Modern and flexible SIP (RFC3261) command line tool.
Project URL:
Table Of Content
- Overview
- Features
- Installation
- Usage
- Target Address
- Message Template
- Alternatives
- License
- Contributions
sipexer
is a cli tool that facilitates sending SIP requests to servers. It uses a flexible template
system to allow defining many parts of the SIP request via command line parameters. It has support
for UDP, TCP, TLS and WebSocket transport protocols, being suitable to test modern WebRTC SIP servers.
sipexer
is not a SIP cli softphone, but a tool for crafting SIP requests mainly for the purpose
of testing SIP signaling routing or monitoring servers.
It is written in Go, aiming to be usable from Linux, MacOS or Windows.
The meaning of the name sipexer
: randomly selected to be easy to write and pronounce,
quickly after thought of it as the shortening of SIP EXEcutoR
.
sipexer
in action sending a SIP OPTIONS request:
Among features:
- send OPTIONS request (quick SIP ping to check if server is alive)
- do registration and un-registration with customized expires value and contact URI
- authentication with plain or HA1 passwords
- set custom SIP headers
- template system for building SIP requests
- fields in the templates can be set via command line parameters or a JSON file
- variables for setting field values (e.g., random number, data, time, environment variables, uuid, random string, ...)
- simulate SIP calls at signaling layer (INVITE-wait-BYE)
- option for late-offer SDP
- respond to requests coming during SIP calls (e.g., OPTIONS keepalives)
- send instant messages with SIP MESSAGE requests
- color output mode for easier troubleshooting
- support for many transport layers: IPv4 and IPv6, UDP, TCP, TLS and WebSocket (for WebRTC)
- send SIP requests of any type (e.g., INFO, SUBSCRIBE, NOTIFY, ...)
First install Go. Once the Go environment is configured, clone sipexer
git repository:
git clone https://github.com/miconda/sipexer
Download dependencies and build:
cd sipexer
go get ./...
go build .
The binary sipexer
should be generated in the current directory.
Note: On some OS distributions, it may be required to run the go build
command
with CGO_ENABLED=0
, like:
CGO_ENABLED=0 go build .
Binary releases for Linux
, MacOS
and Windows
are available at:
Prototype:
sipexer [options] [target]
See sipexer -h
for the command line options and arguments.
Defaults:
- target address:
sip:127.0.0.1:5060
- SIP method:
OPTIONS
- From user:
alice
- From domain:
localhost
- To user:
bob
- To domain:
localhost
Send an OPTIONS
request over UDP
to 127.0.0.1
and port 5060
- couple of variants:
sipexer
sipexer 127.0.0.1
sipexer 127.0.0.1 5060
sipexer udp 127.0.0.1 5060
sipexer udp:127.0.0.1:5060
sipexer sip:127.0.0.1:5060
sipexer "sip:127.0.0.1:5060;transport=udp"
Specify a different R-URI:
sipexer -ruri sip:alice@server.com udp:127.0.0.1:5060
Send from UDP local port 55060:
sipexer -laddr 127.0.0.1:55060 udp:127.0.0.1:5060
Send REGISTER
request with generated contact, expires as well as user and password authentication:
sipexer -register -cb -ex 600 -au alice -ap test123 udp:127.0.0.1:5060
Send REGISTER
request with expires 60s, wait 20000ms (20s) and then unregister:
sipexer -register -vl 3 -co -com -ex 60 -fuser alice -cb -ap "abab..." -ha1 -sd -sw 20000 udp:127.0.0.1:5060
Set fuser
field to carol
:
sipexer -sd -fu "carol" udp:127.0.0.1:5060
# or
sipexer -sd -fv "fuser:carol" udp:127.0.0.1:5060
Set fuser
field to carol
and tuser
field to david
, with
R-URI user same as To-user when providing proxy address destination:
sipexer -sd -fu "carol" -tu "david" -su udp:127.0.0.1:5060
# or
sipexer -sd -fv "fuser:carol" -fv "tuser:david" -su udp:127.0.0.1:5060
Add extra headers:
sipexer -sd -xh "X-My-Key:abcdefgh" -xh "P-Info:xyzw" udp:127.0.0.1:5060
Send MESSAGE
request with body:
sipexer -message -mb 'Hello!' -sd -su udp:127.0.0.1:5060
Send MESSAGE
request with body over tcp
:
sipexer -message -mb 'Hello!' -sd -su tcp:127.0.0.1:5060
Send MESSAGE
request with body over tls
:
sipexer -message -mb 'Hello!' -sd -su tls:127.0.0.1:5061
Send MESSAGE
request with body over wss
(WebSocket Secure):
sipexer -message -mb 'Hello!' -sd -su wss://server.com:8443/sip
Send INVITE
request with default From user alice
and To user bob
:
sipexer -invite -vl 3 -co -com -sd -su udp:server.com:5060
Initiate a call from alice
to bob
, with user authentication providing the
password in HA1 format, waiting 10000 milliseconds before sending the BYE
,
with higher verbosity level (3
) and color printing:
sipexer -invite -vl 3 -co -com -fuser alice -tuser bob -cb -ap "4a4a4a4a4a..." -ha1 -sw 10000 -sd -su udp:server.com:5060
The target address can be provided as last arguments to the sipexer
command. It is
optional, if not provided, then the SIP message is sent over UDP
to 127.0.0.1
port 5060
.
