Security Center API Library
Project description
# Python Security Center Module
This module is designed to attempt to make interfacing with Security Center's
API easier to use and more manageable. A lot of effort has been put into making
queries into the API as painless and manageable as possible.
[Source Code Repository](https://github.com/SteveMcGrath/pySecurityCenter)
# Changelog
__v2.0a2__
* Pulled in the 75~ commits from David with the ORM code.
* Reworked the code to use the orm/base standpoint instead of v1/v2
__v2.0a1__
* Initial rev with David's merged ORM code.
* All ORM code is to be considered Alpha for now.
* Added stubs in the API base for SecurityCenter 5 when released.
__v1.1__
* Changed the module structure to support the ORM model from David
* Fixed the Asset update to support SC4.8's switch to tagging and groups
__v1.0__
* Changed Rev to 1.x as the code has been sufficiently stable.
* Added proper error handling for login [davidism]
* Handling of Datetime objects now works as expected [davidism]
__v0.3.9__
* Removed un-needed poster requirement [davidism]
* Improved scan_list time handling [davidism]
* Added support for Two-way SSL Certificates [davidism]
__v0.3.8__
* Added proper support for individual scan results in the query function. [davidism]
* Added this README to the package (for pypi)
__v0.3.7__
* Added pagination support to plugins function. [davidism]
__v0.3.6__
* Added Python 2.4 Support
__v0.3.5__
* Added "patched" source to conform to SC 4.6
__v0.3.4__
* Added debug logging support.
__v0.3.3.1__
* Updated to support Python 2.6, 2.7, and 3.x
* Completed documentation of module.
__v0.3.2__
* Added Dashboard and Report Importing
__v0.3.1__
* Added Scan Download Capability
* Fixed roles return
* Adjusted login process
* Added Credential functions
* Code Cleanup
* Fleshed out all functions to match SC 4.2 API docs.
# How to Install
To install pySecurityCenter, you can use either pip or easy_install to install
from the cheeseshop:
`pip install pysecuritycenter`
`easy_install pysecuritycenter`
If you would rather install manually, feel free to download the latest version
directly from the [cheeseshop][]:
[cheeseshop]: http://pypi.python.org/pypi/pySecurityCenter
# How to use
**Note**: All examples are currently using the Base module, not the ORM. The
document will be updated eventually to explain how to use both methods
at a later date.
The new interface is designed to be a lot easier to use than the previous one.
While currently there are fewer functions to present the data back to you, what
has been coded so far has been expressly designed with usability in mind. Below
is a basic example showing the result of the sumip tool:
>>> import securitycenter
>>> sc = securitycenter.SecurityCenter('ADDRESS','USER','PASS')
>>> ips = sc.query('sumip', repositoryIDs='1')
>>> len(ips)
240
>>> ips[0]
{u'macAddress': '', u'severityHigh': u'0', u'severityMedium': u'3',
u'ip': u'10.10.0.1', u'netbiosName': '', u'repositoryID': u'1',
u'severityCritical': u'0', u'score': u'47', u'severityLow': u'38',
u'total': u'41', u'dnsName': u'pfsense.home.lan', u'severityInfo': u'0'}
By default, the query function will perform as many queries to the API as needed
to pull all of the data and return all of the information as a single list.
There are cases however where the dataset that is returned back may be too large
to load everything into memory. In this case there is the option to pass a
function to the API to handle the data for you. In this case, the API will not
populate the list that will be returned back. Below is an example of how this
works:
>>> import securitycenter
>>> def count(data):
... print len(data)
...
>>> sc = securitycenter.SecurityCenter('ADDRESS','USER','PASS')
>>> sc.query('sumip', func=count, repositoryIDs='1')
240
[]
One of the nice things about the query function is that we can also use it to
parse LCE event data as well. For example:
>>> import securitycenter
>>> sc = securitycenter.SecurityCenter('ADDRESS','USER','PASS')
>>> events = sc.query('sumip', source='lce')
>>> len(events)
425
For other functions, please use the raw_query function until the functions have
been rewritten. For detailed documentation for the various other things that
can be done, please reference the Security Center API documentation.
## SSL Support
If Python is compiled with SSL support, SecurityCenter can support two-way SSL.
>>> sc = SecurityCenter("ADDRESS", "USER", "PASS",
... key="KEY_FILE_PATH", cert="CERT_FILE_PATH")
# Available Functions
## raw_query
__Required Inputs:__ module, action
__Optional Inputs:__ data, headers, dejson
### Info
The raw_query function is the most basic function exposed for general use. This
function is simply a thin wrapper around the private _request function and
will strip out information higher on the return tree than the response. If
an error code is thrown, then it will throw an APIError exception with the
error code and the error message. All other public functions route calls
through raw_query.
