rest_cherrypy¶

Authentication¶

Authentication is performed by passing a session token with each request. Tokens are generated via the Login URL.

The token may be sent in one of two ways:

• Include a custom header named X-Auth-Token.

  For example, using curl:

  curl -sSk https://localhost:8000/login \
      -H 'Accept: application/x-yaml' \
      -d username=saltdev \
      -d password=saltdev \
      -d eauth=auto
  

  Copy the token value from the output and include it in subsequent requests:

  curl -sSk https://localhost:8000 \
      -H 'Accept: application/x-yaml' \
      -H 'X-Auth-Token: 697adbdc8fe971d09ae4c2a3add7248859c87079'\
      -d client=local \
      -d tgt='*' \
      -d fun=test.ping
  

• Sent via a cookie. This option is a convenience for HTTP clients that automatically handle cookie support (such as browsers).

  For example, using curl:

  # Write the cookie file:
  curl -sSk https://localhost:8000/login \
        -c ~/cookies.txt \
        -H 'Accept: application/x-yaml' \
        -d username=saltdev \
        -d password=saltdev \
        -d eauth=auto
  
  # Read the cookie file:
  curl -sSk https://localhost:8000 \
        -b ~/cookies.txt \
        -H 'Accept: application/x-yaml' \
        -d client=local \
        -d tgt='*' \
        -d fun=test.ping
  

使用说明¶

Commands are sent to a running Salt master via this module by sending HTTP requests to the URLs detailed below.

Data sent in POST and PUT requests must be in the format of a list of lowstate dictionaries. This allows multiple commands to be executed in a single HTTP request. The order of commands in the request corresponds to the return for each command in the response.

Lowstate, broadly, is a dictionary of values that are mapped to a function call. This pattern is used pervasively throughout Salt. The functions called from netapi modules are described in Client Interfaces.

The following example (in JSON format) causes Salt to execute two commands, a command sent to minions as well as a runner function on the master:

[{
    "client": "local",
    "tgt": "*",
    "fun": "test.fib",
    "arg": ["10"]
},
{
    "client": "runner",
    "fun": "jobs.lookup_jid",
    "jid": "20130603122505459265"
}]

salt-api using the CherryPy server¶

The default configuration is to run this module using salt-api to start the Python-based CherryPy server. This server is lightweight, multi-threaded, encrypted with SSL, and should be considered production-ready.

Using a WSGI-compliant web server¶

This module may be deployed on any WSGI-compliant server such as Apache with mod_wsgi or Nginx with FastCGI, to name just two (there are many).

Note, external WSGI servers handle URLs, paths, and SSL certs directly. The rest_cherrypy configuration options are ignored and the salt-api daemon does not need to be running at all. Remember Salt authentication credentials are sent in the clear unless SSL is being enforced!

An example Apache virtual host configuration:

<VirtualHost *:80>
    ServerName example.com
    ServerAlias *.example.com

    ServerAdmin webmaster@example.com

    LogLevel warn
    ErrorLog /var/www/example.com/logs/error.log
    CustomLog /var/www/example.com/logs/access.log combined

    DocumentRoot /var/www/example.com/htdocs

    WSGIScriptAlias / /path/to/salt/netapi/rest_cherrypy/wsgi.py
</VirtualHost>

/¶

class salt.netapi.rest_cherrypy.app.LowDataAdapter¶

The primary entry point to Salt's REST API

GET()¶

An explanation of the API with links of where to go next

GET /¶

Request Headers:
	Accept -- the desired response format.
Status Codes:	200 -- success 401 -- authentication required 406 -- requested Content-Type not available

Example request:

curl -i localhost:8000

GET / HTTP/1.1
Host: localhost:8000
Accept: application/json

Example response:

HTTP/1.1 200 OK
Content-Type: application/json

POST¶

Mock out specified imports

This allows autodoc to do its thing without having oodles of req'd installed libs. This doesn't work with import * imports.

http://read-the-docs.readthedocs.org/en/latest/faq.html#i-get-import-errors-on-libraries-that-depend-on-c-modules

/login¶

class salt.netapi.rest_cherrypy.app.Login(*args, **kwargs)¶

Log in to receive a session token

Authentication information.

GET()¶

Present the login interface

GET /login¶

An explanation of how to log in.

