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ChatGPT Retrieval Plugin

Join the ChatGPT plugins waitlist here!

Find an example video of a Retrieval Plugin that has access to the UN Annual Reports from 2018 to 2022 here.

Introduction

The ChatGPT Retrieval Plugin repository provides a flexible solution for semantic search and retrieval of personal or organizational documents using natural language queries. The repository is organized into several directories:

Directory Description
datastore Contains the core logic for storing and querying document embeddings using various vector database providers.
docs Includes documentation for setting up and using each vector database provider, webhooks, and removing unused dependencies.
examples Provides example configurations, authentication methods, and provider-specific examples.
local_server Contains an implementation of the retrieval plugin configured for localhost testing.
models Contains the data models used by the plugin, such as document and metadata models.
scripts Offers scripts for processing and uploading documents from different data sources.
server Houses the main FastAPI server implementation.
services Contains utility services for tasks like chunking, metadata extraction, and PII detection.
tests Includes integration tests for various vector database providers.
.well-known Stores the plugin manifest file and OpenAPI schema, which define the plugin configuration and API specification.

This README provides detailed information on how to set up, develop, and deploy the ChatGPT Retrieval Plugin.

Table of Contents

Quickstart

Follow these steps to quickly set up and run the ChatGPT Retrieval Plugin:

  1. Install Python 3.10, if not already installed.

  2. Clone the repository: git clone https://github.com/openai/chatgpt-retrieval-plugin.git

  3. Navigate to the cloned repository directory: cd /path/to/chatgpt-retrieval-plugin

  4. Install poetry: pip install poetry

  5. Create a new virtual environment with Python 3.10: poetry env use python3.10

  6. Activate the virtual environment: poetry shell

  7. Install app dependencies: poetry install

  8. Create a bearer token

  9. Set the required environment variables:

    export DATASTORE=<your_datastore>
    export BEARER_TOKEN=<your_bearer_token>
    export OPENAI_API_KEY=<your_openai_api_key>
    
    # Optional environment variables used when running Azure OpenAI
    export OPENAI_API_BASE=https://<AzureOpenAIName>.openai.azure.com/
    export OPENAI_API_TYPE=azure
    export OPENAI_EMBEDDINGMODEL_DEPLOYMENTID=<Name of text-embedding-ada-002 model deployment>
    export OPENAI_METADATA_EXTRACTIONMODEL_DEPLOYMENTID=<Name of deployment of model for metatdata>
    export OPENAI_COMPLETIONMODEL_DEPLOYMENTID=<Name of general model deployment used for completion>
    export OPENAI_EMBEDDING_BATCH_SIZE=<Batch size of embedding, for AzureOAI, this value need to be set as 1>
    
    # Add the environment variables for your chosen vector DB.
    # Some of these are optional; read the provider's setup docs in /docs/providers for more information.
    
    # Pinecone
    export PINECONE_API_KEY=<your_pinecone_api_key>
    export PINECONE_ENVIRONMENT=<your_pinecone_environment>
    export PINECONE_INDEX=<your_pinecone_index>
    
    # Weaviate
    export WEAVIATE_URL=<your_weaviate_instance_url>
    export WEAVIATE_API_KEY=<your_api_key_for_WCS>
    export WEAVIATE_CLASS=<your_optional_weaviate_class>
    
    # Zilliz
    export ZILLIZ_COLLECTION=<your_zilliz_collection>
    export ZILLIZ_URI=<your_zilliz_uri>
    export ZILLIZ_USER=<your_zilliz_username>
    export ZILLIZ_PASSWORD=<your_zilliz_password>
    
    # Milvus
    export MILVUS_COLLECTION=<your_milvus_collection>
    export MILVUS_HOST=<your_milvus_host>
    export MILVUS_PORT=<your_milvus_port>
    export MILVUS_USER=<your_milvus_username>
    export MILVUS_PASSWORD=<your_milvus_password>
    
    # Qdrant
    export QDRANT_URL=<your_qdrant_url>
    export QDRANT_PORT=<your_qdrant_port>
    export QDRANT_GRPC_PORT=<your_qdrant_grpc_port>
    export QDRANT_API_KEY=<your_qdrant_api_key>
    export QDRANT_COLLECTION=<your_qdrant_collection>
    
