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Encrypt Query Language (EQL)

Test EQL Release EQL

Encrypt Query Language (EQL) is a set of abstractions for transmitting, storing, and interacting with encrypted data and indexes in PostgreSQL.

Tip

New to EQL? Start with the higher level helpers for EQL in Python, Go, or JavaScript and TypeScript, or the examples for those languages.

Store encrypted data alongside your existing data:

  • Encrypted data is stored using a jsonb column type
  • Query encrypted data with specialized SQL functions
  • Index encrypted columns to enable searchable encryption
  • Integrate with CipherStash Proxy for transparent encryption/decryption.

Table of Contents


Installation

The simplest way to get up and running with EQL is to execute the install SQL file directly in your PostgreSQL database.

  1. Download the latest EQL install script:

    curl -sLo cipherstash-encrypt.sql https://github.com/cipherstash/encrypt-query-language/releases/latest/download/cipherstash-encrypt.sql
  2. Run this command to install the custom types and functions:

    psql -f cipherstash-encrypt.sql

CipherStash Proxy

EQL relies on CipherStash Proxy for low-latency encryption & decryption. We plan to support direct language integration in the future.

If you want to use CipherStash Proxy with the below examples or the helper packages, you can use the playground environment.

Documentation

You can read more about the EQL concepts and reference guides in the documentation directory.

Getting started

Once the custom types and functions are installed in your PostgreSQL database, you can start using EQL in your queries.

Enable encrypted columns

Define encrypted columns using the cs_encrypted_v1 domain type, which extends the jsonb type with additional constraints to ensure data integrity.

Example:

CREATE TABLE users (
    id BIGINT GENERATED ALWAYS AS IDENTITY PRIMARY KEY,
    encrypted_email cs_encrypted_v1
);

Configuring the column

Initialize the column using the cs_add_column_v1 function to enable encryption and decryption via CipherStash Proxy.

SELECT cs_add_column_v1('users', 'encrypted_email');

Note: This function allows you to encrypt and decrypt data but does not enable searchable encryption. See Querying Data with EQL for enabling searchable encryption.

Activating configuration

After modifying configurations, activate them by running:

SELECT cs_encrypt_v1();
SELECT cs_activate_v1();

Important: These functions must be run after any modifications to the configuration.

Refreshing CipherStash Proxy Configuration

CipherStash Proxy refreshes the configuration every 60 seconds. To force an immediate refresh, run:

SELECT cs_refresh_encrypt_config();

Note: This statement must be executed when connected to CipherStash Proxy. When connected to the database directly, it is a no-op.

Storing data

Encrypted data is stored as jsonb values in the PostgreSQL database, regardless of the original data type.

You can read more about the data format here.

Inserting Data

When inserting data into the encrypted column, wrap the plaintext in the appropriate EQL payload. These statements must be run through the CipherStash Proxy to encrypt the data.

Example:

INSERT INTO users (encrypted_email) VALUES (
  '{"v":1,"k":"pt","p":"test@example.com","i":{"t":"users","c":"encrypted_email"}}'
);

Data is stored in the PostgreSQL database as:

{
  "c": "generated_ciphertext",
  "i": {
    "c": "encrypted_email",
    "t": "users"
  },
  "k": "ct",
  "m": null,
  "o": null,
  "u": null,
  "v": 1
}

Reading Data

When querying data, select the encrypted column. CipherStash Proxy will decrypt the data automatically.

Example:

SELECT encrypted_email FROM users;

Data is returned as:

{
  "k": "pt",
  "p": "test@example.com",
  "i": {
    "t": "users",
    "c": "encrypted_email"
  },
  "v": 1,
  "q": null
}

Note: If you execute this query directly on the database, you will not see any plaintext data but rather the jsonb payload with the ciphertext.

Configuring indexes for searching data

In order to perform searchable operations on encrypted data, you must configure indexes for the encrypted columns.

IMPORTANT: If you have existing data that's encrypted and you add or modify an index, all the data will need to be re-encrypted. This is due to the way CipherStash Proxy handles searchable encryption operations.

Adding an index (cs_add_index_v1)

Add an index to an encrypted column. This function also behaves the same as cs_add_column_v1 but with the additional index configuration.

SELECT cs_add_index_v1(
  'table_name',       -- Name of the table
  'column_name',      -- Name of the column
  'index_name',       -- Index kind ('unique', 'match', 'ore', 'ste_vec')
  'cast_as',          -- PostgreSQL type to cast decrypted data ('text', 'int', etc.)
  'opts'              -- Index options as JSONB (optional)
);

You can read more about the index configuration options here.