### Usage
sc.raw_query(module, action, data={}, headers={}, dejson=True)
### Options
* __module:__ [string]<br />
The API module to be called. For information on the available modules that
can be called, please reference the API documentation from Tenable.
* __action:__ [string]<br />
The API module's action to be called. For information on the available
actions that a module may have, please reference the API documentation from
Tenable.
* __data:__ [dictionary]<br />
The data dictionary that is placed into the 'input' definition of the JSON
POST request to the API. This is highly dependent on the module and action
being called and information about what should be contained in here is in the
API documentation from Tenable.
* __headers:__ [dictionary]<br />
The HTTP headers that will be sent as part of the POST request to the API.
While publicly exposed, there is almost never a need to add anything into this
dictionary.
* __dejson:__ [boolean]<br />
Tells the _request function weather or not we want to convert the HTTP
response into a python dictionary. As most responses will be JSON formatted
strings, this is normally left alone, however there are cases where turning
this off is needed. For example when downloading scan results.
## query
__Required Inputs:__ tool
__Optional Inputs:__ filters, source, sort, direction, func, func_params,
req_size, scan, directory, filterset
### Info
The query function is designed to make querying vulnerability and event data
within Security Center as painless as possible. By handling the vast majority
of the boilerplate code within this function, it is possible to write one line
queries into the API. This function also merges together querying both
vulnerability and event data as most of the methodology for querying either
dataset is the same.
### Usage
sc.query(tool, filters=None, source='cumulative', sort=None, direction=None,
func=None, func_params=None, req_size=1000, scan=None, directory=None,
**filterset)
### Options
* __tool__ [string]<br />
The query tool to be run on the API. This can be any of the query tools from
vuln::query or event::query depending on the data source you are using. These
tools are the same as when running a search query in the main WebUI. Refer to
the API documentation for a list of available tools.
* __filters__ [list]<br />
If a complex filter is needed (something more than x=y) then you will need to
populate this list as well. As per the documentation, the filters list is a
list of dictionary items detailing the filterName, operator, and value of the
filter. Each dictionary item should look like the example below:<br />
<br />
`{'filterName': 'exploitAvailable', 'operator': '=', 'value': 'true'}`<br />
<br />
Generally speaking this option is available if needed, however should almost
never be used. Instead use the less error-prone and more efficient
**filterset dictionary
* __source__ [string]<br />
Defines the data source to be used for the query. There are three options
available to query from. Please keep in mind that this variable invariably
determines if you will be querying event or vulnerability data and the toolset
& filterset will be different depending on which data source you query.
* _cumulative:_ Cumulative vulnerability data
* _mitigated:_ Mitigated vulnerability data
* _individual_: Individual scan data
* _lce:_ LCE event data
* __sort__ [string]<br />
Specifies the field name to sort by. Default is None.
* __direction__ [string]<br />
If a sort field is specified, then this option will specify the sort direction
desired. The default is descending (desc) however ascending (asc) can be
selected as well.
* __func__ [function]<br />
If func is defined, it will allow for an alternate way to handle the data that
is being queried. Instead of flattening the dataset into a single list, which
can be problematic for very large datasets, the query function will instead
send the vuln data directly to a function passed on to it and will not
populate any data into the list to be returned. This means that it is
possible to handle very large datasets in smaller chunks if desired. For an
example of how this is used, refer to the CSV_GEN example script. The
generator module shows exactly how this would be handled.
* __func_params__ [dictionary]<br />
An optional dictionary parameter list to be sent to the function defined in
the func option. This is useful if more information than just the query data
needs to be sent to the function for processing.
* __req_size__ [integer]<br />
How many items to query from the API at a time. The default is 1000. Keep in
mind that larger values may not increase the speed of the API and may actually
slow down other operations on the Security Center host. Adjust at your own
risk.
* __scan__ [integer]<br/>
When the source is `"individual"`, this must be the id of the scan to query.
* __directory__ [string or datetime]<br/>
When the source is `"individual"`, this must be the date directory for the
given scan id. The format should be `"YYYY-mm-dd"`, or a datetime which will
be converted to this. It is unclear why this is needed, but it seems to be
the finish time of the scan.
