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xmppipe/README.md
2023-03-11 06:20:53 -05:00

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# SYNOPSIS
xmppipe [*options*] [*jid*]
# DESCRIPTION
xmppipe - stdio over XMPP
xmppipe redirects stdin/stdout in a shell pipeline to an XMPP MUC
(XEP-0045) or a one to one chat:
* supports flow control using stream management (XEP-0198)
* optionally deals with overload by acting as a circuit breaker or by
discarding messages
* works with line oriented tools like grep, sed and
awk by outputting each message as a newline terminated,
[percent-encoded](https://en.wikipedia.org/wiki/Percent-encoding) string
xmppipe can be used in shell scripts to quickly write interactive bots
for monitoring systems or for sending alerts.
# USAGE
```
xmppipe [*options*]
XMPPIPE_USERNAME=me@example.com
XMPPIPE_PASSWORD="password"
# default name: stdout-*hostname*-*uid*
xmpipe
xmppipe muc
xmppipe muc@example.com
```
# REQUIREMENTS
* [libstrophe](https://github.com/strophe/libstrophe)
libstrophe 0.9.2 or later is required for [TLS certificate
verification](https://github.com/strophe/libstrophe/issues/100).
# BUILD
```
$ make
```
## Tests
```
# Install bats:
# apt-get install bats
# git clone https://github.com/sstephenson/bats.git # or from git
make test
```
# PROCESS RESTRICTIONS
xmppipe restricts process operations at 2 points:
* a permissive "init" sandbox allowing network connections to the
XMPP server
* once the connection is established, a stricter "stdio" sandbox
limits the process to I/O operations
The effectiveness of the process restrictions depend on which mechanism
is used. By default:
* Linux:
* init: seccomp(2)
* stdio: seccomp(2)
* OpenBSD:
* init: pledge(2)
* stdio: pledge(2)
* FreeBSD:
* init: setrlimit(2)
* stdio: setrlimit(2)/capsicum(4)
* other: setrlimit(2)
* init: setrlimit(2)
* stdio: setrlimit(2)
Selecting which process restrictions are enforced is done at compile
time. For example, to use the "rlimit" process restrictions:
```
RESTRICT_PROCESS=rlimit make
```
If the process restrictions are interfering with normal operation, please
open an issue. To disable all process restrictions, compile using the
"null" sandbox:
```
RESTRICT_PROCESS=null make
```
# OPTIONS
-u, --username *JID*
: XMPP username: takes precedence over environment variable
-p, --password *password*
: XMPP password: takes precedence over environment variable
-r, --resource *resource*
: XMPP resource, used as the nickname in the MUC
-S, --subject *subject*
: XMPP MUC subject
-a, --address *address[:port]*
: Specify the IP address and port of the XMPP server
-F, --format *text:csv*
: stdin is text (default) or colon separated values
-d, --discard
: Discard stdin when MUC is empty
-D, --discard-to-stdout
: Discard stdin and print to local stdout
-e, --ignore-eof
: Ignore stdin EOF
-s, --exit-when-empty
: Exit when MUC is empty
-x, --base64
: Base64 encode/decode data
-b, --buffer-size *size*
: Size of read buffer
-I, --interval *interval*
: Request stream management status every interval messages
-k, --keepalive *seconds*
: Periodically send a keepalive
-K, --keepalive-failures *count*
: Number of keepalive failures before exiting
-P, --poll-delay *ms*
: Poll delay
-v, --verbose
: Increase verbosity
-V, --version
: Display version
--chat
: Use one to one chat
--no-tls-verify
: Disable TLS certificate verification
# ENVIRONMENT VARIABLES
XMPPIPE_USERNAME
: XMPP jid
XMPPIPE_PASSWORD
: XMPP password
# DECODING PERCENT-ENCODED STRINGS
Using bash:
```shell
decode() {
printf '%b' "${1//%/\\x}"
}
```
# EXAMPLES
## Shell Bot
An interactive XMPP bot written in the shell:
```shell
#!/bin/bash
set -o errexit
set -o nounset
set -o pipefail
decode() {
printf '%b' "${1//%/\\x}"
}
bot() {
while IFS=: read -r stanza type from to body; do
case "$stanza" in
m) ;;
p)
decode "$stanza:$type:$from:$to" 1>&2
echo 1>&2
continue
;;
*) continue ;;
esac
USER="$(decode "${from#*/}")"
MSG="$(decode "${body}")"
case $MSG in
*"has set the subject to:"*) ;;
"sudo make me a sandwich")
echo "$USER: you're a sandwich"
;;
sudo*)
echo "I'm sorry, $USER. I'm afraid I can't do that."
;;
uptime)
uptime
;;
exit)
echo "exiting ..."
exit 0
;;
*)
echo "$MSG"
;;
esac
done
}
coproc bot
xmppipe "$@" <&"${COPROC[0]}" >&"${COPROC[1]}"
```
## Sending Notifications/Alerts
Start `xmppipe` attached to a pipe:
```shell
mkfifo /tmp/xmpp
xmppipe -o groupchat <>/tmp/xmpp
```
Any data written to the pipe will be sent to the groupchat:
```shell
echo "test" >/tmp/xmpp
df -h >/tmp/xmpp
git diff >/tmp/xmpp
```
## SSH over XMPP
See [examples/ssh-over-xmpp](https://github.com/msantos/xmppipe/blob/master/examples/ssh-over-xmpp):
```shell
# Server: has access to the destination SSH server
# ssh-over-xmpp server <conference> <IP address> <port>
ssh-over-xmpp server sshxmpp 1.2.3.4 22
## Client: has access to the XMPP server
ssh -o ProxyCommand="ssh-over-xmpp client sshxmpp" 127.0.0.1
```
## Stream Events from Riemann
This example will stream events from a query to an XMPP MUC using
[Riemann's](https://github.com/riemann/riemann) SSE interface. The events
are written to a named pipe to avoid buffering.
