Check out the
jc
Python package documentation for developers
jc
is available as an Ansible filter plugin in thecommunity.general
collection. See this blog post for an example.
JSON Convert
jc
JSONifies the output of many CLI tools, file-types, and common strings
for easier parsing in scripts. See the Parsers section for
supported commands, file-types, and strings.
dig example.com | jc --dig
[{"id":38052,"opcode":"QUERY","status":"NOERROR","flags":["qr","rd","ra"],
"query_num":1,"answer_num":1,"authority_num":0,"additional_num":1,
"opt_pseudosection":{"edns":{"version":0,"flags":[],"udp":4096}},"question":
{"name":"example.com.","class":"IN","type":"A"},"answer":[{"name":
"example.com.","class":"IN","type":"A","ttl":39049,"data":"93.184.216.34"}],
"query_time":49,"server":"2600:1700:bab0:d40::1#53(2600:1700:bab0:d40::1)",
"when":"Fri Apr 16 16:09:00 PDT 2021","rcvd":56,"when_epoch":1618614540,
"when_epoch_utc":null}]
This allows further command-line processing of output with tools like jq
or jello
by piping commands:
$ dig example.com | jc --dig | jq -r '.[].answer[].data'
93.184.216.34
or using the alternative "magic" syntax:
$ jc dig example.com | jq -r '.[].answer[].data'
93.184.216.34
jc
can also be used as a python library. In this case the returned value
will be a python dictionary, a list of dictionaries, or even a
lazy iterable of dictionaries
instead of JSON:
>>> import subprocess
>>> import jc
>>>
>>> cmd_output = subprocess.check_output(['dig', 'example.com'], text=True)
>>> data = jc.parse('dig', cmd_output)
>>>
>>> data[0]['answer']
[{'name': 'example.com.', 'class': 'IN', 'type': 'A', 'ttl': 29658, 'data':
'93.184.216.34'}]
For
jc
Python package documentation, usehelp('jc')
,help('jc.lib')
, or see the online documentation.
Two representations of the data are available. The default representation uses a
strict schema per parser and converts known numbers to int/float JSON values.
Certain known values of None
are converted to JSON null
, known boolean
values are converted, and, in some cases, additional semantic context fields are
added.
To access the raw, pre-processed JSON, use the -r
cli option or the raw=True
function parameter in parse()
when using jc
as a python library.
Schemas for each parser can be found at the documentation link beside each Parser below.
Release notes can be found in the Releases section on Github.
For more information on the motivations for this project, please see my blog post on Bringing the Unix Philosophy to the 21st Century and my interview with Console.
See also:
- libxo on FreeBSD
- powershell
- blog: linux apps should have a json flag
- Hacker News discussion
- Reddit discussion
Use Cases:
- Bash scripting
- Ansible command output parsing
- Saltstack command output parsing
- Nornir command output parsing
- FortiSOAR command output parsing
There are several ways to get jc
. You can install via pip
, OS package
repositories, or by downloading the
correct binary for your
architecture and running it anywhere on your filesystem.
pip3 install jc
OS | Command |
---|---|
Debian/Ubuntu linux | apt-get install jc |
Fedora linux | dnf install jc |
openSUSE linux | zypper install jc |
Arch linux | pacman -S jc |
NixOS linux | nix-env -iA nixpkgs.jc or nix-env -iA nixos.jc |
Guix System linux | guix install jc |
Gentoo Linux | emerge dev-python/jc |
Photon linux | tdnf install jc |
macOS | brew install jc |
FreeBSD | portsnap fetch update && cd /usr/ports/textproc/py-jc && make install clean |
Ansible filter plugin | ansible-galaxy collection install community.general |
FortiSOAR connector | Install from FortiSOAR Connector Marketplace |
For more OS Packages, see https://repology.org/project/jc/versions.
For precompiled binaries, see Releases on Github.
jc
accepts piped input from STDIN
and outputs a JSON representation of the
previous command's output to STDOUT
.
COMMAND | jc [SLICE] [OPTIONS] PARSER
cat FILE | jc [SLICE] [OPTIONS] PARSER
echo STRING | jc [SLICE] [OPTIONS] PARSER
Alternatively, the "magic" syntax can be used by prepending jc
to the command
to be converted or in front of the absolute path for Proc files. Options can be
passed to jc
immediately before the command or Proc file path is given.
(Note: command aliases and shell builtins are not supported)
jc [SLICE] [OPTIONS] COMMAND
jc [SLICE] [OPTIONS] /proc/<path-to-procfile>
The JSON output can be compact (default) or pretty formatted with the -p
option.
