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Paperless offers a couple of features that automate certain tasks and make your life easier.

Matching tags, correspondents, document types, and storage paths

Paperless will compare the matching algorithms defined by every tag, correspondent, document type, and storage path in your database to see if they apply to the text in a document. In other words, if you define a tag called Home Utility that had a match property of bc hydro and a matching_algorithm of Exact, Paperless will automatically tag your newly-consumed document with your Home Utility tag so long as the text bc hydro appears in the body of the document somewhere.

The matching logic is quite powerful. It supports searching the text of your document with different algorithms, and as such, some experimentation may be necessary to get things right.

In order to have a tag, correspondent, document type, or storage path assigned automatically to newly consumed documents, assign a match and matching algorithm using the web interface. These settings define when to assign tags, correspondents, document types, and storage paths to documents.

The following algorithms are available:

  • None: No matching will be performed.
  • Any: Looks for any occurrence of any word provided in match in the PDF. If you define the match as Bank1 Bank2, it will match documents containing either of these terms.
  • All: Requires that every word provided appears in the PDF, albeit not in the order provided.
  • Exact: Matches only if the match appears exactly as provided (i.e. preserve ordering) in the PDF.
  • Regular expression: Parses the match as a regular expression and tries to find a match within the document.
  • Fuzzy match: Uses a partial matching based on locating the tag text inside the document, using a partial ratio
  • Auto: Tries to automatically match new documents. This does not require you to set a match. See the notes below.

When using the any or all matching algorithms, you can search for terms that consist of multiple words by enclosing them in double quotes. For example, defining a match text of "Bank of America" BofA using the any algorithm, will match documents that contain either "Bank of America" or "BofA", but will not match documents containing "Bank of South America".

Then just save your tag, correspondent, document type, or storage path and run another document through the consumer. Once complete, you should see the newly-created document, automatically tagged with the appropriate data.

Automatic matching

Paperless-ngx comes with a new matching algorithm called Auto. This matching algorithm tries to assign tags, correspondents, document types, and storage paths to your documents based on how you have already assigned these on existing documents. It uses a neural network under the hood.

If, for example, all your bank statements of your account 123 at the Bank of America are tagged with the tag "bofa123" and the matching algorithm of this tag is set to Auto, this neural network will examine your documents and automatically learn when to assign this tag.

Paperless tries to hide much of the involved complexity with this approach. However, there are a couple caveats you need to keep in mind when using this feature:

  • Changes to your documents are not immediately reflected by the matching algorithm. The neural network needs to be trained on your documents after changes. Paperless periodically (default: once each hour) checks for changes and does this automatically for you.
  • The Auto matching algorithm only takes documents into account which are NOT placed in your inbox (i.e. have any inbox tags assigned to them). This ensures that the neural network only learns from documents which you have correctly tagged before.
  • The matching algorithm can only work if there is a correlation between the tag, correspondent, document type, or storage path and the document itself. Your bank statements usually contain your bank account number and the name of the bank, so this works reasonably well, However, tags such as "TODO" cannot be automatically assigned.
  • The matching algorithm needs a reasonable number of documents to identify when to assign tags, correspondents, storage paths, and types. If one out of a thousand documents has the correspondent "Very obscure web shop I bought something five years ago", it will probably not assign this correspondent automatically if you buy something from them again. The more documents, the better.
  • Paperless also needs a reasonable amount of negative examples to decide when not to assign a certain tag, correspondent, document type, or storage path. This will usually be the case as you start filling up paperless with documents. Example: If all your documents are either from "Webshop" or "Bank", paperless will assign one of these correspondents to ANY new document, if both are set to automatic matching.

Hooking into the consumption process

Sometimes you may want to do something arbitrary whenever a document is consumed. Rather than try to predict what you may want to do, Paperless lets you execute scripts of your own choosing just before or after a document is consumed using a couple of simple hooks.

