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< h1 class = "title" > Package < code > connpy< / code > < / h1 >
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< / header >
< section id = "section-intro" >
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< h2 id = "connection-manager" > Connection manager< / h2 >
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< p > Connpy is a connection manager that allows you to store nodes to connect them fast and password free.< / p >
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< h3 id = "features" > Features< / h3 >
< pre > < code > - 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
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- If you have too many nodes. Get completion script using: conn config
--completion, or use fzf installing pyfzf and running conn config --fzf true
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- Much more!
< / code > < / pre >
< h3 id = "usage" > Usage< / h3 >
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< pre > < code > usage: conn [-h] [--add | --del | --mod | --show | --debug] [node|folder]
conn {profile,move,mv,copy,cp,list,ls,bulk,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:
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-h, --help show this help message and exit
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-v, --version Show version
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-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
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Commands:
profile Manage profiles
move (mv) Move node
copy (cp) Copy node
list (ls) List profiles, nodes or folders
bulk Add nodes in bulk
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export Export connection folder to Yaml file
import Import connection folder to config from Yaml file
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run Run scripts or commands on nodes
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config Manage app config
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api Start and stop connpy api
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ai Make request to an AI
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< / code > < / pre >
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< h3 id = "manage-profiles" > Manage profiles< / h3 >
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< pre > < code > usage: conn profile [-h] (--add | --del | --mod | --show) profile
positional arguments:
profile Name of profile to manage
options:
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-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
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< / code > < / pre >
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< h3 id = "examples" > Examples< / h3 >
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< pre > < code > 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
< / code > < / pre >
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< h2 id = "http-api" > http API< / h2 >
< p > With the Connpy API you can run commands on devices using http requests< / p >
< h3 id = "1-list-nodes" > 1. List Nodes< / h3 >
< p > < strong > Endpoint< / strong > : < code > /list_nodes< / code > < / p >
< p > < strong > Method< / strong > : < code > POST< / code > < / p >
< p > < strong > Description< / strong > : This route returns a list of nodes. It can also filter the list based on a given keyword.< / p >
< h4 id = "request-body" > Request Body:< / h4 >
< pre > < code class = "language-json" > {
" filter" : " < keyword> "
}
< / code > < / pre >
< ul >
< li > < code > filter< / code > (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.< / li >
< / ul >
< h4 id = "response" > Response:< / h4 >
< ul >
< li > A JSON array containing the filtered list of nodes.< / li >
< / ul >
< hr >
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< h3 id = "2-get-nodes" > 2. Get Nodes< / h3 >
< p > < strong > Endpoint< / strong > : < code > /get_nodes< / code > < / p >
< p > < strong > Method< / strong > : < code > POST< / code > < / p >
< p > < strong > Description< / strong > : This route returns a dictionary of nodes with all their attributes. It can also filter the nodes based on a given keyword.< / p >
< h4 id = "request-body_1" > Request Body:< / h4 >
< pre > < code class = "language-json" > {
" filter" : " < keyword> "
}
< / code > < / pre >
< ul >
< li > < code > filter< / code > (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.< / li >
< / ul >
< h4 id = "response_1" > Response:< / h4 >
< ul >
< li > A JSON array containing the filtered nodes.< / li >
< / ul >
< hr >
< h3 id = "3-run-commands" > 3. Run Commands< / h3 >
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< p > < strong > Endpoint< / strong > : < code > /run_commands< / code > < / p >
< p > < strong > Method< / strong > : < code > POST< / code > < / p >
< p > < strong > Description< / strong > : This route runs commands on selected nodes based on the provided action, nodes, and commands. It also supports executing tests by providing expected results.< / p >
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< h4 id = "request-body_2" > Request Body:< / h4 >
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< pre > < code class = "language-json" > {
" action" : " < action> " ,
" nodes" : " < nodes> " ,
" commands" : " < commands> " ,
" expected" : " < expected> " ,
" options" : " < options> "
}
< / code > < / pre >
< ul >
< li > < code > action< / code > (required): The action to be performed. Possible values: < code > run< / code > or < code > test< / code > .< / li >
< li > < code > < a title = "connpy.nodes" href = "#connpy.nodes" > nodes< / a > < / code > (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 < code > @< / code > prefix. Node groups can also be specified as arrays with a list of nodes inside the group.< / li >
< li > < code > commands< / code > (required): A list of commands to be executed on the specified nodes.< / li >
< li > < code > expected< / code > (optional, only used when the action is < code > test< / code > ): A single expected result for the test.< / li >
< li > < code > options< / code > (optional): Array to pass options to the run command, options are: < code > prompt< / code > , < code > parallel< / code > , < code > timeout< / code >
< / li >
< / ul >
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< h4 id = "response_2" > Response:< / h4 >
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< ul >
< li > A JSON object with the results of the executed commands on the nodes.< / li >
< / ul >
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< hr >
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< h3 id = "4-ask-ai" > 4. Ask AI< / h3 >
< p > < strong > Endpoint< / strong > : < code > /ask_ai< / code > < / p >
< p > < strong > Method< / strong > : < code > POST< / code > < / p >
< p > < strong > Description< / strong > : This route sends to chatgpt IA a request that will parse it into an understandable output for the application and then run the request.< / p >
< h4 id = "request-body_3" > Request Body:< / h4 >
< pre > < code class = "language-json" > {
" input" : " < user input request> " ,
" dryrun" : true or false
}
< / code > < / pre >
< ul >
< li > < code > input< / code > (required): The user input requesting the AI to perform an action on some devices or get the devices list.< / li >
< li > < code > dryrun< / code > (optional): If set to true, it will return the parameters to run the request but it won't run it. default is false.< / li >
< / ul >
< h4 id = "response_3" > Response:< / h4 >
< ul >
< li > A JSON array containing the action to run and the parameters and the result of the action.< / li >
< / ul >
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< h2 id = "automation-module" > Automation module< / h2 >
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< p > The automation module< / p >
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< h3 id = "standalone-module" > Standalone module< / h3 >
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< pre > < code > import connpy
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router = connpy.node(" uniqueName" ," ip/host" , user=" user" , password=" pass" )
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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:
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print(" router does not have ip 1.1.1.1" )
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< / code > < / pre >
< h3 id = "using-manager-configuration" > Using manager configuration< / h3 >
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< pre > < code > import connpy
conf = connpy.configfile()
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device = conf.getitem(" server@office" )
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server = connpy.node(" unique name" , **device, config=conf)
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result = server.run([" cd /" , " ls -la" ])
print(result)
< / code > < / pre >
< h3 id = "running-parallel-tasks" > Running parallel tasks< / h3 >
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< pre > < code > import connpy
conf = connpy.configfile()
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#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 = {}
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nodes[" router1" ] = {" host" : " 1.1.1.1" , " user" : " user" , " password" : " pass1" }
nodes[" router2" ] = {" host" : " 1.1.1.2" , " user" : " user" , " password" : " pass2" }
nodes[" router3" ] = {" host" : " 1.1.1.2" , " user" : " user" , " password" : " pass3" }
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#Finally you run some tasks on the nodes
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mynodes = connpy.nodes(nodes, config = conf)
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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" )
< / code > < / pre >
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< h3 id = "using-variables" > Using variables< / h3 >
< pre > < code > 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 = {}
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variables[" router1@office" ] = {" ip" : " 10.57.57.1" }
variables[" router2@office" ] = {" ip" : " 10.57.57.2" }
variables[" router3@office" ] = {" ip" : " 10.57.57.3" }
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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" ))
< / code > < / pre >
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< h3 id = "using-ai" > Using AI< / h3 >
< pre > < code > import connpy
conf = connpy.configfile()
organization = 'openai-org'
api_key = " openai-key"
myia = ai(conf, organization, api_key)
input = " go to router 1 and get me the full configuration"
result = myia.ask(input, dryrun = False)
print(result)
< / code > < / pre >
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< details class = "source" >
< summary >
< span > Expand source code< / span >
< / summary >
< pre > < code class = "python" > #!/usr/bin/env python3
' ' '
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## Connection manager
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Connpy is a connection manager that allows you to store nodes to connect them fast and password free.
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### 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
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- If you have too many nodes. Get completion script using: conn config
--completion, or use fzf installing pyfzf and running conn config --fzf true
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- Much more!
### Usage
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```
usage: conn [-h] [--add | --del | --mod | --show | --debug] [node|folder]
conn {profile,move,mv,copy,cp,list,ls,bulk,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:
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-h, --help show this help message and exit
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-v, --version Show version
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-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
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Commands:
profile Manage profiles
move (mv) Move node
copy (cp) Copy node
list (ls) List profiles, nodes or folders
bulk Add nodes in bulk
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export Export connection folder to Yaml file
import Import connection folder to config from Yaml file
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run Run scripts or commands on nodes
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config Manage app config
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api Start and stop connpy api
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ai Make request to an AI
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```
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### Manage profiles
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```
usage: conn profile [-h] (--add | --del | --mod | --show) profile
positional arguments:
profile Name of profile to manage
options:
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-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
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```
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### Examples
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```
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
```
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## 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:
```json
{
" 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.
---
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### 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:
```json
{
" 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
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**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:
```json
{
" action" : " < action> " ,
" nodes" : " < nodes> " ,
" commands" : " < commands> " ,
" expected" : " < expected> " ,
" options" : " < options> "
}
```
* `action` (required): The action to be performed. Possible values: `run` or `test`.
* `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 is `test`): 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.
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---
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### 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:
```json
{
" 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.
## Automation module
The automation module
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### Standalone module
```
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import connpy
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router = connpy.node(" uniqueName" ," ip/host" , user=" user" , password=" pass" )
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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:
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print(" router does not have ip 1.1.1.1" )
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```
### Using manager configuration
```
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import connpy
conf = connpy.configfile()
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device = conf.getitem(" server@office" )
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server = connpy.node(" unique name" , **device, config=conf)
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result = server.run([" cd /" , " ls -la" ])
print(result)
```
### Running parallel tasks
```
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import connpy
conf = connpy.configfile()
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#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 = {}
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nodes[" router1" ] = {" host" : " 1.1.1.1" , " user" : " user" , " password" : " pass1" }
nodes[" router2" ] = {" host" : " 1.1.1.2" , " user" : " user" , " password" : " pass2" }
nodes[" router3" ] = {" host" : " 1.1.1.2" , " user" : " user" , " password" : " pass3" }
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#Finally you run some tasks on the nodes
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mynodes = connpy.nodes(nodes, config = conf)
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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" )
```
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### 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 = {}
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variables[" router1@office" ] = {" ip" : " 10.57.57.1" }
variables[" router2@office" ] = {" ip" : " 10.57.57.2" }
variables[" router3@office" ] = {" ip" : " 10.57.57.3" }
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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" ))
```
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### Using AI
```
import connpy
conf = connpy.configfile()
organization = ' openai-org'
api_key = " openai-key"
myia = ai(conf, organization, api_key)
input = " go to router 1 and get me the full configuration"
result = myia.ask(input, dryrun = False)
print(result)
```
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' ' '
from .core import node,nodes
from .configfile import configfile
from .connapp import connapp
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from .api import *
from .ai import ai
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from ._version import __version__
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from pkg_resources import get_distribution
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__all__ = [" node" , " nodes" , " configfile" , " connapp" , " ai" ]
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__author__ = " Federico Luzzi"
__pdoc__ = {
' core' : False,
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' completion' : False,
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' api' : False
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}< / code > < / pre >
< / details >
< / section >
< section >
< / section >
< section >
< / section >
< section >
< / section >
< section >
< h2 class = "section-title" id = "header-classes" > Classes< / h2 >
< dl >
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< dt id = "connpy.ai" > < code class = "flex name class" >
< span > class < span class = "ident" > ai< / span > < / span >
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< span > (< / span > < span > config, org=None, api_key=None, model=None, temp=0.7)< / span >
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< / code > < / dt >
< dd >
< div class = "desc" > < p > This class generates a ai object. Containts all the information and methods to make requests to openAI chatGPT to run actions on the application.< / p >
< h3 id = "attributes" > Attributes:< / h3 >
< pre > < code > - model (str): Model of GPT api to use. Default is gpt-3.5-turbo.
- temp (float): Value between 0 and 1 that control the randomness
of generated text, with higher values increasing
creativity. Default is 0.7.
< / code > < / pre >
< h3 id = "parameters" > Parameters:< / h3 >
< pre > < code > - config (obj): Pass the object created with class configfile with
key for decryption and extra configuration if you
are using connection manager.
< / code > < / pre >
< h3 id = "optional-parameters" > Optional Parameters:< / h3 >
< pre > < code > - org (str): A unique token identifying the user organization
to interact with the API.
- api_key (str): A unique authentication token required to access
and interact with the API.
- model (str): Model of GPT api to use. Default is gpt-3.5-turbo.
- temp (float): Value between 0 and 1 that control the randomness
of generated text, with higher values increasing
creativity. Default is 0.7.
< / code > < / pre > < / div >
< details class = "source" >
< summary >
< span > Expand source code< / span >
< / summary >
< pre > < code class = "python" > class ai:
' ' ' This class generates a ai object. Containts all the information and methods to make requests to openAI chatGPT to run actions on the application.
### Attributes:
- model (str): Model of GPT api to use. Default is gpt-3.5-turbo.
- temp (float): Value between 0 and 1 that control the randomness
of generated text, with higher values increasing
creativity. Default is 0.7.
' ' '
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def __init__(self, config, org = None, api_key = None, model = None, temp = 0.7):
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' ' '
### Parameters:
- config (obj): Pass the object created with class configfile with
key for decryption and extra configuration if you
are using connection manager.
### Optional Parameters:
- org (str): A unique token identifying the user organization
to interact with the API.
- api_key (str): A unique authentication token required to access
and interact with the API.
- model (str): Model of GPT api to use. Default is gpt-3.5-turbo.
- temp (float): Value between 0 and 1 that control the randomness
of generated text, with higher values increasing
creativity. Default is 0.7.
' ' '
self.config = config
if org:
openai.organization = org
else:
try:
openai.organization = self.config.config[" openai" ][" organization" ]
except:
raise ValueError(" Missing openai organization" )
if api_key:
openai.api_key = api_key
else:
try:
openai.api_key = self.config.config[" openai" ][" api_key" ]
except:
raise ValueError(" Missing openai api_key" )
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if model:
self.model = model
else:
try:
self.model = self.config.config[" openai" ][" model" ]
except:
self.model = " gpt-3.5-turbo-0613"
self.temp = temp
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self.__prompt = {}
self.__prompt[" original_system" ] = " " "
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You are the AI chatbot and assistant of a network connection manager and automation app called connpy. When provided with user input analyze the input and extract the following information. If user wants to chat just reply and don' t call a function:
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- type: Given a user input, identify the type of request they want to make. The input will represent one of two options:
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1. " command" - The user wants to get information from devices by running commands.
2. " list_nodes" - The user wants to get a list of nodes, devices, servers, or routers.
The ' type' field should reflect whether the user input is a command or a request for a list of nodes.
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- filter: One or more regex patterns indicating the device or group of devices the command should be run on. The filter can have different formats, such as:
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- hostname
- hostname@folder
- hostname@subfolder@folder
- partofhostname
- @folder
- @subfolder@folder
- regex_pattern
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The filter should be extracted from the user input exactly as it was provided.
Always preserve the exact filter pattern provided by the user, with no modifications. Do not process any regex, the application can do that.
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" " "
self.__prompt[" original_user" ] = " Get the IP addresses of loopback0 for all routers from w2az1 and e1.*(prod|dev) and check if they have the ip 192.168.1.1"
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self.__prompt[" original_assistant" ] = {" name" : " get_network_device_info" , " arguments" : " {\n \" type\" : \" command\" ,\n \" filter\" : [\" w2az1\" ,\" e1.*(prod|dev)\" ]\n}" }
self.__prompt[" original_function" ] = {}
self.__prompt[" original_function" ][" name" ] = " get_network_device_info"
self.__prompt[" original_function" ][" descriptions" ] = " You are the AI chatbot and assistant of a network connection manager and automation app called connpy. When provided with user input analyze the input and extract the information acording to the function, If user wants to chat just reply and don' t call a function" ,
self.__prompt[" original_function" ][" parameters" ] = {}
self.__prompt[" original_function" ][" parameters" ][" type" ] = " object"
self.__prompt[" original_function" ][" parameters" ][" properties" ] = {}
self.__prompt[" original_function" ][" parameters" ][" properties" ][" type" ] = {}
self.__prompt[" original_function" ][" parameters" ][" properties" ][" type" ][" type" ] = " string"
self.__prompt[" original_function" ][" parameters" ][" properties" ][" type" ][" description" ] =" " "
Categorize the user' s request based on the operation they want to perform on the nodes. The requests can be classified into the following categories:
1. " command" - This represents a request to retrieve specific information or configurations from nodes. An example would be: " go to routers in @office and get the config" .
2. " list_nodes" - This is when the user wants a list of nodes. An example could be: " get me the nodes in @office" .
" " "
self.__prompt[" original_function" ][" parameters" ][" properties" ][" type" ][" enum" ] = [" command" , " list_nodes" ]
self.__prompt[" original_function" ][" parameters" ][" properties" ][" filter" ] = {}
self.__prompt[" original_function" ][" parameters" ][" properties" ][" filter" ][" type" ] = " array"
self.__prompt[" original_function" ][" parameters" ][" properties" ][" filter" ][" items" ] = {}
self.__prompt[" original_function" ][" parameters" ][" properties" ][" filter" ][" items" ][" type" ] = " string"
self.__prompt[" original_function" ][" parameters" ][" properties" ][" filter" ][" items" ][" description" ] = " " " One or more regex patterns indicating the device or group of devices the command should be run on. The filter should be extracted from the user input exactly as it was provided.
The filter can have different formats, such as:
- hostname
- hostname@folder
- hostname@subfolder@folder
- partofhostname
- @folder
- @subfolder@folder
- regex_pattern
" " "
self.__prompt[" original_function" ][" parameters" ][" required" ] = [" type" , " filter" ]
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self.__prompt[" command_system" ] = " " "
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For each device listed below, provide the command(s) needed to perform the specified action, depending on the device OS (e.g., Cisco IOSXR router, Linux server).
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The application knows how to connect to devices via SSH, so you only need to provide the command(s) to run after connecting.
If the commands needed are not for the specific OS type, just send an empty list (e.g., []).
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Note: Preserving the integrity of user-provided commands is of utmost importance. If a user has provided a specific command to run, include that command exactly as it was given, even if it' s not recognized or understood. Under no circumstances should you modify or alter user-provided commands.
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" " "
self.__prompt[" command_user" ]= " " "
input: show me the full configuration for all this devices:
Devices:
router1: cisco ios
" " "
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self.__prompt[" command_assistant" ] = {" name" : " get_commands" , " arguments" : " {\n \" router1\" : \" show running-configuration\" \n}" }
self.__prompt[" command_function" ] = {}
self.__prompt[" command_function" ][" name" ] = " get_commands"
self.__prompt[" command_function" ][" descriptions" ] = " " "
For each device listed below, provide the command(s) needed to perform the specified action, depending on the device OS (e.g., Cisco IOSXR router, Linux server).
The application knows how to connect to devices via SSH, so you only need to provide the command(s) to run after connecting.
If the commands needed are not for the specific OS type, just send an empty list (e.g., []).
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" " "
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self.__prompt[" command_function" ][" parameters" ] = {}
self.__prompt[" command_function" ][" parameters" ][" type" ] = " object"
self.__prompt[" command_function" ][" parameters" ][" properties" ] = {}
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self.__prompt[" confirmation_system" ] = " " "
Please analyze the user' s input and categorize it as either an affirmation or negation. Based on this analysis, respond with:
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' true' if the input is an affirmation like ' do it' , ' go ahead' , ' sure' , etc.
' false' if the input is a negation.
' none' If the input does not fit into either of these categories.
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" " "
self.__prompt[" confirmation_user" ] = " Yes go ahead!"
self.__prompt[" confirmation_assistant" ] = " True"
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self.__prompt[" confirmation_function" ] = {}
self.__prompt[" confirmation_function" ][" name" ] = " get_confirmation"
self.__prompt[" confirmation_function" ][" descriptions" ] = " " "
Analize user request and respond:
" " "
self.__prompt[" confirmation_function" ][" parameters" ] = {}
self.__prompt[" confirmation_function" ][" parameters" ][" type" ] = " object"
self.__prompt[" confirmation_function" ][" parameters" ][" properties" ] = {}
self.__prompt[" confirmation_function" ][" parameters" ][" properties" ][" result" ] = {}
self.__prompt[" confirmation_function" ][" parameters" ][" properties" ][" result" ][" description" ] = " " " ' true' if the input is an affirmation like ' do it' , ' go ahead' , ' sure' , etc.
' false' if the input is a negation.