    # AnalyticDB
    export PG_HOST=<your_analyticdb_host>
    export PG_PORT=<your_analyticdb_port>
    export PG_USER=<your_analyticdb_username>
    export PG_PASSWORD=<your_analyticdb_password>
    export PG_DATABASE=<your_analyticdb_database>
    export PG_COLLECTION=<your_analyticdb_collection>
    
    
    # Redis
    export REDIS_HOST=<your_redis_host>
    export REDIS_PORT=<your_redis_port>
    export REDIS_PASSWORD=<your_redis_password>
    export REDIS_INDEX_NAME=<your_redis_index_name>
    export REDIS_DOC_PREFIX=<your_redis_doc_prefix>
    export REDIS_DISTANCE_METRIC=<your_redis_distance_metric>
    export REDIS_INDEX_TYPE=<your_redis_index_type>
    
    # Llama
    export LLAMA_INDEX_TYPE=<gpt_vector_index_type>
    export LLAMA_INDEX_JSON_PATH=<path_to_saved_index_json_file>
    export LLAMA_QUERY_KWARGS_JSON_PATH=<path_to_saved_query_kwargs_json_file>
    export LLAMA_RESPONSE_MODE=<response_mode_for_query>
    
    # Chroma
    export CHROMA_COLLECTION=<your_chroma_collection>
    export CHROMA_IN_MEMORY=<true_or_false>
    export CHROMA_PERSISTENCE_DIR=<your_chroma_persistence_directory>
    export CHROMA_HOST=<your_chroma_host>
    export CHROMA_PORT=<your_chroma_port>
    
    # Azure Cognitive Search
    export AZURESEARCH_SERVICE=<your_search_service_name>
    export AZURESEARCH_INDEX=<your_search_index_name>
    export AZURESEARCH_API_KEY=<your_api_key> (optional, uses key-free managed identity if not set)
    
    # Supabase
    export SUPABASE_URL=<supabase_project_url>
    export SUPABASE_ANON_KEY=<supabase_project_api_anon_key>
    
    # Postgres
    export PG_HOST=<postgres_host>
    export PG_PORT=<postgres_port>
    export PG_USER=<postgres_user>
    export PG_PASSWORD=<postgres_password>
    export PG_DATABASE=<postgres_database>
    
  10. Run the API locally: poetry run start

  11. Access the API documentation at http://0.0.0.0:8000/docs and test the API endpoints (make sure to add your bearer token).

Testing in ChatGPT

To test a locally hosted plugin in ChatGPT, follow these steps:

  1. Run the API on localhost: poetry run dev
  2. Follow the instructions in the Testing a Localhost Plugin in ChatGPT section of the README.

For more detailed information on setting up, developing, and deploying the ChatGPT Retrieval Plugin, refer to the full Development section below.

About

Plugins

Plugins are chat extensions designed specifically for language models like ChatGPT, enabling them to access up-to-date information, run computations, or interact with third-party services in response to a user's request. They unlock a wide range of potential use cases and enhance the capabilities of language models.

Developers can create a plugin by exposing an API through their website and providing a standardized manifest file that describes the API. ChatGPT consumes these files and allows the AI models to make calls to the API defined by the developer.

A plugin consists of:

  • An API
  • An API schema (OpenAPI JSON or YAML format)
  • A manifest (JSON file) that defines relevant metadata for the plugin

The Retrieval Plugin already contains all of these components. Read the Chat Plugins blogpost here, and find the docs here.

Retrieval Plugin

This is a plugin for ChatGPT that enables semantic search and retrieval of personal or organizational documents. It allows users to obtain the most relevant document snippets from their data sources, such as files, notes, or emails, by asking questions or expressing needs in natural language. Enterprises can make their internal documents available to their employees through ChatGPT using this plugin.

The plugin uses OpenAI's text-embedding-ada-002 embeddings model to generate embeddings of document chunks, and then stores and queries them using a vector database on the backend. As an open-source and self-hosted solution, developers can deploy their own Retrieval Plugin and register it with ChatGPT. The Retrieval Plugin supports several vector database providers, allowing developers to choose their preferred one from a list.

