Connpy is a SSH/Telnet connection manager and automation module
Project description
Connpy
Connpy is a ssh and telnet connection manager and automation module for Linux, Mac and Docker
Installation
pip install connpy
Run it in Windows using docker
git clone https://github.com/fluzzi/connpy
docker compose -f path/to/folder/docker-compose.yml build
docker compose -f path/to/folder/docker-compose.yml run -it connpy-app
Connection manager
Privacy Policy
Connpy is committed to protecting your privacy. Our privacy policy explains how we handle user data:
- Data Access: Connpy accesses data necessary for managing remote host connections, including server addresses, usernames, and passwords. This data is stored locally on your machine and is not transmitted or shared with any third parties.
- Data Usage: User data is used solely for the purpose of managing and automating SSH and Telnet connections.
- Data Storage: All connection details are stored locally and securely on your device. We do not store or process this data on our servers.
- Data Sharing: We do not share any user data with third parties.
Google Integration
Connpy integrates with Google services for backup purposes:
- Configuration Backup: The app allows users to store their device information in the app configuration. This configuration can be synced with Google services to create backups.
- Data Access: Connpy only accesses its own files and does not access any other files on your Google account.
- Data Usage: The data is used solely for backup and restore purposes, ensuring that your device information and configurations are safe and recoverable.
- Data Sharing: Connpy does not share any user data with third parties, including Google. The backup data is only accessible by the user.
For more detailed information, please read our Privacy Policy.
Features
- You can generate profiles and reference them from nodes using @profilename so you dont
need to edit multiple nodes when changing password or other information.
- Nodes can be stored on @folder or @subfolder@folder to organize your devices. Then can
be referenced using node@subfolder@folder or node@folder
- If you have too many nodes. Get completion script using: conn config --completion.
Or use fzf installing pyfzf and running conn config --fzf true
- Create in bulk, copy, move, export and import nodes for easy management.
- Run automation scripts in network devices.
- use GPT AI to help you manage your devices.
- Add plugins with your own scripts.
- Much more!
Usage:
usage: conn [-h] [--add | --del | --mod | --show | --debug] [node|folder] [--sftp]
conn {profile,move,mv,copy,cp,list,ls,bulk,export,import,ai,run,api,plugin,config} ...
positional arguments:
node|folder node[@subfolder][@folder]
Connect to specific node or show all matching nodes
[@subfolder][@folder]
Show all available connections globaly or in specified path
Options:
-h, --help show this help message and exit
-v, --version Show version
-a, --add Add new node[@subfolder][@folder] or [@subfolder]@folder
-r, --del, --rm Delete node[@subfolder][@folder] or [@subfolder]@folder
-e, --mod, --edit Modify node[@subfolder][@folder]
-s, --show Show node[@subfolder][@folder]
-d, --debug Display all conections steps
-t, --sftp Connects using sftp instead of ssh
Commands:
profile Manage profiles
move(mv) Move node
copy(cp) Copy node
list(ls) List profiles, nodes or folders
bulk Add nodes in bulk
export Export connection folder to Yaml file
import Import connection folder to config from Yaml file
ai Make request to an AI
run Run scripts or commands on nodes
api Start and stop connpy api
plugin Manage plugins
config Manage app config
sync Sync config with Google
Manage profiles:
usage: conn profile [-h] (--add | --del | --mod | --show) profile
positional arguments:
profile Name of profile to manage
options:
-h, --help show this help message and exit
-a, --add Add new profile
-r, --del, --rm Delete profile
-e, --mod, --edit Modify profile
-s, --show Show profile
Examples:
conn profile --add office-user
conn --add @office
conn --add @datacenter@office
conn --add server@datacenter@office
conn --add pc@office
conn --show server@datacenter@office
conn pc@office
conn server
Plugin Requirements for Connpy
General Structure
- The plugin script must be a Python file.
- Only the following top-level elements are allowed in the plugin script:
- Class definitions
- Function definitions
- Import statements
- The
if __name__ == "__main__":
block for standalone execution - Pass statements
Specific Class Requirements
- The plugin script must define specific classes with particular attributes and methods. Each class serves a distinct role within the plugin's architecture:
- Class
Parser
:- Purpose: Handles parsing of command-line arguments.
- Requirements:
- Must contain only one method:
__init__
. - The
__init__
method must initialize at least two attributes:self.parser
: An instance ofargparse.ArgumentParser
.self.description
: A string containing the description of the parser.
- Must contain only one method:
- Class
Entrypoint
:- Purpose: Acts as the entry point for plugin execution, utilizing parsed arguments and integrating with the main application.
- Requirements:
- Must have an
__init__
method that accepts exactly three parameters besidesself
:args
: Arguments passed to the plugin.- The parser instance (typically
self.parser
from theParser
class). - The Connapp instance to interact with the Connpy app.
