Overriding Dependencies
The desire to override a dependency can arise through a number of scenarios. Most of them, however, boil down to the ability to work with a crate before it's been published to crates.io. For example:
- A crate you're working on is also used in a much larger application you're working on, and you'd like to test a bug fix to the library inside of the larger application.
- An upstream crate you don't work on has a new feature or a bug fix on the master branch of its git repository which you'd like to test out.
- You're about to publish a new major version of your crate, but you'd like to do integration testing across an entire package to ensure the new major version works.
- You've submitted a fix to an upstream crate for a bug you found, but you'd like to immediately have your application start depending on the fixed version of the crate to avoid blocking on the bug fix getting merged.
These scenarios can be solved with the [patch]
manifest
section.
This chapter walks through a few different use cases, and includes details on the different ways to override a dependency.
- Example use cases
- Reference
Note: See also specifying a dependency with multiple locations, which can be used to override the source for a single dependency declaration in a local package.
Testing a bugfix
Let's say you're working with the uuid
crate but while you're working on it
you discover a bug. You are, however, quite enterprising so you decide to also
try to fix the bug! Originally your manifest will look like:
[package]
name = "my-library"
version = "0.1.0"
authors = ["..."]
[dependencies]
uuid = "1.0"
First thing we'll do is to clone the uuid
repository
locally via:
$ git clone https://github.com/uuid-rs/uuid
Next we'll edit the manifest of my-library
to contain:
[patch.crates-io]
uuid = { path = "../path/to/uuid" }
Here we declare that we're patching the source crates-io
with a new
dependency. This will effectively add the local checked out version of uuid
to
the crates.io registry for our local package.
Next up we need to ensure that our lock file is updated to use this new version
of uuid
so our package uses the locally checked out copy instead of one from
crates.io. The way [patch]
works is that it'll load the dependency at
../path/to/uuid
and then whenever crates.io is queried for versions of uuid
it'll also return the local version.
This means that the version number of the local checkout is significant and will
affect whether the patch is used. Our manifest declared uuid = "1.0"
which
means we'll only resolve to >= 1.0.0, < 2.0.0
, and Cargo's greedy resolution
algorithm also means that we'll resolve to the maximum version within that
range. Typically this doesn't matter as the version of the git repository will
already be greater or match the maximum version published on crates.io, but it's
important to keep this in mind!
In any case, typically all you need to do now is:
$ cargo build
Compiling uuid v1.0.0 (.../uuid)
Compiling my-library v0.1.0 (.../my-library)
Finished dev [unoptimized + debuginfo] target(s) in 0.32 secs
And that's it! You're now building with the local version of uuid
(note the
path in parentheses in the build output). If you don't see the local path version getting
built then you may need to run cargo update -p uuid --precise $version
where
$version
is the version of the locally checked out copy of uuid
.
Once you've fixed the bug you originally found the next thing you'll want to do
is to likely submit that as a pull request to the uuid
crate itself. Once
you've done this then you can also update the [patch]
section. The listing
inside of [patch]
is just like the [dependencies]
section, so once your pull
request is merged you could change your path
dependency to:
[patch.crates-io]
uuid = { git = 'https://github.com/uuid-rs/uuid' }
Working with an unpublished minor version
Let's now shift gears a bit from bug fixes to adding features. While working on
my-library
you discover that a whole new feature is needed in the uuid
crate. You've implemented this feature, tested it locally above with [patch]
,
and submitted a pull request. Let's go over how you continue to use and test it
before it's actually published.
Let's also say that the current version of uuid
on crates.io is 1.0.0
, but
since then the master branch of the git repository has updated to 1.0.1
. This
branch includes your new feature you submitted previously. To use this
repository we'll edit our Cargo.toml
to look like
[package]
name = "my-library"
version = "0.1.0"
authors = ["..."]
[dependencies]
uuid = "1.0.1"
[patch.crates-io]
uuid = { git = 'https://github.com/uuid-rs/uuid' }
Note that our local dependency on uuid
has been updated to 1.0.1
as it's
what we'll actually require once the crate is published. This version doesn't
exist on crates.io, though, so we provide it with the [patch]
section of the
manifest.
Now when our library is built it'll fetch uuid
from the git repository and
resolve to 1.0.1 inside the repository instead of trying to download a version
from crates.io. Once 1.0.1 is published on crates.io the [patch]
section can
be deleted.
It's also worth noting that [patch]
applies transitively. Let's say you use
my-library
in a larger package, such as:
[package]
name = "my-binary"
version = "0.1.0"
authors = ["..."]
[dependencies]
my-library = { git = 'https://example.com/git/my-library' }
uuid = "1.0"
[patch.crates-io]
uuid = { git = 'https://github.com/uuid-rs/uuid' }
Remember that [patch]
is applicable transitively but can only be defined at
the top level so we consumers of my-library
have to repeat the [patch]
section
if necessary. Here, though, the new uuid
crate applies to both our dependency on
uuid
and the my-library -> uuid
dependency. The uuid
crate will be resolved to
one version for this entire crate graph, 1.0.1, and it'll be pulled from the git
repository.
Overriding repository URL
In case the dependency you want to override isn't loaded from crates.io
,
you'll have to change a bit how you use [patch]
. For example, if the
dependency is a git dependency, you can override it to a local path with:
[patch."https://github.com/your/repository"]
my-library = { path = "../my-library/path" }
And that's it!