' none' If the input does not fit into either of these categories" " "
self.__prompt[" confirmation_function" ][" parameters" ][" properties" ][" result" ][" type" ] = " string"
self.__prompt[" confirmation_function" ][" parameters" ][" properties" ][" result" ][" enum" ] = [" true" , " false" , " none" ]
self.__prompt[" confirmation_function" ][" parameters" ][" properties" ][" response" ] = {}
self.__prompt[" confirmation_function" ][" parameters" ][" properties" ][" response" ][" description" ] = " If the user don' t message is not an affiramtion or negation, kindly ask the user to rephrase."
self.__prompt[" confirmation_function" ][" parameters" ][" properties" ][" response" ][" type" ] = " string"
self.__prompt[" confirmation_function" ][" parameters" ][" required" ] = [" result" ]
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def process_string(self, s):
if s.startswith(' [' ) and s.endswith(' ]' ) and not (s.startswith(" [' " ) and s.endswith(" ' ]" )) and not (s.startswith(' [" ' ) and s.endswith(' " ]' )):
# Extract the content inside square brackets and split by comma
content = s[1:-1].split(' ,' )
# Add single quotes around each item and join them back together with commas
new_content = ' , ' .join(f" ' {item.strip()}' " for item in content)
# Replace the old content with the new content
s = ' [' + new_content + ' ]'
return s
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def _retry_function(self, function, max_retries, backoff_num, *args):
#Retry openai requests
retries = 0
while retries < max_retries:
try:
myfunction = function(*args)
break
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except:
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wait_time = backoff_num * (2 ** retries)
time.sleep(wait_time)
retries += 1
continue
if retries == max_retries:
myfunction = False
return myfunction
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def _clean_command_response(self, raw_response):
#Parse response for command request to openAI GPT.
info_dict = {}
info_dict[" commands" ] = []
info_dict[" variables" ] = {}
info_dict[" variables" ][" __global__" ] = {}
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for key, value in raw_response.items():
key = key.strip()
newvalue = {}
for i,e in enumerate(value, start=1):
newvalue[f" command{i}" ] = e
if f" {{command{i}}}" not in info_dict[" commands" ]:
info_dict[" commands" ].append(f" {{command{i}}}" )
info_dict[" variables" ][" __global__" ][f" command{i}" ] = " "
info_dict[" variables" ][key] = newvalue
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return info_dict
def _get_commands(self, user_input, nodes):
#Send the request for commands for each device to openAI GPT.
output_list = []
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command_function = deepcopy(self.__prompt[" command_function" ])
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for key, value in nodes.items():
tags = value.get(' tags' , {})
try:
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if os_value := tags.get(' os' ):
output_list.append(f" {key}: {os_value}" )
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command_function[" parameters" ][" properties" ][key] = {}
command_function[" parameters" ][" properties" ][key][" type" ] = " array"
command_function[" parameters" ][" properties" ][key][" description" ] = f" OS: {os_value}"
command_function[" parameters" ][" properties" ][key][" items" ] = {}
command_function[" parameters" ][" properties" ][key][" items" ][" type" ] = " string"
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except:
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pass
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output_str = " \n" .join(output_list)
command_input = f" input: {user_input}\n\nDevices:\n{output_str}"
message = []
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message.append({" role" : " system" , " content" : dedent(self.__prompt[" command_system" ]).strip()})
message.append({" role" : " user" , " content" : dedent(self.__prompt[" command_user" ]).strip()})
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message.append({" role" : " assistant" , " content" : None, " function_call" : self.__prompt[" command_assistant" ]})
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message.append({" role" : " user" , " content" : command_input})
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functions = [command_function]
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response = openai.ChatCompletion.create(
model=self.model,
messages=message,
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functions=functions,
function_call={" name" : " get_commands" },
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temperature=self.temp
)
output = {}
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result = response[" choices" ][0][" message" ].to_dict()
json_result = json.loads(result[" function_call" ][" arguments" ])
output[" response" ] = self._clean_command_response(json_result)
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return output
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def _get_filter(self, user_input, chat_history = None):
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#Send the request to identify the filter and other attributes from the user input to GPT.
message = []
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message.append({" role" : " system" , " content" : dedent(self.__prompt[" original_system" ]).strip()})
message.append({" role" : " user" , " content" : dedent(self.__prompt[" original_user" ]).strip()})
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message.append({" role" : " assistant" , " content" : None, " function_call" : self.__prompt[" original_assistant" ]})
functions = [self.__prompt[" original_function" ]]
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if not chat_history:
chat_history = []
chat_history.append({" role" : " user" , " content" : user_input})
message.extend(chat_history)
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response = openai.ChatCompletion.create(
model=self.model,
messages=message,
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functions=functions,
function_call=" auto" ,
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temperature=self.temp,
top_p=1
)
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def extract_quoted_strings(text):
pattern = r' [" \' ](.*?)[" \' ]'
matches = re.findall(pattern, text)
return matches
expected = extract_quoted_strings(user_input)
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output = {}
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result = response[" choices" ][0][" message" ].to_dict()
if result[" content" ]:
output[" app_related" ] = False
chat_history.append({" role" : " assistant" , " content" : result[" content" ]})
output[" response" ] = result[" content" ]
else:
json_result = json.loads(result[" function_call" ][" arguments" ])
output[" app_related" ] = True
output[" filter" ] = json_result[" filter" ]
output[" type" ] = json_result[" type" ]
chat_history.append({" role" : " assistant" , " content" : result[" content" ], " function_call" : {" name" : result[" function_call" ][" name" ], " arguments" : json.dumps(json_result)}})
output[" expected" ] = expected
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output[" chat_history" ] = chat_history
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return output
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def _get_confirmation(self, user_input):
#Send the request to identify if user is confirming or denying the task
message = []
message.append({" role" : " user" , " content" : user_input})
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functions = [self.__prompt[" confirmation_function" ]]
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response = openai.ChatCompletion.create(
model=self.model,
messages=message,
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functions=functions,
function_call={" name" : " get_confirmation" },
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temperature=self.temp,
top_p=1
)
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result = response[" choices" ][0][" message" ].to_dict()
json_result = json.loads(result[" function_call" ][" arguments" ])
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output = {}
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if json_result[" result" ] == " true" :
output[" result" ] = True
elif json_result[" result" ] == " false" :
output[" result" ] = False
elif json_result[" result" ] == " none" :
output[" result" ] = json_result[" response" ]
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return output
def confirm(self, user_input, max_retries=3, backoff_num=1):
' ' '
Send the user input to openAI GPT and verify if response is afirmative or negative.
### Parameters:
- user_input (str): User response confirming or denying.
### Optional Parameters:
- max_retries (int): Maximum number of retries for gpt api.
- backoff_num (int): Backoff factor for exponential wait time
between retries.
### Returns:
bool or str: True, False or str if AI coudn' t understand the response
' ' '
result = self._retry_function(self._get_confirmation, max_retries, backoff_num, user_input)
if result:
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output = result[" result" ]
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else:
output = f" {self.model} api is not responding right now, please try again later."
return output
def ask(self, user_input, dryrun = False, chat_history = None, max_retries=3, backoff_num=1):
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' ' '
Send the user input to openAI GPT and parse the response to run an action in the application.
### Parameters:
- user_input (str): Request to send to openAI that will be parsed
and returned to execute on the application.
AI understands the following tasks:
- Run a command on a group of devices.
- List a group of devices.
- Test a command on a group of devices
and verify if the output contain an
expected value.
### Optional Parameters:
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- dryrun (bool): Set to true to get the arguments to use to
run in the app. Default is false and it
will run the actions directly.
- chat_history (list): List in gpt api format for the chat history.
- max_retries (int): Maximum number of retries for gpt api.
- backoff_num (int): Backoff factor for exponential wait time
between retries.
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### Returns:
dict: Dictionary formed with the following keys:
- input: User input received
- app_related: True if GPT detected the request to be related
to the application.
- dryrun: True/False
- response: If the request is not related to the app. this
key will contain chatGPT answer.
- action: The action detected by the AI to run in the app.
- filter: If it was detected by the AI, the filter used
to get the list of nodes to work on.
- nodes: If it' s not a dryrun, the list of nodes matched by
the filter.
- args: A dictionary of arguments required to run command(s)
on the nodes.
- result: A dictionary with the output of the commands or
the test.
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- chat_history: The chat history between user and chatbot.
It can be used as an attribute for next request.
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' ' '
output = {}
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output[" dryrun" ] = dryrun
output[" input" ] = user_input
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original = self._retry_function(self._get_filter, max_retries, backoff_num, user_input, chat_history)
if not original:
output[" app_related" ] = False
output[" response" ] = f" {self.model} api is not responding right now, please try again later."
return output
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output[" app_related" ] = original[" app_related" ]
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output[" chat_history" ] = original[" chat_history" ]
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if not output[" app_related" ]:
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output[" response" ] = original[" response" ]
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else:
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type = original[" type" ]
if " filter" in original:
output[" filter" ] = original[" filter" ]
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if not self.config.config[" case" ]:
if isinstance(output[" filter" ], list):
output[" filter" ] = [item.lower() for item in output[" filter" ]]
else:
output[" filter" ] = output[" filter" ].lower()
if not dryrun or type == " command" :
thisnodes = self.config._getallnodesfull(output[" filter" ])
output[" nodes" ] = list(thisnodes.keys())
if not type == " command" :
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output[" action" ] = " list_nodes"
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else:
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if thisnodes:
commands = self._retry_function(self._get_commands, max_retries, backoff_num, user_input, thisnodes)
else:
output[" app_related" ] = False
filterlist = " , " .join(output[" filter" ])
output[" response" ] = f" I' m sorry, I coudn' t find any device with filter{' s' if len(output[' filter' ]) != 1 else ' ' }: {filterlist}."
return output
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if not commands:
output[" app_related" ] = False
output[" response" ] = f" {self.model} api is not responding right now, please try again later."
return output
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output[" args" ] = {}
output[" args" ][" commands" ] = commands[" response" ][" commands" ]
output[" args" ][" vars" ] = commands[" response" ][" variables" ]
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output[" nodes" ] = [item for item in output[" nodes" ] if output[" args" ][" vars" ].get(item)]
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if original.get(" expected" ):
output[" args" ][" expected" ] = original[" expected" ]
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output[" action" ] = " test"
else:
output[" action" ] = " run"
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if dryrun:
output[" task" ] = []
if output[" action" ] == " test" :
output[" task" ].append({" Task" : " Verify if expected value is in command(s) output" })
output[" task" ].append({" Expected value to verify" : output[" args" ][" expected" ]})
elif output[" action" ] == " run" :
output[" task" ].append({" Task" : " Run command(s) on devices and return output" })
varstocommands = deepcopy(output[" args" ][" vars" ])
del varstocommands[" __global__" ]
output[" task" ].append({" Devices" : varstocommands})
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if not dryrun:
mynodes = nodes(self.config.getitems(output[" nodes" ]),config=self.config)
if output[" action" ] == " test" :
output[" result" ] = mynodes.test(**output[" args" ])
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output[" logs" ] = mynodes.output
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elif output[" action" ] == " run" :
output[" result" ] = mynodes.run(**output[" args" ])
return output< / code > < / pre >
< / details >
< h3 > Methods< / h3 >
< dl >
< dt id = "connpy.ai.ask" > < code class = "name flex" >
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< span > def < span class = "ident" > ask< / span > < / span > (< span > self, user_input, dryrun=False, chat_history=None, max_retries=3, backoff_num=1)< / span >
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< / code > < / dt >
< dd >
< div class = "desc" > < p > Send the user input to openAI GPT and parse the response to run an action in the application.< / p >
< h3 id = "parameters" > Parameters:< / h3 >
< pre > < code > - user_input (str): Request to send to openAI that will be parsed
and returned to execute on the application.
AI understands the following tasks:
- Run a command on a group of devices.
- List a group of devices.
- Test a command on a group of devices
and verify if the output contain an
expected value.
< / code > < / pre >
< h3 id = "optional-parameters" > Optional Parameters:< / h3 >
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< pre > < code > - dryrun (bool): Set to true to get the arguments to use to
run in the app. Default is false and it
will run the actions directly.
- chat_history (list): List in gpt api format for the chat history.
- max_retries (int): Maximum number of retries for gpt api.
- backoff_num (int): Backoff factor for exponential wait time
between retries.
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< / code > < / pre >
< h3 id = "returns" > Returns:< / h3 >
< pre > < code > dict: Dictionary formed with the following keys:
- input: User input received
- app_related: True if GPT detected the request to be related
to the application.
- dryrun: True/False
- response: If the request is not related to the app. this
key will contain chatGPT answer.
- action: The action detected by the AI to run in the app.
- filter: If it was detected by the AI, the filter used
to get the list of nodes to work on.
- nodes: If it's not a dryrun, the list of nodes matched by
the filter.
- args: A dictionary of arguments required to run command(s)
on the nodes.
- result: A dictionary with the output of the commands or
the test.
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- chat_history: The chat history between user and chatbot.
It can be used as an attribute for next request.
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< / code > < / pre > < / div >
< details class = "source" >
< summary >
< span > Expand source code< / span >
< / summary >
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< pre > < code class = "python" > def ask(self, user_input, dryrun = False, chat_history = None, max_retries=3, backoff_num=1):
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' ' '
Send the user input to openAI GPT and parse the response to run an action in the application.
### Parameters:
- user_input (str): Request to send to openAI that will be parsed
and returned to execute on the application.
AI understands the following tasks:
- Run a command on a group of devices.
- List a group of devices.
- Test a command on a group of devices
and verify if the output contain an
expected value.
### Optional Parameters:
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- dryrun (bool): Set to true to get the arguments to use to
run in the app. Default is false and it
will run the actions directly.
- chat_history (list): List in gpt api format for the chat history.
- max_retries (int): Maximum number of retries for gpt api.
- backoff_num (int): Backoff factor for exponential wait time
between retries.
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### Returns:
dict: Dictionary formed with the following keys:
- input: User input received
- app_related: True if GPT detected the request to be related
to the application.
- dryrun: True/False
- response: If the request is not related to the app. this
key will contain chatGPT answer.
- action: The action detected by the AI to run in the app.
- filter: If it was detected by the AI, the filter used
to get the list of nodes to work on.
- nodes: If it' s not a dryrun, the list of nodes matched by
the filter.
- args: A dictionary of arguments required to run command(s)
on the nodes.
- result: A dictionary with the output of the commands or
the test.
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- chat_history: The chat history between user and chatbot.
It can be used as an attribute for next request.
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' ' '
output = {}
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output[" dryrun" ] = dryrun
output[" input" ] = user_input
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original = self._retry_function(self._get_filter, max_retries, backoff_num, user_input, chat_history)
if not original:
output[" app_related" ] = False
output[" response" ] = f" {self.model} api is not responding right now, please try again later."
return output
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output[" app_related" ] = original[" app_related" ]
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output[" chat_history" ] = original[" chat_history" ]
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if not output[" app_related" ]:
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output[" response" ] = original[" response" ]
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else:
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type = original[" type" ]
if " filter" in original:
output[" filter" ] = original[" filter" ]
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if not self.config.config[" case" ]:
if isinstance(output[" filter" ], list):
output[" filter" ] = [item.lower() for item in output[" filter" ]]
else:
output[" filter" ] = output[" filter" ].lower()
if not dryrun or type == " command" :
thisnodes = self.config._getallnodesfull(output[" filter" ])
output[" nodes" ] = list(thisnodes.keys())
if not type == " command" :
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output[" action" ] = " list_nodes"
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else:
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if thisnodes:
commands = self._retry_function(self._get_commands, max_retries, backoff_num, user_input, thisnodes)
else:
output[" app_related" ] = False
filterlist = " , " .join(output[" filter" ])
output[" response" ] = f" I' m sorry, I coudn' t find any device with filter{' s' if len(output[' filter' ]) != 1 else ' ' }: {filterlist}."
return output
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if not commands:
output[" app_related" ] = False
output[" response" ] = f" {self.model} api is not responding right now, please try again later."
return output
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output[" args" ] = {}
output[" args" ][" commands" ] = commands[" response" ][" commands" ]
output[" args" ][" vars" ] = commands[" response" ][" variables" ]
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output[" nodes" ] = [item for item in output[" nodes" ] if output[" args" ][" vars" ].get(item)]
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if original.get(" expected" ):
output[" args" ][" expected" ] = original[" expected" ]
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output[" action" ] = " test"
else:
output[" action" ] = " run"
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if dryrun:
output[" task" ] = []
if output[" action" ] == " test" :
output[" task" ].append({" Task" : " Verify if expected value is in command(s) output" })
output[" task" ].append({" Expected value to verify" : output[" args" ][" expected" ]})
elif output[" action" ] == " run" :
output[" task" ].append({" Task" : " Run command(s) on devices and return output" })
varstocommands = deepcopy(output[" args" ][" vars" ])
del varstocommands[" __global__" ]
output[" task" ].append({" Devices" : varstocommands})
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if not dryrun:
mynodes = nodes(self.config.getitems(output[" nodes" ]),config=self.config)
if output[" action" ] == " test" :
output[" result" ] = mynodes.test(**output[" args" ])
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output[" logs" ] = mynodes.output
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elif output[" action" ] == " run" :
output[" result" ] = mynodes.run(**output[" args" ])
return output< / code > < / pre >
< / details >
< / dd >
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< dt id = "connpy.ai.confirm" > < code class = "name flex" >
< span > def < span class = "ident" > confirm< / span > < / span > (< span > self, user_input, max_retries=3, backoff_num=1)< / span >
< / code > < / dt >
< dd >
< div class = "desc" > < p > Send the user input to openAI GPT and verify if response is afirmative or negative.< / p >
< h3 id = "parameters" > Parameters:< / h3 >
< pre > < code > - user_input (str): User response confirming or denying.
< / code > < / pre >
< h3 id = "optional-parameters" > Optional Parameters:< / h3 >
< pre > < code > - max_retries (int): Maximum number of retries for gpt api.
- backoff_num (int): Backoff factor for exponential wait time
between retries.
< / code > < / pre >
< h3 id = "returns" > Returns:< / h3 >
< pre > < code > bool or str: True, False or str if AI coudn't understand the response
< / code > < / pre > < / div >
< details class = "source" >
< summary >
< span > Expand source code< / span >
< / summary >
< pre > < code class = "python" > def confirm(self, user_input, max_retries=3, backoff_num=1):
' ' '
Send the user input to openAI GPT and verify if response is afirmative or negative.
### Parameters:
- user_input (str): User response confirming or denying.
### Optional Parameters:
- max_retries (int): Maximum number of retries for gpt api.
- backoff_num (int): Backoff factor for exponential wait time
between retries.
### Returns:
bool or str: True, False or str if AI coudn' t understand the response
' ' '
result = self._retry_function(self._get_confirmation, max_retries, backoff_num, user_input)
if result:
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output = result[" result" ]
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else:
output = f" {self.model} api is not responding right now, please try again later."
return output< / code > < / pre >
< / details >
< / dd >
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< dt id = "connpy.ai.process_string" > < code class = "name flex" >
< span > def < span class = "ident" > process_string< / span > < / span > (< span > self, s)< / span >
< / code > < / dt >
< dd >
< div class = "desc" > < / div >
< details class = "source" >
< summary >
< span > Expand source code< / span >
< / summary >
< pre > < code class = "python" > def process_string(self, s):
if s.startswith(' [' ) and s.endswith(' ]' ) and not (s.startswith(" [' " ) and s.endswith(" ' ]" )) and not (s.startswith(' [" ' ) and s.endswith(' " ]' )):
# Extract the content inside square brackets and split by comma
content = s[1:-1].split(' ,' )
# Add single quotes around each item and join them back together with commas
new_content = ' , ' .join(f" ' {item.strip()}' " for item in content)
# Replace the old content with the new content
s = ' [' + new_content + ' ]'
return s< / code > < / pre >
< / details >
< / dd >
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< / dl >
< / dd >
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< dt id = "connpy.configfile" > < code class = "flex name class" >
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< span > class < span class = "ident" > configfile< / span > < / span >
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< span > (< / span > < span > conf=None, key=None)< / span >
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< / code > < / dt >
< dd >
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< div class = "desc" > < p > This class generates a configfile object. Containts a dictionary storing, config, nodes and profiles, normaly used by connection manager.< / p >
< h3 id = "attributes" > Attributes:< / h3 >
< pre > < code > - file (str): Path/file to config file.
- key (str): Path/file to RSA key file.
- config (dict): Dictionary containing information of connection
manager configuration.
- connections (dict): Dictionary containing all the nodes added to
connection manager.
- profiles (dict): Dictionary containing all the profiles added to
connection manager.
- privatekey (obj): Object containing the private key to encrypt
passwords.
- publickey (obj): Object containing the public key to decrypt
passwords.
< / code > < / pre >
< h3 id = "optional-parameters" > Optional Parameters:< / h3 >
< pre > < code > - conf (str): Path/file to config file. If left empty default
path is ~/.config/conn/config.json
- key (str): Path/file to RSA key file. If left empty default
path is ~/.config/conn/.osk
< / code > < / pre > < / div >
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< details class = "source" >
< summary >
< span > Expand source code< / span >
< / summary >
< pre > < code class = "python" > class configfile:
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' ' ' This class generates a configfile object. Containts a dictionary storing, config, nodes and profiles, normaly used by connection manager.
### Attributes:
- file (str): Path/file to config file.
- key (str): Path/file to RSA key file.
- config (dict): Dictionary containing information of connection
manager configuration.
- connections (dict): Dictionary containing all the nodes added to
connection manager.
- profiles (dict): Dictionary containing all the profiles added to
connection manager.
- privatekey (obj): Object containing the private key to encrypt
passwords.
- publickey (obj): Object containing the public key to decrypt
passwords.