A FastAPI server exposes the plugin's endpoints for upserting, querying, and deleting documents. Users can refine their search results by using metadata filters by source, date, author, or other criteria. The plugin can be hosted on any cloud platform that supports Docker containers, such as Fly.io, Heroku, Render, or Azure Container Apps. To keep the vector database updated with the latest documents, the plugin can process and store documents from various data sources continuously, using incoming webhooks to the upsert and delete endpoints. Tools like Zapier or Make can help configure the webhooks based on events or schedules.

Memory Feature

A notable feature of the Retrieval Plugin is its capacity to provide ChatGPT with memory. By utilizing the plugin's upsert endpoint, ChatGPT can save snippets from the conversation to the vector database for later reference (only when prompted to do so by the user). This functionality contributes to a more context-aware chat experience by allowing ChatGPT to remember and retrieve information from previous conversations. Learn how to configure the Retrieval Plugin with memory here.

Security

The Retrieval Plugin allows ChatGPT to search a vector database of content, and then add the best results into the ChatGPT session. This means it doesn’t have any external effects, and the main risk consideration is data authorization and privacy. Developers should only add content into their Retrieval Plugin that they have authorization for and that they are fine with appearing in users’ ChatGPT sessions. You can choose from a number of different authentication methods to secure the plugin (more information here).

API Endpoints

The Retrieval Plugin is built using FastAPI, a web framework for building APIs with Python. FastAPI allows for easy development, validation, and documentation of API endpoints. Find the FastAPI documentation here.

One of the benefits of using FastAPI is the automatic generation of interactive API documentation with Swagger UI. When the API is running locally, Swagger UI at <local_host_url i.e. http://0.0.0.0:8000>/docs can be used to interact with the API endpoints, test their functionality, and view the expected request and response models.

The plugin exposes the following endpoints for upserting, querying, and deleting documents from the vector database. All requests and responses are in JSON format, and require a valid bearer token as an authorization header.

  • /upsert: This endpoint allows uploading one or more documents and storing their text and metadata in the vector database. The documents are split into chunks of around 200 tokens, each with a unique ID. The endpoint expects a list of documents in the request body, each with a text field, and optional id and metadata fields. The metadata field can contain the following optional subfields: source, source_id, url, created_at, and author. The endpoint returns a list of the IDs of the inserted documents (an ID is generated if not initially provided).

  • /upsert-file: This endpoint allows uploading a single file (PDF, TXT, DOCX, PPTX, or MD) and storing its text and metadata in the vector database. The file is converted to plain text and split into chunks of around 200 tokens, each with a unique ID. The endpoint returns a list containing the generated id of the inserted file.

  • /query: This endpoint allows querying the vector database using one or more natural language queries and optional metadata filters. The endpoint expects a list of queries in the request body, each with a query and optional filter and top_k fields. The filter field should contain a subset of the following subfields: source, source_id, document_id, url, created_at, and author. The top_k field specifies how many results to return for a given query, and the default value is 3. The endpoint returns a list of objects that each contain a list of the most relevant document chunks for the given query, along with their text, metadata and similarity scores.

  • /delete: This endpoint allows deleting one or more documents from the vector database using their IDs, a metadata filter, or a delete_all flag. The endpoint expects at least one of the following parameters in the request body: ids, filter, or delete_all. The ids parameter should be a list of document IDs to delete; all document chunks for the document with these IDS will be deleted. The filter parameter should contain a subset of the following subfields: source, source_id, document_id, url, created_at, and author. The delete_all parameter should be a boolean indicating whether to delete all documents from the vector database. The endpoint returns a boolean indicating whether the deletion was successful.

The detailed specifications and examples of the request and response models can be found by running the app locally and navigating to http://0.0.0.0:8000/openapi.json, or in the OpenAPI schema here. Note that the OpenAPI schema only contains the /query endpoint, because that is the only function that ChatGPT needs to access. This way, ChatGPT can use the plugin only to retrieve relevant documents based on natural language queries or needs. However, if developers want to also give ChatGPT the ability to remember things for later, they can use the /upsert endpoint to save snippets from the conversation to the vector database. An example of a manifest and OpenAPI schema that gives ChatGPT access to the /upsert endpoint can be found here.

To include custom metadata fields, edit the DocumentMetadata and DocumentMetadataFilter data models here, and update the OpenAPI schema here. You can update this easily by running the app locally, copying the JSON found at http://0.0.0.0:8000/sub/openapi.json, and converting it to YAML format with Swagger Editor. Alternatively, you can replace the openapi.yaml file with an openapi.json file.