Status Codes:	200 -- success 401 -- authentication required 406 -- requested Content-Type not available

Example request:

curl -i localhost:8000/login

GET /login HTTP/1.1
Host: localhost:8000
Accept: text/html

Example response:

HTTP/1.1 200 OK
Content-Type: text/html

POST(**kwargs)¶

Authenticate against Salt's eauth system

POST /login¶

Request Headers:
	X-Auth-Token -- a session token from Login. Accept -- the desired response format. Content-Type -- the format of the request body.
Form Parameters:
	eauth -- the eauth backend configured for the user username -- username password -- password
Status Codes:	200 -- success 401 -- authentication required 406 -- requested Content-Type not available

Example request:

curl -si localhost:8000/login \
        -H "Accept: application/json" \
        -d username='saltuser' \
        -d password='saltpass' \
        -d eauth='pam'

POST / HTTP/1.1
Host: localhost:8000
Content-Length: 42
Content-Type: application/x-www-form-urlencoded
Accept: application/json

username=saltuser&password=saltpass&eauth=pam

Example response:

HTTP/1.1 200 OK
Content-Type: application/json
Content-Length: 206
X-Auth-Token: 6d1b722e
Set-Cookie: session_id=6d1b722e; expires=Sat, 17 Nov 2012 03:23:52 GMT; Path=/

{"return": {
    "token": "6d1b722e",
    "start": 1363805943.776223,
    "expire": 1363849143.776224,
    "user": "saltuser",
    "eauth": "pam",
    "perms": [
        "grains.*",
        "status.*",
        "sys.*",
        "test.*"
    ]
}}

/logout¶

class salt.netapi.rest_cherrypy.app.Logout¶

Class to remove or invalidate sessions

POST()¶

Destroy the currently active session and expire the session cookie

/minions¶

class salt.netapi.rest_cherrypy.app.Minions¶

Convenience URLs for working with minions

GET(mid=None)¶

A convenience URL for getting lists of minions or getting minion details

GET /minions/(mid)¶

Request Headers:
	X-Auth-Token -- a session token from Login. Accept -- the desired response format.
Status Codes:	200 -- success 401 -- authentication required 406 -- requested Content-Type not available

Example request:

curl -i localhost:8000/minions/ms-3

GET /minions/ms-3 HTTP/1.1
Host: localhost:8000
Accept: application/x-yaml

Example response:

HTTP/1.1 200 OK
Content-Length: 129005
Content-Type: application/x-yaml

return:
- ms-3:
    grains.items:
        ...

POST(**kwargs)¶

Start an execution command and immediately return the job id

POST /minions¶

Request Headers:
	X-Auth-Token -- a session token from Login. Accept -- the desired response format. Content-Type -- the format of the request body.
Response Headers:
	Content-Type -- the format of the response body; depends on the Accept request header.
Status Codes:	200 -- success 401 -- authentication required 406 -- requested Content-Type not available

lowstate data describing Salt commands must be sent in the request body. The client option will be set to local_async().

Example request:

curl -sSi localhost:8000/minions \
    -H "Accept: application/x-yaml" \
    -d tgt='*' \
    -d fun='status.diskusage'

POST /minions HTTP/1.1
Host: localhost:8000
Accept: application/x-yaml
Content-Length: 26
Content-Type: application/x-www-form-urlencoded

tgt=*&fun=status.diskusage

Example response:

HTTP/1.1 202 Accepted
Content-Length: 86
Content-Type: application/x-yaml

return:
- jid: '20130603122505459265'
  minions: [ms-4, ms-3, ms-2, ms-1, ms-0]
_links:
  jobs:
    - href: /jobs/20130603122505459265

/jobs¶

class salt.netapi.rest_cherrypy.app.Jobs¶

GET(jid=None, timeout='')¶

A convenience URL for getting lists of previously run jobs or getting the return from a single job

GET /jobs/(jid)¶

List jobs or show a single job from the job cache.

Request Headers:
	X-Auth-Token -- a session token from Login. Accept -- the desired response format.
Status Codes:	200 -- success 401 -- authentication required 406 -- requested Content-Type not available

Example request:

curl -i localhost:8000/jobs

GET /jobs HTTP/1.1
Host: localhost:8000
Accept: application/x-yaml

Example response:

HTTP/1.1 200 OK
Content-Length: 165
Content-Type: application/x-yaml

return:
- '20121130104633606931':
    Arguments:
    - '3'
    Function: test.fib
    Start Time: 2012, Nov 30 10:46:33.606931
    Target: jerry
    Target-type: glob

Example request:

curl -i localhost:8000/jobs/20121130104633606931

GET /jobs/20121130104633606931 HTTP/1.1
Host: localhost:8000
Accept: application/x-yaml

Example response:

HTTP/1.1 200 OK
Content-Length: 73
Content-Type: application/x-yaml

info:
- Arguments:
    - '3'
    Function: test.fib
    Minions:
    - jerry
    Start Time: 2012, Nov 30 10:46:33.606931
    Target: '*'
    Target-type: glob
    User: saltdev
    jid: '20121130104633606931'
return:
- jerry:
    - - 0
    - 1
    - 1
    - 2
    - 6.9141387939453125e-06

/run¶

class salt.netapi.rest_cherrypy.app.Run¶

Class to run commands without normal session handling

POST(**kwargs)¶

Run commands bypassing the normal session handling

POST /run¶

This entry point is primarily for "one-off" commands. Each request must pass full Salt authentication credentials. Otherwise this URL is identical to the root URL (/).

lowstate data describing Salt commands must be sent in the request body.

Status Codes:	200 -- success 401 -- authentication required 406 -- requested Content-Type not available

Example request:

curl -sS localhost:8000/run \
    -H 'Accept: application/x-yaml' \
    -d client='local' \
    -d tgt='*' \
    -d fun='test.ping' \
    -d username='saltdev' \
    -d password='saltdev' \
    -d eauth='pam'

POST /run HTTP/1.1
Host: localhost:8000
Accept: application/x-yaml
Content-Length: 75
Content-Type: application/x-www-form-urlencoded

client=local&tgt=*&fun=test.ping&username=saltdev&password=saltdev&eauth=pam

Example response:

HTTP/1.1 200 OK
Content-Length: 73
Content-Type: application/x-yaml

return:
- ms-0: true
    ms-1: true
    ms-2: true
    ms-3: true
    ms-4: true

The /run enpoint can also be used to issue commands using the salt-ssh subsystem.

When using salt-ssh, eauth credentials should not be supplied. Instad, authentication should be handled by the SSH layer itself. The use of the salt-ssh client does not require a salt master to be running. Instead, only a roster file must be present in the salt configuration directory.

All SSH client requests are synchronous.

Example SSH client request:

curl -sS localhost:8000/run \
    -H 'Accept: application/x-yaml' \
    -d client='ssh' \
    -d tgt='*' \
    -d fun='test.ping'

POST /run HTTP/1.1
Host: localhost:8000
Accept: application/x-yaml
Content-Length: 75
Content-Type: application/x-www-form-urlencoded

client=ssh&tgt=*&fun=test.ping

Example SSH response:

return:
- silver:
  fun: test.ping
  fun_args: []
  id: silver
  jid: '20141203103525666185'
  retcode: 0
  return: true
  success: true

/events¶

class salt.netapi.rest_cherrypy.app.Events¶

Expose the Salt event bus

The event bus on the Salt master exposes a large variety of things, notably when executions are started on the master and also when minions ultimately return their results. This URL provides a real-time window into a running Salt infrastructure.

参见

Events & Reactor

GET(token=None, salt_token=None)¶

An HTTP stream of the Salt master event bus

This stream is formatted per the Server Sent Events (SSE) spec. Each event is formatted as JSON.

GET /events¶

Status Codes:	200 -- success 401 -- authentication required 406 -- requested Content-Type not available
Query Parameters:
	token -- optional parameter containing the token ordinarily supplied via the X-Auth-Token header in order to allow cross-domain requests in browsers that do not include CORS support in the EventSource API. E.g., curl -NsS localhost:8000/events?token=308650d salt_token -- optional parameter containing a raw Salt eauth token (not to be confused with the token returned from the /login URL). E.g., curl -NsS localhost:8000/events?salt_token=30742765

Example request:

curl -NsS localhost:8000/events

GET /events HTTP/1.1
Host: localhost:8000

Example response:

Note, the tag field is not part of the spec. SSE compliant clients should ignore unknown fields. This addition allows non-compliant clients to only watch for certain tags without having to deserialze the JSON object each time.

HTTP/1.1 200 OK
Connection: keep-alive
Cache-Control: no-cache
Content-Type: text/event-stream;charset=utf-8

retry: 400

tag: salt/job/20130802115730568475/new
data: {'tag': 'salt/job/20130802115730568475/new', 'data': {'minions': ['ms-4', 'ms-3', 'ms-2', 'ms-1', 'ms-0']}}

tag: salt/job/20130802115730568475/ret/jerry
data: {'tag': 'salt/job/20130802115730568475/ret/jerry', 'data': {'jid': '20130802115730568475', 'return': True, 'retcode': 0, 'success': True, 'cmd': '_return', 'fun': 'test.ping', 'id': 'ms-1'}}

The event stream can be easily consumed via JavaScript:

var source = new EventSource('/events');
source.onopen = function() { console.info('Listening ...') };
source.onerror = function(err) { console.error(err) };
source.onmessage = function(message) {
  var saltEvent = JSON.parse(message.data);
  console.info(saltEvent.tag)
  console.debug(saltEvent.data)
};

Or using CORS:

var source = new EventSource('/events?token=ecd589e4e01912cf3c4035afad73426dbb8dba75', {withCredentials: true});

It is also possible to consume the stream via the shell.