The format can be:
- SIP URI (e.g.,
sip:user@server.com:5080;transport=tls
) - SIP proxy socket address in format
proto:host:port
(e.g.,tls:server.com:5061
) - WSS URL (e.g.,
wss://server.com:8442/webrtc
) - only the server
hostname
orIP
(e.g.,server.com
) host:port
(transport protocol is set toUDP
)proto:host
(port is set to5060
)host port
(transport protocol is set toUDP
)proto host
(port is set to5060
)proto host port
(same asproto:host:port
)
The message to be sent via the SIP connection is built from a template file and a fields file.
The template file can contain any any of the directives supported by Go package text/template
- for more see:
Example:
{{.method}} {{.ruri}} SIP/2.0
Via: SIP/2.0/{{.viaproto}} {{.viaaddr}}{{.rport}};branch=z9hG4bKSG.{{.viabranch}}
From: {{if .fname}}"{{.fname}}" {{end}}<sip:{{if .fuser}}{{.fuser}}@{{end}}{{.fdomain}}>;tag={{.fromtag}}
To: {{if .tname}}"{{.tname}}" {{end}}<sip:{{if .tuser}}{{.tuser}}@{{end}}{{.tdomain}}>
Call-ID: {{.callid}}
CSeq: {{.cseqnum}} {{.method}}
{{if .subject}}Subject: {{.subject}}{{else}}$rmeol{{end}}
{{if .date}}Date: {{.date}}{{else}}$rmeol{{end}}
{{if .contacturi}}Contact: {{.contacturi}}{{if .contactparams}};{{.contactparams}}{{end}}{{else}}$rmeol{{end}}
{{if .expires}}Expires: {{.expires}}{{else}}$rmeol{{end}}
{{if .useragent}}User-Agent: {{.useragent}}{{else}}$rmeol{{end}}
Content-Length: 0
Example SDP body template:
v=0{{.cr}}
o={{.sdpuser}} {{.sdpsessid}} {{.sdpsessversion}} IN {{.sdpaf}} {{.localip}}{{.cr}}
s=call{{.cr}}
c=IN {{.sdpaf}} {{.localip}}{{.cr}}
t=0 0{{.cr}}
m=audio {{.sdprtpport}} RTP 0 8 101{{.cr}}
a=rtpmap:0 pcmu/8000{{.cr}}
a=rtpmap:8 pcma/8000{{.cr}}
a=rtpmap:101 telephone-event/8000{{.cr}}
a=sendrecv{{.cr}}
The internal templates can be found at the top of sipexer.go
file:
The fields file has to contain a JSON document with the fields to be replaced
in the template file. The path to the JSON file is provided via -ff
or --fields-file
parameters.