Development

Setup

This app uses Python 3.10, and poetry for dependency management.

Install Python 3.10 on your machine if it isn't already installed. It can be downloaded from the official Python website or with a package manager like brew or apt, depending on your system.

Clone the repository from GitHub:

git clone https://github.com/openai/chatgpt-retrieval-plugin.git

Navigate to the cloned repository directory:

cd /path/to/chatgpt-retrieval-plugin

Install poetry:

pip install poetry

Create a new virtual environment that uses Python 3.10:

poetry env use python3.10
poetry shell

Install app dependencies using poetry:

poetry install

Note: If adding dependencies in the pyproject.toml, make sure to run poetry lock and poetry install.

General Environment Variables

The API requires the following environment variables to work:

Name Required Description
DATASTORE Yes This specifies the vector database provider you want to use to store and query embeddings. You can choose from chroma, pinecone, weaviate, zilliz, milvus, qdrant, redis, azuresearch, supabase, postgres, analyticdb.
BEARER_TOKEN Yes This is a secret token that you need to authenticate your requests to the API. You can generate one using any tool or method you prefer, such as jwt.io.
OPENAI_API_KEY Yes This is your OpenAI API key that you need to generate embeddings using the text-embedding-ada-002 model. You can get an API key by creating an account on OpenAI.

Using the plugin with Azure OpenAI

The Azure Open AI uses URLs that are specific to your resource and references models not by model name but by the deployment id. As a result, you need to set additional environment variables for this case.

In addition to the OPENAI_API_BASE (your specific URL) and OPENAI_API_TYPE (azure), you should also set OPENAI_EMBEDDINGMODEL_DEPLOYMENTID which specifies the model to use for getting embeddings on upsert and query. For this, we recommend deploying text-embedding-ada-002 model and using the deployment name here.

If you wish to use the data preparation scripts, you will also need to set OPENAI_METADATA_EXTRACTIONMODEL_DEPLOYMENTID, used for metadata extraction and OPENAI_COMPLETIONMODEL_DEPLOYMENTID, used for PII handling.

Choosing a Vector Database

The plugin supports several vector database providers, each with different features, performance, and pricing. Depending on which one you choose, you will need to use a different Dockerfile and set different environment variables. The following sections provide brief introductions to each vector database provider.

For more detailed instructions on setting up and using each vector database provider, please refer to the respective documentation in the /docs/providers/<datastore_name>/setup.md file (folders here).

Pinecone

Pinecone is a managed vector database designed for speed, scale, and rapid deployment to production. It supports hybrid search and is currently the only datastore to natively support SPLADE sparse vectors. For detailed setup instructions, refer to /docs/providers/pinecone/setup.md.

Weaviate

Weaviate is an open-source vector search engine built to scale seamlessly into billions of data objects. It supports hybrid search out-of-the-box, making it suitable for users who require efficient keyword searches. Weaviate can be self-hosted or managed, offering flexibility in deployment. For detailed setup instructions, refer to /docs/providers/weaviate/setup.md.

Zilliz

Zilliz is a managed cloud-native vector database designed for billion-scale data. It offers a wide range of features, including multiple indexing algorithms, distance metrics, scalar filtering, time travel searches, rollback with snapshots, full RBAC, 99.9% uptime, separated storage and compute, and multi-language SDKs. For detailed setup instructions, refer to /docs/providers/zilliz/setup.md.

Milvus

Milvus is an open-source, cloud-native vector database that scales to billions of vectors. It is the open-source version of Zilliz and shares many of its features, such as various indexing algorithms, distance metrics, scalar filtering, time travel searches, rollback with snapshots, multi-language SDKs, storage and compute separation, and cloud scalability. For detailed setup instructions, refer to /docs/providers/milvus/setup.md.

Qdrant

Qdrant is a vector database capable of storing documents and vector embeddings. It offers both self-hosted and managed Qdrant Cloud deployment options, providing flexibility for users with different requirements. For detailed setup instructions, refer to /docs/providers/qdrant/setup.md.