Argument | Command or Filetype | Documentation |
---|---|---|
--acpi |
acpi command parser |
details |
--airport |
airport -I command parser |
details |
--airport-s |
airport -s command parser |
details |
--apt-cache-show |
apt-cache show command parser |
details |
--apt-get-sqq |
apt-get -sqq command parser |
details |
--arp |
arp command parser |
details |
--asciitable |
ASCII and Unicode table parser | details |
--asciitable-m |
multi-line ASCII and Unicode table parser | details |
--blkid |
blkid command parser |
details |
--bluetoothctl |
bluetoothctl command parser |
details |
--cbt |
cbt (Google Bigtable) command parser |
details |
--cef |
CEF string parser | details |
--cef-s |
CEF string streaming parser | details |
--certbot |
certbot command parser |
details |
--chage |
chage --list command parser |
details |
--cksum |
cksum and sum command parser |
details |
--clf |
Common and Combined Log Format file parser | details |
--clf-s |
Common and Combined Log Format file streaming parser | details |
--crontab |
crontab command and file parser |
details |
--crontab-u |
crontab file parser with user support |
details |
--csv |
CSV file parser | details |
--csv-s |
CSV file streaming parser | details |
--curl-head |
curl --head command parser |
details |
--date |
date command parser |
details |
--datetime-iso |
ISO 8601 Datetime string parser | details |
--debconf-show |
debconf-show command parser |
details |
--df |
df command parser |
details |
--dig |
dig command parser |
details |
--dir |
dir command parser |
details |
--dmidecode |
dmidecode command parser |
details |
--dpkg-l |
dpkg -l command parser |
details |
--du |
du command parser |
details |
--efibootmgr |
efibootmgr command parser |
details |
--email-address |
Email Address string parser | details |
--env |
env command parser |
details |
--ethtool |
ethtool command parser |
details |
--file |
file command parser |
details |
--find |
find command parser |
details |
--findmnt |
findmnt command parser |
details |
--finger |
finger command parser |
details |
--free |
free command parser |
details |
--fstab |
/etc/fstab file parser |
details |
--git-log |
git log command parser |
details |
--git-log-s |
git log command streaming parser |
details |
--git-ls-remote |
git ls-remote command parser |
details |
--gpg |
gpg --with-colons command parser |
details |
--group |
/etc/group file parser |
details |
--gshadow |
/etc/gshadow file parser |
details |
--hash |
hash command parser |
details |
--hashsum |
hashsum command parser (md5sum , shasum , etc.) |
details |
--hciconfig |
hciconfig command parser |
details |
--history |
history command parser |
details |
--host |
host command parser |
details |
--hosts |
/etc/hosts file parser |
details |
--http-headers |
HTTP headers parser | details |
--id |
id command parser |
details |
--ifconfig |
ifconfig command parser |
details |
--ini |
INI file parser | details |
--ini-dup |
INI with duplicate key file parser | details |
--iostat |
iostat command parser |
details |
--iostat-s |
iostat command streaming parser |
details |
--ip-address |
IPv4 and IPv6 Address string parser | details |
--ipconfig |
ipconfig Windows command parser |
details |
--iptables |
iptables command parser |
details |
--ip-route |
ip route command parser |
details |
--iw-scan |
iw dev [device] scan command parser |
details |
--iwconfig |
iwconfig command parser |
details |
--jar-manifest |
Java MANIFEST.MF file parser | details |
--jobs |
jobs command parser |
details |
--jwt |
JWT string parser | details |
--kv |
Key/Value file and string parser | details |
--kv-dup |
Key/Value with duplicate key file and string parser | details |
--last |
last and lastb command parser |
details |
--ls |
ls command parser |
details |
--ls-s |
ls command streaming parser |
details |
--lsattr |
lsattr command parser |
details |
--lsb-release |
lsb_release command parser |
details |
--lsblk |
lsblk command parser |
details |
--lsmod |
lsmod command parser |
details |
--lsof |
lsof command parser |
details |
--lspci |
lspci -mmv command parser |
details |
--lsusb |
lsusb command parser |
details |
--m3u |
M3U and M3U8 file parser | details |
--mdadm |
mdadm command parser |
details |
--mount |
mount command parser |
details |
--mpstat |
mpstat command parser |
details |
--mpstat-s |
mpstat command streaming parser |
details |
--needrestart |
needrestart -b command parser |
details |
--netstat |
netstat command parser |
details |
--nmcli |
nmcli command parser |
details |
--nsd-control |
nsd-control command parser |
details |
--ntpq |
ntpq -p command parser |
details |
--openvpn |
openvpn-status.log file parser | details |
--os-prober |
os-prober command parser |
details |
--os-release |
/etc/os-release file parser |
details |
--pacman |
pacman command parser |
details |
--passwd |
/etc/passwd file parser |
details |
--path |
POSIX path string parser | details |
--path-list |
POSIX path list string parser | details |
--pci-ids |
pci.ids file parser |
details |
--pgpass |
PostgreSQL password file parser | details |
--pidstat |
pidstat -H command parser |
details |
--pidstat-s |
pidstat -H command streaming parser |
details |
--ping |
ping and ping6 command parser |
details |
--ping-s |
ping and ping6 command streaming parser |
details |
--pip-list |
pip list command parser |
details |
--pip-show |
pip show command parser |
details |
--pkg-index-apk |
Alpine Linux Package Index file parser | details |
--pkg-index-deb |
Debian Package Index file parser | details |
--plist |
PLIST file parser | details |
--postconf |
postconf -M command parser |
details |
--proc |
/proc/ file parser |
details |
--ps |
ps command parser |
details |
--resolve-conf |
/etc/resolve.conf file parser |
details |
--route |
route command parser |
details |
--rpm-qi |
rpm -qi command parser |
details |
--rsync |
rsync command parser |
details |
--rsync-s |
rsync command streaming parser |
details |
--semver |
Semantic Version string parser | details |
--sfdisk |
sfdisk command parser |
details |
--shadow |
/etc/shadow file parser |
details |
--srt |
SRT file parser | details |
--ss |
ss command parser |
details |
--ssh-conf |
ssh config file and ssh -G command parser |
details |
--sshd-conf |
sshd config file and sshd -T command parser |
details |
--stat |
stat command parser |
details |
--stat-s |
stat command streaming parser |
details |
--swapon |
swapon command parser |
details |
--sysctl |
sysctl command parser |
details |
--syslog |
Syslog RFC 5424 string parser | details |
--syslog-s |
Syslog RFC 5424 string streaming parser | details |
--syslog-bsd |
Syslog RFC 3164 string parser | details |
--syslog-bsd-s |
Syslog RFC 3164 string streaming parser | details |
--systemctl |
systemctl command parser |
details |
--systemctl-lj |
systemctl list-jobs command parser |
details |
--systemctl-ls |
systemctl list-sockets command parser |
details |
--systemctl-luf |
systemctl list-unit-files command parser |
details |
--systeminfo |
systeminfo command parser |
details |
--time |
/usr/bin/time command parser |
details |
--timedatectl |
timedatectl status command parser |
details |
--timestamp |
Unix Epoch Timestamp string parser | details |
--toml |
TOML file parser | details |
--top |
top -b command parser |
details |
--top-s |
top -b command streaming parser |
details |
--tracepath |
tracepath and tracepath6 command parser |
details |
--traceroute |
traceroute and traceroute6 command parser |
details |
--tune2fs |
tune2fs -l command parser |
details |
--udevadm |
udevadm info command parser |
details |
--ufw |
ufw status command parser |
details |
--ufw-appinfo |
ufw app info [application] command parser |
details |
--uname |
uname -a command parser |
details |
--update-alt-gs |
update-alternatives --get-selections command parser |
details |
--update-alt-q |
update-alternatives --query command parser |
details |
--upower |
upower command parser |
details |
--uptime |
uptime command parser |
details |
--url |
URL string parser | details |
--ver |
Version string parser | details |
--veracrypt |
veracrypt command parser |
details |
--vmstat |
vmstat command parser |
details |
--vmstat-s |
vmstat command streaming parser |
details |
--w |
w command parser |
details |
--wc |
wc command parser |
details |
--wg-show |
wg show command parser |
details |
--who |
who command parser |
details |
--x509-cert |
X.509 PEM and DER certificate file parser | details |
--x509-csr |
X.509 PEM and DER certificate request file parser | details |
--xml |
XML file parser | details |
--xrandr |
xrandr command parser |
details |
--yaml |
YAML file parser | details |
--zipinfo |
zipinfo command parser |
details |
--zpool-iostat |
zpool iostat command parser |
details |
--zpool-status |
zpool status command parser |
details |
Short | Long | Description |
---|---|---|
-a |
--about |
About jc . Prints information about jc and the parsers (in JSON or YAML, of course!) |
-C |
--force-color |
Force color output even when using pipes (overrides -m and the NO_COLOR env variable) |
-d |
--debug |
Debug mode. Prints trace messages if parsing issues are encountered (use-dd for verbose debugging) |
-h |
--help |
Help. Use jc -h --parser_name for parser documentation. Use twice to show hidden parsers (e.g. -hh ). Use thrice to show parser categories (e.g. -hhh ). |
-m |
--monochrome |
Monochrome output |
-M |
--meta-out |
Add metadata to output including timestamp, parser name, magic command, magic command exit code, etc. |
-p |
--pretty |
Pretty format the JSON output |
-q |
--quiet |
Quiet mode. Suppresses parser warning messages (use -qq to ignore streaming parser errors) |
-r |
--raw |
Raw output. Provides more literal output, typically with string values and no additional semantic processing |
-s |
--slurp |
Slurp multiple lines into an array. (use -hhh to find compatible parsers) |
-u |
--unbuffer |
Unbuffer output |
-v |
--version |
Version information |
-y |
--yaml-out |
YAML output |
-B |
--bash-comp |
Generate Bash shell completion script (more info) |
-Z |
--zsh-comp |
Generate Zsh shell completion script (more info) |
Line slicing is supported using the START:STOP
syntax similar to Python
slicing. This allows you to skip lines at the beginning and/or end of the
STDIN
input you would like jc
to convert.
START
and STOP
can be positive or negative integers or blank and allow
you to specify how many lines to skip and how many lines to process.
Positive and blank slices are the most memory efficient. Any negative
integers in the slice will use more memory.
For example, to skip the first and last line of the following text, you could express the slice in a couple ways:
$ cat table.txt
### We want to skip this header ###
col1 col2
foo 1
bar 2
### We want to skip this footer ###
$ cat table.txt | jc 1:-1 --asciitable
[{"col1":"foo","col2":"1"},{"col1":"bar","col2":"2"}]
$ cat table.txt | jc 1:4 --asciitable
[{"col1":"foo","col2":"1"},{"col1":"bar","col2":"2"}]
In this example 1:-1
and 1:4
line slices provide the same output.
When using positive integers the index location of STOP
is non-inclusive.
Positive slices count from the first line of the input toward the end
starting at 0
as the first line. Negative slices count from the last line
toward the beginning starting at -1
as the last line. This is also the way
Python's slicing
feature works.
Here is a breakdown of line slice options:
Slice Notation | Input Lines Processed |
---|---|
START:STOP |
lines START through STOP - 1 |
START: |
lines START through the rest of the output |
:STOP |
lines from the beginning through STOP - 1 |
-START:STOP |
START lines from the end through STOP - 1 |
START:-STOP |
lines START through STOP lines from the end |
-START:-STOP |
START lines from the end through STOP lines from the end |
-START: |
START lines from the end through the rest of the output |
:-STOP |
lines from the beginning through STOP lines from the end |
: |
all lines |
Some parsers support multi-item input and can output an array of results in a
single pass. Slurping works for string parsers that accept a single line of
input. (e.g. url
and ip-address
) To see a list of parsers that support
the --slurp
option, use jc -hhh
.
For example, you can send a file with multiple IP addresses (one per line) to
jc
with the --slurp
option and an array of results will output:
$ cat ip-addresses.txt | jc --slurp --ip-address
[<multiple output objects>]
The magic syntax for /proc
files automatically supports slurping of multiple
files (no need to use the --slurp
option). For example, you can convert many
PID files at once:
$ jc /proc/*/status
[<multiple output objects>]
When the /proc
magic syntax is used and multiple files are selected, an
additional _file
field is inserted in the output so it is easier to tell what
file each output object refers to.
Finally, the --meta-out
option can be used in conjunction with slurped output.
In this case, the slurped output is wrapped in an object with the following
structure:
{
"result": [<multiple output objects>],
"_jc_meta": {
"parser": "url",
"timestamp": 1706235558.654576,
"slice_start": null,
"slice_end": null,
"input_list": [
"http://www.google.com",
"https://www.apple.com",
"https://www.microsoft.com"
]
}
}
With --meta-out
, input_list
contains a list of inputs (actual input strings
or /proc
filenames) so you can identify which output object relates to each
input string or /proc
filename.
Any fatal errors within jc
will generate an exit code of 100
, otherwise the
exit code will be 0
.
When using the "magic" syntax (e.g. jc ifconfig eth0
),
jc
will store the exit code of the program being parsed and add it to the jc
exit code. This way it is easier to determine if an error was from the parsed
program or jc
.
Consider the following examples using ifconfig
:
ifconfig exit code |
jc exit code |
Combined exit code | Interpretation |
---|---|---|---|
0 |
0 |
0 |
No errors |
1 |
0 |
1 |
Error in ifconfig |
0 |
100 |
100 |
Error in jc |
1 |
100 |
101 |
Error in both ifconfig and jc |
When using the "magic" syntax you can also retrieve the exit code of the called
program by using the --meta-out
or -M
option. This will append a _jc_meta
object to the output that will include the magic command information, including
the exit code.
Here is an example with ping
:
$ jc --meta-out -p ping -c2 192.168.1.252
{
"destination_ip": "192.168.1.252",
"data_bytes": 56,
"pattern": null,
"destination": "192.168.1.252",
"packets_transmitted": 2,
"packets_received": 0,
"packet_loss_percent": 100.0,
"duplicates": 0,
"responses": [
{
"type": "timeout",
"icmp_seq": 0,
"duplicate": false
}
],
"_jc_meta": {
"parser": "ping",
"timestamp": 1661357115.27949,
"magic_command": [
"ping",
"-c2",
"192.168.1.252"
],
"magic_command_exit": 2
}
}
$ echo $?