When the --fields-eval
of -fe
cli option is provided, sipexer
evaluates the values of the
fields in the root structure of the JSON document. That means special tokens (expressions)
are replaced if the value of the field is a string matching one of the next:
"$cr"
- replace with\r
"$dateansic"
- replace with output oftime.Now().Format(time.ANSIC)
"$datefull"
- replace with output oftime.Now().String()
"$daterfc1123"
- replace with output oftime.Now().Format(time.RFC1123)
"$dateunix"
- replace with output oftime.Now().Format(time.UnixDate)
"$env(name)"
- replace with the value of the environment variablename
"$add(name)"
- return the current value associate withname
plus1
(initial value is0
)"$add(name,val)"
- return the current value associate withname
plusval
(initial value is0
)"$sub(name)"
- return the current value associate withname
minus1
(initial value is0
)"$sub(name,val)"
- return the current value associate withname
minusval
(initial value is0
)"$mul(name,val)"
- return the current value associate withname
multiplied withval
(initial value is1
)"$div(name,val)"
- return the current value associate withname
divided byval
(initial value is1
)"$dec(name)"
- return the decremented value, first to return is 999999"$dec(name,val)"
- return the decremented value, first to return isval - 1
"$inc(name)"
- return the incremented value, first to return is 1"$inc(name,val)"
- return the incremented value, first to return isval + 1
"$randseq"
- replace with a random number from1
to1 000 000
"$rand(max)"
- replace with a random number from0
tomax
"$rand(min,max)"
- replace with a random number frommin
tomax
"$randan(len)"
- random alphanumeric string of lengthlen
"$randan(minlen,maxlen)"
- random alphanumeric string with length fromminlen
tomaxlen
"$randhex(len)"
- random hexadecimal string of lengthlen
"$randhex(minlen,maxlen)"
- random hexadecimal string with length fromminlen
tomaxlen
"$randnum(len)"
- random numeric string of lengthlen
"$randnum(minlen,maxlen)"
- random numeric string with length fromminlen
tomaxlen
"$randstr(len)"
- random alphabetic string of lengthlen
"$randstr(minlen,maxlen)"
- random alphabetic string with length fromminlen
tomaxlen
"$rmeol"
- remove next end of line character\n
"$timestamp"
- replace with output oftime.Now().Unix()
- time stamp in seconds"$timems"
- replace with output oftime.Now().UnixMilli()
- time stamp in milliseconds"$lf"
- replace with\n
"$uuid"
- replace with a UUID (universally unique identifier) value
When internal template is used, --fields-eval
is turned on.
Example fields file:
{
"method": "OPTIONS",
"fuser": "alice",
"fdomain": "localhost",
"tuser": "bob",
"tdomain": "localhost",
"viabranch": "$uuid",
"rport": ";rport",
"fromtag": "$uuid",
"totag": "",
"callid": "$uuid",
"cseqnum": "$randseq",
"date": "$daterfc1123",
"sdpuser": "sipexer",
"sdpsessid": "$timestamp",
"sdpsessversion": "$timestamp",
"sdpaf": "IP4",
"sdprtpport": "$rand(20000,40000)"
}
The internal fields data can be found at the top of sipexer.go
file.
The values for fields can be also provided using --field-val
or -fv
cli parameter, in
format name:value
, for example:
sipexer --field-val="domain:openrcs.com" ...
The value provided via --field-val
overwrites the value provided in the
JSON fields file.
When sending out, before the template is evaluated, the following fields are also
added internally and will replace the corresponding {{.name}}
(e.g., {{.proto}}
)
in the template:
afver
- address family version (4
or6
)localaddr
- local address -ip:port
localip
- local iplocalport
- local portproto
- lower(proto
) (e.g.,udp
,tcp
, ...)protoup
- upper(proto
) (e.g.,UDP
,TCP
, ...)sdpaf
- SDP address family (IP4
orIP6
)targetaddr
- remote address -ip:port
targetip
- remote iptargetport
- remote portcr
-\r
lf
-\n
tab
-\t
There are several alternatives that might be useful to consider:
sipp
- SIP testing tool using XML-based scenariossipsak
- SIP swiss army knife - SIP cli testing toolwsctl
- WebSocket cli tool with basic support for SIPbaresip
- cli SIP softphonepjsua
- cli SIP softphone
GPLv3
Copyright: Daniel-Constantin Mierla
(Asipto)
Contributions are welcome!
Fork and do pull requests: