6.4 KiB
Development
Information about developing the project. If you are only interested in using it, you can safely ignore this page. If you plan on contributing, see the contributor's guide.
conduwuit project layout
conduwuit uses a collection of sub-crates, packages, or workspace members
that indicate what each general area of code is for. All of the workspace
members are under src/
. The workspace definition is at the top level / root
Cargo.toml
.
The crate names are generally self-explanatory:
admin
is the admin roomapi
is the HTTP API, Matrix C-S and S-S endpoints, etccore
is core conduwuit functionality like config loading, error definitions, global utilities, logging infrastructure, etcdatabase
is RocksDB methods, helpers, RocksDB config, and general database definitions, utilities, or functionsmacros
are conduwuit Rust macros like general helper macros, logging and error handling macros, and syn and procedural macros used for admin room commands and othersmain
is the "primary" sub-crate. This is where themain()
function lives, tokio worker and async initialisation, Sentry initialisation, clap init, and signal handling. If you are adding new Rust features, they must go here.router
is the webserver and request handling bits, using axum, tower, tower-http, hyper, etc, and the global server state to accessservices
.service
is the high-level database definitions and functions for data, outbound/sending code, and other business logic such as media fetching.
It is highly unlikely you will ever need to add a new workspace member, but if you truly find yourself needing to, we recommend reaching out to us in the Matrix room for discussions about it beforehand.
The primary inspiration for this design was apart of hot reloadable development,
to support "conduwuit as a library" where specific parts can simply be swapped out.
There is evidence Conduit wanted to go this route too as axum
is technically an
optional feature in Conduit, and can be compiled without the binary or axum library
for handling inbound web requests; but it was never completed or worked.
See the Rust documentation on Workspaces for general questions and information on Cargo workspaces.
Adding compile-time features
If you'd like to add a compile-time feature, you must first define it in
the main
workspace crate located in src/main/Cargo.toml
. The feature must
enable a feature in the other workspace crate(s) you intend to use it in. Then
the said workspace crate(s) must define the feature there in its Cargo.toml
.
So, if this is adding a feature to the API such as woof
, you define the feature
in the api
crate's Cargo.toml
as woof = []
. The feature definition in main
's
Cargo.toml
will be woof = ["conduit-api/woof"]
.
The rationale for this is due to Rust / Cargo not supporting "workspace level features", we must make a choice of; either scattering features all over the workspace crates, making it difficult for anyone to add or remove default features; or define all the features in one central workspace crate that propagate down/up to the other workspace crates. It is a Cargo pitfall, and we'd like to see better developer UX in Rust's Workspaces.
Additionally, the definition of one single place makes "feature collection" in our
Nix flake a million times easier instead of collecting and deduping them all from
searching in all the workspace crates' Cargo.toml
s. Though we wouldn't need to
do this if Rust supported workspace-level features to begin with.
List of forked dependencies
During conduwuit development, we have had to fork some dependencies to support our use-cases in some areas. This ranges from things said upstream project won't accept for any reason, faster-paced development (unresponsive or slow upstream), conduwuit-specific usecases, or lack of time to upstream some things.
- ruma/ruma: https://github.com/girlbossceo/ruwuma - various performance improvements, more features, faster-paced development, client/server interop hacks upstream won't accept, etc
- facebook/rocksdb: https://github.com/girlbossceo/rocksdb - liburing build fixes, GCC build fix, and logging callback C API for Rust tracing integration
- tikv/jemallocator: https://github.com/girlbossceo/jemallocator - musl builds seem to be broken on upstream
- zyansheep/rustyline-async:
https://github.com/girlbossceo/rustyline-async - tab completion callback and
CTRL+\
signal quit event for CLI - rust-rocksdb/rust-rocksdb:
https://github.com/girlbossceo/rust-rocksdb-zaidoon1 -
@zaidoon1
's fork has quicker updates, more up to date dependencies. Our changes fix musl build issues, Rust part of the logging callback C API, removes unnecessarygtest
include, and uses our RocksDB and jemallocator - tokio-rs/tracing: https://github.com/girlbossceo/tracing - Implements
Clone
forEnvFilter
to support dynamically changing tracing envfilter's alongside other logging/metrics things
Debugging with tokio-console
tokio-console
can be a useful tool for debugging and profiling. To make a
tokio-console
-enabled build of conduwuit, enable the tokio_console
feature,
disable the default release_max_log_level
feature, and set the --cfg tokio_unstable
flag to enable experimental tokio APIs. A build might look like
this:
RUSTFLAGS="--cfg tokio_unstable" cargo build \
--release \
--no-default-features \
--features=systemd,element_hacks,gzip_compression,brotli_compression,zstd_compression,tokio_console