes/no - indicates whether rtpengine should record the call or not. When using this parameter, you may pass further information in the “metadata”.
transcode-CODEC - used only for offer, indicates that rtpengine should transcode the CODEC towards the B-side. Example: transcode-PCMA will present to the B-side the PCMA codec.
codec-strip-CODEC - used only for offer, indicates that the A-side of the call will not end up talking CODEC. Example: codec-strip-PCMA will prevent the A-side from receiving the PCMA codec.
codec-mask-CODEC - used only for offer, indicates that the A-side will use the CODEC, but it will not be presented to the B-side. Example: codec-mask-PCMA will make the A-side receive the PCMA codec, but B-side will use something else.
sock_pvar(optional) - pvar used to store the rtpengine socket chosen for this call.
sdp_pvar(optional) - pvar used to store the full SDP received from rtpengine. You can perform any additional changes on this string. Important: when providing this variable, the message body is no longer changed, so you have to manually replace it!.
This function can be used from ANY_ROUTE.
Example 1.8. rtpengine_offer
usage
route { ... if (is_method("INVITE")) { if (has_body("application/sdp")) { if (rtpengine_offer()) t_on_reply("1"); } else { t_on_reply("2"); } } if (is_method("ACK") && has_body("application/sdp")) rtpengine_answer(); ... } onreply_route[1] { ... if (has_body("application/sdp")) rtpengine_answer(); ... } onreply_route[2] { ... if (has_body("application/sdp")) rtpengine_offer(); ... }
Example 1.9. rtpengine_offer
usage with body replace
... if (rtpengine_offer(, "$var(socket)", "$var(body)")) { xlog("Used rtpengine $var(socket)\n"); # make all the changes on the resulted SDP in $var(body) ... remove_body_part(); add_body_part("$var(body)", "application/sdp"); } ...
Example 1.10. rtpengine_offer
usage with call recording
... $var(rtpengine_flags) = $var(rtpengine_flags) + " record-call=yes"; $json(recording_keys) := "{}"; $json(recording_keys/callId) = $ci; $json(recording_keys/fromUser) = $dlg_val(recording_from_user); $json(recording_keys/fromDomain) = $dlg_val(recording_from_domain); $json(recording_keys/fromTag) = $dlg_val(recording_from_tag); $json(recording_keys/toUser) = $dlg_val(recording_to_user); $json(recording_keys/toDomain) = $dlg_val(recording_to_domain); $var(rtpengine_flags) = $var(rtpengine_flags) + " metadata=" + $(json(recording_keys){s.encode.hexa}); rtpengine_offer("$var(rtpengine_flags)"); ...
Example 1.11. rtpengine_offer
usage for transcoding
... # Goal: make A-side talk PCMA and B-side talk opus # * do not present PCMA to B-side: codec-mask-PCMA, but use it on A-side # * do not use opus for A-side: codec-strip-opus # * offer opus to B-side: transcode-opus rtpengine_offer("... codec-mask-PCMA codec-strip-opus transcode-opus ..."); ...
Rewrites SDP body to ensure that media is passed through an RTP proxy. To be invoked on 200 OK for the cases the SDPs are in INVITE and 200 OK and on ACK when SDPs are in 200 OK and ACK.
See rtpengine_offer() function description above for the meaning of the parameters.
This function can be used from REQUEST_ROUTE, ONREPLY_ROUTE, FAILURE_ROUTE, BRANCH_ROUTE.
Tears down the RTPProxy session for the current call.
See rtpengine_offer() function description above for the meaning of the parameters. Note that not all flags make sense for a “delete”.
This function can be used from ANY_ROUTE.
Manage the RTPProxy session - it combines the functionality of rtpengine_offer(), rtpengine_answer() and rtpengine_delete(), detecting internally based on message type and method which one to execute.
It can take the same parameters as rtpengine_offer().
The flags parameter to rtpengine_manage() can be a configuration variable
containing the flags as a string.
Functionality:
If INVITE with SDP, then do rtpengine_offer()
If INVITE with SDP, when the tm module is loaded, mark transaction with
internal flag FL_SDP_BODY to know that the 1xx and 2xx are for
rtpengine_answer()
If ACK with SDP, then do rtpengine_answer()
If BYE or CANCEL, or called within a FAILURE_ROUTE[], then do rtpengine_delete()
If reply to INVITE with code >= 300 do rtpengine_delete()
If reply with SDP to INVITE having code 1xx and 2xx, then
do rtpengine_answer()
if the request had SDP or tm is not loaded,
otherwise do rtpengine_offer()
This function can be used from ANY_ROUTE.
This function will send a signal to the RTP proxy to record the RTP stream on the RTP proxy. This function is not supported by Sipwise rtpengine at the moment!
Meaning of the parameters is as follows:
sock_pvar(optional) - pvar used to store the rtpengine socket chosen for this call.
This function can be used from REQUEST_ROUTE and ONREPLY_ROUTE.
Returns the RTP statistics from the RTP proxy. The RTP statistics from the RTP proxy
are provided as a string and it does contain several packet counters. The statistics
must be retrieved before the session is deleted (before rtpengine_delete()
).
Enables a RTP proxy if parameter value is greater than 0. Disables it if a zero value is given.
The first parameter is the RTP proxy url (exactly as defined in the config file).
The second parameter value must be a number in decimal.
NOTE: if a RTP proxy is defined multiple times (in the same or different set), all of its instances will be enables/disabled.
Example 1.17.
rtpengine_enable
usage
... $ opensipsctl fifo rtpengine_enable udp:192.168.2.133:8081 0 ...
Displays all the RTP proxies and their information: set and status (disabled or not, weight and recheck_ticks).
No parameter.
Terminates the SIP dialog by the SIP Call-ID given as parameter.
Note this is a just a wrapper function over the “dlg_end_dlg” MI function provided by the “dialog” module. This wrapping is done just to make rtpengine happy when trying to terminate SIP calls based on RTP timeouts.
Example 1.19.
teardown
usage
... $ opensipsctl fifo teardown Y2IwYjQ2YmE2ZDg5MWVkNDNkZGIwZjAzNGM1ZDY0ZDQ ...
2.1. | How do I migrate from “rtpproxy” or “rtpproxy-ng” to “rtpengine”? |
For the most part, only the names of the functions have changed, with “rtpproxy” in each name replaced with “rtpengine”. For example, “rtpproxy_manage()” has become “rtpengine_manage()”. A few name duplications have also been resolved, for example there is now a single “rtpengine_delete()” instead of “unforce_rtp_proxy()” and the identical “rtpproxy_destroy()”. The largest difference to the old module is how flags are passed to “rtpengine_offer()”, “rtpengine_answer()”, “rtpengine_manage()” and “rtpengine_delete()”. Instead of having a string of single-letter flags, they now take a string of space-separated items, with each item being either a single token (word) or a “key=value” pair. For example, if you had a call “rtpproxy_offer("FRWOC+PS");”, this would then become: rtpengine_offer("force trust-address symmetric replace-origin replace-session-connection ICE=force RTP/SAVPF"); Finally, if you were using the second parameter (explicit media address) to any of these functions, this has been replaced by the “media-address=...” option within the first string of flags. | |
2.2. | Where can I find more about OpenSIPS? |
Take a look at http://www.opensips.org/. | |
2.3. | Where can I post a question about this module? |
First at all check if your question was already answered on one of our mailing lists:
E-mails regarding any stable OpenSIPS release should be sent to
If you want to keep the mail private, send it to
| |
2.4. | How can I report a bug? |
Please follow the guidelines provided at: https://github.com/OpenSIPS/opensips/issues. |
Table 3.1. Top contributors by DevScore(1), authored commits(2) and lines added/removed(3)
Name | DevScore | Commits | Lines ++ | Lines -- | |
---|---|---|---|---|---|
1. | Razvan Crainea (@razvancrainea) | 31 | 23 | 388 | 195 |
2. | Bogdan-Andrei Iancu (@bogdan-iancu) | 28 | 13 | 418 | 591 |
3. | Richard Fuchs | 21 | 2 | 640 | 723 |
4. | Liviu Chircu (@liviuchircu) | 8 | 5 | 25 | 89 |
5. | Eric Tamme (@etamme) | 7 | 5 | 42 | 19 |
6. | Rob Gagnon (@rgagnon24) | 3 | 1 | 22 | 22 |
7. | Dan Pascu (@danpascu) | 3 | 1 | 3 | 13 |
8. | Oliver Severin Mulelid-Tynes (@olivermt) | 3 | 1 | 1 | 1 |
9. | ryan-esty | 2 | 1 | 7 | 0 |
(1) DevScore = author_commits + author_lines_added / (project_lines_added / project_commits) + author_lines_deleted / (project_lines_deleted / project_commits)
(2) including any documentation-related commits, excluding merge commits. Regarding imported patches/code, we do our best to count the work on behalf of the proper owner, as per the "fix_authors" and "mod_renames" arrays in opensips/doc/build-contrib.sh. If you identify any patches/commits which do not get properly attributed to you, please submit a pull request which extends "fix_authors" and/or "mod_renames".
(3) ignoring whitespace edits, renamed files and auto-generated files
Table 3.2. Most recently active contributors(1) to this module
Name | Commit Activity | |
---|---|---|
1. | Razvan Crainea (@razvancrainea) | Jun 2014 - Oct 2018 |
2. | Liviu Chircu (@liviuchircu) | Jul 2014 - Aug 2018 |
3. | Bogdan-Andrei Iancu (@bogdan-iancu) | Jun 2014 - Jun 2018 |
4. | ryan-esty | May 2018 - May 2018 |
5. | Dan Pascu (@danpascu) | Mar 2018 - Mar 2018 |
6. | Oliver Severin Mulelid-Tynes (@olivermt) | May 2015 - May 2015 |
7. | Rob Gagnon (@rgagnon24) | Mar 2015 - Mar 2015 |
8. | Eric Tamme (@etamme) | Dec 2014 - Mar 2015 |
9. | Richard Fuchs | Mar 2014 - Mar 2014 |
(1) including any documentation-related commits, excluding merge commits
Last edited by: Liviu Chircu (@liviuchircu), Bogdan-Andrei Iancu (@bogdan-iancu), ryan-esty, Razvan Crainea (@razvancrainea), Richard Fuchs.
doc copyrights:
Copyright © 2013-2014 Sipwise GmbH
Copyright © 2010 VoIPEmbedded Inc.
Copyright © 2009-2014 TuTPro Inc.
Copyright © 2005 Voice Sistem SRL
Copyright © 2003-2008 Sippy Software, Inc.