This repository contains a collection of engines that power the core stack for Prisma, most prominently Prisma Client and Prisma Migrate.
If you're looking for how to install Prisma or any of the engines, the Getting Started guide might be useful.
This document describes some of the internals of the engines, and how to build and test them.
This repository contains four engines:
- Query engine, used by the client to run database queries from Prisma Client
- Schema engine, used to create and run migrations and introspection
- Prisma Format, used to format prisma files
Additionally, the psl (Prisma Schema Language) is the library that defines how the language looks like, how it's parsed, etc.
You'll also find:
- libs, for various (small) libraries such as macros, user facing errors, various connector/database-specific libraries, etc.
- a
docker-compose.ymlfile that's helpful for running tests and bringing up containers for various databases - a
flake.nixfile for bringing up all dependencies and making it easy to build the code in this repository (the use of this file andnixis entirely optional, but can be a good and easy way to get started) - an
.envrcfile to make it easier to set everything up, including thenix shell
The API docs (cargo doc) are published on our fabulous repo page.
Prerequisites:
- Installed the latest stable version of the Rust toolchain. You can get the toolchain at rustup or the package manager of your choice.
- Linux only: OpenSSL is required to be installed.
- Installed direnv, then
direnv allowon the repository root.- Make sure direnv is hooked into your shell
- Alternatively: Load the defined environment in
./.envrcmanually in your shell.
- For m1 users: Install Protocol Buffers
Note for nix users: it should be enough to direnv allow.
How to build:
To build all engines, simply execute cargo build on the repository root. This
builds non-production debug binaries. If you want to build the optimized
binaries in release mode, the command is cargo build --release.
Depending on how you invoked cargo in the previous step, you can find the
compiled binaries inside the repository root in the target/debug (without
--release) or target/release directories (with --release):
| Prisma Component | Path to Binary |
|---|---|
| Query Engine | ./target/[debug|release]/query-engine |
| Schema Engine | ./target/[debug|release]/schema-engine |
| Prisma Format | ./target/[debug|release]/prisma-fmt |
The Prisma Schema Language is a library which defines the data structures and parsing rules for prisma files, including the available database connectors. For more technical details, please check the library README.
The PSL is used throughout the schema engine, as well as prisma format. The DataModeL (DML), which is an annotated version of the PSL is also used as input for the query engine.
The Query Engine is how Prisma Client queries are executed. Here's a brief description of what it does:
- takes as inputs an annotated version of the Prisma Schema file called the DataModeL (DML),
- using the DML (specifically, the datasources and providers), it builds up a GraphQL model for queries and responses,
- runs as a server listening for GraphQL queries,
- it translates the queries to the respective native datasource(s) and returns GraphQL responses, and
- handles all connections and communication with the native databases.
When used through Prisma Client, there are two ways for the Query Engine to be executed:
- as a binary, downloaded during installation, launched at runtime;
communication happens via HTTP (
./query-engine/query-engine) - as a native, platform-specific Node.js addon; also downloaded during
installation (
./query-engine/query-engine-node-api)
You can also run the Query Engine as a stand-alone GraphQL server.
Warning: There is no guaranteed API stability. If using it on production please be aware the api and the query language can change any time.
Notable environment flags:
RUST_LOG_FORMAT=(devel|json)sets the log format. By default outputsjson.QE_LOG_LEVEL=(info|debug|trace)sets the log level for the Query Engine. If you need Query Graph debugging logs, set it to "trace"FMT_SQL=1enables logging formatted SQL queriesPRISMA_DML_PATH=[path_to_datamodel_file]should point to the datamodel file location. This orPRISMA_DMLis required for the Query Engine to run.PRISMA_DML=[base64_encoded_datamodel]an alternative way to provide a datamodel for the server.RUST_BACKTRACE=(0|1)if set to 1, the error backtraces will be printed to the STDERR.LOG_QUERIES=[anything]if set, the SQL queries will be written to theINFOlog. Needs the right log level enabled to be seen from the terminal.RUST_LOG=[filter]sets the filter for the logger. Can be eithertrace,debug,info,warningorerror, that will output ALL logs from every crate from that level. The.envrcin this repo shows how to log different parts of the system in a more granular way.
