19 releases (8 breaking)
new 0.9.0 | Dec 10, 2024 |
---|---|
0.8.5 | Nov 20, 2024 |
0.8.2 | Oct 30, 2024 |
0.4.0 | Jun 20, 2024 |
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wasm-pkg-tools
Tools to package up Wasm Components
This repo contains several Rust crates that can be used for fetching and publishing Wasm Components
to OCI or Warg registries. It is also the home of the wkg
command line tool, which exposes all the
functionality of the libraries. The first (but not only) focus of this project is allow for fetching
of Wit Interfaces stored as components for use in creating components. It can also be used to fetch
and publish component "libraries" to/from a registry.
Installation
Right now installation of wkg
is manual. You can either clone the repo and build from source, or
download a pre-built binary from the releases
page and add it to your PATH
. In the
future we will add this tool to various package managers. If this is something you'd like to help
with, please feel free to open some PRs!
If you have a Rust toolchain installed, you can also install wkg
with one of the following
options:
cargo install wkg
If you have cargo-binstall installed, you can also
install wkg
with a pre-built binary:
cargo binstall wkg
Configuration
To quickly set the default registry:
wkg config --default-registry {REGISTRY_DOMAIN}
For the complete configuration options, you can edit the config file with your default
editor (set with env var $EDITOR
):
wkg config --edit
The wkg
tool and libraries use a configuration file to store settings. This config file is still
subject to change but we will try to keep it backwards compatible as we continue to develop the
tool. This config file is meant to be used by both wkg
and also any other language-specific
component tooling that wants to fetch from registries. This should allow for a single configuration
file that can be used by all tooling, whether that be wkg
or some other tool that isn't written in
Rust.
The default location is $XDG_CONFIG_HOME/wasm-pkg/config.toml
on unix-like systems and
{FOLDERID_RoamingAppData}\wasm-pkg\config.toml
on Windows but this can be overridden with the
--config
flag. Examples of this are found below:
Platform | Path |
---|---|
Linux | /home/<username>/.config |
macOS | /home/<username>/.config |
Windows | C:\Users\<username>\AppData\Roaming |
The configuration file is TOML and can be edited manually.
Below is an annotated example of a configuration file that shows all the available options.
# The default registry to use when none is specified. Generally this is wasi.dev, but can be set
# for cases when a company wants to use a private/internal registry.
default_registry = "acme.registry.com"
# This section contains a mapping of namespace prefixes (i.e. the "wasi" part of "wasi:http") to
# registries. This is used to determine which registry to use when fetching or publishing a
# component. If a namespace is not listed here, the default registry will be used.
[namespace_registries]
wasi = "wasi.dev"
example = "example.com"
# An example of providing your own registry mapping. For large and/or public registries, we
# recommend creating a well-known metadata file that can be used to determine the registry to use
# (see the section on "metadata" below). But many times you might want to override mappings or
# provide something that is used by a single team. The registry name does not matter, but must be
# parsable to URL authority. This name is purely used for mapping to registry config and isn't
# actually used as a URL when metadata is provided
another = { registry = "another", metadata = { preferredProtocol = "oci", "oci" = {registry = "ghcr.io", namespacePrefix = "webassembly/" } } }
# This overrides the default registry for a specific package. This is useful for cases where a
# package is published to multiple registries.
[package_registry_overrides]
"example:foo" = "example.com"
# Same as namespace_registries above, but for a specific package.
"example:bar" = { registry = "another", metadata = { preferredProtocol = "oci", "oci" = {registry = "ghcr.io", namespacePrefix = "webassembly/" } } }
# This section contains a mapping of registries to their configuration. There are currently 3
# supported types of registries: "oci", "warg", and "local". The "oci" type is the default. The
# example below shows a use case that isn't yet super common (registries that speak multiple protocols)
# but is included for completeness.
[registry."acme.registry.com"]
# This field is only required if more that one protocol is supported. It indicates which protocol
# to use by default. If this is not set, then the fallback (oci) will be used.
default = "warg"
[registry."acme.registry.com".warg]
# A path to a valid warg config file. If this is not set, the `wkg` CLI (but not the libraries)
# will attempt to load the config from the default location(s).
config_file = "/a/path"
# An optional authentication token to use when authenticating with a registry.
auth_token = "an-auth-token"
# An optional key for signing the component. Ideally, you should just let warg use the keychain
# or programmatically set this key in the config without writing to disk. This offers an escape
# hatch for when you need to use a key that isn't in the keychain.
signing_key = "ecdsa-p256:2CV1EpLaSYEn4In4OAEDAj5O4Hzu8AFAxgHXuG310Ew="
[registry."acme.registry.com".oci]
# The auth field can either be a username/password pair, or a base64 encoded `username:password`
# string. If no auth is set, the `wkg` CLI (but not the libraries) will also attempt to load the
# credentials from the docker config.json. This field is also optional and if not set, anonymous
# auth will be used. If you're just pulling from a public registry, this is likely not required.
# If you're using a private registry and/or publishing, you'll almost certainly need to set this.
auth = { username = "open", password = "sesame" }
# This is an optional field that tells the OCI client to use a specific http protocol. If this is
# not set or not one of the accepted values of "http" or "https", then the default (https) will
# be used.
protocol = "https"
[registry."acme.registry.com".local]
# This is a required field that specifies the root directory on a filesystem where the components
# are stored. This is mostly used for local development and testing.
root = "/a/path"
# If a registry only has a config section for one protocol, then that protocol is automatically
# the default. The following is equivalent to:
# [registry."example.com"]
# default = "warg"
# [registry."example.com".warg]
# config_file = "/a/path"
[registry."example.com".warg]
config_file = "/a/path"
# Configuration for the "another" registry defined above.
[registry."another".oci]
auth = { username = "open", password = "sesame" }
Well-known metadata
For well-used or public registries, we recommend creating a well-known metadata file that is used by
the tool chain to simplify configuration and indicate to a client which protocols and mappings to
use (although this can be set directly in config as well). The wkg
tool and libraries expect a
registry.json
file to be present at a specific location to indicate to the tooling where the
components are stored. For example, if a registry was example.com
, then the tooling will attempt
to find a registry.json
file at https://example.com/.well-known/wasm-pkg/registry.json
.