2
You can specify custom colors via the JC_COLORS
environment variable. The
JC_COLORS
environment variable takes four comma separated string values in
the following format:
JC_COLORS=<keyname_color>,<keyword_color>,<number_color>,<string_color>
Where colors are: black
, red
, green
, yellow
, blue
, magenta
, cyan
,
gray
, brightblack
, brightred
, brightgreen
, brightyellow
, brightblue
,
brightmagenta
, brightcyan
, white
, or default
For example, to set to the default colors:
JC_COLORS=blue,brightblack,magenta,green
or
JC_COLORS=default,default,default,default
You can set the NO_COLOR
environment variable to any
value to disable color output in jc
. Note that using the -C
option to force
color output will override both the NO_COLOR
environment variable and the -m
option.
Most parsers load all of the data from STDIN
, parse it, then output the entire
JSON document serially. There are some streaming parsers (e.g. ls-s
and
ping-s
) that immediately start processing and outputting the data line-by-line
as JSON Lines (aka NDJSON) while
it is being received from STDIN
. This can significantly reduce the amount of
memory required to parse large amounts of command output (e.g. ls -lR /
) and
can sometimes process the data more quickly. Streaming parsers have slightly
different behavior than standard parsers as outlined below.
Note: Streaming parsers cannot be used with the "magic" syntax
You may want to ignore parsing errors when using streaming parsers since these
may be used in long-lived processing pipelines and errors can break the pipe. To
ignore parsing errors, use the -qq
cli option or the ignore_exceptions=True
argument with the parse()
function. This will add a _jc_meta
object to the
JSON output with a success
attribute. If success
is true
, then there were
no issues parsing the line. If success
is false
, then a parsing issue was
found and error
and line
fields will be added to include a short error
description and the contents of the unparsable line, respectively:
Successfully parsed line with -qq
option:
{
"command_data": "data",
"_jc_meta": {
"success": true
}
}
Unsuccessfully parsed line with -qq
option:
{
"_jc_meta": {
"success": false,
"error": "error message",
"line": "original line data"
}
}
Most operating systems will buffer output that is being piped from process to
process. The buffer is usually around 4KB. When viewing the output in the
terminal the OS buffer is not engaged so output is immediately displayed on the
screen. When piping multiple processes together, though, it may seem as if the
output is hanging when the input data is very slow (e.g. ping
):
$ ping 1.1.1.1 | jc --ping-s | jq
<slow output>
This is because the OS engages the 4KB buffer between jc
and jq
in this
example. To display the data on the terminal in realtime, you can disable the
buffer with the -u
(unbuffer) cli option:
$ ping 1.1.1.1 | jc --ping-s -u | jq
{"type":"reply","pattern":null,"timestamp":null,"bytes":"64","respons...}
{"type":"reply","pattern":null,"timestamp":null,"bytes":"64","respons...}
...
Note: Unbuffered output can be slower for large data streams.
Streaming parsers accept any iterable object and return an iterable object
allowing lazy processing of the data. The input data should iterate on lines
of string data. Examples of good input data are sys.stdin
or
str.splitlines()
.
To use the returned iterable object in your code, simply loop through it or use the next() builtin function:
import jc
result = jc.parse('ls_s', ls_command_output.splitlines())
for item in result:
print(item["filename"])
Parser plugins may be placed in a jc/jcparsers
folder in your local
"App data directory":
- Linux/unix:
$HOME/.local/share/jc/jcparsers
- macOS:
$HOME/Library/Application Support/jc/jcparsers
- Windows:
$LOCALAPPDATA\jc\jc\jcparsers
Parser plugins are standard python module files. Use the
jc/parsers/foo.py
or jc/parsers/foo_s.py (streaming)
parser as a template and simply place a .py
file in the jcparsers
subfolder.
Any dependencies can be placed in the jc
folder above jcparsers
and can
be imported in the parser code.
Parser plugin filenames must be valid python module names and therefore must start with a letter and consist entirely of alphanumerics and underscores. Local plugins may override default parsers.
Note: The application data directory follows the XDG Base Directory Specification
For best results set the locale environment variables to C
or
en_US.UTF-8
by modifying the LC_ALL
variable:
$ LC_ALL=C date | jc --date
You can also set the locale variables individually:
$ export LANG=C
$ export LC_NUMERIC=C
On some older systems UTF-8 output will be downgraded to ASCII with \\u
escape sequences if the C
locale does not support UTF-8 encoding.
Some parsers have calculated epoch timestamp fields added to the output. Unless
a timestamp field name has a _utc
suffix it is considered naive. (i.e. based
on the local timezone of the system the jc
parser was run on).
If a UTC timezone can be detected in the text of the command output, the
timestamp will be timezone aware and have a _utc
suffix on the key name.
(e.g. epoch_utc
) No other timezones are supported for aware timestamps.
jc
can be used in most any shell. Some modern shells have JSON deserialization
and filtering capabilities built-in which makes using jc
even more convenient.
For example, the following is possible in NGS (Next Generation Shell):
myvar = ``jc dig www.google.com``[0].answer[0].data
This runs jc
, parses the output JSON, and assigs the resulting data structure
to a variable in a single line of code.