' ' '
def __init__(self, conf = None, key = None):
' ' '
### Optional Parameters:
- conf (str): Path/file to config file. If left empty default
path is ~/.config/conn/config.json
- key (str): Path/file to RSA key file. If left empty default
path is ~/.config/conn/.osk
' ' '
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home = os.path.expanduser(" ~" )
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defaultdir = home + ' /.config/conn'
Path(defaultdir).mkdir(parents=True, exist_ok=True)
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pathfile = defaultdir + ' /.folder'
try:
with open(pathfile, " r" ) as f:
configdir = f.read().strip()
except:
with open(pathfile, " w" ) as f:
f.write(str(defaultdir))
configdir = defaultdir
defaultfile = configdir + ' /config.json'
defaultkey = configdir + ' /.osk'
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if conf == None:
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self.file = defaultfile
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else:
self.file = conf
if key == None:
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self.key = defaultkey
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else:
self.key = key
if os.path.exists(self.file):
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config = self._loadconfig(self.file)
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else:
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config = self._createconfig(self.file)
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self.config = config[" config" ]
self.connections = config[" connections" ]
self.profiles = config[" profiles" ]
if not os.path.exists(self.key):
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self._createkey(self.key)
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with open(self.key) as f:
self.privatekey = RSA.import_key(f.read())
f.close()
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self.publickey = self.privatekey.publickey()
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def _loadconfig(self, conf):
#Loads config file
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jsonconf = open(conf)
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jsondata = json.load(jsonconf)
jsonconf.close()
return jsondata
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def _createconfig(self, conf):
#Create config file
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defaultconfig = {' config' : {' case' : False, ' idletime' : 30, ' fzf' : False}, ' connections' : {}, ' profiles' : { " default" : { " host" :" " , " protocol" :" ssh" , " port" :" " , " user" :" " , " password" :" " , " options" :" " , " logs" :" " , " tags" : " " }}}
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if not os.path.exists(conf):
with open(conf, " w" ) as f:
json.dump(defaultconfig, f, indent = 4)
f.close()
os.chmod(conf, 0o600)
jsonconf = open(conf)
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jsondata = json.load(jsonconf)
jsonconf.close()
return jsondata
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def _saveconfig(self, conf):
#Save config file
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newconfig = {" config" :{}, " connections" : {}, " profiles" : {}}
newconfig[" config" ] = self.config
newconfig[" connections" ] = self.connections
newconfig[" profiles" ] = self.profiles
with open(conf, " w" ) as f:
json.dump(newconfig, f, indent = 4)
f.close()
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def _createkey(self, keyfile):
#Create key file
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key = RSA.generate(2048)
with open(keyfile,' wb' ) as f:
f.write(key.export_key(' PEM' ))
f.close()
os.chmod(keyfile, 0o600)
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return key
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def _explode_unique(self, unique):
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#Divide unique name into folder, subfolder and id
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uniques = unique.split(" @" )
if not unique.startswith(" @" ):
result = {" id" : uniques[0]}
else:
result = {}
if len(uniques) == 2:
result[" folder" ] = uniques[1]
if result[" folder" ] == " " :
return False
elif len(uniques) == 3:
result[" folder" ] = uniques[2]
result[" subfolder" ] = uniques[1]
if result[" folder" ] == " " or result[" subfolder" ] == " " :
return False
elif len(uniques) > 3:
return False
return result
def getitem(self, unique, keys = None):
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' ' '
Get an node or a group of nodes from configfile which can be passed to node/nodes class
### Parameters:
- unique (str): Unique name of the node or folder in config using
connection manager style: node[@subfolder][@folder]
or [@subfolder]@folder
### Optional Parameters:
- keys (list): In case you pass a folder as unique, you can filter
nodes inside the folder passing a list.
### Returns:
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dict: Dictionary containing information of node or multiple
dictionaries of multiple nodes.
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' ' '
uniques = self._explode_unique(unique)
if unique.startswith(" @" ):
if uniques.keys() > = {" folder" , " subfolder" }:
folder = self.connections[uniques[" folder" ]][uniques[" subfolder" ]]
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else:
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folder = self.connections[uniques[" folder" ]]
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newfolder = deepcopy(folder)
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newfolder.pop(" type" )
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for node in folder.keys():
if node == " type" :
continue
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if " type" in newfolder[node].keys():
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if newfolder[node][" type" ] == " subfolder" :
newfolder.pop(node)
else:
newfolder[node].pop(" type" )
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if keys == None:
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newfolder = {" {}{}" .format(k,unique):v for k,v in newfolder.items()}
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return newfolder
else:
f_newfolder = dict((k, newfolder[k]) for k in keys)
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f_newfolder = {" {}{}" .format(k,unique):v for k,v in f_newfolder.items()}
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return f_newfolder
else:
if uniques.keys() > = {" folder" , " subfolder" }:
node = self.connections[uniques[" folder" ]][uniques[" subfolder" ]][uniques[" id" ]]
elif " folder" in uniques.keys():
node = self.connections[uniques[" folder" ]][uniques[" id" ]]
else:
node = self.connections[uniques[" id" ]]
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newnode = deepcopy(node)
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newnode.pop(" type" )
return newnode
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def getitems(self, uniques):
' ' '
Get a group of nodes from configfile which can be passed to node/nodes class
### Parameters:
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- uniques (str/list): String name that will match hostnames
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from the connection manager. It can be a
list of strings.
### Returns:
dict: Dictionary containing information of node or multiple
dictionaries of multiple nodes.
' ' '
nodes = {}
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if isinstance(uniques, str):
uniques = [uniques]
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for i in uniques:
if isinstance(i, dict):
name = list(i.keys())[0]
mylist = i[name]
if not self.config[" case" ]:
name = name.lower()
mylist = [item.lower() for item in mylist]
this = self.getitem(name, mylist)
nodes.update(this)
elif i.startswith(" @" ):
if not self.config[" case" ]:
i = i.lower()
this = self.getitem(i)
nodes.update(this)
else:
if not self.config[" case" ]:
i = i.lower()
this = self.getitem(i)
nodes[i] = this
return nodes
def _connections_add(self,*, id, host, folder=' ' , subfolder=' ' , options=' ' , logs=' ' , password=' ' , port=' ' , protocol=' ' , user=' ' , tags=' ' , type = " connection" ):
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#Add connection from config
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if folder == ' ' :
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self.connections[id] = {" host" : host, " options" : options, " logs" : logs, " password" : password, " port" : port, " protocol" : protocol, " user" : user, " tags" : tags," type" : type}
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elif folder != ' ' and subfolder == ' ' :
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self.connections[folder][id] = {" host" : host, " options" : options, " logs" : logs, " password" : password, " port" : port, " protocol" : protocol, " user" : user, " tags" : tags, " type" : type}
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elif folder != ' ' and subfolder != ' ' :
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self.connections[folder][subfolder][id] = {" host" : host, " options" : options, " logs" : logs, " password" : password, " port" : port, " protocol" : protocol, " user" : user, " tags" : tags, " type" : type}
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def _connections_del(self,*, id, folder=' ' , subfolder=' ' ):
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#Delete connection from config
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if folder == ' ' :
del self.connections[id]
elif folder != ' ' and subfolder == ' ' :
del self.connections[folder][id]
elif folder != ' ' and subfolder != ' ' :
del self.connections[folder][subfolder][id]
def _folder_add(self,*, folder, subfolder = ' ' ):
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#Add Folder from config
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if subfolder == ' ' :
if folder not in self.connections:
self.connections[folder] = {" type" : " folder" }
else:
if subfolder not in self.connections[folder]:
self.connections[folder][subfolder] = {" type" : " subfolder" }
def _folder_del(self,*, folder, subfolder=' ' ):
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#Delete folder from config
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if subfolder == ' ' :
del self.connections[folder]
else:
del self.connections[folder][subfolder]
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def _profiles_add(self,*, id, host = ' ' , options=' ' , logs=' ' , password=' ' , port=' ' , protocol=' ' , user=' ' , tags=' ' ):
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#Add profile from config
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self.profiles[id] = {" host" : host, " options" : options, " logs" : logs, " password" : password, " port" : port, " protocol" : protocol, " user" : user, " tags" : tags}
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def _profiles_del(self,*, id ):
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#Delete profile from config
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del self.profiles[id]
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def _getallnodes(self, filter = None):
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#get all nodes on configfile
nodes = []
layer1 = [k for k,v in self.connections.items() if isinstance(v, dict) and v[" type" ] == " connection" ]
folders = [k for k,v in self.connections.items() if isinstance(v, dict) and v[" type" ] == " folder" ]
nodes.extend(layer1)
for f in folders:
layer2 = [k + " @" + f for k,v in self.connections[f].items() if isinstance(v, dict) and v[" type" ] == " connection" ]
nodes.extend(layer2)
subfolders = [k for k,v in self.connections[f].items() if isinstance(v, dict) and v[" type" ] == " subfolder" ]
for s in subfolders:
layer3 = [k + " @" + s + " @" + f for k,v in self.connections[f][s].items() if isinstance(v, dict) and v[" type" ] == " connection" ]
nodes.extend(layer3)
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if filter:
if isinstance(filter, str):
nodes = [item for item in nodes if re.search(filter, item)]
elif isinstance(filter, list):
nodes = [item for item in nodes if any(re.search(pattern, item) for pattern in filter)]
else:
raise ValueError(" filter must be a string or a list of strings" )
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return nodes
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def _getallnodesfull(self, filter = None, extract = True):
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#get all nodes on configfile with all their attributes.
nodes = {}
layer1 = {k:v for k,v in self.connections.items() if isinstance(v, dict) and v[" type" ] == " connection" }
folders = [k for k,v in self.connections.items() if isinstance(v, dict) and v[" type" ] == " folder" ]
nodes.update(layer1)
for f in folders:
layer2 = {k + " @" + f:v for k,v in self.connections[f].items() if isinstance(v, dict) and v[" type" ] == " connection" }
nodes.update(layer2)
subfolders = [k for k,v in self.connections[f].items() if isinstance(v, dict) and v[" type" ] == " subfolder" ]
for s in subfolders:
layer3 = {k + " @" + s + " @" + f:v for k,v in self.connections[f][s].items() if isinstance(v, dict) and v[" type" ] == " connection" }
nodes.update(layer3)
if filter:
if isinstance(filter, str):
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filter = " ^(?!.*@).+$" if filter == " @" else filter
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nodes = {k: v for k, v in nodes.items() if re.search(filter, k)}
elif isinstance(filter, list):
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filter = [" ^(?!.*@).+$" if item == " @" else item for item in filter]
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nodes = {k: v for k, v in nodes.items() if any(re.search(pattern, k) for pattern in filter)}
else:
raise ValueError(" filter must be a string or a list of strings" )
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if extract:
for node, keys in nodes.items():
for key, value in keys.items():
profile = re.search(" ^@(.*)" , str(value))
if profile:
try:
nodes[node][key] = self.profiles[profile.group(1)][key]
except:
nodes[node][key] = " "
elif value == ' ' and key == " protocol" :
try:
nodes[node][key] = config.profiles[" default" ][key]
except:
nodes[node][key] = " ssh"
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return nodes
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def _getallfolders(self):
#get all folders on configfile
folders = [" @" + k for k,v in self.connections.items() if isinstance(v, dict) and v[" type" ] == " folder" ]
subfolders = []
for f in folders:
s = [" @" + k + f for k,v in self.connections[f[1:]].items() if isinstance(v, dict) and v[" type" ] == " subfolder" ]
subfolders.extend(s)
folders.extend(subfolders)
return folders
def _profileused(self, profile):
#Check if profile is used before deleting it
nodes = []
layer1 = [k for k,v in self.connections.items() if isinstance(v, dict) and v[" type" ] == " connection" and (" @" + profile in v.values() or ( isinstance(v[" password" ],list) and " @" + profile in v[" password" ]))]
folders = [k for k,v in self.connections.items() if isinstance(v, dict) and v[" type" ] == " folder" ]
nodes.extend(layer1)
for f in folders:
layer2 = [k + " @" + f for k,v in self.connections[f].items() if isinstance(v, dict) and v[" type" ] == " connection" and (" @" + profile in v.values() or ( isinstance(v[" password" ],list) and " @" + profile in v[" password" ]))]
nodes.extend(layer2)
subfolders = [k for k,v in self.connections[f].items() if isinstance(v, dict) and v[" type" ] == " subfolder" ]
for s in subfolders:
layer3 = [k + " @" + s + " @" + f for k,v in self.connections[f][s].items() if isinstance(v, dict) and v[" type" ] == " connection" and (" @" + profile in v.values() or ( isinstance(v[" password" ],list) and " @" + profile in v[" password" ]))]
nodes.extend(layer3)
return nodes< / code > < / pre >
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< / details >
< h3 > Methods< / h3 >
< dl >
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< dt id = "connpy.configfile.getitem" > < code class = "name flex" >
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< span > def < span class = "ident" > getitem< / span > < / span > (< span > self, unique, keys=None)< / span >
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< / code > < / dt >
< dd >
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< div class = "desc" > < p > Get an node or a group of nodes from configfile which can be passed to node/nodes class< / p >
< h3 id = "parameters" > Parameters:< / h3 >
< pre > < code > - unique (str): Unique name of the node or folder in config using
connection manager style: node[@subfolder][@folder]
or [@subfolder]@folder
< / code > < / pre >
< h3 id = "optional-parameters" > Optional Parameters:< / h3 >
< pre > < code > - keys (list): In case you pass a folder as unique, you can filter
nodes inside the folder passing a list.
< / code > < / pre >
< h3 id = "returns" > Returns:< / h3 >
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< pre > < code > dict: Dictionary containing information of node or multiple
dictionaries of multiple nodes.
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< / code > < / pre > < / div >
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< details class = "source" >
< summary >
< span > Expand source code< / span >
< / summary >
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< pre > < code class = "python" > def getitem(self, unique, keys = None):
' ' '
Get an node or a group of nodes from configfile which can be passed to node/nodes class
### Parameters:
- unique (str): Unique name of the node or folder in config using
connection manager style: node[@subfolder][@folder]
or [@subfolder]@folder
### Optional Parameters:
- keys (list): In case you pass a folder as unique, you can filter
nodes inside the folder passing a list.
### Returns:
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dict: Dictionary containing information of node or multiple
dictionaries of multiple nodes.
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' ' '
uniques = self._explode_unique(unique)
if unique.startswith(" @" ):
if uniques.keys() > = {" folder" , " subfolder" }:
folder = self.connections[uniques[" folder" ]][uniques[" subfolder" ]]
else:
folder = self.connections[uniques[" folder" ]]
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newfolder = deepcopy(folder)
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newfolder.pop(" type" )
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for node in folder.keys():
if node == " type" :
continue
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if " type" in newfolder[node].keys():
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if newfolder[node][" type" ] == " subfolder" :
newfolder.pop(node)
else:
newfolder[node].pop(" type" )
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if keys == None:
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newfolder = {" {}{}" .format(k,unique):v for k,v in newfolder.items()}
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return newfolder
else:
f_newfolder = dict((k, newfolder[k]) for k in keys)
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f_newfolder = {" {}{}" .format(k,unique):v for k,v in f_newfolder.items()}
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return f_newfolder
else:
if uniques.keys() > = {" folder" , " subfolder" }:
node = self.connections[uniques[" folder" ]][uniques[" subfolder" ]][uniques[" id" ]]
elif " folder" in uniques.keys():
node = self.connections[uniques[" folder" ]][uniques[" id" ]]
else:
node = self.connections[uniques[" id" ]]
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newnode = deepcopy(node)
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newnode.pop(" type" )
return newnode< / code > < / pre >
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< / details >
< / dd >
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< dt id = "connpy.configfile.getitems" > < code class = "name flex" >
< span > def < span class = "ident" > getitems< / span > < / span > (< span > self, uniques)< / span >
< / code > < / dt >
< dd >
< div class = "desc" > < p > Get a group of nodes from configfile which can be passed to node/nodes class< / p >
< h3 id = "parameters" > Parameters:< / h3 >
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< pre > < code > - uniques (str/list): String name that will match hostnames
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from the connection manager. It can be a
list of strings.
< / code > < / pre >
< h3 id = "returns" > Returns:< / h3 >
< pre > < code > dict: Dictionary containing information of node or multiple
dictionaries of multiple nodes.
< / code > < / pre > < / div >
< details class = "source" >
< summary >
< span > Expand source code< / span >
< / summary >
< pre > < code class = "python" > def getitems(self, uniques):
' ' '
Get a group of nodes from configfile which can be passed to node/nodes class
### Parameters:
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- uniques (str/list): String name that will match hostnames
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from the connection manager. It can be a
list of strings.
### Returns:
dict: Dictionary containing information of node or multiple
dictionaries of multiple nodes.
' ' '
nodes = {}
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if isinstance(uniques, str):
uniques = [uniques]
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for i in uniques:
if isinstance(i, dict):
name = list(i.keys())[0]
mylist = i[name]
if not self.config[" case" ]:
name = name.lower()
mylist = [item.lower() for item in mylist]
this = self.getitem(name, mylist)
nodes.update(this)
elif i.startswith(" @" ):
if not self.config[" case" ]:
i = i.lower()
this = self.getitem(i)
nodes.update(this)
else:
if not self.config[" case" ]:
i = i.lower()
this = self.getitem(i)
nodes[i] = this
return nodes< / code > < / pre >
< / details >
< / dd >
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< / dl >
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< / dd >
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< dt id = "connpy.connapp" > < code class = "flex name class" >
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< span > class < span class = "ident" > connapp< / span > < / span >
< span > (< / span > < span > config)< / span >
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< / code > < / dt >
< dd >
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< div class = "desc" > < p > This class starts the connection manager app. It's normally used by connection manager but you can use it on a script to run the connection manager your way and use a different configfile and key.< / p >
< h3 id = "parameters" > Parameters:< / h3 >
< pre > < code > - config (obj): Object generated with configfile class, it contains
the nodes configuration and the methods to manage
the config file.
< / code > < / pre > < / div >
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< details class = "source" >
< summary >
< span > Expand source code< / span >
< / summary >
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< pre > < code class = "python" > class connapp:
' ' ' This class starts the connection manager app. It' s normally used by connection manager but you can use it on a script to run the connection manager your way and use a different configfile and key.
' ' '
def __init__(self, config):
' ' '
### Parameters:
- config (obj): Object generated with configfile class, it contains
the nodes configuration and the methods to manage
the config file.
' ' '
self.node = node
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self.connnodes = nodes
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self.config = config
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self.nodes = self.config._getallnodes()
self.folders = self.config._getallfolders()
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self.profiles = list(self.config.profiles.keys())
self.case = self.config.config[" case" ]
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try:
self.fzf = self.config.config[" fzf" ]
except:
self.fzf = False
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def start(self,argv = sys.argv[1:]):
' ' '
### Parameters:
- argv (list): List of arguments to pass to the app.