- Must have an
- Class
Preload
:- Purpose: Performs any necessary preliminary setup or configuration independent of the main parsing and entry logic.
- Requirements:
- Contains at least an
__init__
method that accepts parameter connapp besidesself
.
- Contains at least an
- Class
Class Dependencies and Combinations
- Dependencies:
Parser
andEntrypoint
are interdependent and must both be present if one is included.Preload
is independent and may exist alone or alongside the other classes.
- Valid Combinations:
Parser
andEntrypoint
together.Preload
alone.- All three classes (
Parser
,Entrypoint
,Preload
).
Preload Modifications and Hooks
In the Preload
class of the plugin system, you have the ability to customize the behavior of existing classes and methods within the application through a robust hooking system. This documentation explains how to use the modify
, register_pre_hook
, and register_post_hook
methods to tailor plugin functionality to your needs.
Modifying Classes with modify
The modify
method allows you to alter instances of a class at the time they are created or after their creation. This is particularly useful for setting or modifying configuration settings, altering default behaviors, or adding new functionalities to existing classes without changing the original class definitions.
- Usage: Modify a class to include additional configurations or changes
- Modify Method Signature:
modify(modification_method)
: A function that is invoked with an instance of the class as its argument. This function should perform any modifications directly on this instance.
- Modification Method Signature:
- Arguments:
cls
: This function accepts a single argument, the class instance, which it then modifies.
- Modifiable Classes:
connapp.config
connapp.node
connapp.nodes
connapp.ai
-
def modify_config(cls): # Example modification: adding a new attribute or modifying an existing one cls.new_attribute = 'New Value' class Preload: def __init__(self, connapp): # Applying modification to the config class instance connapp.config.modify(modify_config)
- Arguments:
Implementing Method Hooks
There are 2 methods that allows you to define custom logic to be executed before (register_pre_hook
) or after (register_post_hook
) the main logic of a method. This is particularly useful for logging, auditing, preprocessing inputs, postprocessing outputs or adding functionalities.
- Usage: Register hooks to methods to execute additional logic before or after the main method execution.
- Registration Methods Signature:
register_pre_hook(pre_hook_method)
: A function that is invoked before the main method is executed. This function should do preprocessing of the arguments.register_post_hook(post_hook_method)
: A function that is invoked after the main method is executed. This function should do postprocessing of the outputs.
- Method Signatures for Pre-Hooks
pre_hook_method(*args, **kwargs)
- Arguments:
*args
,**kwargs
: The arguments and keyword arguments that will be passed to the method being hooked. The pre-hook function has the opportunity to inspect and modify these arguments before they are passed to the main method.
- Return:
- Must return a tuple
(args, kwargs)
, which will be used as the new arguments for the main method. If the original arguments are not modified, the function should return them as received.
- Must return a tuple
- Method Signatures for Post-Hooks:
post_hook_method(*args, **kwargs)
- Arguments:
*args
,**kwargs
: The arguments and keyword arguments that were passed to the main method.kwargs["result"]
: The value returned by the main method. This allows the post-hook to inspect and even alter the result before it is returned to the original caller.
- Return:
- Can return a modified result, which will replace the original result of the main method, or simply return
kwargs["result"]
to return the original method result.
- Can return a modified result, which will replace the original result of the main method, or simply return
-
def pre_processing_hook(*args, **kwargs): print("Pre-processing logic here") # Modify arguments or perform any checks return args, kwargs # Return modified or unmodified args and kwargs def post_processing_hook(*args, **kwargs): print("Post-processing logic here") # Modify the result or perform any final logging or cleanup return kwargs["result"] # Return the modified or unmodified result class Preload: def __init__(self, connapp): # Registering a pre-hook connapp.ai.some_method.register_pre_hook(pre_processing_hook) # Registering a post-hook connapp.node.another_method.register_post_hook(post_processing_hook)
Executable Block
- The plugin script can include an executable block:
if __name__ == "__main__":
- This block allows the plugin to be run as a standalone script for testing or independent use.
Script Verification
- The
verify_script
method inplugins.py
is used to check the plugin script's compliance with these standards. - Non-compliant scripts will be rejected to ensure consistency and proper functionality within the plugin system.
Example Script
For a practical example of how to write a compatible plugin script, please refer to the following example:
This script demonstrates the required structure and implementation details according to the plugin system's standards.