For more examples of how to use jc
in other shells, see this
wiki page.
Some parsers like dig
, xml
, csv
, etc. will work on any platform. Other
parsers that convert platform-specific output will generate a warning message if
they are run on an unsupported platform. To see all parser information,
including compatibility, run jc -ap
.
You may still use a parser on an unsupported platform - for example, you may
want to parse a file with linux lsof
output on a macOS or Windows laptop. In
that case you can suppress the warning message with the -q
cli option or the
quiet=True
function parameter in parse()
:
macOS:
cat lsof.out | jc -q --lsof
or Windows:
type lsof.out | jc -q --lsof
Tested on:
- Centos 7.7
- Ubuntu 18.04
- Ubuntu 20.04
- Fedora32
- macOS 10.11.6
- macOS 10.14.6
- NixOS
- FreeBSD12
- Windows 10
- Windows 2016 Server
- Windows 2019 Server
Feel free to add/improve code or parsers! You can use the
jc/parsers/foo.py
or jc/parsers/foo_s.py (streaming)
parsers as a template and submit your parser with a pull
request.
Please see the Contributing Guidelines for more information.
- Local parser plugin feature contributed by Dean Serenevy
- CI automation and code optimizations by philippeitis
ifconfig-parser
module by KnightWhoSayNixmltodict
module by Martín Blechruamel.yaml
module by Anthon van der Neuttrparse
module by Luis Benitez- Parsing code from Conor Heine adapted for some parsers
- Excellent constructive feedback from Ilya Sher
Here are some examples of jc
output. For more examples, see
here or the parser
documentation.
arp | jc -p --arp # or: jc -p arp
[
{
"address": "gateway",
"hwtype": "ether",
"hwaddress": "00:50:56:f7:4a:fc",
"flags_mask": "C",
"iface": "ens33"
},
{
"address": "192.168.71.1",
"hwtype": "ether",
"hwaddress": "00:50:56:c0:00:08",
"flags_mask": "C",
"iface": "ens33"
},
{
"address": "192.168.71.254",
"hwtype": "ether",
"hwaddress": "00:50:56:fe:7a:b4",
"flags_mask": "C",
"iface": "ens33"
}
]
cat homes.csv
"Sell", "List", "Living", "Rooms", "Beds", "Baths", "Age", "Acres", "Taxes"
142, 160, 28, 10, 5, 3, 60, 0.28, 3167
175, 180, 18, 8, 4, 1, 12, 0.43, 4033
129, 132, 13, 6, 3, 1, 41, 0.33, 1471
...
cat homes.csv | jc -p --csv
[
{
"Sell": "142",
"List": "160",
"Living": "28",
"Rooms": "10",
"Beds": "5",
"Baths": "3",
"Age": "60",
"Acres": "0.28",
"Taxes": "3167"
},
{
"Sell": "175",
"List": "180",
"Living": "18",
"Rooms": "8",
"Beds": "4",
"Baths": "1",
"Age": "12",
"Acres": "0.43",
"Taxes": "4033"
},
{
"Sell": "129",
"List": "132",
"Living": "13",
"Rooms": "6",
"Beds": "3",
"Baths": "1",
"Age": "41",
"Acres": "0.33",
"Taxes": "1471"
}
]
cat /etc/hosts | jc -p --hosts
[
{
"ip": "127.0.0.1",
"hostname": [
"localhost"
]
},
{
"ip": "::1",
"hostname": [
"ip6-localhost",
"ip6-loopback"
]
},
{
"ip": "fe00::0",
"hostname": [
"ip6-localnet"
]
}
]
ifconfig | jc -p --ifconfig # or: jc -p ifconfig
[
{
"name": "ens33",
"flags": 4163,
"state": [
"UP",
"BROADCAST",
"RUNNING",
"MULTICAST"
],
"mtu": 1500,
"ipv4_addr": "192.168.71.137",
"ipv4_mask": "255.255.255.0",
"ipv4_bcast": "192.168.71.255",
"ipv6_addr": "fe80::c1cb:715d:bc3e:b8a0",
"ipv6_mask": 64,
"ipv6_scope": "0x20",
"mac_addr": "00:0c:29:3b:58:0e",
"type": "Ethernet",
"rx_packets": 8061,
"rx_bytes": 1514413,
"rx_errors": 0,
"rx_dropped": 0,
"rx_overruns": 0,
"rx_frame": 0,
"tx_packets": 4502,
"tx_bytes": 866622,
"tx_errors": 0,
"tx_dropped": 0,
"tx_overruns": 0,
"tx_carrier": 0,
"tx_collisions": 0,
"metric": null
}
]
cat example.ini
foo = fiz
bar = buz
[section1]
fruit = apple
color = blue
[section2]
fruit = pear
color = green
cat example.ini | jc -p --ini