Example (Unique index):

SELECT cs_add_index_v1(
  'users',
  'encrypted_email',
  'unique',
  'text'
);

After adding an index, you have to activate the configuration.

SELECT cs_encrypt_v1();
SELECT cs_activate_v1();

Searching data with EQL

EQL provides specialized functions to interact with encrypted data, supporting operations like equality checks, range queries, and unique constraints.

In order to use the specialized functions, you must first configure the corresponding indexes.

Equality search (cs_unique_v1)

Enable equality search on encrypted data.

Index configuration example:

SELECT cs_add_index_v1(
  'users',
  'encrypted_email',
  'unique',
  'text'
);

Example:

SELECT * FROM users
WHERE cs_unique_v1(encrypted_email) = cs_unique_v1(
  '{"v":1,"k":"pt","p":"test@example.com","i":{"t":"users","c":"encrypted_email"},"q":"unique"}'
);

Equivalent plaintext query:

SELECT * FROM users WHERE email = 'test@example.com';

Full-text search (cs_match_v1)

Enables basic full-text search on encrypted data.

Index configuration example:

SELECT cs_add_index_v1(
  'users',
  'encrypted_email',
  'match',
  'text',
  '{"token_filters": [{"kind": "downcase"}], "tokenizer": { "kind": "ngram", "token_length": 3 }}'
);

Example:

SELECT * FROM users
WHERE cs_match_v1(encrypted_email) @> cs_match_v1(
  '{"v":1,"k":"pt","p":"test","i":{"t":"users","c":"encrypted_email"},"q":"match"}'
);

Equivalent plaintext query:

SELECT * FROM users WHERE email LIKE '%test%';

Range queries (cs_ore_64_8_v1)

Enable range queries on encrypted data. Supports:

  • ORDER BY
  • WHERE

Example (Filtering):

SELECT * FROM users
WHERE cs_ore_64_8_v1(encrypted_date) < cs_ore_64_8_v1(
  '{"v":1,"k":"pt","p":"2023-10-05","i":{"t":"users","c":"encrypted_date"},"q":"ore"}'
);

Equivalent plaintext query:

SELECT * FROM users WHERE date < '2023-10-05';

Example (Ordering):

SELECT id FROM users
ORDER BY cs_ore_64_8_v1(encrypted_field) DESC;

Equivalent plaintext query:

SELECT id FROM users ORDER BY field DESC;

Example (Grouping):

SELECT cs_grouped_value_v1(encrypted_field) COUNT(*)
  FROM users
  GROUP BY cs_ore_64_8_v1(encrypted_field)

Equivalent plaintext query:

SELECT field, COUNT(*) FROM users GROUP BY field;

JSON and JSONB support

EQL supports encrypting entire JSON and JSONB data sets. This warrants a separate section in the documentation. You can read more about the JSONB support in the JSONB reference guide.

Frequently Asked Questions

How do I integrate CipherStash EQL with my application?

Use CipherStash Proxy to intercept PostgreSQL queries and handle encryption and decryption automatically. The proxy interacts with the database using the EQL functions and types defined in this documentation.

Use the helper packages to integate EQL functions into your application.

Can I use EQL without the CipherStash Proxy?

No, CipherStash Proxy is required to handle the encryption and decryption operations based on the configurations and indexes defined.

How is data encrypted in the database?

Data is encrypted using CipherStash's cryptographic schemes and stored in the cs_encrypted_v1 column as a JSONB payload. Encryption and decryption are handled by CipherStash Proxy.

Helper packages and examples

We've created a few langauge specific packages to help you interact with the payloads:

Language ORM Example Package
Go Xorm Go/Xorm examples goeql
TypeScript Drizzle Drizzle examples jseql
TypeScript Prisma Drizzle examples jseql
Python SQL Alchemy Python examples eqlpy

Language specific packages

Releasing

To cut a release of EQL:

  1. Draft a new release on GitHub.
  2. Choose a tag, and create a new one with the prefix eql- followed by a semver (for example, eql-1.2.3).
  3. Generate the release notes.
  4. Optionally set the release to be the latest (you can set a release to be latest later on if you are testing out a release first).
  5. Click Publish release.

This will trigger the Release EQL workflow, which will build and attach artifacts to the release.