Records are separated by blank lines; the data: and tag: prefixes will need to be removed manually before attempting to unserialize the JSON.

curl's -N flag turns off input buffering which is required to process the stream incrementally.

Here is a basic example of printing each event as it comes in:

curl -NsS localhost:8000/events |\
        while IFS= read -r line ; do
            echo $line
        done

Here is an example of using awk to filter events based on tag:

curl -NsS localhost:8000/events |\
        awk '
            BEGIN { RS=""; FS="\\n" }
            $1 ~ /^tag: salt\/job\/[0-9]+\/new$/ { print $0 }
        '
tag: salt/job/20140112010149808995/new
data: {"tag": "salt/job/20140112010149808995/new", "data": {"tgt_type": "glob", "jid": "20140112010149808995", "tgt": "jerry", "_stamp": "2014-01-12_01:01:49.809617", "user": "shouse", "arg": [], "fun": "test.ping", "minions": ["jerry"]}}
tag: 20140112010149808995
data: {"tag": "20140112010149808995", "data": {"fun_args": [], "jid": "20140112010149808995", "return": true, "retcode": 0, "success": true, "cmd": "_return", "_stamp": "2014-01-12_01:01:49.819316", "fun": "test.ping", "id": "jerry"}}

/hook¶

class salt.netapi.rest_cherrypy.app.Webhook¶

A generic web hook entry point that fires an event on Salt's event bus

External services can POST data to this URL to trigger an event in Salt. For example, Amazon SNS, Jenkins-CI or Travis-CI, or GitHub web hooks.

注解

Be mindful of security

Salt's Reactor can run any code. A Reactor SLS that responds to a hook event is responsible for validating that the event came from a trusted source and contains valid data.

This is a generic interface and securing it is up to you!

This URL requires authentication however not all external services can be configured to authenticate. For this reason authentication can be selectively disabled for this URL. Follow best practices -- always use SSL, pass a secret key, configure the firewall to only allow traffic from a known source, etc.

The event data is taken from the request body. The Content-Type header is respected for the payload.

The event tag is prefixed with salt/netapi/hook and the URL path is appended to the end. For example, a POST request sent to /hook/mycompany/myapp/mydata will produce a Salt event with the tag salt/netapi/hook/mycompany/myapp/mydata.

The following is an example .travis.yml file to send notifications to Salt of successful test runs:

language: python
script: python -m unittest tests
after_success:
    - |
        curl -sSk https://saltapi-url.example.com:8000/hook/travis/build/success                         -d branch="${TRAVIS_BRANCH}"                         -d commit="${TRAVIS_COMMIT}"

参见

Events & Reactor, reactor

POST(*args, **kwargs)¶

Fire an event in Salt with a custom event tag and data

POST /hook¶

Status Codes:	200 -- success 401 -- authentication required 406 -- requested Content-Type not available 413 -- request body is too large

Example request:

curl -sS localhost:8000/hook -d foo='Foo!' -d bar='Bar!'

POST /hook HTTP/1.1
Host: localhost:8000
Content-Length: 16
Content-Type: application/x-www-form-urlencoded

foo=Foo&bar=Bar!

Example response:

HTTP/1.1 200 OK
Content-Length: 14
Content-Type: application/json

{"success": true}

As a practical example, an internal continuous-integration build server could send an HTTP POST request to the URL https://localhost:8000/hook/mycompany/build/success which contains the result of a build and the SHA of the version that was built as JSON. That would then produce the following event in Salt that could be used to kick off a deployment via Salt's Reactor:

Event fired at Fri Feb 14 17:40:11 2014
*************************
Tag: salt/netapi/hook/mycompany/build/success
Data:
{'_stamp': '2014-02-14_17:40:11.440996',
    'headers': {
        'X-My-Secret-Key': 'F0fAgoQjIT@W',
        'Content-Length': '37',
        'Content-Type': 'application/json',
        'Host': 'localhost:8000',
        'Remote-Addr': '127.0.0.1'},
    'post': {'revision': 'aa22a3c4b2e7', 'result': True}}

Salt's Reactor could listen for the event:

reactor:
  - 'salt/netapi/hook/mycompany/build/*':
    - /srv/reactor/react_ci_builds.sls

And finally deploy the new build:

{% set secret_key = data.get('headers', {}).get('X-My-Secret-Key') %}
{% set build = data.get('post', {}) %}

{% if secret_key == 'F0fAgoQjIT@W' and build.result == True %}
deploy_my_app:
  cmd.state.sls:
    - tgt: 'application*'
    - arg:
      - myapp.deploy
    - kwarg:
        pillar:
          revision: {{ revision }}
{% endif %}

/keys¶

class salt.netapi.rest_cherrypy.app.Keys¶

Convenience URLs for working with minion keys

2014.7.0 新版功能.