Just write a script, put it somewhere that Paperless can read & execute, and then put the path to that script in paperless.conf or docker-compose.env with the variable name of either PAPERLESS_PRE_CONSUME_SCRIPT or PAPERLESS_POST_CONSUME_SCRIPT.

Info

These scripts are executed in a blocking process, which means that if a script takes a long time to run, it can significantly slow down your document consumption flow. If you want things to run asynchronously, you'll have to fork the process in your script and exit.

Pre-consumption script

Executed after the consumer sees a new document in the consumption folder, but before any processing of the document is performed. This script can access the following relevant environment variables set:

Environment Variable Description
DOCUMENT_SOURCE_PATH Original path of the consumed document
DOCUMENT_WORKING_PATH Path to a copy of the original that consumption will work on
TASK_ID UUID of the task used to process the new document (if any)

Note

Pre-consume scripts which modify the document should only change the DOCUMENT_WORKING_PATH file or a second consume task may be triggered, leading to failures as two tasks work on the same document path

Warning

If your script modifies DOCUMENT_WORKING_PATH in a non-deterministic way, this may allow duplicate documents to be stored

A simple but common example for this would be creating a simple script like this:

/usr/local/bin/ocr-pdf

#!/usr/bin/env bash
pdf2pdfocr.py -i ${DOCUMENT_WORKING_PATH}

/etc/paperless.conf

...
PAPERLESS_PRE_CONSUME_SCRIPT="/usr/local/bin/ocr-pdf"
...

This will pass the path to the document about to be consumed to /usr/local/bin/ocr-pdf, which will in turn call pdf2pdfocr.py on your document, which will then overwrite the file with an OCR'd version of the file and exit. At which point, the consumption process will begin with the newly modified file.

The script's stdout and stderr will be logged line by line to the webserver log, along with the exit code of the script.

Post-consumption script

Executed after the consumer has successfully processed a document and has moved it into paperless. It receives the following environment variables:

Environment Variable Description
DOCUMENT_ID Database primary key of the document
DOCUMENT_FILE_NAME Formatted filename, not including paths
DOCUMENT_CREATED Date & time when document created
DOCUMENT_MODIFIED Date & time when document was last modified
DOCUMENT_ADDED Date & time when document was added
DOCUMENT_SOURCE_PATH Path to the original document file
DOCUMENT_ARCHIVE_PATH Path to the generate archive file (if any)
DOCUMENT_THUMBNAIL_PATH Path to the generated thumbnail
DOCUMENT_DOWNLOAD_URL URL for document download
DOCUMENT_THUMBNAIL_URL URL for the document thumbnail
DOCUMENT_CORRESPONDENT Assigned correspondent (if any)
DOCUMENT_TAGS Comma separated list of tags applied (if any)
DOCUMENT_ORIGINAL_FILENAME Filename of original document
TASK_ID Task UUID used to import the document (if any)

The script can be in any language, A simple shell script example:

post-consumption-example
#!/usr/bin/env bash

echo "

A document with an id of ${DOCUMENT_ID} was just consumed.  I know the
following additional information about it:

* Generated File Name: ${DOCUMENT_FILE_NAME}
* Archive Path: ${DOCUMENT_ARCHIVE_PATH}
* Source Path: ${DOCUMENT_SOURCE_PATH}
* Created: ${DOCUMENT_CREATED}
* Added: ${DOCUMENT_ADDED}
* Modified: ${DOCUMENT_MODIFIED}
* Thumbnail Path: ${DOCUMENT_THUMBNAIL_PATH}
* Download URL: ${DOCUMENT_DOWNLOAD_URL}
* Thumbnail URL: ${DOCUMENT_THUMBNAIL_URL}
* Correspondent: ${DOCUMENT_CORRESPONDENT}
* Tags: ${DOCUMENT_TAGS}

It was consumed with the passphrase ${PASSPHRASE}

"

Note

The post consumption script cannot cancel the consumption process.

Warning

The post consumption script should not modify the document files directly.

The script's stdout and stderr will be logged line by line to the webserver log, along with the exit code of the script.

