Build Postgres Extensions with Rust!
pgrx
is a framework for developing PostgreSQL extensions in Rust and strives to be as idiomatic and safe as possible.
pgrx
supports Postgres 12 through Postgres 17.
-
Please join our Discord Server.
-
We are also in need of financial sponsorship.
- A fully managed development environment with
cargo-pgrx
cargo pgrx new
: Create new extensions quicklycargo pgrx init
: Install new (or register existing) PostgreSQL installscargo pgrx run
: Run your extension and interactively test it inpsql
(orpgcli
)cargo pgrx test
: Unit-test your extension across multiple PostgreSQL versionscargo pgrx package
: Create installation packages for your extension- More in the
README.md
!
- Target Multiple Postgres Versions
- Support from Postgres 12 to Postgres 17 from the same codebase
- Use Rust feature gating to use version-specific APIs
- Seamlessly test against all versions
- Automatic Schema Generation
- Implement extensions entirely in Rust
- Automatic mapping for many Rust types into PostgreSQL
- SQL schemas generated automatically (or manually via
cargo pgrx schema
) - Include custom SQL with
extension_sql!
&extension_sql_file!
- Safety First
- Translates Rust
panic!
s into PostgresERROR
s that abort the transaction, not the process - Memory Management follows Rust's drop semantics, even in the face of
panic!
andelog(ERROR)
#[pg_guard]
procedural macro to ensure the above- Postgres
Datum
s areOption<T> where T: FromDatum
NULL
Datums are safely represented asOption::<T>::None
- Translates Rust
- First-class UDF support
- Annotate functions with
#[pg_extern]
to expose them to Postgres - Return
pgrx::iter::SetOfIterator<'a, T>
forRETURNS SETOF
- Return
pgrx::iter::TableIterator<'a, T>
forRETURNS TABLE (...)
- Create trigger functions with
#[pg_trigger]
- Annotate functions with
- Easy Custom Types
#[derive(PostgresType)]
to use a Rust struct as a Postgres type- By default, represented as a CBOR-encoded object in-memory/on-disk, and JSON as human-readable
- Provide custom in-memory/on-disk/human-readable representations
#[derive(PostgresEnum)]
to use a Rust enum as a Postgres enum- Composite types supported with the
pgrx::composite_type!("Sample")
macro
- Server Programming Interface (SPI)
- Safe access into SPI
- Transparently return owned Datums from an SPI context
- Advanced Features
- Safe access to Postgres'
MemoryContext
system viapgrx::PgMemoryContexts
- Executor/planner/transaction/subtransaction hooks
- Safely use Postgres-provided pointers with
pgrx::PgBox<T>
(akin toalloc::boxed::Box<T>
) #[pg_guard]
proc-macro for guardingextern "C"
Rust functions that need to be passed into Postgres- Access Postgres' logging system through
eprintln!
-like macros - Direct
unsafe
access to large parts of Postgres internals via thepgrx::pg_sys
module - New features added regularly!
- Safe access to Postgres'
PGRX has been tested to work on x86_64⹋ and aarch64⹋ Linux and aarch64 macOS targets. It is currently expected to work on other "Unix" OS with possible small changes, but those remain untested. So far, some of PGRX's build tooling works on Windows, but not all.
- A Rust toolchain:
rustc
,cargo
, andrustfmt
. The recommended way to get these is from https://rustup.rs † git
libclang
11 or greater (for bindgen)- Debian-likes:
apt install libclang-dev
orapt install clang
- RHEL-likes:
yum install clang
- Debian-likes:
- GCC 7 or newer
- PostgreSQL's build dependencies ‡
- Debian-likes:
sudo apt-get install build-essential libreadline-dev zlib1g-dev flex bison libxml2-dev libxslt-dev libssl-dev libxml2-utils xsltproc ccache pkg-config
- RHEL-likes:
sudo yum install -y bison-devel readline-devel zlib-devel openssl-devel wget ccache && sudo yum groupinstall -y 'Development Tools'
- Debian-likes:
† PGRX has no MSRV policy, thus may require the latest stable version of Rust, available via Rustup
‡ A local PostgreSQL server installation is not required. cargo pgrx
can download and compile PostgreSQL versions on its own.
⹋ PGRX has not been tested to work on 32-bit, but the library attempts to handle conversion of pg_sys::Datum
to and from int8
and double
types. Use it only for your own risk. We do not plan to add offical support
without considerable ongoing technical and financial contributions.
Running PGRX on a Mac requires some additional setup.
The Mac C compiler (clang) and related tools are bundled with XCode. XCode can be installed from the Mac App Store.