Starting the Query Engine:
The engine can be started either with using the cargo build tool, or
pre-building a binary and running it directly. If using cargo, replace
whatever command that starts with ./query-engine with cargo run --bin query-engine --.
You can also pass --help to find out more options to run the engine.
Running make show-metrics will start Prometheus and Grafana with a default metrics dashboard.
Prometheus will scrape the /metrics endpoint to collect the engine's metrics
Navigate to http://localhost:3000 to view the Grafana dashboard.
The Schema Engine does a couple of things:
- creates new migrations by comparing the prisma file with the current state of the database, in order to bring the database in sync with the prisma file
- run these migrations and keeps track of which migrations have been executed
- (re-)generate a prisma schema file starting from a live database
The engine uses:
- the prisma files, as the source of truth
- the database it connects to, for diffing and running migrations, as well as
keeping track of migrations in the
_prisma_migrationstable - the
prisma/migrationsdirectory which acts as a database of existing migrations
Prisma format can format prisma schema files. It also comes as a WASM module via a node package. You can read more here.
When trying to debug code, here's a few things that might be useful:
- use the language server; being able to go to definition and reason about code can make things a lot easier,
- add
dbg!()statements to validate code paths, inspect variables, etc., - you can control the amount of logs you see, and where they come from using the
RUST_LOGenvironment variable; see the documentation, - you can use the
test-clito test migration and introspection without having to go through theprismanpm package.
There are two test suites for the engines: Unit tests and integration tests.
-
Unit tests: They test internal functionality of individual crates and components.
You can find them across the whole codebase, usually in
./testsfolders at the root of modules. These tests can be executed viacargo test. Note that some of them will require theTEST_DATABASE_URLenviornment variable set up. -
Integration tests: They run GraphQL queries against isolated instances of the Query Engine and asserts that the responses are correct.
You can find them at
./query-engine/connector-test-kit-rs.
Prerequisites:
- Installed Rust toolchain.
- Installed Docker.
- Installed
direnv, thendirenv allowon the repository root.- Alternatively: Load the defined environment in
./.envrcmanually in your shell.
- Alternatively: Load the defined environment in
Setup:
There are helper make commands to set up a test environment for a specific
database connector you want to test. The commands set up a container (if needed)
and write the .test_config file, which is picked up by the integration
tests:
make dev-mysql: MySQL 5.7make dev-mysql8: MySQL 8make dev-postgres: PostgreSQL 10make dev-sqlite: SQLitemake dev-mongodb_5: MongoDB 5
*On windows:
If not using WSL, make is not available and you should just see what your
command does and do it manually. Basically this means editing the
.test_config file and starting the needed Docker containers.
To actually get the tests working, read the contents of .envrc. Then Edit environment variables for your account from Windows settings, and add at least
the correct values for the following variables:
WORKSPACE_ROOTshould point to the root directory ofprisma-enginesproject.PRISMA_BINARY_PATHis usually%WORKSPACE_ROOT%\target\release\query-engine.exe.SCHEMA_ENGINE_BINARY_PATHshould be%WORKSPACE_ROOT%\target\release\schema-engine.exe.
Other variables may or may not be useful.
Run:
Run cargo test in the repository root.
Please refer to the Testing driver adapters section in the connector-test-kit-rs README.
βΉοΈ Important note on developing features that require changes to the both the query engine, and driver adapters code
As explained in Testing driver adapters, running DRIVER_ADAPTER=$adapter make qe-test
will ensure you have prisma checked out in your filesystem in the same directory as prisma-engines. This is needed because the driver adapters code is symlinked in prisma-engines.
When working on a feature or bugfix spanning adapters code and query-engine code, you will need to open sibling PRs in prisma/prisma and prisma/prisma-engines respectively.