Docker

To hook into the consumption process when using Docker, you will need to pass the scripts into the container via a host mount in your docker-compose.yml.

Assuming you have /home/paperless-ngx/scripts/post-consumption-example.sh as a script which you'd like to run.

You can pass that script into the consumer container via a host mount:

...
webserver:
  ...
  volumes:
    ...
    - /home/paperless-ngx/scripts:/path/in/container/scripts/ # (1)!
  environment: # (3)!
    ...
    PAPERLESS_POST_CONSUME_SCRIPT: /path/in/container/scripts/post-consumption-example.sh # (2)!
...
  1. The external scripts directory is mounted to a location inside the container.
  2. The internal location of the script is used to set the script to run
  3. This can also be set in docker-compose.env

Troubleshooting:

  • Monitor the Docker Compose log cd ~/paperless-ngx; docker compose logs -f
  • Check your script's permission e.g. in case of permission error sudo chmod 755 post-consumption-example.sh
  • Pipe your scripts's output to a log file e.g. echo "${DOCUMENT_ID}" | tee --append /usr/src/paperless/scripts/post-consumption-example.log

File name handling

By default, paperless stores your documents in the media directory and renames them using the identifier which it has assigned to each document. You will end up getting files like 0000123.pdf in your media directory. This isn't necessarily a bad thing, because you normally don't have to access these files manually. However, if you wish to name your files differently, you can do that by adjusting the PAPERLESS_FILENAME_FORMAT configuration option or using storage paths (see below). Paperless adds the correct file extension e.g. .pdf, .jpg automatically.

This variable allows you to configure the filename (folders are allowed) using placeholders. For example, configuring this to

PAPERLESS_FILENAME_FORMAT={created_year}/{correspondent}/{title}

will create a directory structure as follows:

2019/
  My bank/
    Statement January.pdf
    Statement February.pdf
2020/
  My bank/
    Statement January.pdf
    Letter.pdf
    Letter_01.pdf
  Shoe store/
    My new shoes.pdf

Warning

Do not manually move your files in the media folder. Paperless remembers the last filename a document was stored as. If you do rename a file, paperless will report your files as missing and won't be able to find them.

Tip

Paperless checks the filename of a document whenever it is saved. Changing (or deleting) a storage path will automatically be reflected in the file system. However, when changing PAPERLESS_FILENAME_FORMAT you will need to manually run the document renamer to move any existing documents.

Placeholders

Paperless provides the following placeholders within filenames:

  • {asn}: The archive serial number of the document, or "none".
  • {correspondent}: The name of the correspondent, or "none".
  • {document_type}: The name of the document type, or "none".
  • {tag_list}: A comma separated list of all tags assigned to the document.
  • {title}: The title of the document.
  • {created}: The full date (ISO format) the document was created.
  • {created_year}: Year created only, formatted as the year with century.
  • {created_year_short}: Year created only, formatted as the year without century, zero padded.
  • {created_month}: Month created only (number 01-12).
  • {created_month_name}: Month created name, as per locale
  • {created_month_name_short}: Month created abbreviated name, as per locale
  • {created_day}: Day created only (number 01-31).
  • {added}: The full date (ISO format) the document was added to paperless.
  • {added_year}: Year added only.
  • {added_year_short}: Year added only, formatted as the year without century, zero padded.
  • {added_month}: Month added only (number 01-12).
  • {added_month_name}: Month added name, as per locale
  • {added_month_name_short}: Month added abbreviated name, as per locale
  • {added_day}: Day added only (number 01-31).
  • {owner_username}: Username of document owner, if any, or "none"
  • {original_name}: Document original filename, minus the extension, if any, or "none"
  • {doc_pk}: The paperless identifier (primary key) for the document.

Warning

When using file name placeholders, in particular when using {tag_list}, you may run into the limits of your operating system's maximum path lengths. In that case, files will retain the previous path instead and the issue logged.