{
"foo": "fiz",
"bar": "buz",
"section1": {
"fruit": "apple",
"color": "blue"
},
"section2": {
"fruit": "pear",
"color": "green"
}
}
$ ls -l /usr/bin | jc -p --ls # or: jc -p ls -l /usr/bin
[
{
"filename": "apropos",
"link_to": "whatis",
"flags": "lrwxrwxrwx.",
"links": 1,
"owner": "root",
"group": "root",
"size": 6,
"date": "Aug 15 10:53"
},
{
"filename": "ar",
"flags": "-rwxr-xr-x.",
"links": 1,
"owner": "root",
"group": "root",
"size": 62744,
"date": "Aug 8 16:14"
},
{
"filename": "arch",
"flags": "-rwxr-xr-x.",
"links": 1,
"owner": "root",
"group": "root",
"size": 33080,
"date": "Aug 19 23:25"
}
]
netstat -apee | jc -p --netstat # or: jc -p netstat -apee
[
{
"proto": "tcp",
"recv_q": 0,
"send_q": 0,
"local_address": "localhost",
"foreign_address": "0.0.0.0",
"state": "LISTEN",
"user": "systemd-resolve",
"inode": 26958,
"program_name": "systemd-resolve",
"kind": "network",
"pid": 887,
"local_port": "domain",
"foreign_port": "*",
"transport_protocol": "tcp",
"network_protocol": "ipv4"
},
{
"proto": "tcp6",
"recv_q": 0,
"send_q": 0,
"local_address": "[::]",
"foreign_address": "[::]",
"state": "LISTEN",
"user": "root",
"inode": 30510,
"program_name": "sshd",
"kind": "network",
"pid": 1186,
"local_port": "ssh",
"foreign_port": "*",
"transport_protocol": "tcp",
"network_protocol": "ipv6"
},
{
"proto": "udp",
"recv_q": 0,
"send_q": 0,
"local_address": "localhost",
"foreign_address": "0.0.0.0",
"state": null,
"user": "systemd-resolve",
"inode": 26957,
"program_name": "systemd-resolve",
"kind": "network",
"pid": 887,
"local_port": "domain",
"foreign_port": "*",
"transport_protocol": "udp",
"network_protocol": "ipv4"
},
{
"proto": "raw6",
"recv_q": 0,
"send_q": 0,
"local_address": "[::]",
"foreign_address": "[::]",
"state": "7",
"user": "systemd-network",
"inode": 27001,
"program_name": "systemd-network",
"kind": "network",
"pid": 867,
"local_port": "ipv6-icmp",
"foreign_port": "*",
"transport_protocol": null,
"network_protocol": "ipv6"
},
{
"proto": "unix",
"refcnt": 2,
"flags": null,
"type": "DGRAM",
"state": null,
"inode": 33322,
"program_name": "systemd",
"path": "/run/user/1000/systemd/notify",
"kind": "socket",
"pid": 1607
}
]
cat /etc/passwd | jc -p --passwd
[
{
"username": "root",
"password": "*",
"uid": 0,
"gid": 0,
"comment": "System Administrator",
"home": "/var/root",
"shell": "/bin/sh"
},
{
"username": "daemon",
"password": "*",
"uid": 1,
"gid": 1,
"comment": "System Services",
"home": "/var/root",
"shell": "/usr/bin/false"
}
]
ping 8.8.8.8 -c 3 | jc -p --ping # or: jc -p ping 8.8.8.8 -c 3
{
"destination_ip": "8.8.8.8",
"data_bytes": 56,
"pattern": null,
"destination": "8.8.8.8",
"packets_transmitted": 3,
"packets_received": 3,
"packet_loss_percent": 0.0,
"duplicates": 0,
"time_ms": 2005.0,
"round_trip_ms_min": 23.835,
"round_trip_ms_avg": 30.46,
"round_trip_ms_max": 34.838,
"round_trip_ms_stddev": 4.766,
"responses": [
{
"type": "reply",
"timestamp": null,
"bytes": 64,
"response_ip": "8.8.8.8",
"icmp_seq": 1,
"ttl": 118,
"time_ms": 23.8,
"duplicate": false
},
{
"type": "reply",
"timestamp": null,
"bytes": 64,
"response_ip": "8.8.8.8",
"icmp_seq": 2,
"ttl": 118,
"time_ms": 34.8,
"duplicate": false
},
{
"type": "reply",
"timestamp": null,
"bytes": 64,
"response_ip": "8.8.8.8",
"icmp_seq": 3,
"ttl": 118,
"time_ms": 32.7,
"duplicate": false
}
]
}
ps axu | jc -p --ps # or: jc -p ps axu
[
{
"user": "root",
"pid": 1,
"cpu_percent": 0.0,
"mem_percent": 0.1,
"vsz": 128072,
"rss": 6784,
"tty": null,
"stat": "Ss",
"start": "Nov09",
"time": "0:08",
"command": "/usr/lib/systemd/systemd --switched-root --system --deseria..."