Redis

Redis is a real-time data platform suitable for a variety of use cases, including everyday applications and AI/ML workloads. It can be used as a low-latency vector engine by creating a Redis database with the Redis Stack docker container. For a hosted/managed solution, Redis Cloud is available. For detailed setup instructions, refer to /docs/providers/redis/setup.md.

LlamaIndex

LlamaIndex is a central interface to connect your LLM's with external data. It provides a suite of in-memory indices over your unstructured and structured data for use with ChatGPT. Unlike standard vector databases, LlamaIndex supports a wide range of indexing strategies (e.g. tree, keyword table, knowledge graph) optimized for different use-cases. It is light-weight, easy-to-use, and requires no additional deployment. All you need to do is specifying a few environment variables (optionally point to an existing saved Index json file). Note that metadata filters in queries are not yet supported. For detailed setup instructions, refer to /docs/providers/llama/setup.md.

Chroma

Chroma is an AI-native open-source embedding database designed to make getting started as easy as possible. Chroma runs in-memory, or in a client-server setup. It supports metadata and keyword filtering out of the box. For detailed instructions, refer to /docs/providers/chroma/setup.md.

Azure Cognitive Search

Azure Cognitive Search is a complete retrieval cloud service that supports vector search, text search, and hybrid (vectors + text combined to yield the best of the two approaches). It also offers an optional L2 re-ranking step to further improve results quality. For detailed setup instructions, refer to /docs/providers/azuresearch/setup.md

Supabase

Supabase offers an easy and efficient way to store vectors via pgvector extension for Postgres Database. You can use Supabase CLI to set up a whole Supabase stack locally or in the cloud or you can also use docker-compose, k8s and other options available. For a hosted/managed solution, try Supabase.com and unlock the full power of Postgres with built-in authentication, storage, auto APIs, and Realtime features. For detailed setup instructions, refer to /docs/providers/supabase/setup.md.

Postgres

Postgres offers an easy and efficient way to store vectors via pgvector extension. To use pgvector, you will need to set up a PostgreSQL database with the pgvector extension enabled. For example, you can use docker to run locally. For a hosted/managed solution, you can use any of the cloud vendors which support pgvector. For detailed setup instructions, refer to /docs/providers/postgres/setup.md.

AnalyticDB

AnalyticDB is a distributed cloud-native vector database designed for storing documents and vector embeddings. It is fully compatible with PostgreSQL syntax and managed by Alibaba Cloud. AnalyticDB offers a powerful vector compute engine, processing billions of data vectors and providing features such as indexing algorithms, structured and unstructured data capabilities, real-time updates, distance metrics, scalar filtering, and time travel searches. For detailed setup instructions, refer to /docs/providers/analyticdb/setup.md.

Running the API locally

To run the API locally, you first need to set the requisite environment variables with the export command:

export DATASTORE=<your_datastore>
export BEARER_TOKEN=<your_bearer_token>
export OPENAI_API_KEY=<your_openai_api_key>
<Add the environment variables for your chosen vector DB here>

Start the API with:

poetry run start

Append docs to the URL shown in the terminal and open it in a browser to access the API documentation and try out the endpoints (i.e. http://0.0.0.0:8000/docs). Make sure to enter your bearer token and test the API endpoints.

Note: If you add new dependencies to the pyproject.toml file, you need to run poetry lock and poetry install to update the lock file and install the new dependencies.

Testing a Localhost Plugin in ChatGPT

To test a localhost plugin in ChatGPT, use the provided local_server/main.py file, which is specifically configured for localhost testing with CORS settings, no authentication and routes for the manifest, OpenAPI schema and logo.

Follow these steps to test your localhost plugin:

  1. Run the localhost server using the poetry run dev command. This starts the server at the default address (e.g. localhost:3333).

  2. Visit ChatGPT, select "Plugins" from the model picker, click on the plugins picker, and click on "Plugin store" at the bottom of the list.

  3. Choose "Develop your own plugin" and enter your localhost URL (e.g. localhost:3333) when prompted.

  4. Your localhost plugin is now enabled for your ChatGPT session.

For more information, refer to the OpenAI documentation.

Personalization

You can personalize the Retrieval Plugin for your own use case by doing the following:

  • Replace the logo: Replace the image in logo.png with your own logo.