Default: sys.argv[1:]
' ' '
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#DEFAULTPARSER
defaultparser = argparse.ArgumentParser(prog = " conn" , description = " SSH and Telnet connection manager" , formatter_class=argparse.RawTextHelpFormatter)
subparsers = defaultparser.add_subparsers(title=" Commands" )
#NODEPARSER
nodeparser = subparsers.add_parser(" node" ,usage=self._help(" usage" ), help=self._help(" node" ),epilog=self._help(" end" ), formatter_class=argparse.RawTextHelpFormatter)
nodecrud = nodeparser.add_mutually_exclusive_group()
nodeparser.add_argument(" node" , metavar=" node|folder" , nargs=' ?' , default=None, action=self._store_type, type=self._type_node, help=self._help(" node" ))
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nodecrud.add_argument(" -v" ," --version" , dest=" action" , action=" store_const" , help=" Show version" , const=" version" , default=" connect" )
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nodecrud.add_argument(" -a" ," --add" , dest=" action" , action=" store_const" , help=" Add new node[@subfolder][@folder] or [@subfolder]@folder" , const=" add" , default=" connect" )
nodecrud.add_argument(" -r" ," --del" , " --rm" , dest=" action" , action=" store_const" , help=" Delete node[@subfolder][@folder] or [@subfolder]@folder" , const=" del" , default=" connect" )
nodecrud.add_argument(" -e" ," --mod" , " --edit" , dest=" action" , action=" store_const" , help=" Modify node[@subfolder][@folder]" , const=" mod" , default=" connect" )
nodecrud.add_argument(" -s" ," --show" , dest=" action" , action=" store_const" , help=" Show node[@subfolder][@folder]" , const=" show" , default=" connect" )
nodecrud.add_argument(" -d" ," --debug" , dest=" action" , action=" store_const" , help=" Display all conections steps" , const=" debug" , default=" connect" )
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nodeparser.set_defaults(func=self._func_node)
#PROFILEPARSER
profileparser = subparsers.add_parser(" profile" , help=" Manage profiles" )
profileparser.add_argument(" profile" , nargs=1, action=self._store_type, type=self._type_profile, help=" Name of profile to manage" )
profilecrud = profileparser.add_mutually_exclusive_group(required=True)
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profilecrud.add_argument(" -a" , " --add" , dest=" action" , action=" store_const" , help=" Add new profile" , const=" add" )
profilecrud.add_argument(" -r" , " --del" , " --rm" , dest=" action" , action=" store_const" , help=" Delete profile" , const=" del" )
profilecrud.add_argument(" -e" , " --mod" , " --edit" , dest=" action" , action=" store_const" , help=" Modify profile" , const=" mod" )
profilecrud.add_argument(" -s" , " --show" , dest=" action" , action=" store_const" , help=" Show profile" , const=" show" )
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profileparser.set_defaults(func=self._func_profile)
#MOVEPARSER
moveparser = subparsers.add_parser(" move" , aliases=[" mv" ], help=" Move node" )
moveparser.add_argument(" move" , nargs=2, action=self._store_type, help=" Move node[@subfolder][@folder] dest_node[@subfolder][@folder]" , default=" move" , type=self._type_node)
moveparser.set_defaults(func=self._func_others)
#COPYPARSER
copyparser = subparsers.add_parser(" copy" , aliases=[" cp" ], help=" Copy node" )
copyparser.add_argument(" cp" , nargs=2, action=self._store_type, help=" Copy node[@subfolder][@folder] new_node[@subfolder][@folder]" , default=" cp" , type=self._type_node)
copyparser.set_defaults(func=self._func_others)
#LISTPARSER
lsparser = subparsers.add_parser(" list" , aliases=[" ls" ], help=" List profiles, nodes or folders" )
lsparser.add_argument(" ls" , action=self._store_type, choices=[" profiles" ," nodes" ," folders" ], help=" List profiles, nodes or folders" , default=False)
lsparser.set_defaults(func=self._func_others)
#BULKPARSER
bulkparser = subparsers.add_parser(" bulk" , help=" Add nodes in bulk" )
bulkparser.add_argument(" bulk" , const=" bulk" , nargs=0, action=self._store_type, help=" Add nodes in bulk" )
bulkparser.set_defaults(func=self._func_others)
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# EXPORTPARSER
exportparser = subparsers.add_parser(" export" , help=" Export connection folder to Yaml file" )
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exportparser.add_argument(" export" , nargs=" +" , action=self._store_type, help=" Export /path/to/file.yml [@subfolder1][@folder1] [@subfolderN][@folderN]" )
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exportparser.set_defaults(func=self._func_export)
# IMPORTPARSER
importparser = subparsers.add_parser(" import" , help=" Import connection folder to config from Yaml file" )
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importparser.add_argument(" file" , nargs=1, action=self._store_type, help=" Import /path/to/file.yml" )
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importparser.set_defaults(func=self._func_import)
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# AIPARSER
aiparser = subparsers.add_parser(" ai" , help=" Make request to an AI" )
aiparser.add_argument(" ask" , nargs=' *' , help=" Ask connpy AI something" )
aiparser.add_argument(" --model" , nargs=1, help=" Set the OPENAI model id" )
aiparser.add_argument(" --org" , nargs=1, help=" Set the OPENAI organization id" )
aiparser.add_argument(" --api_key" , nargs=1, help=" Set the OPENAI API key" )
aiparser.set_defaults(func=self._func_ai)
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#RUNPARSER
runparser = subparsers.add_parser(" run" , help=" Run scripts or commands on nodes" , formatter_class=argparse.RawTextHelpFormatter)
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runparser.add_argument(" run" , nargs=' +' , action=self._store_type, help=self._help(" run" ), default=" run" )
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runparser.add_argument(" -g" ," --generate" , dest=" action" , action=" store_const" , help=" Generate yaml file template" , const=" generate" , default=" run" )
runparser.set_defaults(func=self._func_run)
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#APIPARSER
apiparser = subparsers.add_parser(" api" , help=" Start and stop connpy api" )
apicrud = apiparser.add_mutually_exclusive_group(required=True)
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apicrud.add_argument(" -s" ," --start" , dest=" start" , nargs=" ?" , action=self._store_type, help=" Start conppy api" , type=int, default=8048, metavar=" PORT" )
apicrud.add_argument(" -r" ," --restart" , dest=" restart" , nargs=0, action=self._store_type, help=" Restart conppy api" )
apicrud.add_argument(" -x" ," --stop" , dest=" stop" , nargs=0, action=self._store_type, help=" Stop conppy api" )
apicrud.add_argument(" -d" , " --debug" , dest=" debug" , nargs=" ?" , action=self._store_type, help=" Run connpy server on debug mode" , type=int, default=8048, metavar=" PORT" )
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apiparser.set_defaults(func=self._func_api)
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#CONFIGPARSER
configparser = subparsers.add_parser(" config" , help=" Manage app config" )
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configcrud = configparser.add_mutually_exclusive_group(required=True)
configcrud.add_argument(" --allow-uppercase" , dest=" case" , nargs=1, action=self._store_type, help=" Allow case sensitive names" , choices=[" true" ," false" ])
configcrud.add_argument(" --fzf" , dest=" fzf" , nargs=1, action=self._store_type, help=" Use fzf for lists" , choices=[" true" ," false" ])
configcrud.add_argument(" --keepalive" , dest=" idletime" , nargs=1, action=self._store_type, help=" Set keepalive time in seconds, 0 to disable" , type=int, metavar=" INT" )
configcrud.add_argument(" --completion" , dest=" completion" , nargs=1, choices=[" bash" ," zsh" ], action=self._store_type, help=" Get terminal completion configuration for conn" )
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configcrud.add_argument(" --configfolder" , dest=" configfolder" , nargs=1, action=self._store_type, help=" Set the default location for config file" , metavar=" FOLDER" )
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configcrud.add_argument(" --openai-org" , dest=" organization" , nargs=1, action=self._store_type, help=" Set openai organization" , metavar=" ORGANIZATION" )
configcrud.add_argument(" --openai-api-key" , dest=" api_key" , nargs=1, action=self._store_type, help=" Set openai api_key" , metavar=" API_KEY" )
configcrud.add_argument(" --openai-model" , dest=" model" , nargs=1, action=self._store_type, help=" Set openai model" , metavar=" MODEL" )
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configparser.set_defaults(func=self._func_others)
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#Manage sys arguments
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commands = [" node" , " profile" , " mv" , " move" ," copy" , " cp" , " bulk" , " ls" , " list" , " run" , " config" , " api" , " ai" , " export" , " import" ]
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profilecmds = [" --add" , " -a" , " --del" , " --rm" , " -r" , " --mod" , " --edit" , " -e" , " --show" , " -s" ]
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if len(argv) > = 2 and argv[1] == " profile" and argv[0] in profilecmds:
argv[1] = argv[0]
argv[0] = " profile"
if len(argv) < 1 or argv[0] not in commands:
argv.insert(0," node" )
args = defaultparser.parse_args(argv)
return args.func(args)
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class _store_type(argparse.Action):
#Custom store type for cli app.
def __call__(self, parser, args, values, option_string=None):
setattr(args, " data" , values)
delattr(args,self.dest)
setattr(args, " command" , self.dest)
def _func_node(self, args):
#Function called when connecting or managing nodes.
if not self.case and args.data != None:
args.data = args.data.lower()
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actions = {" version" : self._version, " connect" : self._connect, " debug" : self._connect, " add" : self._add, " del" : self._del, " mod" : self._mod, " show" : self._show}
return actions.get(args.action)(args)
def _version(self, args):
print(__version__)
def _connect(self, args):
if args.data == None:
matches = self.nodes
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if len(matches) == 0:
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print(" There are no nodes created" )
print(" try: conn --help" )
exit(9)
else:
if args.data.startswith(" @" ):
matches = list(filter(lambda k: args.data in k, self.nodes))
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else:
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matches = list(filter(lambda k: k.startswith(args.data), self.nodes))
if len(matches) == 0:
print(" {} not found" .format(args.data))
exit(2)
elif len(matches) > 1:
matches[0] = self._choose(matches," node" , " connect" )
if matches[0] == None:
exit(7)
node = self.config.getitem(matches[0])
node = self.node(matches[0],**node, config = self.config)
if args.action == " debug" :
node.interact(debug = True)
else:
node.interact()
def _del(self, args):
if args.data == None:
print(" Missing argument node" )
exit(3)
elif args.data.startswith(" @" ):
matches = list(filter(lambda k: k == args.data, self.folders))
else:
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matches = list(filter(lambda k: k == args.data, self.nodes))
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if len(matches) == 0:
print(" {} not found" .format(args.data))
exit(2)
question = [inquirer.Confirm(" delete" , message=" Are you sure you want to delete {}?" .format(matches[0]))]
confirm = inquirer.prompt(question)
if confirm == None:
exit(7)
if confirm[" delete" ]:
uniques = self.config._explode_unique(matches[0])
if args.data.startswith(" @" ):
self.config._folder_del(**uniques)
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else:
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self.config._connections_del(**uniques)
self.config._saveconfig(self.config.file)
print(" {} deleted succesfully" .format(matches[0]))
def _add(self, args):
if args.data == None:
print(" Missing argument node" )
exit(3)
elif args.data.startswith(" @" ):
type = " folder"
matches = list(filter(lambda k: k == args.data, self.folders))
reversematches = list(filter(lambda k: " @" + k == args.data, self.nodes))
else:
type = " node"
matches = list(filter(lambda k: k == args.data, self.nodes))
reversematches = list(filter(lambda k: k == " @" + args.data, self.folders))
if len(matches) > 0:
print(" {} already exist" .format(matches[0]))
exit(4)
if len(reversematches) > 0:
print(" {} already exist" .format(reversematches[0]))
exit(4)
else:
if type == " folder" :
uniques = self.config._explode_unique(args.data)
if uniques == False:
print(" Invalid folder {}" .format(args.data))
exit(5)
if " subfolder" in uniques.keys():
parent = " @" + uniques[" folder" ]
if parent not in self.folders:
print(" Folder {} not found" .format(uniques[" folder" ]))
exit(2)
self.config._folder_add(**uniques)
self.config._saveconfig(self.config.file)
print(" {} added succesfully" .format(args.data))
if type == " node" :
nodefolder = args.data.partition(" @" )
nodefolder = " @" + nodefolder[2]
if nodefolder not in self.folders and nodefolder != " @" :
print(nodefolder + " not found" )
exit(2)
uniques = self.config._explode_unique(args.data)
if uniques == False:
print(" Invalid node {}" .format(args.data))
exit(5)
print(" You can use the configured setting in a profile using @profilename." )
print(" You can also leave empty any value except hostname/IP." )
print(" You can pass 1 or more passwords using comma separated @profiles" )
print(" You can use this variables on logging file name: ${id} ${unique} ${host} ${port} ${user} ${protocol}" )
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print(" Some useful tags to set for automation are ' os' , ' screen_length_command' , and ' prompt' ." )
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newnode = self._questions_nodes(args.data, uniques)
if newnode == False:
exit(7)
self.config._connections_add(**newnode)
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self.config._saveconfig(self.config.file)
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print(" {} added succesfully" .format(args.data))
def _show(self, args):
if args.data == None:
print(" Missing argument node" )
exit(3)
matches = list(filter(lambda k: k == args.data, self.nodes))
if len(matches) == 0:
print(" {} not found" .format(args.data))
exit(2)
node = self.config.getitem(matches[0])
for k, v in node.items():
if isinstance(v, str):
print(k + " : " + v)
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elif isinstance(v, list):
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print(k + " :" )
for i in v:
print(" - " + i)
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elif isinstance(v, dict):
print(k + " :" )
for i,d in v.items():
print(" - " + i + " : " + d)
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def _mod(self, args):
if args.data == None:
print(" Missing argument node" )
exit(3)
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# matches = list(filter(lambda k: k == args.data, self.nodes))
matches = self.config._getallnodes(args.data)
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if len(matches) == 0:
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print(" No connection found with filter: {}" .format(args.data))
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exit(2)
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elif len(matches) == 1:
uniques = self.config._explode_unique(args.data)
unique = matches[0]
else:
uniques = {" id" : None, " folder" : None}
unique = None
print(" Editing: {}" .format(matches))
node = {}
for i in matches:
node[i] = self.config.getitem(i)
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edits = self._questions_edit()
if edits == None:
exit(7)
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updatenode = self._questions_nodes(unique, uniques, edit=edits)
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if not updatenode:
exit(7)
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if len(matches) == 1:
uniques.update(node[matches[0]])
uniques[" type" ] = " connection"
if sorted(updatenode.items()) == sorted(uniques.items()):
print(" Nothing to do here" )
return
else:
self.config._connections_add(**updatenode)
self.config._saveconfig(self.config.file)
print(" {} edited succesfully" .format(args.data))
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else:
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for k in node:
updatednode = self.config._explode_unique(k)
updatednode[" type" ] = " connection"
updatednode.update(node[k])
editcount = 0
for key, should_edit in edits.items():
if should_edit:
editcount += 1
updatednode[key] = updatenode[key]
if not editcount:
print(" Nothing to do here" )
return
else:
self.config._connections_add(**updatednode)
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self.config._saveconfig(self.config.file)
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print(" {} edited succesfully" .format(matches))
return
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def _func_profile(self, args):
#Function called when managing profiles
if not self.case:
args.data[0] = args.data[0].lower()
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actions = {" add" : self._profile_add, " del" : self._profile_del, " mod" : self._profile_mod, " show" : self._profile_show}
return actions.get(args.action)(args)
def _profile_del(self, args):
matches = list(filter(lambda k: k == args.data[0], self.profiles))
if len(matches) == 0:
print(" {} not found" .format(args.data[0]))
exit(2)
if matches[0] == " default" :
print(" Can' t delete default profile" )
exit(6)
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usedprofile = self.config._profileused(matches[0])
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if len(usedprofile) > 0:
print(" Profile {} used in the following nodes:" .format(matches[0]))
print(" , " .join(usedprofile))
exit(8)
question = [inquirer.Confirm(" delete" , message=" Are you sure you want to delete {}?" .format(matches[0]))]
confirm = inquirer.prompt(question)
if confirm[" delete" ]:
self.config._profiles_del(id = matches[0])
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self.config._saveconfig(self.config.file)
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print(" {} deleted succesfully" .format(matches[0]))
def _profile_show(self, args):
matches = list(filter(lambda k: k == args.data[0], self.profiles))
if len(matches) == 0:
print(" {} not found" .format(args.data[0]))
exit(2)
profile = self.config.profiles[matches[0]]
for k, v in profile.items():
if isinstance(v, str):
print(k + " : " + v)
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elif isinstance(v, list):
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print(k + " :" )
for i in v:
print(" - " + i)
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elif isinstance(v, dict):
print(k + " :" )
for i,d in v.items():
print(" - " + i + " : " + d)
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def _profile_add(self, args):
matches = list(filter(lambda k: k == args.data[0], self.profiles))
if len(matches) > 0:
print(" Profile {} Already exist" .format(matches[0]))
exit(4)
newprofile = self._questions_profiles(args.data[0])
if newprofile == False:
exit(7)
self.config._profiles_add(**newprofile)
self.config._saveconfig(self.config.file)
print(" {} added succesfully" .format(args.data[0]))
def _profile_mod(self, args):
matches = list(filter(lambda k: k == args.data[0], self.profiles))
if len(matches) == 0:
print(" {} not found" .format(args.data[0]))
exit(2)
profile = self.config.profiles[matches[0]]
oldprofile = {" id" : matches[0]}
oldprofile.update(profile)
edits = self._questions_edit()
if edits == None:
exit(7)
updateprofile = self._questions_profiles(matches[0], edit=edits)
if not updateprofile:
exit(7)
if sorted(updateprofile.items()) == sorted(oldprofile.items()):
print(" Nothing to do here" )
return
else:
self.config._profiles_add(**updateprofile)
self.config._saveconfig(self.config.file)
print(" {} edited succesfully" .format(args.data[0]))
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def _func_others(self, args):
#Function called when using other commands
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actions = {" ls" : self._ls, " move" : self._mvcp, " cp" : self._mvcp, " bulk" : self._bulk, " completion" : self._completion, " case" : self._case, " fzf" : self._fzf, " idletime" : self._idletime, " configfolder" : self._configfolder, " organization" : self._openai, " api_key" : self._openai, " model" : self._openai}
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return actions.get(args.command)(args)
def _ls(self, args):
print(*getattr(self, args.data), sep=" \n" )
def _mvcp(self, args):
if not self.case:
args.data[0] = args.data[0].lower()
args.data[1] = args.data[1].lower()
source = list(filter(lambda k: k == args.data[0], self.nodes))
dest = list(filter(lambda k: k == args.data[1], self.nodes))
if len(source) != 1:
print(" {} not found" .format(args.data[0]))
exit(2)
if len(dest) > 0:
print(" Node {} Already exist" .format(args.data[1]))
exit(4)
nodefolder = args.data[1].partition(" @" )
nodefolder = " @" + nodefolder[2]
if nodefolder not in self.folders and nodefolder != " @" :
print(" {} not found" .format(nodefolder))
exit(2)
olduniques = self.config._explode_unique(args.data[0])
newuniques = self.config._explode_unique(args.data[1])
if newuniques == False:
print(" Invalid node {}" .format(args.data[1]))
exit(5)
node = self.config.getitem(source[0])
newnode = {**newuniques, **node}
self.config._connections_add(**newnode)
if args.command == " move" :
self.config._connections_del(**olduniques)
self.config._saveconfig(self.config.file)
action = " moved" if args.command == " move" else " copied"
print(" {} {} succesfully to {}" .format(args.data[0],action, args.data[1]))
def _bulk(self, args):
newnodes = self._questions_bulk()
if newnodes == False:
exit(7)
if not self.case:
newnodes[" location" ] = newnodes[" location" ].lower()
newnodes[" ids" ] = newnodes[" ids" ].lower()
ids = newnodes[" ids" ].split(" ," )
hosts = newnodes[" host" ].split(" ," )
count = 0
for n in ids:
unique = n + newnodes[" location" ]
matches = list(filter(lambda k: k == unique, self.nodes))
reversematches = list(filter(lambda k: k == " @" + unique, self.folders))
if len(matches) > 0:
print(" Node {} already exist, ignoring it" .format(unique))
continue
if len(reversematches) > 0:
print(" Folder with name {} already exist, ignoring it" .format(unique))
continue
newnode = {" id" : n}
if newnodes[" location" ] != " " :
location = self.config._explode_unique(newnodes[" location" ])
newnode.update(location)
if len(hosts) > 1:
index = ids.index(n)
newnode[" host" ] = hosts[index]
else:
newnode[" host" ] = hosts[0]
newnode[" protocol" ] = newnodes[" protocol" ]
newnode[" port" ] = newnodes[" port" ]
newnode[" options" ] = newnodes[" options" ]
newnode[" logs" ] = newnodes[" logs" ]
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newnode[" tags" ] = newnodes[" tags" ]
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newnode[" user" ] = newnodes[" user" ]
newnode[" password" ] = newnodes[" password" ]
count +=1
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self.config._connections_add(**newnode)
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self.nodes = self.config._getallnodes()
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if count > 0:
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self.config._saveconfig(self.config.file)
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print(" Succesfully added {} nodes" .format(count))
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else:
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print(" 0 nodes added" )
def _completion(self, args):
if args.data[0] == " bash" :
print(self._help(" bashcompletion" ))
elif args.data[0] == " zsh" :
print(self._help(" zshcompletion" ))
def _case(self, args):
if args.data[0] == " true" :
args.data[0] = True
elif args.data[0] == " false" :
args.data[0] = False
self._change_settings(args.command, args.data[0])
def _fzf(self, args):
if args.data[0] == " true" :
args.data[0] = True
elif args.data[0] == " false" :
args.data[0] = False
self._change_settings(args.command, args.data[0])
def _idletime(self, args):
if args.data[0] < 0:
args.data[0] = 0
self._change_settings(args.command, args.data[0])
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def _configfolder(self, args):
if not os.path.isdir(args.data[0]):
raise argparse.ArgumentTypeError(f" readable_dir:{args.data[0]} is not a valid path" )
else:
pathfile = defaultdir + " /.folder"
folder = os.path.abspath(args.data[0]).rstrip(' /' )
with open(pathfile, " w" ) as f:
f.write(str(folder))
print(" Config saved" )
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def _openai(self, args):
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if " openai" in self.config.config:
openaikeys = self.config.config[" openai" ]
else:
openaikeys = {}
openaikeys[args.command] = args.data[0]
self._change_settings(" openai" , openaikeys)
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def _change_settings(self, name, value):
self.config.config[name] = value
self.config._saveconfig(self.config.file)
print(" Config saved" )
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def _func_import(self, args):
if not os.path.exists(args.data[0]):
print(" File {} dosn' t exists" .format(args.data[0]))
exit(14)
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print(" This could overwrite your current configuration!" )
question = [inquirer.Confirm(" import" , message=" Are you sure you want to import {} file?" .format(args.data[0]))]
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confirm = inquirer.prompt(question)
if confirm == None:
exit(7)
if confirm[" import" ]:
try:
with open(args.data[0]) as file:
imported = yaml.load(file, Loader=yaml.FullLoader)
except:
print(" failed reading file {}" .format(args.data[0]))
exit(10)
for k,v in imported.items():
uniques = self.config._explode_unique(k)
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if " folder" in uniques:
folder = f" @{uniques[' folder' ]}"
matches = list(filter(lambda k: k == folder, self.folders))
if len(matches) == 0:
uniquefolder = self.config._explode_unique(folder)
self.config._folder_add(**uniquefolder)
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if " subfolder" in uniques:
subfolder = f" @{uniques[' subfolder' ]}@{uniques[' folder' ]}"
matches = list(filter(lambda k: k == subfolder, self.folders))
if len(matches) == 0:
uniquesubfolder = self.config._explode_unique(subfolder)
self.config._folder_add(**uniquesubfolder)
uniques.update(v)
self.config._connections_add(**uniques)
self.config._saveconfig(self.config.file)
print(" File {} imported succesfully" .format(args.data[0]))
return
def _func_export(self, args):
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if os.path.exists(args.data[0]):
print(" File {} already exists" .format(args.data[0]))
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exit(14)
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if len(args.data[1:]) == 0:
foldercons = self.config._getallnodesfull(extract = False)
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else:
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for folder in args.data[1:]:
matches = list(filter(lambda k: k == folder, self.folders))
if len(matches) == 0 and folder != " @" :
print(" {} folder not found" .format(folder))
exit(2)
foldercons = self.config._getallnodesfull(args.data[1:], extract = False)
with open(args.data[0], " w" ) as file:
yaml.dump(foldercons, file, Dumper=NoAliasDumper, default_flow_style=False)
file.close()
print(" File {} generated succesfully" .format(args.data[0]))
exit()
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return
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def _func_run(self, args):
if len(args.data) > 1:
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args.action = " noderun"
actions = {" noderun" : self._node_run, " generate" : self._yaml_generate, " run" : self._yaml_run}
return actions.get(args.action)(args)
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def _func_ai(self, args):
arguments = {}
if args.model:
arguments[" model" ] = args.model[0]
if args.org:
arguments[" org" ] = args.org[0]
if args.api_key:
arguments[" api_key" ] = args.api_key[0]
self.myai = ai(self.config, **arguments)
if args.ask:
input = " " .join(args.ask)
request = self.myai.ask(input, dryrun = True)
if not request[" app_related" ]:
mdprint(Markdown(request[" response" ]))
print(" \r" )
else:
if request[" action" ] == " list_nodes" :
if request[" filter" ]:
nodes = self.config._getallnodes(request[" filter" ])
else:
nodes = self.config._getallnodes()
list = " \n" .join(nodes)
print(list)
else:
yaml_data = yaml.dump(request[" task" ])
confirmation = f" I' m going to run the following task:\n```{yaml_data}```"
mdprint(Markdown(confirmation))
question = [inquirer.Confirm(" task" , message=" Are you sure you want to continue?" )]
print(" \r" )
confirm = inquirer.prompt(question)
if confirm == None:
exit(7)
if confirm[" task" ]:
script = {}
script[" name" ] = " RESULT"
script[" output" ] = " stdout"
script[" nodes" ] = request[" nodes" ]
script[" action" ] = request[" action" ]
if " expected" in request:
script[" expected" ] = request[" expected" ]
script.update(request[" args" ])
self._cli_run(script)
else:
history = None
mdprint(Markdown(" **Chatbot**: Hi! How can I help you today?\n\n---" ))
while True:
questions = [
inquirer.Text(' message' , message=" User" , validate=self._ai_validation),
]
answers = inquirer.prompt(questions)
if answers == None:
exit(7)
response, history = self._process_input(answers[" message" ], history)
mdprint(Markdown(f" " " **Chatbot**:\n{response}\n\n---" " " ))
return
def _ai_validation(self, answers, current, regex = " ^.+$" ):
#Validate ai user chat.