Locally, each time you run DRIVER_ADAPTER=$adapter make qe-test tests will run using the driver adapters built from the source code in the working copy of prisma/prisma. All good.
In CI, tho', we need to denote which branch of prisma/prisma we want to use for tests. In CI, there's no working copy of prisma/prisma before tests run.
The CI jobs clones prisma/prisma main branch by default, which doesn't include your local changes. To test in integration, we can tell CI to use the branch of prisma/prisma containing
the changes in adapters. To do it, you can use a simple convention in commit messages. Like this:
git commit -m "DRIVER_ADAPTERS_BRANCH=prisma-branch-with-changes-in-adapters [...]"
GitHub actions will then pick up the branch name and use it to clone that branch's code of prisma/prisma, and build the driver adapters code from there.
When it's time to merge the sibling PRs, you'll need to merge the prisma/prisma PR first, so when merging the engines PR you have the code of the adapters ready in prisma/prisma main branch.
You can trigger releases from this repository to npm that can be used for testing the engines in prisma/prisma either automatically or manually:
(Since July 2022). Any branch name starting with integration/ will, first, run the full test suite in Buildkite [Test] Prisma Engines and, second, if passing, run the publish pipeline (build and upload engines to S3 & R2)
The journey through the pipeline is the same as a commit on the main branch.
- It will trigger
prisma/engines-wrapperand publish a new@prisma/engines-versionnpm package but on theintegrationtag. - Which triggers
prisma/prismato create achore(Automated Integration PR): [...]PR with a branch name also starting withintegration/ - Since in
prisma/prismawe also trigger the publish pipeline when a branch name starts withintegration/, this will publish allprisma/prismamonorepo packages to npm on theintegrationtag. - Our ecosystem-tests tests will automatically pick up this new version and run tests, results will show in GitHub Actions
This end to end will take minimum ~1h20 to complete, but is completely automated π€
Notes:
- in
prisma/prismarepository, we do not run tests forintegration/branches, it is much faster and also means that there is no risk of tests failing (e.g. flaky tests, snapshots) that would stop the publishing process. - in
prisma/prisma-enginesthe Buildkite test pipeline must first pass, then the engines will be built and uploaded to our storage via the Buildkite release pipeline. These 2 pipelines can fail for different reasons, it's recommended to keep an eye on them (check notifications in Slack) and restart jobs as needed. Finally, it will triggerprisma/engines-wrapper.
Additionally to the automated integration release for integration/ branches, you can also trigger a publish manually in the Buildkite [Test] Prisma Engines job if that succeeds for any branch name. Click "π Publish binaries" at the bottom of the test list to unlock the publishing step. When all the jobs in [Release] Prisma Engines succeed, you also have to unlock the next step by clicking "π Publish client". This will then trigger the same journey as described above.
When rust-analzyer runs cargo check it will lock the build directory and stop any cargo commands from running until it has completed. This makes the build process feel a lot longer. It is possible to avoid this by setting a different build path for
rust-analyzer. To avoid this. Open VSCode settings and search for Check on Save: Extra Args. Look for the Rust-analyzer βΊ Check On Save: Extra Args settings and add a new directory for rust-analyzer. Something like:
--target-dir:/tmp/rust-analyzer-check
To trigger an Automated integration releases from this repository to npm or Manual integration releases from this repository to npm branches of forks need to be pulled into this repository so the Buildkite job is triggered. You can use these GitHub and git CLI commands to achieve that easily:
gh pr checkout 4375
git checkout -b integration/sql-nested-transactions
git push --set-upstream origin integration/sql-nested-transactions
If there is a need to re-create this branch because it has been updated, deleting it and re-creating will make sure the content is identical and avoid any conflicts.
git branch --delete integration/sql-nested-transactions
gh pr checkout 4375
git checkout -b integration/sql-nested-transactions
git push --set-upstream origin integration/sql-nested-transactions --force
If you have a security issue to report, please contact us at security@prisma.io