  • Edit the data models: Edit the DocumentMetadata and DocumentMetadataFilter data models in models.py to add custom metadata fields. Update the OpenAPI schema in openapi.yaml accordingly. To update the OpenAPI schema more easily, you can run the app locally, then navigate to http://0.0.0.0:8000/sub/openapi.json and copy the contents of the webpage. Then go to Swagger Editor and paste in the JSON to convert it to a YAML format. You could also replace the openapi.yaml file with an openapi.json file in the .well-known folder.

  • Change the plugin name, description, and usage instructions: Update the plugin name, user-facing description, and usage instructions for the model. You can either edit the descriptions in the main.py file or update the openapi.yaml file. Follow the same instructions as in the previous step to update the OpenAPI schema.

  • Enable ChatGPT to save information from conversations: See the instructions in the memory example folder.

Authentication Methods

You can choose from four options for authenticating requests to your plugin:

  1. No Authentication: Anyone can add your plugin and use its API without any credentials. This option is suitable if you are only exposing documents that are not sensitive or already public. It provides no security for your data. If using this method, copy the contents of this main.py into the actual main.py file. Example manifest here.

  2. HTTP Bearer: You can use a secret token as a header to authorize requests to your plugin. There are two variants of this option:

    • User Level (default for this implementation): Each user who adds your plugin to ChatGPT must provide the bearer token when adding the plugin. You can generate and distribute these tokens using any tool or method you prefer, such as jwt.io. This method provides better security as each user has to enter the shared access token. If you require a unique access token for each user, you will need to implement this yourself in the main.py file. Example manifest here.

    • Service Level: Anyone can add your plugin and use its API without credentials, but you must add a bearer token when registering the plugin. When you install your plugin, you need to add your bearer token, and will then receive a token from ChatGPT that you must include in your hosted manifest file. Your token will be used by ChatGPT to authorize requests to your plugin on behalf of all users who add it. This method is more convenient for users, but it may be less secure as all users share the same token and do not need to add a token to install the plugin. Example manifest here.

  3. OAuth: Users must go through an OAuth flow to add your plugin. You can use an OAuth provider to authenticate users who add your plugin and grant them access to your API. This method offers the highest level of security and control, as users authenticate through a trusted third-party provider. However, you will need to implement the OAuth flow yourself in the main.py file and provide the necessary parameters in your manifest file. Example manifest here.

Consider the benefits and drawbacks of each authentication method before choosing the one that best suits your use case and security requirements. If you choose to use a method different to the default (User Level HTTP), make sure to update the manifest file here.

Deployment

You can deploy your app to different cloud providers, depending on your preferences and requirements. However, regardless of the provider you choose, you will need to update two files in your app: openapi.yaml and ai-plugin.json. As outlined above, these files define the API specification and the AI plugin configuration for your app, respectively. You need to change the url field in both files to match the address of your deployed app.

Render has a 1-click deploy option that automatically updates the url field in both files:

Deploy to Render

Before deploying your app, you might want to remove unused dependencies from your pyproject.toml file to reduce the size of your app and improve its performance. Depending on the vector database provider you choose, you can remove the packages that are not needed for your specific provider. Refer to the respective documentation in the /docs/deployment/removing-unused-dependencies.md file for information on removing unused dependencies for each provider.

Instructions:

Once you have deployed your app, consider uploading an initial batch of documents using one of these scripts or by calling the /upsert endpoint.

Installing a Developer Plugin

To install a developer plugin, follow the steps below:

  • First, create your developer plugin by deploying it to your preferred hosting platform (e.g. Fly.io, Heroku, etc.) and updating the plugin URL in the manifest file and OpenAPI schema.

  • Go to ChatGPT and select "Plugins" from the model picker.

  • From the plugins picker, scroll to the bottom and click on "Plugin store."

  • Go to "Develop your own plugin" and follow the instructions provided. You will need to enter the domain where your plugin is deployed.

  • Follow the instructions based on the authentication type you have chosen for your plugin (e.g. if your plugin uses Service Level HTTP, you will have to paste in your access token, then paste the new access token you receive from the plugin flow into your ai-plugin.json file and redeploy your app).

  • Next, you must add your plugin. Go to the "Plugin store" again and click on "Install an unverified plugin."

  • Follow the instructions provided, which will require you to enter the domain where your plugin is deployed.

  • Follow the instructions based on the authentication type you have chosen for your plugin (e.g. if your plugin uses User Level HTTP, you will have to paste in your bearer token).