* __**filterset__ [dictionary]\[parameters]<br />
Filterset is the catchall for the various filters that can be called for the
query. Any filters that you would want to run should be after all other
options in the query to insure that they are all lumped into this filterset
dictionary. as this dictionary is parameterized, there is no need to specify
the options like in a normal dictionary, instead simply declare them as if
specifying any other option in the function. for example:<br />
<br />
`sc.query('vulndetails', exploitAvailable='true', severity='2,3,4')`<br />
<br />
This query will set the expploitAvailable filter to true and the severity to
'2,3,4' (Medium, High, and Critical). As you can see, defining filters this
way is a lot cleaner than specifying them in the raw format as with the
__filters__ dictionary.
## login
__Required Inputs:__ user, passwd
__Optional Inputs:__ NONE
### Info
Performs the login sequence into the API and stored the authentication token for
future use. Generally this function does not need to be called as it normally
run as part of the instantiation process for a SecurityCenter object.
### Usage
sc.login('USERNAME', 'PASSWORD')
### Options
* __user__ [string]<br />
Username of the user to authenticate with.
* __passwd__ [string]<br />
Password fo the user to authenticate with.
## logout
__Required Inputs:__ NONE
__Optional Inputs:__ NONE
### Info
Performs a logout on the API and drops the token from the authentication cache.
### Usage
sc.logout()
## assets
__Required Inputs:__ NONE
__Optional Inputs:__ NONE
### Info
A convenience function to run _asset::init_ on the API. returns the result to
the caller.
### Usage
sc.assets()
## asset_update
__Required Inputs:__ asset_id
__Optional Inputs:__ name, description, visibility, group, users, ips, rules
### Info
Updates an asset list with the optional inputs provided. This function will
first perform an asset list lookup and populate the request to be sent with the
current values, then override those values with what was requested in the
optional parameters. This means it is possible to only update the ip list, or
description, without having to pull and populate everything else by hand.
### Usage
sc.asset_update(asset_id, name=None, description=None, visibility=None,
group=None, users=None, ips=None, rules=None)
### Options
* __asset_id__ [integer]<br />
The id of the asset list to edit.
* __name__ [string]<br />
The new name for the asset list.
* __description__ [string]<br />
The new description for the asset list.
* __visibility__ [string]<br />
The new visibility setting for the asset list. The 2 values this can be set
to is 'organizational' and 'user'.
* __group__ [string]<br />
The new group name for the asset list.
* __users__ [list]<br />
A list of the user ids that have access to see this asset list. Overrides the
existing settings.
* __ips__ [list]<br />
A list of IPs, IP ranges, and CIDR ranges to be defined for a static list.
Setting this will override the existing settings, not append.
* __rules__ [list]<br />
Will override the existing rules set for this asset list. This is the raw
rules definition.
## asset_ips
__Required Inputs:__ asset_id
__Optional Inputs:__ NONE
### Info
Returns the IPs associated with the asset list id defined.
### Usage
sc.asset_ips(asset_id)
### Options
* __asset_id__ [integer]<br />
The asset list id to query the API with.
## credendials
__Required Inputs:__ NONE
__Optional Inputs:__ NONE
### Info
Returns a list of the credentials stored within Security Center
### Usage
sc.credentials()
## credential_update
__Required Inputs:__ cred_id
__Optional Inputs:__ **options
### Info
Updated the specified credential with the fields specified.
### Usage
sc.credential_update(cred_id, **options)
### Options
* __cred_id__ [integer]<br />
The identifier of the credential to be updated.
* __**options__ [dictionary]\[parameters]<br />
A parameterized dictionary list containing the fields that will be
updated. For example, if the name and password of the credential
is to be updated to 'New Cred 2' and 'Password123' respectively, then
the following call to the API would be requested:<br />
<br />
`sc.credential_update(1, name='New Cred2', password='Password123')`<br />
<br />
## plugins
__Required Inputs:__ NONE
__Optional Inputs:__ plugin_type, sort, direction, size, offset, all, loops,
since, **filterset
### Info
Returns information about the plugins requested. By default it will
return a list of all of the plugins in the system.
### Usage
sc.plugins(plugin_type='all', sort='id', direction='asc', size=1000,
offset=0, all=True, loops=0, since=None, **filterset)
### Options
* __plugn_type__ [string]<br />
String containing the type of plugins that the user wants returned. Available
options are "all", "notPassive", "active", "compliance", "custom", and "passive".
The default option is "all".
* __sort__ [string]<br />
String that denotes the field name that you wish to sort by.
* __direction__ [string]<br />
The direction of the sort. "asc" and "desc" are valid directions, default is "asc".
* __size__ [integer]<br />
Number of plugins to query for each request. Default is 1000.
* __offset__ [integer]<br/>
Number of plugins to skip at the beginning of the query. Useful if you want
to get all results but only store chunks in memory. Default is 0.
* __all__ [boolean]<br />
Determins whether we should loop until we have all of the plugin data.