Paperless will try to conserve the information from your database as much as possible. However, some characters that you can use in document titles and correspondent names (such as : \ / and a couple more) are not allowed in filenames and will be replaced with dashes.

If paperless detects that two documents share the same filename, paperless will automatically append _01, _02, etc to the filename. This happens if all the placeholders in a filename evaluate to the same value.

If there are any errors in the placeholders included in PAPERLESS_FILENAME_FORMAT, paperless will fall back to using the default naming scheme instead.

Caution

As of now, you could potentially tell paperless to store your files anywhere outside the media directory by setting

PAPERLESS_FILENAME_FORMAT=../../my/custom/location/{title}

However, keep in mind that inside docker, if files get stored outside of the predefined volumes, they will be lost after a restart.

Empty placeholders

You can affect how empty placeholders are treated by changing the PAPERLESS_FILENAME_FORMAT_REMOVE_NONE setting.

Enabling this results in all empty placeholders resolving to "" instead of "none" as stated above. Spaces before empty placeholders are removed as well, empty directories are omitted.

Storage paths

When a single storage layout is not sufficient for your use case, storage paths allow for more complex structure to set precisely where each document is stored in the file system.

  • Each storage path is a PAPERLESS_FILENAME_FORMAT and follows the rules described above
  • Each document is assigned a storage path using the matching algorithms described above, but can be overwritten at any time

For example, you could define the following two storage paths:

  1. Normal communications are put into a folder structure sorted by year/correspondent
  2. Communications with insurance companies are stored in a flat structure with longer file names, but containing the full date of the correspondence.
By Year = {created_year}/{correspondent}/{title}
Insurances = Insurances/{correspondent}/{created_year}-{created_month}-{created_day} {title}

If you then map these storage paths to the documents, you might get the following result. For simplicity, By Year defines the same structure as in the previous example above.

2019/                                   # By Year
   My bank/
     Statement January.pdf
     Statement February.pdf

Insurances/                             # Insurances
   Healthcare 123/
     2022-01-01 Statement January.pdf
     2022-02-02 Letter.pdf
     2022-02-03 Letter.pdf
   Dental 456/
     2021-12-01 New Conditions.pdf

Tip

Defining a storage path is optional. If no storage path is defined for a document, the global PAPERLESS_FILENAME_FORMAT is applied.

Celery Monitoring

The monitoring tool Flower can be used to view more detailed information about the health of the celery workers used for asynchronous tasks. This includes details on currently running, queued and completed tasks, timing and more. Flower can also be used with Prometheus, as it exports metrics. For details on its capabilities, refer to the Flower documentation.

Flower can be enabled with the setting PAPERLESS_ENABLE_FLOWER. To configure Flower further, create a flowerconfig.py and place it into the src/paperless directory. For a Docker installation, you can use volumes to accomplish this:

services:
  # ...
  webserver:
    environment:
      - PAPERLESS_ENABLE_FLOWER
    ports:
      - 5555:5555 # (2)!
    # ...
    volumes:
      - /path/to/my/flowerconfig.py:/usr/src/paperless/src/paperless/flowerconfig.py:ro # (1)!
  1. Note the :ro tag means the file will be mounted as read only.
  2. By default, Flower runs on port 5555, but this can be configured.

Custom Container Initialization

The Docker image includes the ability to run custom user scripts during startup. This could be utilized for installing additional tools or Python packages, for example. Scripts are expected to be shell scripts.

To utilize this, mount a folder containing your scripts to the custom initialization directory, /custom-cont-init.d and place scripts you wish to run inside. For security, the folder must be owned by root and should have permissions of a=rx. Additionally, scripts must only be writable by root.

Your scripts will be run directly before the webserver completes startup. Scripts will be run by the root user. If you would like to switch users, the utility gosu is available and preferred over sudo.

This is an advanced functionality with which you could break functionality or lose data. If you experience issues, please disable any custom scripts and try again before reporting an issue.