Automation module usage
Standalone module
import connpy
router = connpy.node("uniqueName","ip/host", user="username", password="password")
router.run(["term len 0","show run"])
print(router.output)
hasip = router.test("show ip int brief","1.1.1.1")
if hasip:
print("Router has ip 1.1.1.1")
else:
print("router does not have ip 1.1.1.1")
Using manager configuration
import connpy
conf = connpy.configfile()
device = conf.getitem("router@office")
router = connpy.node("unique name", **device, config=conf)
result = router.run("show ip int brief")
print(result)
Running parallel tasks on multiple devices
import connpy
conf = connpy.configfile()
#You can get the nodes from the config from a folder and fitlering in it
nodes = conf.getitem("@office", ["router1", "router2", "router3"])
#You can also get each node individually:
nodes = {}
nodes["router1"] = conf.getitem("router1@office")
nodes["router2"] = conf.getitem("router2@office")
nodes["router10"] = conf.getitem("router10@datacenter")
#Also, you can create the nodes manually:
nodes = {}
nodes["router1"] = {"host": "1.1.1.1", "user": "user", "password": "password1"}
nodes["router2"] = {"host": "1.1.1.2", "user": "user", "password": "password2"}
nodes["router3"] = {"host": "1.1.1.2", "user": "user", "password": "password3"}
#Finally you run some tasks on the nodes
mynodes = connpy.nodes(nodes, config = conf)
result = mynodes.test(["show ip int br"], "1.1.1.2")
for i in result:
print("---" + i + "---")
print(result[i])
print()
# Or for one specific node
mynodes.router1.run(["term len 0". "show run"], folder = "/home/user/logs")
Using variables
import connpy
config = connpy.configfile()
nodes = config.getitem("@office", ["router1", "router2", "router3"])
commands = []
commands.append("config t")
commands.append("interface lo {id}")
commands.append("ip add {ip} {mask}")
commands.append("end")
variables = {}
variables["router1@office"] = {"ip": "10.57.57.1"}
variables["router2@office"] = {"ip": "10.57.57.2"}
variables["router3@office"] = {"ip": "10.57.57.3"}
variables["__global__"] = {"id": "57"}
variables["__global__"]["mask"] = "255.255.255.255"
expected = "!"
routers = connpy.nodes(nodes, config = config)
routers.run(commands, variables)
routers.test("ping {ip}", expected, variables)
for key in routers.result:
print(key, ' ---> ', ("pass" if routers.result[key] else "fail"))
Using AI
import connpy
conf = connpy.configfile()
organization = 'openai-org'
api_key = "openai-key"
myia = connpy.ai(conf, organization, api_key)
input = "go to router 1 and get me the full configuration"
result = myia.ask(input, dryrun = False)
print(result)
http API
With the Connpy API you can run commands on devices using http requests
1. List Nodes
Endpoint: /list_nodes
Method: POST
Description: This route returns a list of nodes. It can also filter the list based on a given keyword.
Request Body:
{
"filter": "<keyword>"
}
filter
(optional): A keyword to filter the list of nodes. It returns only the nodes that contain the keyword. If not provided, the route will return the entire list of nodes.
Response:
- A JSON array containing the filtered list of nodes.
2. Get Nodes
Endpoint: /get_nodes
Method: POST
Description: This route returns a dictionary of nodes with all their attributes. It can also filter the nodes based on a given keyword.
Request Body:
{
"filter": "<keyword>"
}
filter
(optional): A keyword to filter the nodes. It returns only the nodes that contain the keyword. If not provided, the route will return the entire list of nodes.
Response:
- A JSON array containing the filtered nodes.
3. Run Commands
Endpoint: /run_commands
Method: POST
Description: This route runs commands on selected nodes based on the provided action, nodes, and commands. It also supports executing tests by providing expected results.
Request Body:
{
"action": "<action>",
"nodes": "<nodes>",
"commands": "<commands>",
"expected": "<expected>",
"options": "<options>"
}
action
(required): The action to be performed. Possible values:run
ortest
.nodes
(required): A list of nodes or a single node on which the commands will be executed. The nodes can be specified as individual node names or a node group with the@
prefix. Node groups can also be specified as arrays with a list of nodes inside the group.commands
(required): A list of commands to be executed on the specified nodes.expected
(optional, only used when the action istest
): A single expected result for the test.options
(optional): Array to pass options to the run command, options are:prompt
,parallel
,timeout
Response:
- A JSON object with the results of the executed commands on the nodes.
4. Ask AI
Endpoint: /ask_ai
Method: POST
Description: This route sends to chatgpt IA a request that will parse it into an understandable output for the application and then run the request.
Request Body:
{
"input": "<user input request>",
"dryrun": true or false
}
input
(required): The user input requesting the AI to perform an action on some devices or get the devices list.dryrun
(optional): If set to true, it will return the parameters to run the request but it won't run it. default is false.
Response:
- A JSON array containing the action to run and the parameters and the result of the action.
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