* __loops__ [integer]<br />
If all is set to "False" then this will dictate the number of loops to complete before
stopping. Default is 0.
* __since__ [datetime.datetime or datetime.date]<br />
If since is specified, only return plugins that have been created/updated since that
datetime object.
* __**filterset__ [dictionary]\[parameters]<br />
A Filterset that works similarly to how query's filterset works. Furthermore any of the
items in the _xrefs list can be used as well for the filter.
## plugin_counts
__Required Inputs:__ NONE
__Optional Inputs:__ NONE
### Info
Returns a dictionary detailing plugin counts for active, passive, compliance, and
custom plugin types as is available.
### Usage
sc.plugin_counts()
## plugin_details
__Required Inputs:__ plugin_id
__Optional Inputs:__ NONE
### Info
Returns the details of a specific plugin id.
### Usage
sc.plugin_details(plugin_id)
### Options
* __plugin_id__ [integer]<br />
The Plugin ID of the Plugin that is requested.
## repositories
__Required Inputs:__ NONE
__Optional Inputs:__ NONE
### Info
Returns the repository information, license information, and organizational information.
### Usage
sc.repositories()
## roles
__Required Inputs:__ NONE
__Optional Inputs:__ NONE
### Info
Returns the user roles and associated metadata.
### Usage
sc.roles()
## tickets
__Required Inputs:__ NONE
__Optional Inputs:__ NONE
### Info
Returns tickets and their associated data.
### Usage
sc.tickets()
## users
__Required Inputs:__ NONE
__Optional Inputs:__ NONE
### Info
Returns all user information from the Security Center instance.
### Usage
sc.users()
## vulns
__Required Inputs:__ NONE
__Optional Inputs:__ NONE
### Info
Returns all available vulnerabilities in the Security Center Instance.
### Usage
sc.vulns()
## ip_info
__Required Inputs:__ ip
__Optional Inputs:__ repository_ids
### Info
Returns information abotu the IP specified in the repository IDs defined. These details
include things like MAC Address, Hostname, etc.
### Usage
sc.ip_info(ip, repository_ids=[])
### Options
* __ip__ [string]<br />
String containing the IP of the host that we want to pull the information for.
* __repository_ids__ [list of integers]<br />
The Repository IDs that we want to pull the information from. This is used if we only
Want information from select repositories, and not all of them.
## zones
__Required Inputs:__ NONE
__Optional Inputs:__ NONE
### Info
Returns all available scan zone and scaner status information.
### Usage
sc.zones()
## scan_list
__Optional Inputs:__ start_time, end_time
### Info
List scans stored in Security Center in a given time range.
Time is given in UNIX timestamps. If a `datetime` is passed it is converted.
If `end_time` is not specified it is NOW. If `start_time` is not specified it
is 30 days previous from `end_time`.
### Usage
sc.scan_list(start_time=None, end_time=None)
### Options
* __start_time__ [datetime, int]<br />
Start of time range to filter. Default is 30 days previous from `end_time`.
* __end_time__ [datetime, int]<br />
End of time range to filter. Default is NOW.
## scan_download
__Required Inputs:__ scan_id
__Optional Inputs:__ format
### Info
Returns the raw data for the nessus scan id specified. Optionally the scan data format
can be specified to override the default format returned.
### Usage
sc.scan_download(scan_id, format='v2')
### Options
* __scan_id__ [integer]<br />
The unique scan identifier for the scan that we wish to download.
* __format__ [string]<br />
This string denotes the format fo the data to be returned. The default for the plugin is
'v2'. Depending on the version of Security Center, this information can/will be different.
For versions of Security Center earlier than 4.4 the options "nsr" and "nessus" are
available. For SC4.4, "v1" and "v2" are the options, denoting the .nessus v1 and v2
formats. Note that in earlier versions of SC4, "nessus" refers to .nessus v1.
## dashboard_import
__Required Inputs:__ name, filename
__Optional Inputs:__ NONE
### Info
Uploads a dashboard template to the current user's dashboard tabs.
__NOTE:__ This is an un-documented call and is not considered stable.
### Usage
sc.dashboard_import(name, filename)
### Options
* __name__ [string]<br />
The name of the dashboard tab once uploaded.
* __filename__ [string]<br />
The filename and path of the file that will be uploaded.
## report_import
__Required Inputs:__ name, filename
__Optional Inputs:__ NONE
### Info
Uploads a report template to the current user's reports.
__NOTE:__ This is an un-documented call and is not considered stable.
### Usage
sc.report_import(name, filename)
### Options
* __name__ [string]<br />
The name of the report once uploaded.
* __filename__ [string]<br />
The filename and path of the file that will be uploaded.