Prepublishing a breaking change
Let's take a look at working with a new major version of a crate, typically
accompanied with breaking changes. Sticking with our previous crates, this
means that we're going to be creating version 2.0.0 of the uuid
crate. After
we've submitted all changes upstream we can update our manifest for
my-library
to look like:
[dependencies]
uuid = "2.0"
[patch.crates-io]
uuid = { git = "https://github.com/uuid-rs/uuid", branch = "2.0.0" }
And that's it! Like with the previous example the 2.0.0 version doesn't actually
exist on crates.io but we can still put it in through a git dependency through
the usage of the [patch]
section. As a thought exercise let's take another
look at the my-binary
manifest from above again as well:
[package]
name = "my-binary"
version = "0.1.0"
authors = ["..."]
[dependencies]
my-library = { git = 'https://example.com/git/my-library' }
uuid = "1.0"
[patch.crates-io]
uuid = { git = 'https://github.com/uuid-rs/uuid', branch = '2.0.0' }
Note that this will actually resolve to two versions of the uuid
crate. The
my-binary
crate will continue to use the 1.x.y series of the uuid
crate but
the my-library
crate will use the 2.0.0
version of uuid
. This will allow you
to gradually roll out breaking changes to a crate through a dependency graph
without being force to update everything all at once.
Using [patch]
with multiple versions
You can patch in multiple versions of the same crate with the package
key
used to rename dependencies. For example let's say that the serde
crate has
a bugfix that we'd like to use to its 1.*
series but we'd also like to
prototype using a 2.0.0
version of serde we have in our git repository. To
configure this we'd do:
[patch.crates-io]
serde = { git = 'https://github.com/serde-rs/serde' }
serde2 = { git = 'https://github.com/example/serde', package = 'serde', branch = 'v2' }
The first serde = ...
directive indicates that serde 1.*
should be used
from the git repository (pulling in the bugfix we need) and the second serde2 = ...
directive indicates that the serde
package should also be pulled from
the v2
branch of https://github.com/example/serde
. We're assuming here
that Cargo.toml
on that branch mentions version 2.0.0
.
Note that when using the package
key the serde2
identifier here is actually
ignored. We simply need a unique name which doesn't conflict with other patched
crates.
The [patch]
section
The [patch]
section of Cargo.toml
can be used to override dependencies
with other copies. The syntax is similar to the
[dependencies]
section:
[patch.crates-io]
foo = { git = 'https://github.com/example/foo' }
bar = { path = 'my/local/bar' }
[dependencies.baz]
git = 'https://github.com/example/baz'
[patch.'https://github.com/example/baz']
baz = { git = 'https://github.com/example/patched-baz', branch = 'my-branch' }
The [patch]
table is made of dependency-like sub-tables. Each key after
[patch]
is a URL of the source that is being patched, or the name of a
registry. The name crates-io
may be used to override the default registry
crates.io. The first [patch]
in the example above demonstrates overriding
crates.io, and the second [patch]
demonstrates overriding a git source.
Each entry in these tables is a normal dependency specification, the same as
found in the [dependencies]
section of the manifest. The dependencies listed
in the [patch]
section are resolved and used to patch the source at the
URL specified. The above manifest snippet patches the crates-io
source (e.g.
crates.io itself) with the foo
crate and bar
crate. It also
patches the https://github.com/example/baz
source with a my-branch
that
comes from elsewhere.
Sources can be patched with versions of crates that do not exist, and they can also be patched with versions of crates that already exist. If a source is patched with a crate version that already exists in the source, then the source's original crate is replaced.
The [replace]
section
Note:
[replace]
is deprecated. You should use the[patch]
table instead.
This section of Cargo.toml can be used to override dependencies with other
copies. The syntax is similar to the [dependencies]
section:
[replace]
"foo:0.1.0" = { git = 'https://github.com/example/foo' }
"bar:1.0.2" = { path = 'my/local/bar' }
Each key in the [replace]
table is a package ID
specification, which allows arbitrarily choosing a node in the
dependency graph to override (the 3-part version number is required). The
value of each key is the same as the [dependencies]
syntax for specifying
dependencies, except that you can't specify features. Note that when a crate
is overridden the copy it's overridden with must have both the same name and
version, but it can come from a different source (e.g., git or a local path).
paths
overrides
Sometimes you're only temporarily working on a crate and you don't want to have
to modify Cargo.toml
like with the [patch]
section above. For this use
case Cargo offers a much more limited version of overrides called path
overrides.
Path overrides are specified through .cargo/config.toml
instead of
Cargo.toml
. Inside of .cargo/config.toml
you'll specify a key called paths
:
paths = ["/path/to/uuid"]
This array should be filled with directories that contain a Cargo.toml
. In
this instance, we’re just adding uuid
, so it will be the only one that’s
overridden. This path can be either absolute or relative to the directory that
contains the .cargo
folder.
Path overrides are more restricted than the [patch]
section, however, in
that they cannot change the structure of the dependency graph. When a
path replacement is used then the previous set of dependencies
must all match exactly to the new Cargo.toml
specification. For example this
means that path overrides cannot be used to test out adding a dependency to a
crate, instead [patch]
must be used in that situation. As a result usage of a
path override is typically isolated to quick bug fixes rather than larger
changes.
Note: using a local configuration to override paths will only work for crates that have been published to crates.io. You cannot use this feature to tell Cargo how to find local unpublished crates.