After completing these steps, your developer plugin should be installed and ready to use in ChatGPT.

Webhooks

To keep the documents stored in the vector database up-to-date, consider using tools like Zapier or Make to configure incoming webhooks to your plugin's API based on events or schedules. For example, this could allow you to sync new information as you update your notes or receive emails. You can also use a Zapier Transfer to batch process a collection of existing documents and upload them to the vector database.

If you need to pass custom fields from these tools to your plugin, you might want to create an additional Retrieval Plugin API endpoint that calls the datastore's upsert function, such as upsert-email. This custom endpoint can be designed to accept specific fields from the webhook and process them accordingly.

To set up an incoming webhook, follow these general steps:

  • Choose a webhook tool like Zapier or Make and create an account.
  • Set up a new webhook or transfer in the tool, and configure it to trigger based on events or schedules.
  • Specify the target URL for the webhook, which should be the API endpoint of your retrieval plugin (e.g. https://your-plugin-url.com/upsert).
  • Configure the webhook payload to include the necessary data fields and format them according to your retrieval plugin's API requirements.
  • Test the webhook to ensure it's working correctly and sending data to your retrieval plugin as expected.

After setting up the webhook, you may want to run a backfill to ensure that any previously missed data is included in the vector database.

Remember that if you want to use incoming webhooks to continuously sync data, you should consider running a backfill after setting these up to avoid missing any data.

In addition to using tools like Zapier and Make, you can also build your own custom integrations to sync data with your Retrieval Plugin. This allows you to have more control over the data flow and tailor the integration to your specific needs and requirements.

Scripts

The scripts folder contains scripts to batch upsert or process text documents from different data sources, such as a zip file, JSON file, or JSONL file. These scripts use the plugin's upsert utility functions to upload the documents and their metadata to the vector database, after converting them to plain text and splitting them into chunks. Each script folder has a README file that explains how to use it and what parameters it requires. You can also optionally screen the documents for personally identifiable information (PII) using a language model and skip them if detected, with the services.pii_detection module. This can be helpful if you want to avoid uploading sensitive or private documents to the vector database unintentionally. Additionally, you can optionally extract metadata from the document text using a language model, with the services.extract_metadata module. This can be useful if you want to enrich the document metadata. Note: if using incoming webhooks to continuously sync data, consider running a backfill after setting these up to avoid missing any data.

The scripts are:

  • process_json: This script processes a file dump of documents in a JSON format and stores them in the vector database with some metadata. The format of the JSON file should be a list of JSON objects, where each object represents a document. The JSON object should have a text field and optionally other fields to populate the metadata. You can provide custom metadata as a JSON string and flags to screen for PII and extract metadata.
  • process_jsonl: This script processes a file dump of documents in a JSONL format and stores them in the vector database with some metadata. The format of the JSONL file should be a newline-delimited JSON file, where each line is a valid JSON object representing a document. The JSON object should have a text field and optionally other fields to populate the metadata. You can provide custom metadata as a JSON string and flags to screen for PII and extract metadata.
  • process_zip: This script processes a file dump of documents in a zip file and stores them in the vector database with some metadata. The format of the zip file should be a flat zip file folder of docx, pdf, txt, md, pptx or csv files. You can provide custom metadata as a JSON string and flags to screen for PII and extract metadata.

Pull Request (PR) Checklist

If you'd like to contribute, please follow the checklist below when submitting a PR. This will help us review and merge your changes faster! Thank you for contributing!

  1. Type of PR: Indicate the type of PR by adding a label in square brackets at the beginning of the title, such as [Bugfix], [Feature], [Enhancement], [Refactor], or [Documentation].

  2. Short Description: Provide a brief, informative description of the PR that explains the changes made.

  3. Issue(s) Linked: Mention any related issue(s) by using the keyword Fixes or Closes followed by the respective issue number(s) (e.g., Fixes #123, Closes #456).

  4. Branch: Ensure that you have created a new branch for the changes, and it is based on the latest version of the main branch.

  5. Code Changes: Make sure the code changes are minimal, focused, and relevant to the issue or feature being addressed.

  6. Commit Messages: Write clear and concise commit messages that explain the purpose of each commit.

  7. Tests: Include unit tests and/or integration tests for any new code or changes to existing code. Make sure all tests pass before submitting the PR.