This module is designed to attempt to make interfacing with Security Center's
API easier to use and more manageable. A lot of effort has been put into making
queries into the API as painless and manageable as possible.
[Source Code Repository](https://github.com/SteveMcGrath/pySecurityCenter)
# Changelog
__v2.0a2__
* Pulled in the 75~ commits from David with the ORM code.
* Reworked the code to use the orm/base standpoint instead of v1/v2
__v2.0a1__
* Initial rev with David's merged ORM code.
* All ORM code is to be considered Alpha for now.
* Added stubs in the API base for SecurityCenter 5 when released.
__v1.1__
* Changed the module structure to support the ORM model from David
* Fixed the Asset update to support SC4.8's switch to tagging and groups
__v1.0__
* Changed Rev to 1.x as the code has been sufficiently stable.
* Added proper error handling for login [davidism]
* Handling of Datetime objects now works as expected [davidism]
__v0.3.9__
* Removed un-needed poster requirement [davidism]
* Improved scan_list time handling [davidism]
* Added support for Two-way SSL Certificates [davidism]
__v0.3.8__
* Added proper support for individual scan results in the query function. [davidism]
* Added this README to the package (for pypi)
__v0.3.7__
* Added pagination support to plugins function. [davidism]
__v0.3.6__
* Added Python 2.4 Support
__v0.3.5__
* Added "patched" source to conform to SC 4.6
__v0.3.4__
* Added debug logging support.
__v0.3.3.1__
* Updated to support Python 2.6, 2.7, and 3.x
* Completed documentation of module.
__v0.3.2__
* Added Dashboard and Report Importing
__v0.3.1__
* Added Scan Download Capability
* Fixed roles return
* Adjusted login process
* Added Credential functions
* Code Cleanup
* Fleshed out all functions to match SC 4.2 API docs.
# How to Install
To install pySecurityCenter, you can use either pip or easy_install to install
from the cheeseshop:
`pip install pysecuritycenter`
`easy_install pysecuritycenter`
If you would rather install manually, feel free to download the latest version
directly from the [cheeseshop][]:
[cheeseshop]: http://pypi.python.org/pypi/pySecurityCenter
# How to use
**Note**: All examples are currently using the Base module, not the ORM. The
document will be updated eventually to explain how to use both methods
at a later date.
The new interface is designed to be a lot easier to use than the previous one.
While currently there are fewer functions to present the data back to you, what
has been coded so far has been expressly designed with usability in mind. Below
is a basic example showing the result of the sumip tool:
>>> import securitycenter
>>> sc = securitycenter.SecurityCenter('ADDRESS','USER','PASS')
>>> ips = sc.query('sumip', repositoryIDs='1')
>>> len(ips)
240
>>> ips[0]
{u'macAddress': '', u'severityHigh': u'0', u'severityMedium': u'3',
u'ip': u'10.10.0.1', u'netbiosName': '', u'repositoryID': u'1',
u'severityCritical': u'0', u'score': u'47', u'severityLow': u'38',
u'total': u'41', u'dnsName': u'pfsense.home.lan', u'severityInfo': u'0'}
By default, the query function will perform as many queries to the API as needed
to pull all of the data and return all of the information as a single list.
There are cases however where the dataset that is returned back may be too large
to load everything into memory. In this case there is the option to pass a
function to the API to handle the data for you. In this case, the API will not
populate the list that will be returned back. Below is an example of how this
works:
>>> import securitycenter
>>> def count(data):
... print len(data)
...
>>> sc = securitycenter.SecurityCenter('ADDRESS','USER','PASS')
>>> sc.query('sumip', func=count, repositoryIDs='1')
240
[]
One of the nice things about the query function is that we can also use it to
parse LCE event data as well. For example:
>>> import securitycenter
>>> sc = securitycenter.SecurityCenter('ADDRESS','USER','PASS')
>>> events = sc.query('sumip', source='lce')
>>> len(events)
425
For other functions, please use the raw_query function until the functions have
been rewritten. For detailed documentation for the various other things that
can be done, please reference the Security Center API documentation.
## SSL Support
If Python is compiled with SSL support, SecurityCenter can support two-way SSL.
>>> sc = SecurityCenter("ADDRESS", "USER", "PASS",
... key="KEY_FILE_PATH", cert="CERT_FILE_PATH")
# Available Functions
## raw_query
__Required Inputs:__ module, action
__Optional Inputs:__ data, headers, dejson
### Info
The raw_query function is the most basic function exposed for general use. This
function is simply a thin wrapper around the private _request function and
will strip out information higher on the return tree than the response. If
an error code is thrown, then it will throw an APIError exception with the
error code and the error message. All other public functions route calls
through raw_query.