if not re.match(regex, current):
raise inquirer.errors.ValidationError(" " , reason=" Can' t send empty messages" )
return True
def _process_input(self, input, history):
response = self.myai.ask(input , chat_history = history, dryrun = True)
if not response[" app_related" ]:
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try:
if not history:
history = []
history.extend(response[" chat_history" ])
except:
if not history:
history = None
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return response[" response" ], history
else:
history = None
if response[" action" ] == " list_nodes" :
if response[" filter" ]:
nodes = self.config._getallnodes(response[" filter" ])
else:
nodes = self.config._getallnodes()
list = " \n" .join(nodes)
response = f" ```{list}\n```"
else:
yaml_data = yaml.dump(response[" task" ])
confirmresponse = f" I' m going to run the following task:\n```{yaml_data}```\nPlease confirm"
while True:
mdprint(Markdown(f" " " **Chatbot**:\n{confirmresponse}" " " ))
questions = [
inquirer.Text(' message' , message=" User" , validate=self._ai_validation),
]
answers = inquirer.prompt(questions)
if answers == None:
exit(7)
confirmation = self.myai.confirm(answers[" message" ])
if isinstance(confirmation, bool):
if not confirmation:
response = " Request cancelled"
else:
nodes = self.connnodes(self.config.getitems(response[" nodes" ]), config = self.config)
if response[" action" ] == " run" :
output = nodes.run(**response[" args" ])
response = " "
elif response[" action" ] == " test" :
result = nodes.test(**response[" args" ])
yaml_result = yaml.dump(result,default_flow_style=False, indent=4)
output = nodes.output
response = f" This is the result for your test:\n```\n{yaml_result}\n```"
for k,v in output.items():
response += f" \n***{k}***:\n```\n{v}\n```\n"
break
return response, history
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def _func_api(self, args):
if args.command == " stop" or args.command == " restart" :
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args.data = stop_api()
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if args.command == " start" or args.command == " restart" :
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if args.data:
start_api(args.data)
else:
start_api()
if args.command == " debug" :
if args.data:
debug_api(args.data)
else:
debug_api()
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return
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def _node_run(self, args):
command = " " .join(args.data[1:])
matches = list(filter(lambda k: k == args.data[0], self.nodes))
if len(matches) == 0:
print(" {} not found" .format(args.data[0]))
exit(2)
node = self.config.getitem(matches[0])
node = self.node(matches[0],**node, config = self.config)
node.run(command)
print(node.output)
def _yaml_generate(self, args):
if os.path.exists(args.data[0]):
print(" File {} already exists" .format(args.data[0]))
exit(14)
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else:
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with open(args.data[0], " w" ) as file:
file.write(self._help(" generate" ))
file.close()
print(" File {} generated succesfully" .format(args.data[0]))
exit()
def _yaml_run(self, args):
try:
with open(args.data[0]) as file:
scripts = yaml.load(file, Loader=yaml.FullLoader)
except:
print(" failed reading file {}" .format(args.data[0]))
exit(10)
for script in scripts[" tasks" ]:
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self._cli_run(script)
def _cli_run(self, script):
args = {}
try:
action = script[" action" ]
nodelist = script[" nodes" ]
args[" commands" ] = script[" commands" ]
output = script[" output" ]
if action == " test" :
args[" expected" ] = script[" expected" ]
except KeyError as e:
print(" ' {}' is mandatory" .format(e.args[0]))
exit(11)
nodes = self.connnodes(self.config.getitems(nodelist), config = self.config)
stdout = False
if output is None:
pass
elif output == " stdout" :
stdout = True
elif isinstance(output, str) and action == " run" :
args[" folder" ] = output
if " variables" in script:
args[" vars" ] = script[" variables" ]
if " vars" in script:
args[" vars" ] = script[" vars" ]
try:
options = script[" options" ]
thisoptions = {k: v for k, v in options.items() if k in [" prompt" , " parallel" , " timeout" ]}
args.update(thisoptions)
except:
options = None
size = str(os.get_terminal_size())
p = re.search(r' .*columns=([0-9]+)' , size)
columns = int(p.group(1))
if action == " run" :
nodes.run(**args)
print(script[" name" ].upper() + " -" * (columns - len(script[" name" ])))
for i in nodes.status.keys():
print(" " + i + " " + " -" * (columns - len(i) - 13) + (" PASS(0)" if nodes.status[i] == 0 else " FAIL({})" .format(nodes.status[i])))
if stdout:
for line in nodes.output[i].splitlines():
print(" " + line)
elif action == " test" :
nodes.test(**args)
print(script[" name" ].upper() + " -" * (columns - len(script[" name" ])))
for i in nodes.status.keys():
print(" " + i + " " + " -" * (columns - len(i) - 13) + (" PASS(0)" if nodes.status[i] == 0 else " FAIL({})" .format(nodes.status[i])))
if nodes.status[i] == 0:
max_length = max(len(s) for s in nodes.result[i].keys())
for k,v in nodes.result[i].items():
print(" TEST for ' {}' " .format(k) + " " *(max_length - len(k) + 1) + " --> " + str(v).upper())
if stdout:
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if nodes.status[i] == 0:
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print(" " + " -" * (max_length + 21))
for line in nodes.output[i].splitlines():
print(" " + line)
else:
print(" Wrong action ' {}' " .format(action))
exit(13)
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def _choose(self, list, name, action):
#Generates an inquirer list to pick
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if FzfPrompt and self.fzf:
fzf = FzfPrompt(executable_path=" fzf-tmux" )
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if not self.case:
fzf = FzfPrompt(executable_path=" fzf-tmux -i" )
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answer = fzf.prompt(list, fzf_options=" -d 25%" )
if len(answer) == 0:
return
else:
return answer[0]
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else:
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questions = [inquirer.List(name, message=" Pick {} to {}:" .format(name,action), choices=list, carousel=True)]
answer = inquirer.prompt(questions)
if answer == None:
return
else:
return answer[name]
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def _host_validation(self, answers, current, regex = " ^.+$" ):
#Validate hostname in inquirer when managing nodes
if not re.match(regex, current):
raise inquirer.errors.ValidationError(" " , reason=" Host cannot be empty" )
if current.startswith(" @" ):
if current[1:] not in self.profiles:
raise inquirer.errors.ValidationError(" " , reason=" Profile {} don' t exist" .format(current))
return True
def _profile_protocol_validation(self, answers, current, regex = " (^ssh$|^telnet$|^$)" ):
#Validate protocol in inquirer when managing profiles
if not re.match(regex, current):
raise inquirer.errors.ValidationError(" " , reason=" Pick between ssh, telnet or leave empty" )
return True
def _protocol_validation(self, answers, current, regex = " (^ssh$|^telnet$|^$|^@.+$)" ):
#Validate protocol in inquirer when managing nodes
if not re.match(regex, current):
raise inquirer.errors.ValidationError(" " , reason=" Pick between ssh, telnet, leave empty or @profile" )
if current.startswith(" @" ):
if current[1:] not in self.profiles:
raise inquirer.errors.ValidationError(" " , reason=" Profile {} don' t exist" .format(current))
return True
def _profile_port_validation(self, answers, current, regex = " (^[0-9]*$)" ):
#Validate port in inquirer when managing profiles
if not re.match(regex, current):
raise inquirer.errors.ValidationError(" " , reason=" Pick a port between 1-65535, @profile o leave empty" )
try:
port = int(current)
except:
port = 0
if current != " " and not 1 < = int(port) < = 65535:
raise inquirer.errors.ValidationError(" " , reason=" Pick a port between 1-65535 or leave empty" )
return True
def _port_validation(self, answers, current, regex = " (^[0-9]*$|^@.+$)" ):
#Validate port in inquirer when managing nodes
if not re.match(regex, current):
raise inquirer.errors.ValidationError(" " , reason=" Pick a port between 1-65535, @profile or leave empty" )
try:
port = int(current)
except:
port = 0
if current.startswith(" @" ):
if current[1:] not in self.profiles:
raise inquirer.errors.ValidationError(" " , reason=" Profile {} don' t exist" .format(current))
elif current != " " and not 1 < = int(port) < = 65535:
raise inquirer.errors.ValidationError(" " , reason=" Pick a port between 1-65535, @profile o leave empty" )
return True
def _pass_validation(self, answers, current, regex = " (^@.+$)" ):
#Validate password in inquirer
profiles = current.split(" ," )
for i in profiles:
if not re.match(regex, i) or i[1:] not in self.profiles:
raise inquirer.errors.ValidationError(" " , reason=" Profile {} don' t exist" .format(i))
return True
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def _tags_validation(self, answers, current):
#Validation for Tags in inquirer when managing nodes
if current.startswith(" @" ):
if current[1:] not in self.profiles:
raise inquirer.errors.ValidationError(" " , reason=" Profile {} don' t exist" .format(current))
elif current != " " :
isdict = False
try:
isdict = ast.literal_eval(current)
except:
pass
if not isinstance (isdict, dict):
raise inquirer.errors.ValidationError(" " , reason=" Tags should be a python dictionary." .format(current))
return True
def _profile_tags_validation(self, answers, current):
#Validation for Tags in inquirer when managing profiles
if current != " " :
isdict = False
try:
isdict = ast.literal_eval(current)
except:
pass
if not isinstance (isdict, dict):
raise inquirer.errors.ValidationError(" " , reason=" Tags should be a python dictionary." .format(current))
return True
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def _default_validation(self, answers, current):
#Default validation type used in multiples questions in inquirer
if current.startswith(" @" ):
if current[1:] not in self.profiles:
raise inquirer.errors.ValidationError(" " , reason=" Profile {} don' t exist" .format(current))
return True
def _bulk_node_validation(self, answers, current, regex = " ^[0-9a-zA-Z_.,$#-]+$" ):
#Validation of nodes when running bulk command
if not re.match(regex, current):
raise inquirer.errors.ValidationError(" " , reason=" Host cannot be empty" )
if current.startswith(" @" ):
if current[1:] not in self.profiles:
raise inquirer.errors.ValidationError(" " , reason=" Profile {} don' t exist" .format(current))
return True
def _bulk_folder_validation(self, answers, current):
#Validation of folders when running bulk command
if not self.case:
current = current.lower()
matches = list(filter(lambda k: k == current, self.folders))
if current != " " and len(matches) == 0:
raise inquirer.errors.ValidationError(" " , reason=" Location {} don' t exist" .format(current))
return True
def _bulk_host_validation(self, answers, current, regex = " ^.+$" ):
#Validate hostname when running bulk command
if not re.match(regex, current):
raise inquirer.errors.ValidationError(" " , reason=" Host cannot be empty" )
if current.startswith(" @" ):
if current[1:] not in self.profiles:
raise inquirer.errors.ValidationError(" " , reason=" Profile {} don' t exist" .format(current))
hosts = current.split(" ," )
nodes = answers[" ids" ].split(" ," )
if len(hosts) > 1 and len(hosts) != len(nodes):
raise inquirer.errors.ValidationError(" " , reason=" Hosts list should be the same length of nodes list" )
return True
def _questions_edit(self):
#Inquirer questions when editing nodes or profiles
questions = []
questions.append(inquirer.Confirm(" host" , message=" Edit Hostname/IP?" ))
questions.append(inquirer.Confirm(" protocol" , message=" Edit Protocol?" ))
questions.append(inquirer.Confirm(" port" , message=" Edit Port?" ))
questions.append(inquirer.Confirm(" options" , message=" Edit Options?" ))
questions.append(inquirer.Confirm(" logs" , message=" Edit logging path/file?" ))
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questions.append(inquirer.Confirm(" tags" , message=" Edit tags?" ))
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questions.append(inquirer.Confirm(" user" , message=" Edit User?" ))
questions.append(inquirer.Confirm(" password" , message=" Edit password?" ))
answers = inquirer.prompt(questions)
return answers
def _questions_nodes(self, unique, uniques = None, edit = None):
#Questions when adding or editing nodes
try:
defaults = self.config.getitem(unique)
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if " tags" not in defaults:
defaults[" tags" ] = " "
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except:
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defaults = { " host" :" " , " protocol" :" " , " port" :" " , " user" :" " , " options" :" " , " logs" :" " , " tags" :" " , " password" :" " }
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node = {}
if edit == None:
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edit = { " host" :True, " protocol" :True, " port" :True, " user" :True, " password" : True," options" :True, " logs" :True, " tags" :True }
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questions = []
if edit[" host" ]:
questions.append(inquirer.Text(" host" , message=" Add Hostname or IP" , validate=self._host_validation, default=defaults[" host" ]))
else:
node[" host" ] = defaults[" host" ]
if edit[" protocol" ]:
questions.append(inquirer.Text(" protocol" , message=" Select Protocol" , validate=self._protocol_validation, default=defaults[" protocol" ]))
else:
node[" protocol" ] = defaults[" protocol" ]
if edit[" port" ]:
questions.append(inquirer.Text(" port" , message=" Select Port Number" , validate=self._port_validation, default=defaults[" port" ]))
else:
node[" port" ] = defaults[" port" ]
if edit[" options" ]:
questions.append(inquirer.Text(" options" , message=" Pass extra options to protocol" , validate=self._default_validation, default=defaults[" options" ]))
else:
node[" options" ] = defaults[" options" ]
if edit[" logs" ]:
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questions.append(inquirer.Text(" logs" , message=" Pick logging path/file " , validate=self._default_validation, default=defaults[" logs" ].replace(" {" ," {{" ).replace(" }" ," }}" )))
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else:
node[" logs" ] = defaults[" logs" ]
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if edit[" tags" ]:
questions.append(inquirer.Text(" tags" , message=" Add tags dictionary" , validate=self._tags_validation, default=str(defaults[" tags" ]).replace(" {" ," {{" ).replace(" }" ," }}" )))
else:
node[" tags" ] = defaults[" tags" ]
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if edit[" user" ]:
questions.append(inquirer.Text(" user" , message=" Pick username" , validate=self._default_validation, default=defaults[" user" ]))
else:
node[" user" ] = defaults[" user" ]
if edit[" password" ]:
questions.append(inquirer.List(" password" , message=" Password: Use a local password, no password or a list of profiles to reference?" , choices=[" Local Password" , " Profiles" , " No Password" ]))
else:
node[" password" ] = defaults[" password" ]
answer = inquirer.prompt(questions)
if answer == None:
return False
if " password" in answer.keys():
if answer[" password" ] == " Local Password" :
passq = [inquirer.Password(" password" , message=" Set Password" )]
passa = inquirer.prompt(passq)
if passa == None:
return False
answer[" password" ] = self.encrypt(passa[" password" ])
elif answer[" password" ] == " Profiles" :
passq = [(inquirer.Text(" password" , message=" Set a @profile or a comma separated list of @profiles" , validate=self._pass_validation))]
passa = inquirer.prompt(passq)
if passa == None:
return False
answer[" password" ] = passa[" password" ].split(" ," )
elif answer[" password" ] == " No Password" :
answer[" password" ] = " "
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if " tags" in answer.keys() and not answer[" tags" ].startswith(" @" ) and answer[" tags" ]:
answer[" tags" ] = ast.literal_eval(answer[" tags" ])
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result = {**uniques, **answer, **node}
result[" type" ] = " connection"
return result
def _questions_profiles(self, unique, edit = None):
#Questions when adding or editing profiles
try:
defaults = self.config.profiles[unique]
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if " tags" not in defaults:
defaults[" tags" ] = " "
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except:
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defaults = { " host" :" " , " protocol" :" " , " port" :" " , " user" :" " , " options" :" " , " logs" :" " , " tags" : " " }
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profile = {}
if edit == None:
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edit = { " host" :True, " protocol" :True, " port" :True, " user" :True, " password" : True," options" :True, " logs" :True, " tags" :True }
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questions = []
if edit[" host" ]:
questions.append(inquirer.Text(" host" , message=" Add Hostname or IP" , default=defaults[" host" ]))
else:
profile[" host" ] = defaults[" host" ]
if edit[" protocol" ]:
questions.append(inquirer.Text(" protocol" , message=" Select Protocol" , validate=self._profile_protocol_validation, default=defaults[" protocol" ]))
else:
profile[" protocol" ] = defaults[" protocol" ]
if edit[" port" ]:
questions.append(inquirer.Text(" port" , message=" Select Port Number" , validate=self._profile_port_validation, default=defaults[" port" ]))
else:
profile[" port" ] = defaults[" port" ]
if edit[" options" ]:
questions.append(inquirer.Text(" options" , message=" Pass extra options to protocol" , default=defaults[" options" ]))
else:
profile[" options" ] = defaults[" options" ]
if edit[" logs" ]:
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questions.append(inquirer.Text(" logs" , message=" Pick logging path/file " , default=defaults[" logs" ].replace(" {" ," {{" ).replace(" }" ," }}" )))
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else:
profile[" logs" ] = defaults[" logs" ]
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if edit[" tags" ]:
questions.append(inquirer.Text(" tags" , message=" Add tags dictionary" , validate=self._profile_tags_validation, default=str(defaults[" tags" ]).replace(" {" ," {{" ).replace(" }" ," }}" )))
else:
profile[" tags" ] = defaults[" tags" ]
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if edit[" user" ]:
questions.append(inquirer.Text(" user" , message=" Pick username" , default=defaults[" user" ]))
else:
profile[" user" ] = defaults[" user" ]
if edit[" password" ]:
questions.append(inquirer.Password(" password" , message=" Set Password" ))
else:
profile[" password" ] = defaults[" password" ]
answer = inquirer.prompt(questions)
if answer == None:
return False
if " password" in answer.keys():
if answer[" password" ] != " " :
answer[" password" ] = self.encrypt(answer[" password" ])
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if " tags" in answer.keys() and answer[" tags" ]:
answer[" tags" ] = ast.literal_eval(answer[" tags" ])
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result = {**answer, **profile}
result[" id" ] = unique
return result
def _questions_bulk(self):
#Questions when using bulk command
questions = []
questions.append(inquirer.Text(" ids" , message=" add a comma separated list of nodes to add" , validate=self._bulk_node_validation))
questions.append(inquirer.Text(" location" , message=" Add a @folder, @subfolder@folder or leave empty" , validate=self._bulk_folder_validation))
questions.append(inquirer.Text(" host" , message=" Add comma separated list of Hostnames or IPs" , validate=self._bulk_host_validation))
questions.append(inquirer.Text(" protocol" , message=" Select Protocol" , validate=self._protocol_validation))
questions.append(inquirer.Text(" port" , message=" Select Port Number" , validate=self._port_validation))
questions.append(inquirer.Text(" options" , message=" Pass extra options to protocol" , validate=self._default_validation))
questions.append(inquirer.Text(" logs" , message=" Pick logging path/file " , validate=self._default_validation))
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questions.append(inquirer.Text(" tags" , message=" Add tags dictionary" , validate=self._tags_validation))
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questions.append(inquirer.Text(" user" , message=" Pick username" , validate=self._default_validation))
questions.append(inquirer.List(" password" , message=" Password: Use a local password, no password or a list of profiles to reference?" , choices=[" Local Password" , " Profiles" , " No Password" ]))
answer = inquirer.prompt(questions)
if answer == None:
return False
if " password" in answer.keys():
if answer[" password" ] == " Local Password" :
passq = [inquirer.Password(" password" , message=" Set Password" )]
passa = inquirer.prompt(passq)
answer[" password" ] = self.encrypt(passa[" password" ])
elif answer[" password" ] == " Profiles" :
passq = [(inquirer.Text(" password" , message=" Set a @profile or a comma separated list of @profiles" , validate=self._pass_validation))]
passa = inquirer.prompt(passq)
answer[" password" ] = passa[" password" ].split(" ," )
elif answer[" password" ] == " No Password" :
answer[" password" ] = " "
answer[" type" ] = " connection"
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if " tags" in answer.keys() and not answer[" tags" ].startswith(" @" ) and answer[" tags" ]:
answer[" tags" ] = ast.literal_eval(answer[" tags" ])
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return answer
def _type_node(self, arg_value, pat=re.compile(r" ^[0-9a-zA-Z_.$@#-]+$" )):
if not pat.match(arg_value):
raise argparse.ArgumentTypeError
return arg_value
def _type_profile(self, arg_value, pat=re.compile(r" ^[0-9a-zA-Z_.$#-]+$" )):
if not pat.match(arg_value):
raise argparse.ArgumentTypeError
return arg_value
def _help(self, type):
#Store text for help and other commands
if type == " node" :
return " node[@subfolder][@folder]\nConnect to specific node or show all matching nodes\n[@subfolder][@folder]\nShow all available connections globaly or in specified path"
if type == " usage" :
return " conn [-h] [--add | --del | --mod | --show | --debug] [node|folder]\n conn {profile,move,mv,copy,cp,list,ls,bulk,config} ..."