```shell
coproc curl -s --get --data subscribe=true \
--data-urlencode 'query=(service ~= "^example")' \
http://example.com:80/index </dev/null
xmppipe --verbose --verbose \
--discard --subject "riemann events" muc <&"${COPROC[0]}"
```
### Desktop Notifications
```shell
#!/bin/bash
set -o errexit
set -o nounset
set -o pipefail
decode() {
printf '%b' "${1//%/\\x}"
}
MUC=""
while getopts ":o:" opt; do
case $opt in
o) MUC="$OPTARG" ;;
*) ;;
esac
done
xmppipe "$@" | while IFS=: read stanza type from to body; do
case "$stanza" in
m) notify-send "$MUC" "$(decode "$body")" ;;
*) continue ;;
esac
done
```
### Mirror a terminal session using script(1)
* user
```shell
#!/bin/bash
MUC=console
TMPDIR=$(mktemp -d)
FIFO=$TMPDIR/console
mkfifo "$FIFO"
stty cols 80 rows 24
xmppipe --resource user -x $MUC < "$FIFO" >/dev/null 2>"$TMPDIR/stderr" &
script -q -f "$FIFO"
```
* viewers
```shell
#!/bin/bash
decode() {
printf '%b' "${1//%/\\x}"
}
stty cols 80 rows 24
xmppipe --resource viewer --base64 console |
while IFS=: read -r x s f t m; do
[ "$m" = "m" ] && decode "$m"
done
```
## Image Upload
Upload an image using HTTP Upload (XEP-0363) then display it inline.
See [examples/image-upload](https://github.com/msantos/xmppipe/blob/master/examples/image-upload):
```
image-upload -o groupchat
```
```
# file must be in the same working directory as image-upload
echo "upload::::example.png" >/tmp/image_upload/stdin
```
# FORMAT
Each message is terminated by a new line. Message fields are separated by
":" and percent encoded.
Colon separated values are accepted as input if the input format type
is set to csv (`--format=csv`).
## Presence
```
p:<available|unavailable>:<to jid>:<from jid>
```
### Input/Output
Both
### Example
```
p:available:test@muc.example.com/xmppipe:occupant@example.com/1234
```
## Message
```
m:<chat|groupchat|normal|headline>:<from jid>:<to jid>:<message body>
```
### Input/Output
Both
### Example
```
m:groupchat:test@muc.example.com/mobile:user1@example.com/1234:Hello
m:chat:user1@example.com/mobile:user2@example.com:Message%20goes%20here
```
## Inline Image
Inline images will add a hint so clients (notably
[Conversations](https://github.com/iNPUTmice/Conversations)) will display
the image instead of a URL.
* type, from and to are optional
* message body: the percent escaped URL
```
I:<chat|groupchat|normal|headline>:<from jid>:<to jid>:<url>
```
### Input/Output
Input only
### Example
```
I::::https%3A%2F%2Fhttpstatusdogs.com%2Fimg%2F500.jpg
```
## XEP-0363: HTTP Upload
HTTP uploads create an upload slot. The XMPP server will respond with
`get` and `put` URLs. The `put` URL can be used to upload the file using,
e.g., `curl`. The `get` URL is used by clients for downloading the file.
Note: xmppipe creates the upload slot. Another utility, such as curl,
can be used to upload the file.
The input format is:
* type, from and to are optional
* message body: percent escaped, pipe separated value
* filename
* size
* optional: MIME type
```
u:<chat|groupchat|normal|headline>:<from jid>:<to jid>:<filename>|<size (bytes)>[|<content-type>]
```
The output format is:
* type, from and to are optional
* message body: percent escaped, pipe separated value
* get URL
* put URL
```
U:<chat|groupchat|normal|headline>:<from jid>:<to jid>:<get URL>|<put URL>
```
### Example
```
# $ stat --format="%s" example.png
# 16698
u::::example.png%7C16698
# also specify content type
u::::example.png%7C16698%7Cimage%2Fpng
# server response: slot created
U:groupchat:upload.example.com:user@example.com/123:https%3A//example.com/upload/0b9da82fea20a78778cbeddeab0472286cc35ed1/xyEaWFVZv3sv5ay9AGH5qBU02gglZRyUeGbjQg3k/example.png%7chttps%3A//example.com/upload/0b9da82fea20a78778cbeddeab0472286cc35ed1/xyEaWFVZv3sv5ay9AGH5qBU02gglZRyUeGbjQg3k/example.png
# to upload the file
curl https://example.com/upload/0b9da82fea20a78778cbeddeab0472286cc35ed1/xyEaWFVZv3sv5ay9AGH5qBU02gglZRyUeGbjQg3k/example.png --upload-file example.png
```
# COMPATIBILITY
Testing is done with ejabberd.
Also confirmed to work with:
* ejabberd ([creep.im](https://compliance.conversations.im/server/creep.im/))
* prosody ([dismail.de](https://compliance.conversations.im/server/dismail.de/))
* openfire ([jab.im](https://compliance.conversations.im/server/jab.im/))
* tigase ([tigase.im](https://compliance.conversations.im/server/tigase.im/))
* mongooseim
# LICENSE
Copyright (c) 2015-2023, Michael Santos michael.santos@gmail.com
Permission to use, copy, modify, and/or distribute this software for any
purpose with or without fee is hereby granted, provided that the above
copyright notice and this permission notice appear in all copies.
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
# TODO
* support [XEP-0384: OMEMO Encryption](https://xmpp.org/extensions/xep-0384.html)
* support alternative input modes
* "raw" mode: XML input/output
* HTTP Upload
* support PUT header elements
* handle error conditions