### Usage
sc.raw_query(module, action, data={}, headers={}, dejson=True)
### Options
* __module:__ [string]<br />
The API module to be called. For information on the available modules that
can be called, please reference the API documentation from Tenable.
* __action:__ [string]<br />
The API module's action to be called. For information on the available
actions that a module may have, please reference the API documentation from
Tenable.
* __data:__ [dictionary]<br />
The data dictionary that is placed into the 'input' definition of the JSON
POST request to the API. This is highly dependent on the module and action
being called and information about what should be contained in here is in the
API documentation from Tenable.
* __headers:__ [dictionary]<br />
The HTTP headers that will be sent as part of the POST request to the API.
While publicly exposed, there is almost never a need to add anything into this
dictionary.
* __dejson:__ [boolean]<br />
Tells the _request function weather or not we want to convert the HTTP
response into a python dictionary. As most responses will be JSON formatted
strings, this is normally left alone, however there are cases where turning
this off is needed. For example when downloading scan results.
## query
__Required Inputs:__ tool
__Optional Inputs:__ filters, source, sort, direction, func, func_params,
req_size, scan, directory, filterset
### Info
The query function is designed to make querying vulnerability and event data
within Security Center as painless as possible. By handling the vast majority
of the boilerplate code within this function, it is possible to write one line
queries into the API. This function also merges together querying both
vulnerability and event data as most of the methodology for querying either
dataset is the same.
### Usage
sc.query(tool, filters=None, source='cumulative', sort=None, direction=None,
func=None, func_params=None, req_size=1000, scan=None, directory=None,
**filterset)
### Options
* __tool__ [string]<br />
The query tool to be run on the API. This can be any of the query tools from
vuln::query or event::query depending on the data source you are using. These
tools are the same as when running a search query in the main WebUI. Refer to
the API documentation for a list of available tools.
* __filters__ [list]<br />
If a complex filter is needed (something more than x=y) then you will need to
populate this list as well. As per the documentation, the filters list is a
list of dictionary items detailing the filterName, operator, and value of the
filter. Each dictionary item should look like the example below:<br />
<br />
`{'filterName': 'exploitAvailable', 'operator': '=', 'value': 'true'}`<br />
<br />
Generally speaking this option is available if needed, however should almost
never be used. Instead use the less error-prone and more efficient
**filterset dictionary
* __source__ [string]<br />
Defines the data source to be used for the query. There are three options
available to query from. Please keep in mind that this variable invariably
determines if you will be querying event or vulnerability data and the toolset
& filterset will be different depending on which data source you query.
* _cumulative:_ Cumulative vulnerability data
* _mitigated:_ Mitigated vulnerability data
* _individual_: Individual scan data
* _lce:_ LCE event data
* __sort__ [string]<br />
Specifies the field name to sort by. Default is None.
* __direction__ [string]<br />
If a sort field is specified, then this option will specify the sort direction
desired. The default is descending (desc) however ascending (asc) can be
selected as well.
* __func__ [function]<br />
If func is defined, it will allow for an alternate way to handle the data that
is being queried. Instead of flattening the dataset into a single list, which
can be problematic for very large datasets, the query function will instead
send the vuln data directly to a function passed on to it and will not
populate any data into the list to be returned. This means that it is
possible to handle very large datasets in smaller chunks if desired. For an
example of how this is used, refer to the CSV_GEN example script. The
generator module shows exactly how this would be handled.
* __func_params__ [dictionary]<br />
An optional dictionary parameter list to be sent to the function defined in
the func option. This is useful if more information than just the query data
needs to be sent to the function for processing.
* __req_size__ [integer]<br />
How many items to query from the API at a time. The default is 1000. Keep in
mind that larger values may not increase the speed of the API and may actually
slow down other operations on the Security Center host. Adjust at your own
risk.
* __scan__ [integer]<br/>
When the source is `"individual"`, this must be the id of the scan to query.
* __directory__ [string or datetime]<br/>
When the source is `"individual"`, this must be the date directory for the
given scan id. The format should be `"YYYY-mm-dd"`, or a datetime which will
be converted to this. It is unclear why this is needed, but it seems to be
the finish time of the scan.