For additional C libraries, it's easiest to use Homebrew. In particular, you will probably need these if you don't have them already:
brew install git icu4c pkg-config
The config script that Postgres 17 uses in its build process does not automatically detect the Homebrew install directory. (Earlier versions of Postgres do not have this problem.) You may see this error:
configure: error: ICU library not found
To fix it, run
export PKG_CONFIG_PATH=/opt/homebrew/opt/icu4c/lib/pkgconfig
on the command line before you run cargo pgrx init
Every once in a while, XCode will update itself and move the directory that contains
the C compiler. When the Postgres ./config process runs during the build, it grabs the current directory
and stores it, which means that there will be build errors if you do a full rebuild of your
project and the old directory has disappeared. The solution is re-run cargo pgrx init
so the
Postgres installs get rebuilt.
Before anything else, install the system dependencies.
Now install the cargo-pgrx
sub-command.
cargo install --locked cargo-pgrx
Once cargo-pgrx
is ready you can initialize the "PGRX Home" directory:
cargo pgrx init
The init
command downloads all currently supported PostgreSQL versions, compiles them
to ${PGRX_HOME}
, and runs initdb
.
It's also possible to use an existing (user-writable) PostgreSQL install, or install a subset of versions, see the README.md
of cargo-pgrx
for details.
Now you can begin work on a specific pgrx extension:
cargo pgrx new my_extension
cd my_extension
This will create a new directory for the extension crate.
$ tree
.
├── Cargo.toml
├── my_extension.control
├── sql
└── src
└── lib.rs
2 directories, 3 files
The new extension includes an example, so you can go ahead and run it right away.
cargo pgrx run
This compiles the extension to a shared library, copies it to the specified Postgres installation, starts that Postgres instance and connects you to a database named the same as the extension.
Once cargo-pgrx
drops us into psql
we can load the extension and do a SELECT on the example function.
my_extension=# CREATE EXTENSION my_extension;
CREATE EXTENSION
my_extension=# SELECT hello_my_extension();
hello_my_extension
---------------------
Hello, my_extension
(1 row)
For more details on how to manage pgrx extensions see Managing pgrx extensions.
As new Postgres versions are supported by pgrx
, you can re-run the pgrx init
process to download and compile them:
cargo pgrx init
Postgres Type | Rust Type (as Option<T> ) |
---|---|
bytea |
Vec<u8> or &[u8] (zero-copy) |
text |
String or &str (zero-copy) |
varchar |
String or &str (zero-copy) or char |
"char" |
i8 |
smallint |
i16 |
integer |
i32 |
bigint |
i64 |
oid |
u32 |
real |
f32 |
double precision |
f64 |
bool |
bool |
json |
pgrx::Json(serde_json::Value) |
jsonb |
pgrx::JsonB(serde_json::Value) |
date |
pgrx::Date |
time |
pgrx::Time |
timestamp |
pgrx::Timestamp |
time with time zone |
pgrx::TimeWithTimeZone |
timestamp with time zone |
pgrx::TimestampWithTimeZone |
anyarray |
pgrx::AnyArray |
anyelement |
pgrx::AnyElement |
box |
pgrx::pg_sys::BOX |
point |
pgrx::pg_sys::Point |
tid |
pgrx::pg_sys::ItemPointerData |
cstring |
&core::ffi::CStr |
inet |
pgrx::Inet(String) -- TODO: needs better support |
numeric |
pgrx::Numeric<P, S> or pgrx::AnyNumeric |
void |
() |
ARRAY[]::<type> |
Vec<Option<T>> or pgrx::Array<T> (zero-copy) |
int4range |
pgrx::Range<i32> |
int8range |
pgrx::Range<i64> |
numrange |
pgrx::Range<Numeric<P, S>> or pgrx::Range<AnyRange> |
daterange |
pgrx::Range<pgrx::Date> |
tsrange |
pgrx::Range<pgrx::Timestamp> |
tstzrange |
pgrx::Range<pgrx::TimestampWithTimeZone> |
NULL |
Option::None |
internal |
pgrx::PgBox<T> where T is any Rust/Postgres struct |
uuid |
pgrx::Uuid([u8; 16]) |
There are also IntoDatum
and FromDatum
traits for implementing additional type conversions,
along with #[derive(PostgresType)]
and #[derive(PostgresEnum)]
for automatic conversion of
custom types.
Note that text
and varchar
are converted to &str
or String
, so PGRX
assumes any Postgres database you use it with has UTF-8-compatible encoding.
Currently, PGRX will panic if it detects this is incorrect, to inform you, the
programmer, that you were wrong. However, it is best to not rely on this
behavior, as UTF-8 validation can be a performance hazard. This problem was
previously assumed to simply not happen, and PGRX may decide to change the
details of how it does UTF-8 validation checks in the future in order to
mitigate performance hazards.
The default Postgres server encoding is SQL_ASCII
, and it guarantees neither
ASCII nor UTF-8 (as Postgres will then accept but ignore non-ASCII bytes).
