This provides a python framework to design NZBGet scripts with. The intent was to greatly simplify the development and debugging process. It was initially designed to work with NZBGet and is backwards compatible with all previous versions (as far back to v11). However it is also compatible with SABnzbd users too!
- It contains a built in meta tag parser to extract content from NZB-Files. Note: This can only happen if lxml is installed on your system.
- It can preform very basic obfuscation support on filenames that can not be interpreted.
- It creates a common SQLite database (optionally) to additionally write content passed via the set() function. This allows another script to later call get() and retrieve the data set() by another.
- It prepares logging right out of the box for you, there is no setup required
- All return codes have been simplified to None/True/False (you can still use the old ones if you want).
- It handles all of the exception handling. By this I mean, your code can throw an except and it's traceback will be captured gracefully to logging. Then the framework will look after returning a correct failure error code to NZBGet.
- It provides some very useful functions that are always being re-written inside of every other NZBGet script such as file scanning.
- It greatly simplifies the handling of environment variables and interaction to and from NZBGet.
- It can also be adapted to support SABnzbd scripting! Thus any script you write for NZBGet users, you can also tweak to work with SABnzbd users too!
For the most up to date information and API, visit the wiki at
The entire framework was based on the information found here:
The following are some of the functionality that is built in for you:
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validate() - Handle environment checking, correct versioning as well as if the expected configuration variables you specified are present.
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health_check() - Checks the status of the retrieved content, currently this is only useful during Post-Processing.
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push() - Pushes a variables to the NZBGet server.
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set()/get() - Hash table get/set attributes that can be set in one script and then later retrieved from another. get() can also be used to fetch content that was previously pushed using the push() tool. You no longer need to work with environment variables. If you enable the SQLite database, set content is put here as well so that it can be retrieved by another script.
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unset() - This allows you to unset values set by set() and get() as well as ones set by push().
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nzb_set() - Similar to the set() function identified above except it is used to build an nzb meta hash table which can be later pushed to the server using push_dnzb().
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add_nzb() - Using the built in API/RPC NZBGet supports, this allows you to specify a path to an NZBFile which you want to enqueue for downloading.
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nzb_get() - Retieves NZB Meta information previously stored.
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nzb_unset() - Removes a variable previously set completely.
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get_statistics() - Using the built in API/RPC NZBGet supports, this retrieves and returns the statistics in an easy to ready dictionary (PostProcessScript only).
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get_logs() - Using the built in API/RPC NZBGet supports, this retrieves and returns the latest logs.
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get_files() - list all files in a specified directory as well as fetching their details such as filesize, modified date, etc in an easy to reference dictionary. You can provide a ton of different filters to minimize the content returned. Filters can by a regular expression, file prefixes, and/or suffixes.
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parse_nzbfile() - Parse an NZB-File and extract all of its meta information from it. lxml must be installed on your system for this to work correctly.
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parse_list() - Takes a string (or more) as well as lists of strings as input. It then cleans it up and produces an easy to manage list by combining all of the results into 1. Hence: parse_list('.mkv, .avi') returns: [ '.mkv', '.avi' ]
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parse_path_list() - Very smilar to parse_list() except that it is used to handle directory paths while cleaning them up at the same time.
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parse_bool() - Handles all of NZBGet's configuration options such as 'on' and 'off' as well as 'yes' or 'no', or 'True' and 'False'. It greatly simplifies the checking of these variables passed in from NZBGet.
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push_guess() - You can push a guessit dictionary (or one of your own that can help identify your release for other scripts to use later after yours finishes.
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pull_guess() - Pull a previous guess pushed by another script. why redo grunt work if it's already done for you? if no previous guess content was pushed, then an empty dictionary is returned.
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push_dnzb() - You can push all nzb meta information onbtained to the NZBGet server as DNZB_ meta tags.
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pull_dnzb() - Pull all DNZB_ meta tags issued by the server and return their values in a dictionary. if no DNZB_ (NZB Meta information) was found, then an empty dictionary is returned instead.
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deobfuscate() - Take a filename and return it in a deobfuscated to the best of its ability. (PostProcessScript only)
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is_unique_instance() - Allows you to ensure your instance of your script is unique. This is useful for Scheduled scripts which can be called and then run concurrently with NZBGet. How To Use ==========
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Developers are only required to define a class that inherits the NZBGet class that identifies what they are attempting to write (ScanScript, PostProcessScript, etc.).
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Then you write all of your code a the main() you must define.