* __**filterset__ [dictionary]\[parameters]<br />
Filterset is the catchall for the various filters that can be called for the
query. Any filters that you would want to run should be after all other
options in the query to insure that they are all lumped into this filterset
dictionary. as this dictionary is parameterized, there is no need to specify
the options like in a normal dictionary, instead simply declare them as if
specifying any other option in the function. for example:<br />
<br />
`sc.query('vulndetails', exploitAvailable='true', severity='2,3,4')`<br />
<br />
This query will set the expploitAvailable filter to true and the severity to
'2,3,4' (Medium, High, and Critical). As you can see, defining filters this
way is a lot cleaner than specifying them in the raw format as with the
__filters__ dictionary.
## login
__Required Inputs:__ user, passwd
__Optional Inputs:__ NONE
### Info
Performs the login sequence into the API and stored the authentication token for
future use. Generally this function does not need to be called as it normally
run as part of the instantiation process for a SecurityCenter object.
### Usage
sc.login('USERNAME', 'PASSWORD')
### Options
* __user__ [string]<br />
Username of the user to authenticate with.
* __passwd__ [string]<br />
Password fo the user to authenticate with.
## logout
__Required Inputs:__ NONE
__Optional Inputs:__ NONE
### Info
Performs a logout on the API and drops the token from the authentication cache.
### Usage
sc.logout()
## assets
__Required Inputs:__ NONE
__Optional Inputs:__ NONE
### Info
A convenience function to run _asset::init_ on the API. returns the result to
the caller.
### Usage
sc.assets()
## asset_update
__Required Inputs:__ asset_id
__Optional Inputs:__ name, description, visibility, group, users, ips, rules
### Info
Updates an asset list with the optional inputs provided. This function will
first perform an asset list lookup and populate the request to be sent with the
current values, then override those values with what was requested in the
optional parameters. This means it is possible to only update the ip list, or
description, without having to pull and populate everything else by hand.
### Usage
sc.asset_update(asset_id, name=None, description=None, visibility=None,
group=None, users=None, ips=None, rules=None)
### Options
* __asset_id__ [integer]<br />
The id of the asset list to edit.
* __name__ [string]<br />
The new name for the asset list.
* __description__ [string]<br />
The new description for the asset list.
* __visibility__ [string]<br />
The new visibility setting for the asset list. The 2 values this can be set
to is 'organizational' and 'user'.
* __group__ [string]<br />
The new group name for the asset list.
* __users__ [list]<br />
A list of the user ids that have access to see this asset list. Overrides the
existing settings.
* __ips__ [list]<br />
A list of IPs, IP ranges, and CIDR ranges to be defined for a static list.
Setting this will override the existing settings, not append.
* __rules__ [list]<br />
Will override the existing rules set for this asset list. This is the raw
rules definition.
## asset_ips
__Required Inputs:__ asset_id
__Optional Inputs:__ NONE
### Info
Returns the IPs associated with the asset list id defined.
### Usage
sc.asset_ips(asset_id)
### Options
* __asset_id__ [integer]<br />
The asset list id to query the API with.
## credendials
__Required Inputs:__ NONE
__Optional Inputs:__ NONE
### Info
Returns a list of the credentials stored within Security Center
### Usage
sc.credentials()
## credential_update
__Required Inputs:__ cred_id
__Optional Inputs:__ **options
### Info
Updated the specified credential with the fields specified.
### Usage
sc.credential_update(cred_id, **options)
### Options
* __cred_id__ [integer]<br />
The identifier of the credential to be updated.
* __**options__ [dictionary]\[parameters]<br />
A parameterized dictionary list containing the fields that will be
updated. For example, if the name and password of the credential
is to be updated to 'New Cred 2' and 'Password123' respectively, then
the following call to the API would be requested:<br />
<br />
`sc.credential_update(1, name='New Cred2', password='Password123')`<br />
<br />
## plugins
__Required Inputs:__ NONE
__Optional Inputs:__ plugin_type, sort, direction, size, offset, all, loops,
since, **filterset
### Info
Returns information about the plugins requested. By default it will
return a list of all of the plugins in the system.
### Usage
sc.plugins(plugin_type='all', sort='id', direction='asc', size=1000,
offset=0, all=True, loops=0, since=None, **filterset)
### Options
* __plugn_type__ [string]<br />
String containing the type of plugins that the user wants returned. Available
options are "all", "notPassive", "active", "compliance", "custom", and "passive".
The default option is "all".
* __sort__ [string]<br />
String that denotes the field name that you wish to sort by.
* __direction__ [string]<br />
The direction of the sort. "asc" and "desc" are valid directions, default is "asc".
* __size__ [integer]<br />
Number of plugins to query for each request. Default is 1000.
* __offset__ [integer]<br/>
Number of plugins to skip at the beginning of the query. Useful if you want
to get all results but only store chunks in memory. Default is 0.
* __all__ [boolean]<br />
Determins whether we should loop until we have all of the plugin data.