These URLs wrap the functionality provided by the key wheel module functions.

GET¶

Mock out specified imports

This allows autodoc to do its thing without having oodles of req'd installed libs. This doesn't work with import * imports.

http://read-the-docs.readthedocs.org/en/latest/faq.html#i-get-import-errors-on-libraries-that-depend-on-c-modules

POST¶

Mock out specified imports

This allows autodoc to do its thing without having oodles of req'd installed libs. This doesn't work with import * imports.

http://read-the-docs.readthedocs.org/en/latest/faq.html#i-get-import-errors-on-libraries-that-depend-on-c-modules

/ws¶

class salt.netapi.rest_cherrypy.app.WebsocketEndpoint¶

Open a WebSocket connection to Salt's event bus

The event bus on the Salt master exposes a large variety of things, notably when executions are started on the master and also when minions ultimately return their results. This URL provides a real-time window into a running Salt infrastructure. Uses websocket as the transport mechanism.

参见

Events & Reactor

GET(token=None, **kwargs)¶

Return a websocket connection of Salt's event stream

GET /ws/(token)¶

Query format_events:
	The event stream will undergo server-side formatting if the format_events URL parameter is included in the request. This can be useful to avoid formatting on the client-side: curl -NsS <...snip...> localhost:8000/ws?format_events
Reqheader X-Auth-Token:
	an authentication token from Login.
Status 101:	switching to the websockets protocol
Status 401:	authentication required
Status 406:	requested Content-Type not available

Example request:

curl -NsSk \
    -H 'X-Auth-Token: ffedf49d' \
    -H 'Host: localhost:8000' \
    -H 'Connection: Upgrade' \
    -H 'Upgrade: websocket' \
    -H 'Origin: https://localhost:8000' \
    -H 'Sec-WebSocket-Version: 13' \
    -H 'Sec-WebSocket-Key: '"$(echo -n $RANDOM | base64)" \
    localhost:8000/ws

GET /ws HTTP/1.1
Connection: Upgrade
Upgrade: websocket
Host: localhost:8000
Origin: https://localhost:8000
Sec-WebSocket-Version: 13
Sec-WebSocket-Key: s65VsgHigh7v/Jcf4nXHnA==
X-Auth-Token: ffedf49d

Example response:

HTTP/1.1 101 Switching Protocols
Upgrade: websocket
Connection: Upgrade
Sec-WebSocket-Accept: mWZjBV9FCglzn1rIKJAxrTFlnJE=
Sec-WebSocket-Version: 13

An authentication token may optionally be passed as part of the URL for browsers that cannot be configured to send the authentication header or cookie:

curl -NsS <...snip...> localhost:8000/ws/ffedf49d

The event stream can be easily consumed via JavaScript:

// Note, you must be authenticated!
var source = new Websocket('ws://localhost:8000/ws/d0ce6c1a');
source.onerror = function(e) { console.debug('error!', e); };
source.onmessage = function(e) { console.debug(e.data); };

source.send('websocket client ready')

source.close();

Or via Python, using the Python module websocket-client for example.

# Note, you must be authenticated!

from websocket import create_connection

ws = create_connection('ws://localhost:8000/ws/d0ce6c1a')
ws.send('websocket client ready')

# Look at https://pypi.python.org/pypi/websocket-client/ for more
# examples.
while listening_to_events:
    print ws.recv()

ws.close()

Above examples show how to establish a websocket connection to Salt and activating real time updates from Salt's event stream by signaling websocket client ready.

/stats¶

class salt.netapi.rest_cherrypy.app.Stats¶

Expose statistics on the running CherryPy server

GET()¶

Return a dump of statistics collected from the CherryPy server

GET /stats¶

Request Headers:
	X-Auth-Token -- a session token from Login. Accept -- the desired response format.
Response Headers:
	Content-Type -- the format of the response body; depends on the Accept request header.
Status Codes:	200 -- success 401 -- authentication required 406 -- requested Content-Type not available