if type == " end" :
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return " Commands:\n profile Manage profiles\n move (mv) Move node\n copy (cp) Copy node\n list (ls) List profiles, nodes or folders\n bulk Add nodes in bulk\n export Export connection folder to Yaml file\n import Import connection folder to config from Yaml file\n run Run scripts or commands on nodes\n config Manage app config\n api Start and stop connpy api\n ai Make request to an AI"
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if type == " bashcompletion" :
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return ' ' '
#Here starts bash completion for conn
_conn()
{
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mapfile -t strings < < (connpy-completion-helper " bash" " ${#COMP_WORDS[@]}" " ${COMP_WORDS[@]}" )
local IFS=$' \\t\\n'
COMPREPLY=($(compgen -W " $(printf ' %s' " ${strings[@]}" )" -- " ${COMP_WORDS[-1]}" ))
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}
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complete -o nospace -o nosort -F _conn conn
complete -o nospace -o nosort -F _conn connpy
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#Here ends bash completion for conn
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' ' '
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if type == " zshcompletion" :
return ' ' '
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#Here starts zsh completion for conn
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autoload -U compinit & & compinit
_conn()
{
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strings=($(connpy-completion-helper " zsh" ${#words} $words))
for string in " ${strings[@]}" ; do
if [[ " ${string}" =~ .*/$ ]]; then
# If the string ends with a ' /' , do not append a space
compadd -S ' ' -- " $string"
else
# If the string does not end with a ' /' , append a space
compadd -S ' ' -- " $string"
fi
done
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}
compdef _conn conn
compdef _conn connpy
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#Here ends zsh completion for conn
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' ' '
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if type == " run" :
return " node[@subfolder][@folder] commmand to run\nRun the specific command on the node and print output\n/path/to/file.yaml\nUse a yaml file to run an automation script"
if type == " generate" :
return ' ' ' ---
tasks:
- name: " Config"
action: ' run' #Action can be test or run. Mandatory
nodes: #List of nodes to work on. Mandatory
- ' router1@office' #You can add specific nodes
- ' @aws' #entire folders or subfolders
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- ' @office' : #or filter inside a folder or subfolder
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- ' router2'
- ' router7'
commands: #List of commands to send, use {name} to pass variables
- ' term len 0'
- ' conf t'
- ' interface {if}'
- ' ip address 10.100.100.{id} 255.255.255.255'
- ' {commit}'
- ' end'
variables: #Variables to use on commands and expected. Optional
__global__: #Global variables to use on all nodes, fallback if missing in the node.
commit: ' '
if: ' loopback100'
router1@office:
id: 1
router2@office:
id: 2
commit: ' commit'
router3@office:
id: 3
vrouter1@aws:
id: 4
vrouterN@aws:
id: 5
output: /home/user/logs #Type of output, if null you only get Connection and test result. Choices are: null,stdout,/path/to/folder. Folder path only works on ' run' action.
options:
prompt: r' > $|#$|\$$|> .$|#.$|\$.$' #Optional prompt to check on your devices, default should work on most devices.
parallel: 10 #Optional number of nodes to run commands on parallel. Default 10.
timeout: 20 #Optional time to wait in seconds for prompt, expected or EOF. Default 20.
- name: " TestConfig"
action: ' test'
nodes:
- ' router1@office'
- ' @aws'
- ' @office' :
- ' router2'
- ' router7'
commands:
- ' ping 10.100.100.{id}'
expected: ' !' #Expected text to find when running test action. Mandatory for ' test'
variables:
router1@office:
id: 1
router2@office:
id: 2
commit: ' commit'
router3@office:
id: 3
vrouter1@aws:
id: 4
vrouterN@aws:
id: 5
output: null
...' ' '
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def encrypt(self, password, keyfile=None):
' ' '
Encrypts password using RSA keyfile
### Parameters:
- password (str): Plaintext password to encrypt.
### Optional Parameters:
- keyfile (str): Path/file to keyfile. Default is config keyfile.
### Returns:
str: Encrypted password.
' ' '
if keyfile is None:
keyfile = self.config.key
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with open(keyfile) as f:
key = RSA.import_key(f.read())
f.close()
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publickey = key.publickey()
encryptor = PKCS1_OAEP.new(publickey)
password = encryptor.encrypt(password.encode(" utf-8" ))
return str(password)< / code > < / pre >
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< / details >
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< h3 > Methods< / h3 >
< dl >
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< dt id = "connpy.connapp.encrypt" > < code class = "name flex" >
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< span > def < span class = "ident" > encrypt< / span > < / span > (< span > self, password, keyfile=None)< / span >
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< / code > < / dt >
< dd >
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< div class = "desc" > < p > Encrypts password using RSA keyfile< / p >
< h3 id = "parameters" > Parameters:< / h3 >
< pre > < code > - password (str): Plaintext password to encrypt.
< / code > < / pre >
< h3 id = "optional-parameters" > Optional Parameters:< / h3 >
< pre > < code > - keyfile (str): Path/file to keyfile. Default is config keyfile.
< / code > < / pre >
< h3 id = "returns" > Returns:< / h3 >
< pre > < code > str: Encrypted password.
< / code > < / pre > < / div >
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< details class = "source" >
< summary >
< span > Expand source code< / span >
< / summary >
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< pre > < code class = "python" > def encrypt(self, password, keyfile=None):
' ' '
Encrypts password using RSA keyfile
### Parameters:
- password (str): Plaintext password to encrypt.
### Optional Parameters:
- keyfile (str): Path/file to keyfile. Default is config keyfile.
### Returns:
str: Encrypted password.
' ' '
if keyfile is None:
keyfile = self.config.key
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with open(keyfile) as f:
key = RSA.import_key(f.read())
f.close()
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publickey = key.publickey()
encryptor = PKCS1_OAEP.new(publickey)
password = encryptor.encrypt(password.encode(" utf-8" ))
return str(password)< / code > < / pre >
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< / details >
< / dd >
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< dt id = "connpy.connapp.start" > < code class = "name flex" >
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< span > def < span class = "ident" > start< / span > < / span > (< span > self, argv=['connpy', '--html', '-o', 'docs/', '-f'])< / span >
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< / code > < / dt >
< dd >
< div class = "desc" > < h3 id = "parameters" > Parameters:< / h3 >
< pre > < code > - argv (list): List of arguments to pass to the app.
Default: sys.argv[1:]
< / code > < / pre > < / div >
< details class = "source" >
< summary >
< span > Expand source code< / span >
< / summary >
< pre > < code class = "python" > def start(self,argv = sys.argv[1:]):
' ' '
### Parameters:
- argv (list): List of arguments to pass to the app.
Default: sys.argv[1:]
' ' '
#DEFAULTPARSER
defaultparser = argparse.ArgumentParser(prog = " conn" , description = " SSH and Telnet connection manager" , formatter_class=argparse.RawTextHelpFormatter)
subparsers = defaultparser.add_subparsers(title=" Commands" )
#NODEPARSER
nodeparser = subparsers.add_parser(" node" ,usage=self._help(" usage" ), help=self._help(" node" ),epilog=self._help(" end" ), formatter_class=argparse.RawTextHelpFormatter)
nodecrud = nodeparser.add_mutually_exclusive_group()
nodeparser.add_argument(" node" , metavar=" node|folder" , nargs=' ?' , default=None, action=self._store_type, type=self._type_node, help=self._help(" node" ))
nodecrud.add_argument(" -v" ," --version" , dest=" action" , action=" store_const" , help=" Show version" , const=" version" , default=" connect" )
nodecrud.add_argument(" -a" ," --add" , dest=" action" , action=" store_const" , help=" Add new node[@subfolder][@folder] or [@subfolder]@folder" , const=" add" , default=" connect" )
nodecrud.add_argument(" -r" ," --del" , " --rm" , dest=" action" , action=" store_const" , help=" Delete node[@subfolder][@folder] or [@subfolder]@folder" , const=" del" , default=" connect" )
nodecrud.add_argument(" -e" ," --mod" , " --edit" , dest=" action" , action=" store_const" , help=" Modify node[@subfolder][@folder]" , const=" mod" , default=" connect" )
nodecrud.add_argument(" -s" ," --show" , dest=" action" , action=" store_const" , help=" Show node[@subfolder][@folder]" , const=" show" , default=" connect" )
nodecrud.add_argument(" -d" ," --debug" , dest=" action" , action=" store_const" , help=" Display all conections steps" , const=" debug" , default=" connect" )
nodeparser.set_defaults(func=self._func_node)
#PROFILEPARSER
profileparser = subparsers.add_parser(" profile" , help=" Manage profiles" )
profileparser.add_argument(" profile" , nargs=1, action=self._store_type, type=self._type_profile, help=" Name of profile to manage" )
profilecrud = profileparser.add_mutually_exclusive_group(required=True)
profilecrud.add_argument(" -a" , " --add" , dest=" action" , action=" store_const" , help=" Add new profile" , const=" add" )
profilecrud.add_argument(" -r" , " --del" , " --rm" , dest=" action" , action=" store_const" , help=" Delete profile" , const=" del" )
profilecrud.add_argument(" -e" , " --mod" , " --edit" , dest=" action" , action=" store_const" , help=" Modify profile" , const=" mod" )
profilecrud.add_argument(" -s" , " --show" , dest=" action" , action=" store_const" , help=" Show profile" , const=" show" )
profileparser.set_defaults(func=self._func_profile)
#MOVEPARSER
moveparser = subparsers.add_parser(" move" , aliases=[" mv" ], help=" Move node" )
moveparser.add_argument(" move" , nargs=2, action=self._store_type, help=" Move node[@subfolder][@folder] dest_node[@subfolder][@folder]" , default=" move" , type=self._type_node)
moveparser.set_defaults(func=self._func_others)
#COPYPARSER
copyparser = subparsers.add_parser(" copy" , aliases=[" cp" ], help=" Copy node" )
copyparser.add_argument(" cp" , nargs=2, action=self._store_type, help=" Copy node[@subfolder][@folder] new_node[@subfolder][@folder]" , default=" cp" , type=self._type_node)
copyparser.set_defaults(func=self._func_others)
#LISTPARSER
lsparser = subparsers.add_parser(" list" , aliases=[" ls" ], help=" List profiles, nodes or folders" )
lsparser.add_argument(" ls" , action=self._store_type, choices=[" profiles" ," nodes" ," folders" ], help=" List profiles, nodes or folders" , default=False)
lsparser.set_defaults(func=self._func_others)
#BULKPARSER
bulkparser = subparsers.add_parser(" bulk" , help=" Add nodes in bulk" )
bulkparser.add_argument(" bulk" , const=" bulk" , nargs=0, action=self._store_type, help=" Add nodes in bulk" )
bulkparser.set_defaults(func=self._func_others)
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# EXPORTPARSER
exportparser = subparsers.add_parser(" export" , help=" Export connection folder to Yaml file" )
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exportparser.add_argument(" export" , nargs=" +" , action=self._store_type, help=" Export /path/to/file.yml [@subfolder1][@folder1] [@subfolderN][@folderN]" )
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exportparser.set_defaults(func=self._func_export)
# IMPORTPARSER
importparser = subparsers.add_parser(" import" , help=" Import connection folder to config from Yaml file" )
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importparser.add_argument(" file" , nargs=1, action=self._store_type, help=" Import /path/to/file.yml" )
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importparser.set_defaults(func=self._func_import)
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# AIPARSER
aiparser = subparsers.add_parser(" ai" , help=" Make request to an AI" )
aiparser.add_argument(" ask" , nargs=' *' , help=" Ask connpy AI something" )
aiparser.add_argument(" --model" , nargs=1, help=" Set the OPENAI model id" )
aiparser.add_argument(" --org" , nargs=1, help=" Set the OPENAI organization id" )
aiparser.add_argument(" --api_key" , nargs=1, help=" Set the OPENAI API key" )
aiparser.set_defaults(func=self._func_ai)
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#RUNPARSER
runparser = subparsers.add_parser(" run" , help=" Run scripts or commands on nodes" , formatter_class=argparse.RawTextHelpFormatter)
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runparser.add_argument(" run" , nargs=' +' , action=self._store_type, help=self._help(" run" ), default=" run" )
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runparser.add_argument(" -g" ," --generate" , dest=" action" , action=" store_const" , help=" Generate yaml file template" , const=" generate" , default=" run" )
runparser.set_defaults(func=self._func_run)
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#APIPARSER
apiparser = subparsers.add_parser(" api" , help=" Start and stop connpy api" )
apicrud = apiparser.add_mutually_exclusive_group(required=True)
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apicrud.add_argument(" -s" ," --start" , dest=" start" , nargs=" ?" , action=self._store_type, help=" Start conppy api" , type=int, default=8048, metavar=" PORT" )
apicrud.add_argument(" -r" ," --restart" , dest=" restart" , nargs=0, action=self._store_type, help=" Restart conppy api" )
apicrud.add_argument(" -x" ," --stop" , dest=" stop" , nargs=0, action=self._store_type, help=" Stop conppy api" )
apicrud.add_argument(" -d" , " --debug" , dest=" debug" , nargs=" ?" , action=self._store_type, help=" Run connpy server on debug mode" , type=int, default=8048, metavar=" PORT" )
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apiparser.set_defaults(func=self._func_api)
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#CONFIGPARSER
configparser = subparsers.add_parser(" config" , help=" Manage app config" )
configcrud = configparser.add_mutually_exclusive_group(required=True)
configcrud.add_argument(" --allow-uppercase" , dest=" case" , nargs=1, action=self._store_type, help=" Allow case sensitive names" , choices=[" true" ," false" ])
configcrud.add_argument(" --fzf" , dest=" fzf" , nargs=1, action=self._store_type, help=" Use fzf for lists" , choices=[" true" ," false" ])
configcrud.add_argument(" --keepalive" , dest=" idletime" , nargs=1, action=self._store_type, help=" Set keepalive time in seconds, 0 to disable" , type=int, metavar=" INT" )
configcrud.add_argument(" --completion" , dest=" completion" , nargs=1, choices=[" bash" ," zsh" ], action=self._store_type, help=" Get terminal completion configuration for conn" )
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configcrud.add_argument(" --configfolder" , dest=" configfolder" , nargs=1, action=self._store_type, help=" Set the default location for config file" , metavar=" FOLDER" )
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configcrud.add_argument(" --openai-org" , dest=" organization" , nargs=1, action=self._store_type, help=" Set openai organization" , metavar=" ORGANIZATION" )
configcrud.add_argument(" --openai-api-key" , dest=" api_key" , nargs=1, action=self._store_type, help=" Set openai api_key" , metavar=" API_KEY" )
configcrud.add_argument(" --openai-model" , dest=" model" , nargs=1, action=self._store_type, help=" Set openai model" , metavar=" MODEL" )
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configparser.set_defaults(func=self._func_others)
#Manage sys arguments
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commands = [" node" , " profile" , " mv" , " move" ," copy" , " cp" , " bulk" , " ls" , " list" , " run" , " config" , " api" , " ai" , " export" , " import" ]
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profilecmds = [" --add" , " -a" , " --del" , " --rm" , " -r" , " --mod" , " --edit" , " -e" , " --show" , " -s" ]
if len(argv) > = 2 and argv[1] == " profile" and argv[0] in profilecmds:
argv[1] = argv[0]
argv[0] = " profile"
if len(argv) < 1 or argv[0] not in commands:
argv.insert(0," node" )
args = defaultparser.parse_args(argv)
return args.func(args)< / code > < / pre >
< / details >
< / dd >
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< / dl >
< / dd >
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< dt id = "connpy.node" > < code class = "flex name class" >
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< span > class < span class = "ident" > node< / span > < / span >
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< span > (< / span > < span > unique, host, options='', logs='', password='', port='', protocol='', user='', config='', tags='')< / span >
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< / code > < / dt >
< dd >
< div class = "desc" > < p > This class generates a node object. Containts all the information and methods to connect and interact with a device using ssh or telnet.< / p >
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< h3 id = "attributes" > Attributes:< / h3 >
< pre > < code > - output (str): Output of the commands you ran with run or test
method.
- result(bool): True if expected value is found after running
the commands using test method.
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- status (int): 0 if the method run or test run succesfully.
1 if connection failed.
2 if expect timeouts without prompt or EOF.
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< / code > < / pre >
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< h3 id = "parameters" > Parameters:< / h3 >
< pre > < code > - unique (str): Unique name to assign to the node.
- host (str): IP address or hostname of the node.
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< / code > < / pre >
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< h3 id = "optional-parameters" > Optional Parameters:< / h3 >
< pre > < code > - options (str): Additional options to pass the ssh/telnet for
connection.
- logs (str): Path/file for storing the logs. You can use
${unique},${host}, ${port}, ${user}, ${protocol}
as variables.
- password (str): Encrypted or plaintext password.
- port (str): Port to connect to node, default 22 for ssh and 23
for telnet.
- protocol (str): Select ssh or telnet. Default is ssh.
- user (str): Username to of the node.
- config (obj): Pass the object created with class configfile with
key for decryption and extra configuration if you
are using connection manager.
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- tags (dict) : Tags useful for automation and personal porpuse
like "os", "prompt" and "screenleght_command"
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< / code > < / pre > < / div >
< details class = "source" >
< summary >
< span > Expand source code< / span >
< / summary >
< pre > < code class = "python" > class node:
' ' ' This class generates a node object. Containts all the information and methods to connect and interact with a device using ssh or telnet.
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### Attributes:
- output (str): Output of the commands you ran with run or test
method.
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- result(bool): True if expected value is found after running
the commands using test method.
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- status (int): 0 if the method run or test run succesfully.
1 if connection failed.
2 if expect timeouts without prompt or EOF.
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' ' '
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def __init__(self, unique, host, options=' ' , logs=' ' , password=' ' , port=' ' , protocol=' ' , user=' ' , config=' ' , tags=' ' ):
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' ' '
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### Parameters:
- unique (str): Unique name to assign to the node.
- host (str): IP address or hostname of the node.
### Optional Parameters:
- options (str): Additional options to pass the ssh/telnet for
connection.
- logs (str): Path/file for storing the logs. You can use
${unique},${host}, ${port}, ${user}, ${protocol}
as variables.
- password (str): Encrypted or plaintext password.
- port (str): Port to connect to node, default 22 for ssh and 23
for telnet.
- protocol (str): Select ssh or telnet. Default is ssh.
- user (str): Username to of the node.
- config (obj): Pass the object created with class configfile with
key for decryption and extra configuration if you
are using connection manager.
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- tags (dict) : Tags useful for automation and personal porpuse
like " os" , " prompt" and " screenleght_command"
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' ' '
if config == ' ' :
self.idletime = 0
self.key = None
else:
self.idletime = config.config[" idletime" ]
self.key = config.key
self.unique = unique
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attr = {" host" : host, " logs" : logs, " options" :options, " port" : port, " protocol" : protocol, " user" : user, " tags" : tags}
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for key in attr:
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profile = re.search(" ^@(.*)" , str(attr[key]))
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if profile and config != ' ' :
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try:
setattr(self,key,config.profiles[profile.group(1)][key])
except:
setattr(self,key," " )
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elif attr[key] == ' ' and key == " protocol" :
try:
setattr(self,key,config.profiles[" default" ][key])
except:
setattr(self,key," ssh" )
else:
setattr(self,key,attr[key])
if isinstance(password,list):
self.password = []
for i, s in enumerate(password):
profile = re.search(" ^@(.*)" , password[i])
if profile and config != ' ' :
self.password.append(config.profiles[profile.group(1)][" password" ])
else:
self.password = [password]
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def _passtx(self, passwords, *, keyfile=None):
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# decrypts passwords, used by other methdos.
dpass = []
if keyfile is None:
keyfile = self.key
if keyfile is not None:
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with open(keyfile) as f:
key = RSA.import_key(f.read())
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decryptor = PKCS1_OAEP.new(key)
for passwd in passwords:
if not re.match(' ^b[\" \' ].+[\" \' ]$' , passwd):
dpass.append(passwd)
else:
try:
decrypted = decryptor.decrypt(ast.literal_eval(passwd)).decode(" utf-8" )
dpass.append(decrypted)
except:
raise ValueError(" Missing or corrupted key" )
return dpass
def _logfile(self, logfile = None):
# translate logs variables and generate logs path.
if logfile == None:
logfile = self.logs
logfile = logfile.replace(" ${unique}" , self.unique)
logfile = logfile.replace(" ${host}" , self.host)
logfile = logfile.replace(" ${port}" , self.port)
logfile = logfile.replace(" ${user}" , self.user)
logfile = logfile.replace(" ${protocol}" , self.protocol)
now = datetime.datetime.now()
dateconf = re.search(r' \$\{date \' (.*)\' }' , logfile)
if dateconf:
logfile = re.sub(r' \$\{date (.*)}' ,now.strftime(dateconf.group(1)), logfile)
return logfile
def _logclean(self, logfile, var = False):
#Remove special ascii characters and other stuff from logfile.
if var == False:
t = open(logfile, " r" ).read()
else:
t = logfile
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while t.find(" \b" ) != -1:
t = re.sub(' [^\b]\b' , ' ' , t)
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t = t.replace(" \n" ," " ,1)
t = t.replace(" \a" ," " )
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t = t.replace(' \n\n' , ' \n' )
t = re.sub(r' .\[K' , ' ' , t)
ansi_escape = re.compile(r' \x1B(?:[@-Z\\-_]|\[[0-?]*[ -/ ]*[@-~])' )
t = ansi_escape.sub(' ' , t)
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t = t.lstrip(" \n\r" )
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t = t.replace(" \r" ," " )
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t = t.replace(" \x0E" ," " )
t = t.replace(" \x0F" ," " )
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if var == False:
d = open(logfile, " w" )
d.write(t)
d.close()
return
else:
return t
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def _filter(self, a):
#Set time for last input when using interact
self.lastinput = time()
return a
def _keepalive(self):
#Send keepalive ctrl+e when idletime passed without new inputs on interact
self.lastinput = time()
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t = threading.current_thread()
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while True:
if time() - self.lastinput > = self.idletime:
self.child.sendcontrol(" e" )
self.lastinput = time()
sleep(1)
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def interact(self, debug = False):
' ' '
Allow user to interact with the node directly, mostly used by connection manager.