  8. Documentation: Update relevant documentation (e.g., README, inline comments, or external documentation) to reflect any changes made.

  9. Review Requested: Request a review from at least one other contributor or maintainer of the repository.

  10. Video Submission (For Complex/Large PRs): If your PR introduces significant changes, complexities, or a large number of lines of code, submit a brief video walkthrough along with the PR. The video should explain the purpose of the changes, the logic behind them, and how they address the issue or add the proposed feature. This will help reviewers to better understand your contribution and expedite the review process.

Pull Request Naming Convention

Use the following naming convention for your PR branches:

<type>/<short-description>-<issue-number>
  • <type>: The type of PR, such as bugfix, feature, enhancement, refactor, or docs. Multiple types are ok and should appear as ,
  • <short-description>: A brief description of the changes made, using hyphens to separate words.
  • <issue-number>: The issue number associated with the changes made (if applicable).

Example:

feature/advanced-chunking-strategy-123

Limitations

While the ChatGPT Retrieval Plugin is designed to provide a flexible solution for semantic search and retrieval, it does have some limitations:

  • Keyword search limitations: The embeddings generated by the text-embedding-ada-002 model may not always be effective at capturing exact keyword matches. As a result, the plugin might not return the most relevant results for queries that rely heavily on specific keywords. Some vector databases, like Pinecone, Weaviate and Azure Cognitive Search, use hybrid search and might perform better for keyword searches.
  • Sensitive data handling: The plugin does not automatically detect or filter sensitive data. It is the responsibility of the developers to ensure that they have the necessary authorization to include content in the Retrieval Plugin and that the content complies with data privacy requirements.
  • Scalability: The performance of the plugin may vary depending on the chosen vector database provider and the size of the dataset. Some providers may offer better scalability and performance than others.
  • Language support: The plugin currently uses OpenAI's text-embedding-ada-002 model, which is optimized for use in English. However, it is still robust enough to generate good results for a variety of languages.
  • Metadata extraction: The optional metadata extraction feature relies on a language model to extract information from the document text. This process may not always be accurate, and the quality of the extracted metadata may vary depending on the document content and structure.
  • PII detection: The optional PII detection feature is not foolproof and may not catch all instances of personally identifiable information. Use this feature with caution and verify its effectiveness for your specific use case.

Future Directions

The ChatGPT Retrieval Plugin provides a flexible solution for semantic search and retrieval, but there is always potential for further development. We encourage users to contribute to the project by submitting pull requests for new features or enhancements. Notable contributions may be acknowledged with OpenAI credits.

Some ideas for future directions include:

  • More vector database providers: If you are interested in integrating another vector database provider with the ChatGPT Retrieval Plugin, feel free to submit an implementation.
  • Additional scripts: Expanding the range of scripts available for processing and uploading documents from various data sources would make the plugin even more versatile.
  • User Interface: Developing a user interface for managing documents and interacting with the plugin could improve the user experience.
  • Hybrid search / TF-IDF option: Enhancing the datastore's upsert function with an option to use hybrid search or TF-IDF indexing could improve the plugin's performance for keyword-based queries.
  • Advanced chunking strategies and embeddings calculations: Implementing more sophisticated chunking strategies and embeddings calculations, such as embedding document titles and summaries, performing weighted averaging of document chunks and summaries, or calculating the average embedding for a document, could lead to better search results.
  • Custom metadata: Allowing users to add custom metadata to document chunks, such as titles or other relevant information, might improve the retrieved results in some use cases.
  • Additional optional services: Integrating more optional services, such as summarizing documents or pre-processing documents before embedding them, could enhance the plugin's functionality and quality of retrieved results. These services could be implemented using language models and integrated directly into the plugin, rather than just being available in the scripts.

We welcome contributions from the community to help improve the ChatGPT Retrieval Plugin and expand its capabilities. If you have an idea or feature you'd like to contribute, please submit a pull request to the repository.

Contributors

We would like to extend our gratitude to the following contributors for their code / documentation contributions, and support in integrating various vector database providers with the ChatGPT Retrieval Plugin:

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The ChatGPT Retrieval Plugin lets you easily search and find personal or work documents by asking questions in everyday language.

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