* __loops__ [integer]<br />
If all is set to "False" then this will dictate the number of loops to complete before
stopping. Default is 0.
* __since__ [datetime.datetime or datetime.date]<br />
If since is specified, only return plugins that have been created/updated since that
datetime object.
* __**filterset__ [dictionary]\[parameters]<br />
A Filterset that works similarly to how query's filterset works. Furthermore any of the
items in the _xrefs list can be used as well for the filter.
## plugin_counts
__Required Inputs:__ NONE
__Optional Inputs:__ NONE
### Info
Returns a dictionary detailing plugin counts for active, passive, compliance, and
custom plugin types as is available.
### Usage
sc.plugin_counts()
## plugin_details
__Required Inputs:__ plugin_id
__Optional Inputs:__ NONE
### Info
Returns the details of a specific plugin id.
### Usage
sc.plugin_details(plugin_id)
### Options
* __plugin_id__ [integer]<br />
The Plugin ID of the Plugin that is requested.
## repositories
__Required Inputs:__ NONE
__Optional Inputs:__ NONE
### Info
Returns the repository information, license information, and organizational information.
### Usage
sc.repositories()
## roles
__Required Inputs:__ NONE
__Optional Inputs:__ NONE
### Info
Returns the user roles and associated metadata.
### Usage
sc.roles()
## tickets
__Required Inputs:__ NONE
__Optional Inputs:__ NONE
### Info
Returns tickets and their associated data.
### Usage
sc.tickets()
## users
__Required Inputs:__ NONE
__Optional Inputs:__ NONE
### Info
Returns all user information from the Security Center instance.
### Usage
sc.users()
## vulns
__Required Inputs:__ NONE
__Optional Inputs:__ NONE
### Info
Returns all available vulnerabilities in the Security Center Instance.
### Usage
sc.vulns()
## ip_info
__Required Inputs:__ ip
__Optional Inputs:__ repository_ids
### Info
Returns information abotu the IP specified in the repository IDs defined. These details
include things like MAC Address, Hostname, etc.
### Usage
sc.ip_info(ip, repository_ids=[])
### Options
* __ip__ [string]<br />
String containing the IP of the host that we want to pull the information for.
* __repository_ids__ [list of integers]<br />
The Repository IDs that we want to pull the information from. This is used if we only
Want information from select repositories, and not all of them.
## zones
__Required Inputs:__ NONE
__Optional Inputs:__ NONE
### Info
Returns all available scan zone and scaner status information.
### Usage
sc.zones()
## scan_list
__Optional Inputs:__ start_time, end_time
### Info
List scans stored in Security Center in a given time range.
Time is given in UNIX timestamps. If a `datetime` is passed it is converted.
If `end_time` is not specified it is NOW. If `start_time` is not specified it
is 30 days previous from `end_time`.
### Usage
sc.scan_list(start_time=None, end_time=None)
### Options
* __start_time__ [datetime, int]<br />
Start of time range to filter. Default is 30 days previous from `end_time`.
* __end_time__ [datetime, int]<br />
End of time range to filter. Default is NOW.
## scan_download
__Required Inputs:__ scan_id
__Optional Inputs:__ format
### Info
Returns the raw data for the nessus scan id specified. Optionally the scan data format
can be specified to override the default format returned.
### Usage
sc.scan_download(scan_id, format='v2')
### Options
* __scan_id__ [integer]<br />
The unique scan identifier for the scan that we wish to download.
* __format__ [string]<br />
This string denotes the format fo the data to be returned. The default for the plugin is
'v2'. Depending on the version of Security Center, this information can/will be different.
For versions of Security Center earlier than 4.4 the options "nsr" and "nessus" are
available. For SC4.4, "v1" and "v2" are the options, denoting the .nessus v1 and v2
formats. Note that in earlier versions of SC4, "nessus" refers to .nessus v1.
## dashboard_import
__Required Inputs:__ name, filename
__Optional Inputs:__ NONE
### Info
Uploads a dashboard template to the current user's dashboard tabs.
__NOTE:__ This is an un-documented call and is not considered stable.
### Usage
sc.dashboard_import(name, filename)
### Options
* __name__ [string]<br />
The name of the dashboard tab once uploaded.
* __filename__ [string]<br />
The filename and path of the file that will be uploaded.
## report_import
__Required Inputs:__ name, filename
__Optional Inputs:__ NONE
### Info
Uploads a report template to the current user's reports.
__NOTE:__ This is an un-documented call and is not considered stable.
### Usage
sc.report_import(name, filename)
### Options
* __name__ [string]<br />
The name of the report once uploaded.
* __filename__ [string]<br />
The filename and path of the file that will be uploaded.
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