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Instead of having Lua registries instantiate package instances
themselves we now do it in the installer of Lua registry sources.
This aligns the behaviour of the Lua registry protocol with the other
registry protocols.
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This changes the following public APIs:
**(_breaking_) Events on the `Package` class**
The `uninstall:success` event on the `Package` class now receives an `InstallReceipt` as argument, instead of an
`InstallHandle`. This receipt is an in-memory representation of what was uninstalled. There's also a new
`uninstall:failed` event for situations where uninstallation for some
reason fails. Note: this also applies to the registry events (i.e.
`package:uninstall:success` and `package:uninstall:failed`).
---
**(_breaking_) `Package:uninstall()` is now asynchronous and receives two new arguments, similarly to `Package:install()`**
While package uninstallations remain synchronous under the hood, the public API has been changed from synchronous ->
asynchronous. Users of this method are recommended to provide a callback in situations where code needs to execute after
uninstallation fully completes.
---
**(_breaking_) `Package:get_install_path()` has been removed.
---
**`Package:install()` now takes an optional callback**
This callback allows consumers to be informed whether installation was successful or not without having to go through a
different, low-level, API. See below for a comparison between the old and new APIs:
```lua
-- before
local handle = pkg:install()
handle:once("closed", function ()
-- ...
end)
-- after
pkg:install({}, function (success, result)
-- ...
end)
```
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(#1523)
This contains the following changes:
1) `Package:install()` now accepts a second, optional, callback argument which is called when installation finishes
(successfully or not).
2) Adds a `Package:is_installing()` method.
This contains the following breaking changes:
1) `Package:install()` will now error when called while an installation is already ongoing. Use the new
`Package:is_installing()` method to check whether an installation is already running.
This also refactors large portions of the tests by removing test globals, removing async_test, and adding the
`mason-test` Lua module instead. Test helpers via globals are problematic to work with due to not being detected through
tools like the Lua language server without additional configuration. This has been replaced with a Lua module
`mason-test`. `async_test` has also been removed in favour of explicitly making use of the `mason-core.async` API. These
changes stands for a significant portion of the diff.
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**This removes the following APIs:**
- `Package:check_new_version()`. Instead use the new `Package:get_latest_version()`.
**This has a breaking change in the following APIs:**
- `Package:get_installed_version()` now no longer takes a callback but instead returns the installed version or `nil` if
not installed.
<details>
<summary>To handle these breaking changes in plugins, leverage the `mason.version` module, for example:</summary>
```lua
local mason_version = require("mason.version")
local registry = require("mason-registry")
local pkg = registry.get_package("rust-analyzer")
if mason_version.MAJOR_VERSION < 2 then
-- before
pkg:check_new_version(function (success, new_version)
-- …
end)
pkg:get_installed_version(function (success, installed_version)
-- …
end)
else
-- after
local new_version = pkg:get_latest_version()
local installed_version = pkg:get_installed_version()
fi
```
</details>
---
<details>
<summary>This change also introduces breaking changes for Lua registry sources, by consolidating the package schema with the
registry.</summary>
The following is an example of a package defined in a Lua registry, following the new schema:
```lua
local Pkg = require("mason-core.package")
return Pkg.new {
schema = "registry+v1",
name = "ripgrep",
description = "ripgrep recursively searches directories for a regex pattern while respecting your gitignore.",
homepage = "https://github.com/BurntSushi/ripgrep",
licenses = { Pkg.License.MIT },
languages = {},
categories = {},
source = {
id = "pkg:mason/ripgrep@13.0.0",
---@param ctx InstallContext
---@param purl Purl
install = function(ctx, purl)
-- Arbitrary installation code.
end,
},
bin = {
rg = "./bin/rg",
},
}
```
</details>
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Instead of spawning a separate yq process for each registry package, utilize multi-document parsing through a single
process.
This should have significant performance improvements on all platforms, but especially Windows, due to bottlenecks
caused by AV software.
IMPORTANT: Writing all package definitions as-is via stdin like this works because packages in the registry (at least
the core registry) must start with a document header (---), effectively acting as a document separator.
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This primarily fixes `file:` registry identifiers on Windows that may include a drive letter (e.g.
`file:C:\Users\user\AppData\Local\nvim`).
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This should only be called once (during mason.nvim setup), but this fixes potential duplicate registry registration in
cases where it's called > 1 times.
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installed (#1297)
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This is a faster method than .get_all_packages() due to the fact that it only loads package specifications without
instantiating mason-core.package instances. Useful for situations where one only needs to read spec data.
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The index table may get out of date if a user updates the plugin version without restarting Neovim, causing the
`require()` call to error (note, restarting Neovim after plugin updates is always a good idea).
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Accessing binary data from the stdout of pwsh.exe's iwr seems to be
causing data corruption leading to inability to unpack the archive.
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Download data of the registry suggest that ~10-18% struggle to unpack the registry archive, with the drop-off occurring in the `unzip` step. Being able to unpack the registry is a very crucial component of mason.nvim, which warrants vendoring [zzlib](https://github.com/zerkman/zzlib) to allow unpacking it entirely in Lua.
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* refactor: download checksum after unzip
* fixup
---------
Co-authored-by: williambotman[bot] <william+bot@redwill.se>
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* chore(workflows): update dependencies
* style: enforce import order
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