A full example of what this registry.json
file should look like is below:
{
"preferredProtocol":"warg",
"warg": {"url":"https://warg.example.com"},
"oci": {"registry": "ghcr.io", "namespacePrefix": "webassembly/"}
}
The preferredProtocol
field is optional and specifies which protocol the registry expects you to
use in the case where it supports both OCI and Warg. If both warg
and oci
config is in the
registry.json
it is highly recommended that this field be set.
For the oci
config, the registry
field is the base URL of the OCI registry, and the
namespacePrefix
field is the prefix that is used to store components in the registry. So in the
example above (which is for wasi.dev), the components will be available at
ghcr.io/webassembly/$NAMESPACE/$PACKAGE:$VERSION
(e.g. ghcr.io/webassembly/wasi/http:0.2.1
).
For the warg
config, the url
field is the base URL of the Warg registry used when connecting the
client. Namespacing for warg is built in to the protocol.
Please note that for backwards compatibility, with previous tooling and versions of the wkg
tool,
you may also encounter a registry.json
file that looks different. These files are still supported,
but should be considered deprecated.
For OCI registries, the JSON looks like this:
{
"ociRegistry": "ghcr.io",
"ociNamespacePrefix": "webassembly/"
}
For Warg registries, the JSON looks like this:
{
"wargUrl": "https://warg.wa.dev"
}
Conventions for storing components in OCI
Astute observers will note that OCI requires a specific structure for how those components are
stored. To be clear, this does not apply to deployable artifacts (such as those used by various
runtimes), but only to WIT components or library components. Based on the information in the
registry.json
file, the base URL and namespace prefix will be joined together with the namespace
and package name to form the full URL. So if you have a custom company namespace called acme
. Then
a package called acme:foo
should be stored with the name acme/foo
. If we use the registry.json
file from the example above, then the component will be stored at
ghcr.io/webassembly/acme/foo:0.1.0
. Please note that the tag MUST be a valid semantic version or
the tooling will ignore it when pulling.
wkg.toml
and wkg.lock
Whenever wkg
is used to fetch dependencies or build a wit package, it will automatically create a
wkg.lock
file. This lock file is the other standardized file that can be used by any other tooling
integrating in with package tooling. Because components are cross language, this file will be the
same for all languages. An example of this file is below:
version = 1
[[packages]]
name = "wasi:cli"
registry = "wasi.dev"
[[packages.versions]]
requirement = "=0.2.0"
version = "0.2.0"
digest = "sha256:e7e85458e11caf76554b724ebf4f113259decf0f3b1ee2e2930de096f72114a7"
[[packages]]
name = "wasi:clocks"
registry = "wasi.dev"
[[packages.versions]]
requirement = "=0.2.0"
version = "0.2.0"
digest = "sha256:51911098e929732f65d1d84f8dc393299f18a9e8de632d854714f37142efe97b"
[[packages]]
name = "wasi:io"
registry = "wasi.dev"
[[packages.versions]]
requirement = "=0.2.0"
version = "0.2.0"
digest = "sha256:c33b1dbf050f64229ff4decbf9a3d3420e0643a86f5f0cea29f81054820020a6"
[[packages]]
name = "wasi:random"
registry = "wasi.dev"
[[packages.versions]]
requirement = "=0.2.0"
version = "0.2.0"
digest = "sha256:5d535edc544d06719cf337861b7917c3d565360295e5dc424046dceddb0a0e42"
On the other hand, the wkg.toml
file is used to configure various parts of the tooling and is
entirely optional. Projects are not required to use this file. Currently, it serves two purposes:
adding additional metadata and overriding versions/dependencies. The most common usage will be to
point to a local dependency:
[overrides]
"my:local-dep" = { path = "../local-dep/wit" }
There is also a [metadata]
section that can be used to add additional metadata when building a WIT
package (or can be used by other language tooling). For OCI, this metadata is also used to populate
common OCI annotations when publishing a package. A full example of all fields are below:
[metadata]
authors = ["WasmPkg <wasm-pkg@bytecodealliance.org>"]
categories = ["wasm-pkg"]
description = "WASI HTTP interface"
license = "Apache-2.0"
documentation = "https://docs.foobar.baz"
homepage = "https://foobar.baz"
repository = "https://github.com/bytecodealliance/wasm-pkg-tools"
OCI Annotation Mapping
When publish to OCI via wkg publish
, it will load the metadata from the wasm binary (which is
automatically added to the WIT package with wkg wit build
if the metadata is present in the
wkg.toml
file). The metadata is mapped to the following OCI annotations:
wkg.toml Metadata Field |
OCI Annotation |
---|---|
description |
org.opencontainers.image.description |
license |
org.opencontainers.image.licenses |
homepage |
org.opencontainers.image.url |
repository |
org.opencontainers.image.source |
Additionally, the org.opencontainers.image.version
annotation is set to the version of the package being published.
Contributing
Want to join us? Check out our "Contributing" guide and take a look at some of these issues:
License
Licensed under Apache-2.0 WITH LLVM-exception
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in this crate by you, as defined in the Apache-2.0 license with LLVM-exception, shall be licensed as above, without any additional terms or conditions.
Dependencies
~34–53MB
~870K SLoC