For example, using Docker Compose:

services:
  # ...
  webserver:
    # ...
    volumes:
      - /path/to/my/scripts:/custom-cont-init.d:ro # (1)!
  1. Note the :ro tag means the folder will be mounted as read only. This is for extra security against changes

MySQL Caveats

Case Sensitivity

The database interface does not provide a method to configure a MySQL database to be case sensitive. This would prevent a user from creating a tag Name and NAME as they are considered the same.

Per Django documentation, to enable this requires manual intervention. To enable case sensitive tables, you can execute the following command against each table:

ALTER TABLE <table_name> CONVERT TO CHARACTER SET utf8mb4 COLLATE utf8mb4_bin;

You can also set the default for new tables (this does NOT affect existing tables) with:

ALTER DATABASE <db_name> CHARACTER SET utf8mb4 COLLATE utf8mb4_bin;

Warning

Using mariadb version 10.4+ is recommended. Using the utf8mb3 character set on an older system may fix issues that can arise while setting up Paperless-ngx but utf8mb3 can cause issues with consumption (where utf8mb4 does not).

Missing timezones

MySQL as well as MariaDB do not have any timezone information by default (though some docker images such as the official MariaDB image take care of this for you) which will cause unexpected behavior with date-based queries.

To fix this, execute one of the following commands:

MySQL: mysql_tzinfo_to_sql /usr/share/zoneinfo | mysql -u root mysql -p

MariaDB: mariadb-tzinfo-to-sql /usr/share/zoneinfo | mariadb -u root mysql -p

Barcodes

Paperless is able to utilize barcodes for automatically performing some tasks.

At this time, the library utilized for detection of barcodes supports the following types:

  • AN-13/UPC-A
  • UPC-E
  • EAN-8
  • Code 128
  • Code 93
  • Code 39
  • Codabar
  • Interleaved 2 of 5
  • QR Code
  • SQ Code

You may check for updates on the zbar library homepage. For usage in Paperless, the type of barcode does not matter, only the contents of it.

For how to enable barcode usage, see the configuration. The two settings may be enabled independently, but do have interactions as explained below.

Document Splitting

When enabled, Paperless will look for a barcode with the configured value and create a new document starting from the next page. The page with the barcode on it will not be retained. It is expected to be a page existing only for triggering the split.

Archive Serial Number Assignment

When enabled, the value of the barcode (as an integer) will be used to set the document's archive serial number, allowing quick reference back to the original, paper document.

If document splitting via barcode is also enabled, documents will be split when an ASN barcode is located. However, differing from the splitting, the page with the barcode will be retained. This allows application of a barcode to any page, including one which holds data to keep in the document.

Tag Assignment

When enabled, Paperless will parse barcodes and attempt to interpret and assign tags.

See the relevant settings PAPERLESS_CONSUMER_ENABLE_TAG_BARCODE and PAPERLESS_CONSUMER_TAG_BARCODE_MAPPING for more information.

Automatic collation of double-sided documents

Note

If your scanner supports double-sided scanning natively, you do not need this feature.

This feature is turned off by default, see configuration on how to turn it on.

Summary

If you have a scanner with an automatic document feeder (ADF) that only scans a single side, this feature makes scanning double-sided documents much more convenient by automatically collating two separate scans into one document, reordering the pages as necessary.

Usage example

Suppose you have a double-sided document with 6 pages (3 sheets of paper). First, put the stack into your ADF as normal, ensuring that page 1 is scanned first. Your ADF will now scan pages 1, 3, and 5. Then you (or your scanner, if it supports it) upload the scan into the correct sub-directory of the consume folder (double-sided by default; keep in mind that Paperless will not automatically create the directory for you.) Paperless will then process the scan and move it into an internal staging area.

The next step is to turn your stack upside down (without reordering the sheets of paper), and scan it once again, your ADF will now scan pages 6, 4, and 2, in that order. Once this scan is copied into the sub-directory, Paperless will collate the previous scan with the new one, reversing the order of the pages on the second, "even numbered" scan. The resulting document will have the pages 1-6 in the correct order, and this new file will then be processed as normal.