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### Optional Parameters:
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- debug (bool): If True, display all the connecting information
before interact. Default False.
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' ' '
connect = self._connect(debug = debug)
if connect == True:
size = re.search(' columns=([0-9]+).*lines=([0-9]+)' ,str(os.get_terminal_size()))
self.child.setwinsize(int(size.group(2)),int(size.group(1)))
print(" Connected to " + self.unique + " at " + self.host + (" :" if self.port != ' ' else ' ' ) + self.port + " via: " + self.protocol)
if ' logfile' in dir(self):
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if not ' mylog' in dir(self):
self.mylog = io.BytesIO()
self.child.logfile_read = self.mylog
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if ' missingtext' in dir(self):
print(self.child.after.decode(), end=' ' )
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if self.idletime > 0:
x = threading.Thread(target=self._keepalive)
x.daemon = True
x.start()
if debug:
print(self.mylog.getvalue().decode())
self.child.interact(input_filter=self._filter)
if " logfile" in dir(self):
output = self._logclean(self.mylog.getvalue().decode(), True)
with open(self.logfile, " w" ) as f:
f.write(output)
f.close()
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else:
print(connect)
exit(1)
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def run(self, commands, vars = None,*, folder = ' ' , prompt = r' > $|#$|\$$|> .$|#.$|\$.$' , stdout = False, timeout = 10):
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' ' '
Run a command or list of commands on the node and return the output.
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### Parameters:
- commands (str/list): Commands to run on the node. Should be
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str or a list of str. You can use variables
as {varname} and defining them in optional
parameter vars.
### Optional Parameters:
- vars (dict): Dictionary containing the definition of variables
used in commands parameter.
Keys: Variable names.
Values: strings.
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### Optional Named Parameters:
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- folder (str): Path where output log should be stored, leave
empty to disable logging.
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- prompt (str): Prompt to be expected after a command is finished
running. Usually linux uses " > " or EOF while
routers use " > " or " #" . The default value should
work for most nodes. Change it if your connection
need some special symbol.
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- stdout (bool):Set True to send the command output to stdout.
default False.
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- timeout (int):Time in seconds for expect to wait for prompt/EOF.
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default 10.
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### Returns:
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str: Output of the commands you ran on the node.
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' ' '
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connect = self._connect(timeout = timeout)
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now = datetime.datetime.now().strftime(' %Y-%m-%d_%H%M%S' )
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if connect == True:
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if " prompt" in self.tags:
prompt = self.tags[" prompt" ]
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expects = [prompt, pexpect.EOF, pexpect.TIMEOUT]
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output = ' '
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status = ' '
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if not isinstance(commands, list):
commands = [commands]
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if " screen_length_command" in self.tags:
commands.insert(0, self.tags[" screen_length_command" ])
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self.mylog = io.BytesIO()
self.child.logfile_read = self.mylog
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for c in commands:
if vars is not None:
c = c.format(**vars)
result = self.child.expect(expects, timeout = timeout)
self.child.sendline(c)
if result == 2:
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break
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if not result == 2:
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result = self.child.expect(expects, timeout = timeout)
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self.child.close()
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output = self._logclean(self.mylog.getvalue().decode(), True)
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if stdout == True:
print(output)
if folder != ' ' :
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with open(folder + " /" + self.unique + " _" + now + " .txt" , " w" ) as f:
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f.write(output)
f.close()
self.output = output
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if result == 2:
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self.status = 2
else:
self.status = 0
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return output
else:
self.output = connect
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self.status = 1
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if stdout == True:
print(connect)
if folder != ' ' :
with open(folder + " /" + self.unique + " _" + now + " .txt" , " w" ) as f:
f.write(connect)
f.close()
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return connect
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def test(self, commands, expected, vars = None,*, prompt = r' > $|#$|\$$|> .$|#.$|\$.$' , timeout = 10):
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' ' '
Run a command or list of commands on the node, then check if expected value appears on the output after the last command.
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### Parameters:
- commands (str/list): Commands to run on the node. Should be
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str or a list of str. You can use variables
as {varname} and defining them in optional
parameter vars.
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- expected (str) : Expected text to appear after running
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all the commands on the node.You can use
variables as {varname} and defining them
in optional parameter vars.
### Optional Parameters:
- vars (dict): Dictionary containing the definition of variables
used in commands and expected parameters.
Keys: Variable names.
Values: strings.
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### Optional Named Parameters:
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- prompt (str): Prompt to be expected after a command is finished
running. Usually linux uses " > " or EOF while
routers use " > " or " #" . The default value should
work for most nodes. Change it if your connection
need some special symbol.
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- timeout (int):Time in seconds for expect to wait for prompt/EOF.
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default 10.
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### Returns:
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bool: true if expected value is found after running the commands
false if prompt is found before.
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' ' '
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connect = self._connect(timeout = timeout)
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if connect == True:
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if " prompt" in self.tags:
prompt = self.tags[" prompt" ]
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expects = [prompt, pexpect.EOF, pexpect.TIMEOUT]
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output = ' '
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if not isinstance(commands, list):
commands = [commands]
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if not isinstance(expected, list):
expected = [expected]
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if " screen_length_command" in self.tags:
commands.insert(0, self.tags[" screen_length_command" ])
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self.mylog = io.BytesIO()
self.child.logfile_read = self.mylog
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for c in commands:
if vars is not None:
c = c.format(**vars)
result = self.child.expect(expects, timeout = timeout)
self.child.sendline(c)
if result == 2:
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break
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if not result == 2:
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result = self.child.expect(expects, timeout = timeout)
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self.child.close()
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output = self._logclean(self.mylog.getvalue().decode(), True)
self.output = output
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if result in [0, 1]:
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# lastcommand = commands[-1]
# if vars is not None:
# lastcommand = lastcommand.format(**vars)
# last_command_index = output.rfind(lastcommand)
# cleaned_output = output[last_command_index + len(lastcommand):].strip()
self.result = {}
for e in expected:
if vars is not None:
e = e.format(**vars)
updatedprompt = re.sub(r' (?< !\\)\$' , ' ' , prompt)
newpattern = f" .*({updatedprompt}).*{e}.*"
cleaned_output = output
cleaned_output = re.sub(newpattern, ' ' , cleaned_output)
if e in cleaned_output:
self.result[e] = True
else:
self.result[e]= False
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self.status = 0
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return self.result
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if result == 2:
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self.result = None
self.status = 2
return output
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else:
self.result = None
self.output = connect
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self.status = 1
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return connect
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def _connect(self, debug = False, timeout = 10, max_attempts = 3):
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# Method to connect to the node, it parse all the information, create the ssh/telnet command and login to the node.
if self.protocol == " ssh" :
cmd = " ssh"
if self.idletime > 0:
cmd = cmd + " -o ServerAliveInterval=" + str(self.idletime)
if self.user == ' ' :
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cmd = cmd + " {}" .format(self.host)
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else:
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cmd = cmd + " {}" .format(" @" .join([self.user,self.host]))
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if self.port != ' ' :
cmd = cmd + " -p " + self.port
if self.options != ' ' :
cmd = cmd + " " + self.options
if self.logs != ' ' :
self.logfile = self._logfile()
if self.password[0] != ' ' :
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passwords = self._passtx(self.password)
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else:
passwords = []
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expects = [' yes/no' , ' refused' , ' supported' , ' cipher' , ' ssh-keygen.*\" ' , ' timeout' , ' unavailable' , ' closed' , ' [p|P]assword:|[u|U]sername:' , r' > $|#$|\$$|> .$|#.$|\$.$' , ' suspend' , pexpect.EOF, pexpect.TIMEOUT, " No route to host" , " resolve hostname" , " no matching" ]
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elif self.protocol == " telnet" :
cmd = " telnet " + self.host
if self.port != ' ' :
cmd = cmd + " " + self.port
if self.options != ' ' :
cmd = cmd + " " + self.options
if self.logs != ' ' :
self.logfile = self._logfile()
if self.password[0] != ' ' :
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passwords = self._passtx(self.password)
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else:
passwords = []
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expects = [' [u|U]sername:' , ' refused' , ' supported' , ' cipher' , ' ssh-keygen.*\" ' , ' timeout' , ' unavailable' , ' closed' , ' [p|P]assword:' , r' > $|#$|\$$|> .$|#.$|\$.$' , ' suspend' , pexpect.EOF, pexpect.TIMEOUT, " No route to host" , " resolve hostname" , " no matching" ]
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else:
raise ValueError(" Invalid protocol: " + self.protocol)
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attempts = 1
while attempts < = max_attempts:
child = pexpect.spawn(cmd)
if debug:
print(cmd)
self.mylog = io.BytesIO()
child.logfile_read = self.mylog
if len(passwords) > 0:
loops = len(passwords)
else:
loops = 1
endloop = False
for i in range(0, loops):
while True:
results = child.expect(expects, timeout=timeout)
if results == 0:
if self.protocol == " ssh" :
child.sendline(' yes' )
elif self.protocol == " telnet" :
if self.user != ' ' :
child.sendline(self.user)
else:
self.missingtext = True
break
if results == 4:
child.terminate()
return " Connection failed code:" + str(results) + " \n" + child.after.decode()
if results in [1, 2, 3, 4, 5, 6, 7, 12, 13, 14, 15]:
child.terminate()
if results == 12 and attempts != max_attempts:
attempts += 1
endloop = True
break
else:
return " Connection failed code:" + str(results)
if results == 8:
if len(passwords) > 0:
child.sendline(passwords[i])
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else:
self.missingtext = True
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break
if results in [9, 11]:
endloop = True
child.sendline()
break
if results == 10:
child.sendline(" \r" )
sleep(2)
if endloop:
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break
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if results == 12:
continue
else:
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break
child.readline(0)
self.child = child
return True< / code > < / pre >
< / details >
< h3 > Methods< / h3 >
< dl >
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< dt id = "connpy.node.interact" > < code class = "name flex" >
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< span > def < span class = "ident" > interact< / span > < / span > (< span > self, debug=False)< / span >
< / code > < / dt >
< dd >
< div class = "desc" > < p > Allow user to interact with the node directly, mostly used by connection manager.< / p >
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< h3 id = "optional-parameters" > Optional Parameters:< / h3 >
< pre > < code > - debug (bool): If True, display all the connecting information
before interact. Default False.
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< / code > < / pre > < / div >
< details class = "source" >
< summary >
< span > Expand source code< / span >
< / summary >
< pre > < code class = "python" > def interact(self, debug = False):
' ' '
Allow user to interact with the node directly, mostly used by connection manager.
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### Optional Parameters:
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2022-04-03 10:26:08 -03:00
- debug (bool): If True, display all the connecting information
before interact. Default False.
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' ' '
connect = self._connect(debug = debug)
if connect == True:
size = re.search(' columns=([0-9]+).*lines=([0-9]+)' ,str(os.get_terminal_size()))
self.child.setwinsize(int(size.group(2)),int(size.group(1)))
print(" Connected to " + self.unique + " at " + self.host + (" :" if self.port != ' ' else ' ' ) + self.port + " via: " + self.protocol)
if ' logfile' in dir(self):
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if not ' mylog' in dir(self):
self.mylog = io.BytesIO()
self.child.logfile_read = self.mylog
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if ' missingtext' in dir(self):
print(self.child.after.decode(), end=' ' )
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if self.idletime > 0:
x = threading.Thread(target=self._keepalive)
x.daemon = True
x.start()
if debug:
print(self.mylog.getvalue().decode())
self.child.interact(input_filter=self._filter)
if " logfile" in dir(self):
output = self._logclean(self.mylog.getvalue().decode(), True)
with open(self.logfile, " w" ) as f:
f.write(output)
f.close()
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else:
print(connect)
exit(1)< / code > < / pre >
< / details >
< / dd >
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< dt id = "connpy.node.run" > < code class = "name flex" >
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< span > def < span class = "ident" > run< / span > < / span > (< span > self, commands, vars=None, *, folder='', prompt=' > $|#$|\\$$|> .$|#.$|\\$.$' , stdout=False, timeout=10)< / span >
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< / code > < / dt >
< dd >
< div class = "desc" > < p > Run a command or list of commands on the node and return the output.< / p >
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< h3 id = "parameters" > Parameters:< / h3 >
< pre > < code > - commands (str/list): Commands to run on the node. Should be
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str or a list of str. You can use variables
as {varname} and defining them in optional
parameter vars.
< / code > < / pre >
< h3 id = "optional-parameters" > Optional Parameters:< / h3 >
< pre > < code > - vars (dict): Dictionary containing the definition of variables
used in commands parameter.
Keys: Variable names.
Values: strings.
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< / code > < / pre >
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< h3 id = "optional-named-parameters" > Optional Named Parameters:< / h3 >
< pre > < code > - folder (str): Path where output log should be stored, leave
empty to disable logging.
- prompt (str): Prompt to be expected after a command is finished
running. Usually linux uses "> " or EOF while
routers use "> " or "#". The default value should
work for most nodes. Change it if your connection
need some special symbol.
- stdout (bool):Set True to send the command output to stdout.
default False.
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- timeout (int):Time in seconds for expect to wait for prompt/EOF.
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default 10.
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< / code > < / pre >
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< h3 id = "returns" > Returns:< / h3 >
< pre > < code > str: Output of the commands you ran on the node.
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< / code > < / pre > < / div >
< details class = "source" >
< summary >
< span > Expand source code< / span >
< / summary >
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< pre > < code class = "python" > def run(self, commands, vars = None,*, folder = ' ' , prompt = r' > $|#$|\$$|> .$|#.$|\$.$' , stdout = False, timeout = 10):
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' ' '
Run a command or list of commands on the node and return the output.
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### Parameters:
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2022-04-03 10:26:08 -03:00
- commands (str/list): Commands to run on the node. Should be
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str or a list of str. You can use variables
as {varname} and defining them in optional
parameter vars.
### Optional Parameters:
- vars (dict): Dictionary containing the definition of variables
used in commands parameter.
Keys: Variable names.
Values: strings.
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### Optional Named Parameters:
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- folder (str): Path where output log should be stored, leave
empty to disable logging.
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- prompt (str): Prompt to be expected after a command is finished
running. Usually linux uses " > " or EOF while
routers use " > " or " #" . The default value should
work for most nodes. Change it if your connection
need some special symbol.
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- stdout (bool):Set True to send the command output to stdout.
default False.
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- timeout (int):Time in seconds for expect to wait for prompt/EOF.
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default 10.
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### Returns:
str: Output of the commands you ran on the node.
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' ' '
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connect = self._connect(timeout = timeout)
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now = datetime.datetime.now().strftime(' %Y-%m-%d_%H%M%S' )
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if connect == True:
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if " prompt" in self.tags:
prompt = self.tags[" prompt" ]
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expects = [prompt, pexpect.EOF, pexpect.TIMEOUT]
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output = ' '
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status = ' '
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if not isinstance(commands, list):
commands = [commands]
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if " screen_length_command" in self.tags:
commands.insert(0, self.tags[" screen_length_command" ])
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self.mylog = io.BytesIO()
self.child.logfile_read = self.mylog
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for c in commands:
if vars is not None:
c = c.format(**vars)
result = self.child.expect(expects, timeout = timeout)
self.child.sendline(c)
if result == 2:
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break
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if not result == 2:
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result = self.child.expect(expects, timeout = timeout)
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self.child.close()
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output = self._logclean(self.mylog.getvalue().decode(), True)
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if stdout == True:
print(output)
if folder != ' ' :
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with open(folder + " /" + self.unique + " _" + now + " .txt" , " w" ) as f:
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f.write(output)
f.close()
self.output = output
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if result == 2:
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self.status = 2
else:
self.status = 0
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return output
else:
self.output = connect
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self.status = 1
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if stdout == True:
print(connect)
if folder != ' ' :
with open(folder + " /" + self.unique + " _" + now + " .txt" , " w" ) as f:
f.write(connect)
f.close()
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return connect< / code > < / pre >
< / details >
< / dd >
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< dt id = "connpy.node.test" > < code class = "name flex" >
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< span > def < span class = "ident" > test< / span > < / span > (< span > self, commands, expected, vars=None, *, prompt=' > $|#$|\\$$|> .$|#.$|\\$.$' , timeout=10)< / span >
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< / code > < / dt >
< dd >
< div class = "desc" > < p > Run a command or list of commands on the node, then check if expected value appears on the output after the last command.< / p >
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< h3 id = "parameters" > Parameters:< / h3 >
< pre > < code > - commands (str/list): Commands to run on the node. Should be
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str or a list of str. You can use variables
as {varname} and defining them in optional
parameter vars.
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- expected (str) : Expected text to appear after running
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all the commands on the node.You can use
variables as {varname} and defining them
in optional parameter vars.
< / code > < / pre >
< h3 id = "optional-parameters" > Optional Parameters:< / h3 >
< pre > < code > - vars (dict): Dictionary containing the definition of variables
used in commands and expected parameters.
Keys: Variable names.
Values: strings.
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< / code > < / pre >
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< h3 id = "optional-named-parameters" > Optional Named Parameters:< / h3 >
< pre > < code > - prompt (str): Prompt to be expected after a command is finished
running. Usually linux uses "> " or EOF while
routers use "> " or "#". The default value should
work for most nodes. Change it if your connection
need some special symbol.
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- timeout (int):Time in seconds for expect to wait for prompt/EOF.
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default 10.
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< / code > < / pre >
< h3 id = "returns" > Returns:< / h3 >
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< pre > < code > bool: true if expected value is found after running the commands
false if prompt is found before.
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< / code > < / pre > < / div >
< details class = "source" >
< summary >
< span > Expand source code< / span >
< / summary >
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< pre > < code class = "python" > def test(self, commands, expected, vars = None,*, prompt = r' > $|#$|\$$|> .$|#.$|\$.$' , timeout = 10):
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' ' '
Run a command or list of commands on the node, then check if expected value appears on the output after the last command.
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### Parameters:
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2022-04-03 10:26:08 -03:00
- commands (str/list): Commands to run on the node. Should be
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str or a list of str. You can use variables
as {varname} and defining them in optional
parameter vars.
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2022-04-03 10:26:08 -03:00
- expected (str) : Expected text to appear after running
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all the commands on the node.You can use
variables as {varname} and defining them
in optional parameter vars.
### Optional Parameters:
- vars (dict): Dictionary containing the definition of variables
used in commands and expected parameters.
Keys: Variable names.
Values: strings.
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### Optional Named Parameters:
- prompt (str): Prompt to be expected after a command is finished
running. Usually linux uses " > " or EOF while
routers use " > " or " #" . The default value should
work for most nodes. Change it if your connection
need some special symbol.
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- timeout (int):Time in seconds for expect to wait for prompt/EOF.
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default 10.
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### Returns:
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bool: true if expected value is found after running the commands
false if prompt is found before.
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' ' '
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connect = self._connect(timeout = timeout)
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if connect == True:
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if " prompt" in self.tags:
prompt = self.tags[" prompt" ]
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expects = [prompt, pexpect.EOF, pexpect.TIMEOUT]
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output = ' '
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if not isinstance(commands, list):
commands = [commands]
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if not isinstance(expected, list):
expected = [expected]
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if " screen_length_command" in self.tags:
commands.insert(0, self.tags[" screen_length_command" ])
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self.mylog = io.BytesIO()
self.child.logfile_read = self.mylog
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for c in commands:
if vars is not None:
c = c.format(**vars)
result = self.child.expect(expects, timeout = timeout)
self.child.sendline(c)
if result == 2:
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break
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if not result == 2:
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result = self.child.expect(expects, timeout = timeout)
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self.child.close()
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output = self._logclean(self.mylog.getvalue().decode(), True)
self.output = output
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if result in [0, 1]:
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# lastcommand = commands[-1]
# if vars is not None:
# lastcommand = lastcommand.format(**vars)
# last_command_index = output.rfind(lastcommand)
# cleaned_output = output[last_command_index + len(lastcommand):].strip()
self.result = {}
for e in expected:
if vars is not None:
e = e.format(**vars)
updatedprompt = re.sub(r' (?< !\\)\$' , ' ' , prompt)
newpattern = f" .*({updatedprompt}).*{e}.*"
cleaned_output = output
cleaned_output = re.sub(newpattern, ' ' , cleaned_output)
if e in cleaned_output:
self.result[e] = True
else:
self.result[e]= False
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self.status = 0
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return self.result
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if result == 2:
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self.result = None
self.status = 2
return output
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else:
self.result = None
self.output = connect
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self.status = 1
2022-04-03 09:38:00 -03:00
return connect< / code > < / pre >
< / details >
< / dd >
< / dl >
< / dd >
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< dt id = "connpy.nodes" > < code class = "flex name class" >
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< span > class < span class = "ident" > nodes< / span > < / span >
< span > (< / span > < span > nodes: < / span >
< / code > < / dt >
< dd >
< div class = "desc" > < p > This class generates a nodes object. Contains a list of node class objects and methods to run multiple tasks on nodes simultaneously.< / p >
< h3 id = "attributes" > Attributes:< / h3 >
< pre > < code > - nodelist (list): List of node class objects passed to the init
function.