#############################################################################
### NZBGET POST-PROCESSING SCRIPT ###
#
# Author: Your Name Goes Here <your@email.address>
#
# Describe your Post-Process Script here
#
############################################################################
### OPTIONS ###
#
# Enable NZBGet debug logging (yes, no)
# Debug=no
#
### NZBGET POST-PROCESSING SCRIPT ###
#############################################################################
from nzbget import PostProcessScript
# Now define your class while inheriting the rest
class MyPostProcessScript(PostProcessScript):
def main(self, *args, **kwargs):
# write all of your code here you would have otherwise put in the
# script
if not self.validate():
# No need to document a failure, validate will do that
# on the reason it failed anyway
return False
# All system environment variables (NZBOP_.*) as well as Post
# Process script specific content (NZBPP_.*)
# following dictionary (without the NZBOP_ or NZBPP_ prefix):
print 'DIRECTORY %s' self.get('DIRECTORY')
print 'NZBNAME %s' self.get('NZBNAME')
print 'NZBFILENAME %s' self.get('NZBFILENAME')
print 'CATEGORY %s' self.get('CATEGORY')
print 'TOTALSTATUS %s' self.get('TOTALSTATUS')
print 'STATUS %s' self.get('STATUS')
print 'SCRIPTSTATUS %s' self.get('SCRIPTSTATUS')
# Set any variable you want by any key. Note that if you use
# keys that were defined by the system (such as CATEGORY, DIRECTORY,
# etc, you may have some undesirable results. Try to avoid reusing
# system variables already defined (identified above):
self.set('MY_KEY', 'MY_VALUE')
# You can fetch it back; this will also set an entry in the
# sqlite database for each hash references that can be pulled from
# another script that simply calls self.get('MY_VAR')
print self.get('MY_KEY') # prints MY_VALUE
# You can also use push() which is similar to set()
# except that it interacts with the NZBGet Server and does not use
# the sqlite database. This can only be reached across other
# scripts if the calling application is NZBGet itself
self.push('ANOTHER_KEY', 'ANOTHER_VALUE')
# You can still however locally retrieve what you set using push()
# with the get() function
print self.get('ANOTHER_KEY') # prints ANOTHER_VALUE
# Your script configuration files (NZBPP_.*) are here in this
# dictionary (again without the NZBPP_ prefix):
# assume you defined `Debug=no` in the first 10K of your PostProcessScript
# NZBGet translates this to `NZBPP_DEBUG` which can be retrieved
# as follows:
print 'DEBUG %s' self.get('DEBUG')
# Returns have been made easy. Just return:
# * True if everything was successful
# * False if there was a problem
# * None if you want to report that you've just gracefully
skipped processing (this is better then False)
in some circumstances. This is neither a failure or a
success status.
# Feel free to use the actual exit codes as well defined by
# NZBGet on their website. They have also been defined here
# from nzbget import EXIT_CODE
return True
# Call your script as follows:
if __name__ == "__main__":
from sys import exit
# Create an instance of your Script
ppscript = MyPostProcessScript()
# call run() and exit() using it's returned value
exit(ppscript.run())
############################################################################
### NZBGET SCAN SCRIPT ###
#
# Author: Your Name Goes Here <your@email.address>
#
# Describe your Scan Script here
#
############################################################################
### OPTIONS ###
#
# Enable NZBGet debug logging (yes, no)
# Debug=no
#
### NZBGET SCAN SCRIPT ###
############################################################################
from nzbget import ScanScript
# Now define your class while inheriting the rest
class MyScanScript(ScanScript):
def main(self, *args, **kwargs):
# write all of your code here you would have otherwise put in the
# script
if not self.validate():
# No need to document a failure, validate will do that
# on the reason it failed anyway
return False
# All system environment variables (NZBOP_.*) as well as Post
# Process script specific content (NZBNP_.*)
# following dictionary (without the NZBOP_ or NZBNP_ prefix):
print 'DIRECTORY %s' self.get('DIRECTORY')
print 'FILENAME %s' self.get('FILENAME')
print 'NZBNAME %s' self.get('NZBNAME')
print 'CATEGORY %s' self.get('CATEGORY')
print 'PRIORITY %s' self.get('PRIORITY')
print 'TOP %s' self.get('TOP')
print 'PAUSED %s' self.get('PAUSED')
return True
# Call your script as follows:
if __name__ == "__main__":
from sys import exit
# Create an instance of your Script
scanscript = MyScanScript()
# call run() and exit() using it's returned value
exit(scanscript.run())
############################################################################
### NZBGET SCHEDULER SCRIPT ###
#
# Describe your Schedule Script here
# Author: Your Name Goes Here <your@email.address>
#
############################################################################
### OPTIONS ###
#
# Enable NZBGet debug logging (yes, no)
# Debug=no
#
### NZBGET SCHEDULER SCRIPT ###
############################################################################
from nzbget import SchedulerScript
# Now define your class while inheriting the rest
class MySchedulerScript(SchedulerScript):
def main(self, *args, **kwargs):
# Version Checking, Environment Variables Present, etc
if not self.validate():
# No need to document a failure, validate will do that
# on the reason it failed anyway
return False
# write all of your code here you would have otherwise put in the
# script
# All system environment variables (NZBOP_.*) as well as Post
# Process script specific content (NZBSP_.*)
# following dictionary (without the NZBOP_ or NZBSP_ prefix):
print 'DESTDIR %s' self.get('DESTDIR')
return True
# Call your script as follows:
if __name__ == "__main__":
from sys import exit
# Create an instance of your Script
myscript = MySchedulerScript()
# call run() and exit() using it's returned value
exit(myscript.run())
############################################################################
### NZBGET POST-PROCESSING/SCHEDULER SCRIPT ###
#
# Describe your Multi Script here
#
# Author: Your Name Goes Here <your@email.address>
#
############################################################################
### OPTIONS ###
#
# Enable NZBGet debug logging (yes, no)
# Debug=no
#
### NZBGET POST-PROCESSING/SCHEDULER SCRIPT ###
############################################################################
from nzbget import PostProcessScript
from nzbget import SchedulerScript
# Now define your class while inheriting the rest
class MyMultiScript(PostProcessScript, SchedulerScript):
def postprocess_main(self, *args, **kwargs):
# Version Checking, Environment Variables Present, etc
if not self.validate():
# No need to document a failure, validate will do that
# on the reason it failed anyway
return False
# write your main function for your Post Processing
return True
def scheduler_main(self, *args, **kwargs):
# Version Checking, Environment Variables Present, etc
if not self.validate():
# No need to document a failure, validate will do that
# on the reason it failed anyway
return False
# write your main function for your Post Processing
return True
# Call your script as follows:
if __name__ == "__main__":
from sys import exit
# Create an instance of your Script
myscript = MyMultiScript()
# call run() and exit() using it's returned value
exit(myscript.run())