For best results, always use PGRX with UTF-8, and set database encodings
explicitly upon database creation.
- cargo-pgrx sub-command
- Custom Types
- Postgres Operator Functions and Operator Classes/Families
- Shared Memory Support
- various examples
There's probably more than are listed here, but a primary things of note are:
- Threading is not really supported. Postgres is strictly single-threaded. As such, if you do venture into using threads, those threads MUST NOT call any internal Postgres function, or otherwise use any Postgres-provided pointer. There's also a potential problem with Postgres' use of
sigprocmask
. This was being discussed on the -hackers list, even with a patch provided, but the conversation seems to have stalled (https://www.postgresql.org/message-id/flat/5EF20168.2040508%40anastigmatix.net#4533edb74194d30adfa04a6a2ce635ba). - How to correctly interact with Postgres in an
async
context remains unexplored. pgrx
wraps a lot ofunsafe
code, some of which has poorly-defined safety conditions. It may be easy to induce illogical and undesirable behaviors even from safe code withpgrx
, and some of these wrappers may be fundamentally unsound. Please report any issues that may arise.- Not all of Postgres' internals are included or even wrapped. This isn't due to it not being possible, it's simply due to it being an incredibly large task. If you identify internal Postgres APIs you need, open an issue and we'll get them exposed, at least through the
pgrx::pg_sys
module. - Windows is not supported. It could be, but will require a bit of work with
cargo-pgrx
and figuring out how to compilepgrx
's "cshim" static library. - Sessions started before
ALTER EXTENSION my_extension UPDATE;
will continue to see the old version ofmy_extension
. New sessions will see the updated version of the extension. pgrx
is used by many "in production", but it is not "1.0.0" or above, despite that being recommended by SemVer for production-quality software. This is because there are many unresolved soundness and ergonomics questions that will likely require breaking changes to resolve, in some cases requiring cutting-edge Rust features to be able to expose sound interfaces. While a 1.0.0 release is intended at some point, it seems prudent to wait until it seems like a 2.0.0 release would not be needed the next week and the remaining questions can be deferred.
There's a few things on our immediate TODO list
- Automatic extension schema upgrade scripts
- Improved unit testing framework
- Better/Safer API for Datum management
- Improved generated bindings organization
- Safely wrap more Postgres internal APIs
- More examples -- especially around memory management and the various derive macros
#[derive(PostgresType/Enum)]
PGRX has optional feature flags for Rust code that do not involve configuring the version of Postgres used, but rather extend additional support for other kinds of Rust code. These are not included by default.
As of Postgres 15, forks are allowed to specify they use a different ABI than canonical Postgres.
Since pgrx makes countless assumptions about Postgres' internal ABI it is not possible for it to
guarantee that a compiled pgrx extension will probably execute within such a Postgres fork. You,
dear compiler runner, can make this guarantee for yourself by specifying the unsafe-postgres
feature flag. Otherwise, a pgrx extension will fail to compile with an error similar to:
error[E0080]: evaluation of constant value failed
--> pgrx/src/lib.rs:151:5
|
151 | / assert!(
152 | | same_slice(pg_sys::FMGR_ABI_EXTRA, b"xPostgreSQL\0"),
153 | | "Unsupported Postgres ABI. Perhaps you need `--features unsafe-postgres`?",
154 | | );
| |_____^ the evaluated program panicked at 'Unsupported Postgres ABI. Perhaps you need `--features unsafe-postgres`?', pgrx/src/lib.rs:151:5
|
We are most definitely open to contributions of any kind. Bug Reports, Feature Requests, and Documentation.
If you'd like to contribute code via a Pull Request, please make it against our develop
branch. The master
branch is no longer used.
Providing wrappers for Postgres' internals is not a straightforward task, and completely wrapping it is going
to take quite a bit of time. pgrx
is generally ready for use now, and it will continue to be developed as
time goes on. Your feedback about what you'd like to be able to do with pgrx
is greatly appreciated.
If you're hacking on pgrx
and want to ensure your test will run correctly, you need to have the current
implementation of cargo-pgrx
(from the revision you're working on) in your PATH
.
An easy way would be to install cargo-local-install:
cargo install cargo-local-install
and then run cargo local-install
to install cargo-pgrx
as specified in top-level's Cargo.toml.
Don't forget to prepend /path/to/pgrx/bin
to your PATH
!
This approach can also be used in extensions to ensure a matching version of cargo-pgrx
is used.
Portions Copyright 2019-2021 ZomboDB, LLC.
Portions Copyright 2021-2023 Technology Concepts & Design, Inc.
Portions Copyright 2023 PgCentral Foundation, Inc.
All rights reserved.
Use of this source code is governed by the MIT license that can be found in the LICENSE file.