},
{
"user": "root",
"pid": 2,
"cpu_percent": 0.0,
"mem_percent": 0.0,
"vsz": 0,
"rss": 0,
"tty": null,
"stat": "S",
"start": "Nov09",
"time": "0:00",
"command": "[kthreadd]"
},
{
"user": "root",
"pid": 4,
"cpu_percent": 0.0,
"mem_percent": 0.0,
"vsz": 0,
"rss": 0,
"tty": null,
"stat": "S<",
"start": "Nov09",
"time": "0:00",
"command": "[kworker/0:0H]"
}
]
traceroute -m 2 8.8.8.8 | jc -p --traceroute
# or: jc -p traceroute -m 2 8.8.8.8
{
"destination_ip": "8.8.8.8",
"destination_name": "8.8.8.8",
"hops": [
{
"hop": 1,
"probes": [
{
"annotation": null,
"asn": null,
"ip": "192.168.1.254",
"name": "dsldevice.local.net",
"rtt": 6.616
},
{
"annotation": null,
"asn": null,
"ip": "192.168.1.254",
"name": "dsldevice.local.net",
"rtt": 6.413
},
{
"annotation": null,
"asn": null,
"ip": "192.168.1.254",
"name": "dsldevice.local.net",
"rtt": 6.308
}
]
},
{
"hop": 2,
"probes": [
{
"annotation": null,
"asn": null,
"ip": "76.220.24.1",
"name": "76-220-24-1.lightspeed.sntcca.sbcglobal.net",
"rtt": 29.367
},
{
"annotation": null,
"asn": null,
"ip": "76.220.24.1",
"name": "76-220-24-1.lightspeed.sntcca.sbcglobal.net",
"rtt": 40.197
},
{
"annotation": null,
"asn": null,
"ip": "76.220.24.1",
"name": "76-220-24-1.lightspeed.sntcca.sbcglobal.net",
"rtt": 29.162
}
]
}
]
}
uptime | jc -p --uptime # or: jc -p uptime
{
"time": "11:35",
"uptime": "3 days, 4:03",
"users": 5,
"load_1m": 1.88,
"load_5m": 2.0,
"load_15m": 1.94,
"time_hour": 11,
"time_minute": 35,
"time_second": null,
"uptime_days": 3,
"uptime_hours": 4,
"uptime_minutes": 3,
"uptime_total_seconds": 273780
}
cat cd_catalog.xml
<?xml version="1.0" encoding="UTF-8"?>
<CATALOG>
<CD>
<TITLE>Empire Burlesque</TITLE>
<ARTIST>Bob Dylan</ARTIST>
<COUNTRY>USA</COUNTRY>
<COMPANY>Columbia</COMPANY>
<PRICE>10.90</PRICE>
<YEAR>1985</YEAR>
</CD>
<CD>
<TITLE>Hide your heart</TITLE>
<ARTIST>Bonnie Tyler</ARTIST>
<COUNTRY>UK</COUNTRY>
<COMPANY>CBS Records</COMPANY>
<PRICE>9.90</PRICE>
<YEAR>1988</YEAR>
</CD>
...
cat cd_catalog.xml | jc -p --xml
{
"CATALOG": {
"CD": [
{
"TITLE": "Empire Burlesque",
"ARTIST": "Bob Dylan",
"COUNTRY": "USA",
"COMPANY": "Columbia",
"PRICE": "10.90",
"YEAR": "1985"
},
{
"TITLE": "Hide your heart",
"ARTIST": "Bonnie Tyler",
"COUNTRY": "UK",
"COMPANY": "CBS Records",
"PRICE": "9.90",
"YEAR": "1988"
}
]
}
}
cat istio.yaml
apiVersion: "authentication.istio.io/v1alpha1"
kind: "Policy"
metadata:
name: "default"
namespace: "default"
spec:
peers:
- mtls: {}
---
apiVersion: "networking.istio.io/v1alpha3"
kind: "DestinationRule"
metadata:
name: "default"
namespace: "default"
spec:
host: "*.default.svc.cluster.local"
trafficPolicy:
tls:
mode: ISTIO_MUTUAL
cat istio.yaml | jc -p --yaml
[
{
"apiVersion": "authentication.istio.io/v1alpha1",
"kind": "Policy",
"metadata": {
"name": "default",
"namespace": "default"
},
"spec": {
"peers": [
{
"mtls": {}
}
]
}
},
{
"apiVersion": "networking.istio.io/v1alpha3",
"kind": "DestinationRule",
"metadata": {
"name": "default",
"namespace": "default"
},
"spec": {
"host": "*.default.svc.cluster.local",
"trafficPolicy": {
"tls": {
"mode": "ISTIO_MUTUAL"
}
}
}
}
]
© 2019-2024 Kelly Brazil