Tip

When scanning the even numbered pages, you can omit the last empty pages, if there are any. For example, if page 6 is empty, you only need to scan pages 2 and 4. Do not omit empty pages in the middle of the document.

Things that could go wrong

Paperless will notice when the first, "odd numbered" scan has less pages than the second scan (this can happen when e.g. the ADF skipped a few pages in the first pass). In that case, Paperless will remove the staging copy as well as the scan, and give you an error message asking you to restart the process from scratch, by scanning the odd pages again, followed by the even pages.

It's important that the scan files get consumed in the correct order, and one at a time. You therefore need to make sure that Paperless is running while you upload the files into the directory; and if you're using polling, make sure that CONSUMER_POLLING is set to a value lower than it takes for the second scan to appear, like 5-10 or even lower.

Another thing that might happen is that you start a double sided scan, but then forget to upload the second file. To avoid collating the wrong documents if you then come back a day later to scan a new double-sided document, Paperless will only keep an "odd numbered pages" file for up to 30 minutes. If more time passes, it will consider the next incoming scan a completely new "odd numbered pages" one. The old staging file will get discarded.

Interaction with "subdirs as tags"

The collation feature can be used together with the subdirs as tags feature (but this is not a requirement). Just create a correctly named double-sided subdir in the hierarchy and upload your scans there. For example, both double-sided/foo/bar as well as foo/bar/double-sided will cause the collated document to be treated as if it were uploaded into foo/bar and receive both foo and bar tags, but not double-sided.

Interaction with document splitting

You can use the document splitting feature, but if you use a normal single-sided split marker page, the split document(s) will have an empty page at the front (or whatever else was on the backside of the split marker page.) You can work around that by having a split marker page that has the split barcode on both sides. This way, the extra page will get automatically removed.

SSO and third party authentication with Paperless-ngx

Paperless-ngx has a built-in authentication system from Django but you can easily integrate an external authentication solution using one of the following methods:

Remote User authentication

This is a simple option that uses remote user authentication made available by certain SSO applications. See the relevant configuration options for more information: PAPERLESS_ENABLE_HTTP_REMOTE_USER, PAPERLESS_HTTP_REMOTE_USER_HEADER_NAME and PAPERLESS_LOGOUT_REDIRECT_URL

OpenID Connect and social authentication

Version 2.5.0 of Paperless-ngx added support for integrating other authentication systems via the django-allauth package. Once set up, users can either log in or (optionally) sign up using any third party systems you integrate. See the relevant configuration settings and django-allauth docs for more information.

To associate an existing Paperless-ngx account with a social account, first login with your regular credentials and then choose "My Profile" from the user dropdown in the app and you will see options to connect social account(s). If enabled, signup options will be available on the login page.

As an example, to set up login via Github, the following environment variables would need to be set:

PAPERLESS_APPS="allauth.socialaccount.providers.github"
PAPERLESS_SOCIALACCOUNT_PROVIDERS='{"github": {"APPS": [{"provider_id": "github","name": "Github","client_id": "<CLIENT_ID>","secret": "<CLIENT_SECRET>"}]}}'

Or, to use OpenID Connect ("OIDC"), via Keycloak in this example:

PAPERLESS_APPS="allauth.socialaccount.providers.openid_connect"
PAPERLESS_SOCIALACCOUNT_PROVIDERS='
{"openid_connect": {"APPS": [{"provider_id": "keycloak","name": "Keycloak","client_id": "paperless","secret": "<CLIENT_SECRET>","settings": { "server_url": "https://<KEYCLOAK_SERVER>/realms/<REALM>/.well-known/openid-configuration"}}]}}'

More details about configuration option for various providers can be found in the allauth documentation.

Disabling Regular Login

Once external auth is set up, 'regular' login can be disabled with the PAPERLESS_DISABLE_REGULAR_LOGIN setting.