- output (dict): Dictionary formed by nodes unique as keys,
output of the commands you ran on the node as
value. Created after running methods run or test.
- result (dict): Dictionary formed by nodes unique as keys, value
is True if expected value is found after running
the commands, False if prompt is found before.
Created after running method test.
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- status (dict): Dictionary formed by nodes unique as keys, value:
0 if method run or test ended succesfully.
1 if connection failed.
2 if expect timeouts without prompt or EOF.
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- < unique> (obj): For each item in nodelist, there is an attribute
generated with the node unique.
< / code > < / pre >
< h3 id = "parameters" > Parameters:< / h3 >
< pre > < code > - nodes (dict): Dictionary formed by node information:
Keys: Unique name for each node.
Mandatory Subkeys: host(str).
Optional Subkeys: options(str), logs(str), password(str),
port(str), protocol(str), user(str).
For reference on subkeys check node class.
< / code > < / pre >
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< h3 id = "optional-parameters" > Optional Parameters:< / h3 >
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< pre > < code > - config (obj): Pass the object created with class configfile with key
for decryption and extra configuration if you are using
connection manager.
< / code > < / pre > < / div >
< details class = "source" >
< summary >
< span > Expand source code< / span >
< / summary >
< pre > < code class = "python" > class nodes:
' ' ' This class generates a nodes object. Contains a list of node class objects and methods to run multiple tasks on nodes simultaneously.
### Attributes:
- nodelist (list): List of node class objects passed to the init
function.
- output (dict): Dictionary formed by nodes unique as keys,
output of the commands you ran on the node as
value. Created after running methods run or test.
- result (dict): Dictionary formed by nodes unique as keys, value
is True if expected value is found after running
the commands, False if prompt is found before.
Created after running method test.
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- status (dict): Dictionary formed by nodes unique as keys, value:
0 if method run or test ended succesfully.
1 if connection failed.
2 if expect timeouts without prompt or EOF.
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- < unique> (obj): For each item in nodelist, there is an attribute
generated with the node unique.
' ' '
def __init__(self, nodes: dict, config = ' ' ):
' ' '
### Parameters:
- nodes (dict): Dictionary formed by node information:
Keys: Unique name for each node.
Mandatory Subkeys: host(str).
Optional Subkeys: options(str), logs(str), password(str),
port(str), protocol(str), user(str).
For reference on subkeys check node class.
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### Optional Parameters:
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- config (obj): Pass the object created with class configfile with key
for decryption and extra configuration if you are using
connection manager.
' ' '
self.nodelist = []
self.config = config
for n in nodes:
this = node(n, **nodes[n], config = config)
self.nodelist.append(this)
setattr(self,n,this)
def _splitlist(self, lst, n):
#split a list in lists of n members.
for i in range(0, len(lst), n):
yield lst[i:i + n]
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def run(self, commands, vars = None,*, folder = None, prompt = None, stdout = None, parallel = 10, timeout = None):
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' ' '
Run a command or list of commands on all the nodes in nodelist.
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### Parameters:
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- commands (str/list): Commands to run on the nodes. Should be str or
list of str. You can use variables as {varname}
and defining them in optional parameter vars.
### Optional Parameters:
- vars (dict): Dictionary containing the definition of variables for
each node, used in commands parameter.
Keys should be formed by nodes unique names. Use
special key name __global__ for global variables.
Subkeys: Variable names.
Values: strings.
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### Optional Named Parameters:
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- folder (str): Path where output log should be stored, leave empty
to disable logging.
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- prompt (str): Prompt to be expected after a command is finished
running. Usually linux uses " > " or EOF while routers
use " > " or " #" . The default value should work for
most nodes. Change it if your connection need some
special symbol.
2022-04-03 09:38:00 -03:00
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- stdout (bool): Set True to send the command output to stdout.
Default False.
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- parallel (int): Number of nodes to run the commands simultaneously.
Default is 10, if there are more nodes that this
value, nodes are groups in groups with max this
number of members.
- timeout (int): Time in seconds for expect to wait for prompt/EOF.
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default 10.
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###Returns:
dict: Dictionary formed by nodes unique as keys, Output of the
commands you ran on the node as value.
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' ' '
args = {}
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nodesargs = {}
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args[" commands" ] = commands
if folder != None:
args[" folder" ] = folder
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Path(folder).mkdir(parents=True, exist_ok=True)
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if prompt != None:
args[" prompt" ] = prompt
if stdout != None:
args[" stdout" ] = stdout
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if timeout != None:
args[" timeout" ] = timeout
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output = {}
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status = {}
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tasks = []
for n in self.nodelist:
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nodesargs[n.unique] = deepcopy(args)
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if vars != None:
nodesargs[n.unique][" vars" ] = {}
if " __global__" in vars.keys():
nodesargs[n.unique][" vars" ].update(vars[" __global__" ])
if n.unique in vars.keys():
nodesargs[n.unique][" vars" ].update(vars[n.unique])
tasks.append(threading.Thread(target=n.run, kwargs=nodesargs[n.unique]))
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taskslist = list(self._splitlist(tasks, parallel))
for t in taskslist:
for i in t:
i.start()
for i in t:
i.join()
for i in self.nodelist:
output[i.unique] = i.output
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status[i.unique] = i.status
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self.output = output
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self.status = status
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return output
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def test(self, commands, expected, vars = None,*, prompt = None, parallel = 10, timeout = None):
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' ' '
Run a command or list of commands on all the nodes in nodelist, then check if expected value appears on the output after the last command.
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### Parameters:
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- commands (str/list): Commands to run on the node. Should be str or
list of str.
- expected (str) : Expected text to appear after running all the
commands on the node.
### Optional Parameters:
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- vars (dict): Dictionary containing the definition of variables for
each node, used in commands and expected parameters.
Keys should be formed by nodes unique names. Use
special key name __global__ for global variables.
Subkeys: Variable names.
Values: strings.
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### Optional Named Parameters:
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- prompt (str): Prompt to be expected after a command is finished
running. Usually linux uses " > " or EOF while
routers use " > " or " #" . The default value should
work for most nodes. Change it if your connection
need some special symbol.
- parallel (int): Number of nodes to run the commands simultaneously.
Default is 10, if there are more nodes that this
value, nodes are groups in groups with max this
number of members.
- timeout (int): Time in seconds for expect to wait for prompt/EOF.
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default 10.
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### Returns:
dict: Dictionary formed by nodes unique as keys, value is True if
expected value is found after running the commands, False
if prompt is found before.
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' ' '
args = {}
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nodesargs = {}
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args[" commands" ] = commands
args[" expected" ] = expected
if prompt != None:
args[" prompt" ] = prompt
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if timeout != None:
args[" timeout" ] = timeout
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output = {}
result = {}
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status = {}
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tasks = []
for n in self.nodelist:
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nodesargs[n.unique] = deepcopy(args)
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if vars != None:
nodesargs[n.unique][" vars" ] = {}
if " __global__" in vars.keys():
nodesargs[n.unique][" vars" ].update(vars[" __global__" ])
if n.unique in vars.keys():
nodesargs[n.unique][" vars" ].update(vars[n.unique])
tasks.append(threading.Thread(target=n.test, kwargs=nodesargs[n.unique]))
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taskslist = list(self._splitlist(tasks, parallel))
for t in taskslist:
for i in t:
i.start()
for i in t:
i.join()
for i in self.nodelist:
result[i.unique] = i.result
output[i.unique] = i.output
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status[i.unique] = i.status
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self.output = output
self.result = result
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self.status = status
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return result< / code > < / pre >
< / details >
< h3 > Methods< / h3 >
< dl >
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< dt id = "connpy.nodes.run" > < code class = "name flex" >
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< span > def < span class = "ident" > run< / span > < / span > (< span > self, commands, vars=None, *, folder=None, prompt=None, stdout=None, parallel=10, timeout=None)< / span >
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< / code > < / dt >
< dd >
< div class = "desc" > < p > Run a command or list of commands on all the nodes in nodelist.< / p >
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< h3 id = "parameters" > Parameters:< / h3 >
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< pre > < code > - commands (str/list): Commands to run on the nodes. Should be str or
list of str. You can use variables as {varname}
and defining them in optional parameter vars.
< / code > < / pre >
< h3 id = "optional-parameters" > Optional Parameters:< / h3 >
< pre > < code > - vars (dict): Dictionary containing the definition of variables for
each node, used in commands parameter.
Keys should be formed by nodes unique names. Use
special key name __global__ for global variables.
Subkeys: Variable names.
Values: strings.
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< / code > < / pre >
< h3 id = "optional-named-parameters" > Optional Named Parameters:< / h3 >
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< pre > < code > - folder (str): Path where output log should be stored, leave empty
to disable logging.
- prompt (str): Prompt to be expected after a command is finished
running. Usually linux uses "> " or EOF while routers
use "> " or "#". The default value should work for
most nodes. Change it if your connection need some
special symbol.
- stdout (bool): Set True to send the command output to stdout.
Default False.
- parallel (int): Number of nodes to run the commands simultaneously.
Default is 10, if there are more nodes that this
value, nodes are groups in groups with max this
number of members.
- timeout (int): Time in seconds for expect to wait for prompt/EOF.
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default 10.
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< / code > < / pre >
< h3 id = "returns" > Returns:< / h3 >
< pre > < code > dict: Dictionary formed by nodes unique as keys, Output of the
commands you ran on the node as value.
< / code > < / pre > < / div >
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< details class = "source" >
< summary >
< span > Expand source code< / span >
< / summary >
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< pre > < code class = "python" > def run(self, commands, vars = None,*, folder = None, prompt = None, stdout = None, parallel = 10, timeout = None):
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' ' '
Run a command or list of commands on all the nodes in nodelist.
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### Parameters:
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- commands (str/list): Commands to run on the nodes. Should be str or
list of str. You can use variables as {varname}
and defining them in optional parameter vars.
### Optional Parameters:
- vars (dict): Dictionary containing the definition of variables for
each node, used in commands parameter.
Keys should be formed by nodes unique names. Use
special key name __global__ for global variables.
Subkeys: Variable names.
Values: strings.
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### Optional Named Parameters:
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- folder (str): Path where output log should be stored, leave empty
to disable logging.
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- prompt (str): Prompt to be expected after a command is finished
running. Usually linux uses " > " or EOF while routers
use " > " or " #" . The default value should work for
most nodes. Change it if your connection need some
special symbol.
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- stdout (bool): Set True to send the command output to stdout.
Default False.
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- parallel (int): Number of nodes to run the commands simultaneously.
Default is 10, if there are more nodes that this
value, nodes are groups in groups with max this
number of members.
- timeout (int): Time in seconds for expect to wait for prompt/EOF.
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default 10.
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###Returns:
dict: Dictionary formed by nodes unique as keys, Output of the
commands you ran on the node as value.
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' ' '
args = {}
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nodesargs = {}
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args[" commands" ] = commands
if folder != None:
args[" folder" ] = folder
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Path(folder).mkdir(parents=True, exist_ok=True)
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if prompt != None:
args[" prompt" ] = prompt
if stdout != None:
args[" stdout" ] = stdout
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if timeout != None:
args[" timeout" ] = timeout
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output = {}
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status = {}
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tasks = []
for n in self.nodelist:
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nodesargs[n.unique] = deepcopy(args)
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if vars != None:
nodesargs[n.unique][" vars" ] = {}
if " __global__" in vars.keys():
nodesargs[n.unique][" vars" ].update(vars[" __global__" ])
if n.unique in vars.keys():
nodesargs[n.unique][" vars" ].update(vars[n.unique])
tasks.append(threading.Thread(target=n.run, kwargs=nodesargs[n.unique]))
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taskslist = list(self._splitlist(tasks, parallel))
for t in taskslist:
for i in t:
i.start()
for i in t:
i.join()
for i in self.nodelist:
output[i.unique] = i.output
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status[i.unique] = i.status
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self.output = output
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self.status = status
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return output< / code > < / pre >
< / details >
< / dd >
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< dt id = "connpy.nodes.test" > < code class = "name flex" >
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< span > def < span class = "ident" > test< / span > < / span > (< span > self, commands, expected, vars=None, *, prompt=None, parallel=10, timeout=None)< / span >
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< / code > < / dt >
< dd >
< div class = "desc" > < p > Run a command or list of commands on all the nodes in nodelist, then check if expected value appears on the output after the last command.< / p >
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< h3 id = "parameters" > Parameters:< / h3 >
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< pre > < code > - commands (str/list): Commands to run on the node. Should be str or
list of str.
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- expected (str) : Expected text to appear after running all the
commands on the node.
< / code > < / pre >
< h3 id = "optional-parameters" > Optional Parameters:< / h3 >
< pre > < code > - vars (dict): Dictionary containing the definition of variables for
each node, used in commands and expected parameters.
Keys should be formed by nodes unique names. Use
special key name __global__ for global variables.
Subkeys: Variable names.
Values: strings.
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< / code > < / pre >
< h3 id = "optional-named-parameters" > Optional Named Parameters:< / h3 >
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< pre > < code > - prompt (str): Prompt to be expected after a command is finished
running. Usually linux uses "> " or EOF while
routers use "> " or "#". The default value should
work for most nodes. Change it if your connection
need some special symbol.
- parallel (int): Number of nodes to run the commands simultaneously.
Default is 10, if there are more nodes that this
value, nodes are groups in groups with max this
number of members.
- timeout (int): Time in seconds for expect to wait for prompt/EOF.
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default 10.
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< / code > < / pre >
< h3 id = "returns" > Returns:< / h3 >
< pre > < code > dict: Dictionary formed by nodes unique as keys, value is True if
expected value is found after running the commands, False
if prompt is found before.
< / code > < / pre > < / div >
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< details class = "source" >
< summary >
< span > Expand source code< / span >
< / summary >
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< pre > < code class = "python" > def test(self, commands, expected, vars = None,*, prompt = None, parallel = 10, timeout = None):
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' ' '
Run a command or list of commands on all the nodes in nodelist, then check if expected value appears on the output after the last command.
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### Parameters:
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- commands (str/list): Commands to run on the node. Should be str or
list of str.
- expected (str) : Expected text to appear after running all the
commands on the node.
### Optional Parameters:
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- vars (dict): Dictionary containing the definition of variables for
each node, used in commands and expected parameters.
Keys should be formed by nodes unique names. Use
special key name __global__ for global variables.
Subkeys: Variable names.
Values: strings.
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### Optional Named Parameters:
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- prompt (str): Prompt to be expected after a command is finished
running. Usually linux uses " > " or EOF while
routers use " > " or " #" . The default value should
work for most nodes. Change it if your connection
need some special symbol.
- parallel (int): Number of nodes to run the commands simultaneously.
Default is 10, if there are more nodes that this
value, nodes are groups in groups with max this
number of members.
- timeout (int): Time in seconds for expect to wait for prompt/EOF.
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default 10.
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### Returns:
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dict: Dictionary formed by nodes unique as keys, value is True if
expected value is found after running the commands, False
if prompt is found before.
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' ' '
args = {}
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nodesargs = {}
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args[" commands" ] = commands
args[" expected" ] = expected
if prompt != None:
args[" prompt" ] = prompt
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if timeout != None:
args[" timeout" ] = timeout
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output = {}
result = {}
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status = {}
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tasks = []
for n in self.nodelist:
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nodesargs[n.unique] = deepcopy(args)
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if vars != None:
nodesargs[n.unique][" vars" ] = {}
if " __global__" in vars.keys():
nodesargs[n.unique][" vars" ].update(vars[" __global__" ])
if n.unique in vars.keys():
nodesargs[n.unique][" vars" ].update(vars[n.unique])
tasks.append(threading.Thread(target=n.test, kwargs=nodesargs[n.unique]))
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taskslist = list(self._splitlist(tasks, parallel))
for t in taskslist:
for i in t:
i.start()
for i in t:
i.join()
for i in self.nodelist:
result[i.unique] = i.result
output[i.unique] = i.output
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status[i.unique] = i.status
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self.output = output
self.result = result
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self.status = status
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return result< / code > < / pre >
< / details >
< / dd >
< / dl >
< / dd >
< / dl >
< / section >
< / article >
< nav id = "sidebar" >
< h1 > Index< / h1 >
< div class = "toc" >
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< ul >
< li > < a href = "#connection-manager" > Connection manager< / a > < ul >
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< li > < a href = "#features" > Features< / a > < / li >
< li > < a href = "#usage" > Usage< / a > < / li >
2022-04-03 12:00:35 -03:00
< li > < a href = "#manage-profiles" > Manage profiles< / a > < / li >
< li > < a href = "#examples" > Examples< / a > < / li >
< / ul >
< / li >
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< li > < a href = "#http-api" > http API< / a > < ul >
< li > < a href = "#1-list-nodes" > 1. List Nodes< / a > < ul >
< li > < a href = "#request-body" > Request Body:< / a > < / li >
< li > < a href = "#response" > Response:< / a > < / li >
< / ul >
< / li >
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< li > < a href = "#2-get-nodes" > 2. Get Nodes< / a > < ul >
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< li > < a href = "#request-body_1" > Request Body:< / a > < / li >
< li > < a href = "#response_1" > Response:< / a > < / li >
< / ul >
< / li >
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< li > < a href = "#3-run-commands" > 3. Run Commands< / a > < ul >
< li > < a href = "#request-body_2" > Request Body:< / a > < / li >
< li > < a href = "#response_2" > Response:< / a > < / li >
< / ul >
< / li >
< li > < a href = "#4-ask-ai" > 4. Ask AI< / a > < ul >
< li > < a href = "#request-body_3" > Request Body:< / a > < / li >
< li > < a href = "#response_3" > Response:< / a > < / li >
< / ul >
< / li >
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< / ul >
< / li >
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< li > < a href = "#automation-module" > Automation module< / a > < ul >
< li > < a href = "#standalone-module" > Standalone module< / a > < / li >
< li > < a href = "#using-manager-configuration" > Using manager configuration< / a > < / li >
< li > < a href = "#running-parallel-tasks" > Running parallel tasks< / a > < / li >
2022-04-28 12:49:31 -03:00
< li > < a href = "#using-variables" > Using variables< / a > < / li >
2023-05-05 13:41:32 -03:00
< li > < a href = "#using-ai" > Using AI< / a > < / li >
2022-04-03 18:25:58 -03:00
< / ul >
< / li >
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< / ul >
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< / div >
< ul id = "index" >
< li > < h3 > < a href = "#header-classes" > Classes< / a > < / h3 >
< ul >
< li >
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< h4 > < code > < a title = "connpy.ai" href = "#connpy.ai" > ai< / a > < / code > < / h4 >
< ul class = "" >
< li > < code > < a title = "connpy.ai.ask" href = "#connpy.ai.ask" > ask< / a > < / code > < / li >
2023-05-12 12:05:25 -03:00
< li > < code > < a title = "connpy.ai.confirm" href = "#connpy.ai.confirm" > confirm< / a > < / code > < / li >
2023-05-23 16:15:03 -03:00
< li > < code > < a title = "connpy.ai.process_string" href = "#connpy.ai.process_string" > process_string< / a > < / code > < / li >
2023-05-05 13:41:32 -03:00
< / ul >
< / li >
< li >
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< h4 > < code > < a title = "connpy.configfile" href = "#connpy.configfile" > configfile< / a > < / code > < / h4 >
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< ul class = "" >
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< li > < code > < a title = "connpy.configfile.getitem" href = "#connpy.configfile.getitem" > getitem< / a > < / code > < / li >
2023-05-05 13:41:32 -03:00
< li > < code > < a title = "connpy.configfile.getitems" href = "#connpy.configfile.getitems" > getitems< / a > < / code > < / li >
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< / ul >
< / li >
< li >
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< h4 > < code > < a title = "connpy.connapp" href = "#connpy.connapp" > connapp< / a > < / code > < / h4 >
2022-04-03 18:25:58 -03:00
< ul class = "" >
2022-04-04 11:40:51 -03:00
< li > < code > < a title = "connpy.connapp.encrypt" href = "#connpy.connapp.encrypt" > encrypt< / a > < / code > < / li >
2022-05-19 16:11:41 -03:00
< li > < code > < a title = "connpy.connapp.start" href = "#connpy.connapp.start" > start< / a > < / code > < / li >
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< / ul >
< / li >
< li >
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< h4 > < code > < a title = "connpy.node" href = "#connpy.node" > node< / a > < / code > < / h4 >
2022-04-03 09:38:00 -03:00
< ul class = "" >
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< li > < code > < a title = "connpy.node.interact" href = "#connpy.node.interact" > interact< / a > < / code > < / li >
< li > < code > < a title = "connpy.node.run" href = "#connpy.node.run" > run< / a > < / code > < / li >
< li > < code > < a title = "connpy.node.test" href = "#connpy.node.test" > test< / a > < / code > < / li >
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< / ul >
< / li >
< li >
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< h4 > < code > < a title = "connpy.nodes" href = "#connpy.nodes" > nodes< / a > < / code > < / h4 >
2022-04-03 09:38:00 -03:00
< ul class = "" >
2022-04-04 11:40:51 -03:00
< li > < code > < a title = "connpy.nodes.run" href = "#connpy.nodes.run" > run< / a > < / code > < / li >
< li > < code > < a title = "connpy.nodes.test" href = "#connpy.nodes.test" > test< / a > < / code > < / li >
2022-04-03 09:38:00 -03:00
< / ul >
< / li >
< / ul >
< / li >
< / ul >
< / nav >
< / main >
< footer id = "footer" >
< p > Generated by < a href = "https://pdoc3.github.io/pdoc" title = "pdoc: Python API documentation generator" > < cite > pdoc< / cite > 0.10.0< / a > .< / p >
< / footer >
< / body >
< / html >
