--- last_review_date: "1970-01-01" --- # `brew livecheck` The `brew livecheck` command finds the newest version of a formula or cask's software by checking upstream. Livecheck has [strategies](https://rubydoc.brew.sh/Homebrew/Livecheck/Strategy) to identify versions from various sources, such as Git repositories, websites, etc. ## Behavior When livecheck isn't given instructions for how to check for upstream versions, it does the following by default: 1. For formulae: Collect the `stable`, `head`, and `homepage` URLs, in that order (resources simply use their `url`). For casks: Collect the `url` and `homepage` URLs, in that order. 1. Determine if any strategies apply to the first URL. If not, try the next URL. 1. If a strategy can be applied, use it to check for new versions. 1. Return the newest version (or an error if versions could not be found at any available URLs). It's sometimes necessary to override this default behavior to create a working check. If a source doesn't provide the newest version, we need to check a different one. If livecheck doesn't correctly match version text, we need to provide an appropriate regex or `strategy` block. This can be accomplished by adding a `livecheck` block to the formula/cask/resource. For more information on the available methods, please refer to the [`Livecheck` class documentation](https://rubydoc.brew.sh/Livecheck). ## Creating a check 1. **Use the debug output to understand the situation**. `brew livecheck --debug |` provides information about which URLs livecheck tries, any strategies that apply, matched versions, etc. 1. **Research available sources to select a URL**. Try removing the file name from `stable`/`url` to see if it provides a directory listing page. If that doesn't work, try to find a page that links to the file (e.g. a download page). If it's not possible to find the newest version on the website, try checking other sources from the formula/cask. When necessary, search for other sources outside of the formula/cask. 1. **Create a regex, if necessary**. If the check works without a regex and wouldn't benefit from having one, it's usually fine to omit it. More information on creating regexes can be found in the [regex guidelines](#regex-guidelines) section. ### General guidelines * **Only use `strategy` when it's necessary**. For example, if livecheck is already using the `Git` strategy for a URL, it's not necessary to use `strategy :git`. However, if `Git` applies to a URL but we need to use `PageMatch`, it's necessary to specify `strategy :page_match`. * **Only use the `GithubLatest` and `GithubReleases` strategies when they are necessary and correct**. GitHub rate-limits API requests, so we only use these strategies when `Git` isn't sufficient or appropriate. `GithubLatest` should only be used if the upstream repository has a "latest" release for a suitable version and either the formula/cask uses a release asset or the `Git` strategy can't correctly identify the latest release version. `GithubReleases` should only be used if the upstream repository uses releases and both the `Git` and `GithubLatest` strategies aren't suitable. ### URL guidelines * **A `url` is required in a `livecheck` block**. This can be a URL string (e.g. `"https://www.example.com/downloads/"`) or a formula/cask URL symbol (i.e. `:stable`, `:url`, `:head`, `:homepage`). The exception to this rule is a `livecheck` block that only uses `skip`. * **Check for versions in the same location as the stable archive, whenever possible**. * **Avoid checking paginated release pages, when possible**. For example, we generally avoid checking the `release` page for a GitHub project because the latest stable version can be pushed off the first page by pre-release versions. In this scenario, it's more reliable to use the `Git` strategy, which fetches all the tags in the repository. ### Regex guidelines The `livecheck` block regex restricts matches to a subset of the fetched content and uses a capture group around the version text. * **Regexes should be made case insensitive, whenever possible**, by adding `i` at the end (e.g. `/.../i` or `%r{...}i`). This improves reliability, as the regex will handle changes in letter case without needing modifications. * **Regexes should only use a capturing group around the version text**. For example, in `/href=.*?example-v?(\d+(?:\.\d+)+)(?:-src)?\.t/i`, we're only using a capturing group around the version test (matching a version like `1.2`, `1.2.3`, etc.) and we're using non-capturing groups elsewhere (e.g. `(?:-src)?`). * **Anchor the start/end of the regex, to restrict the scope**. For example, on HTML pages we often match file names or version directories in `href` attribute URLs (e.g. `/href=.*?example[._-]v?(\d+(?:\.\d+)+)\.zip/i`). The general idea is that limiting scope will help exclude unwanted matches. * **Avoid generic catchalls like `.*` or `.+`** in favor of something non-greedy and/or contextually appropriate. For example, to match characters within the bounds of an HTML attribute, use `[^"' >]+?`. * **Use `[._-]` in place of a period/underscore/hyphen between the software name and version in a file name**. For a file named `example-1.2.3.tar.gz`, `example[._-]v?(\d+(?:\.\d+)+)\.t` will continue matching if the upstream file name format changes to `example_1.2.3.tar.gz` or `example.1.2.3.tar.gz`. * **Use `\.t` in place of `\.tgz`, `\.tar\.gz`, etc.** There are a variety of different file extensions for tarballs (e.g. `.tar.bz2`, `tbz2`, `.tar.gz`, `.tgz`, `.tar.xz`, `.txz`, etc.) and the upstream source may switch from one compression format to another over time. `\.t` avoids this issue by matching current and future formats starting with `t`. Outside of tarballs, we use the full file extension in the regex like `\.zip`, `\.jar`, etc. ## Example `livecheck` blocks The following examples cover a number of patterns that you may encounter. These are intended to be representative samples and can be easily adapted. When in doubt, start with one of these examples instead of copy-pasting a `livecheck` block from a random formula/cask. ### File names When matching the version from a file name on an HTML page, we often restrict matching to `href` attributes. `href=.*?` will match the opening delimiter (`"`, `'`) as well as any part of the URL before the file name. ```ruby livecheck do url "https://www.example.com/downloads/" regex(/href=.*?example[._-]v?(\d+(?:\.\d+)+)\.t/i) end ``` We sometimes make this more explicit to exclude unwanted matches. URLs with a preceding path can use `href=.*?/` and others can use `href=["']?`. For example, this is necessary when the page also contains unwanted files with a longer prefix (`another-example-1.2.tar.gz`). ### Version directories When checking a directory listing page, sometimes files are separated into version directories (e.g. `1.2.3/`). In this case, we must identify versions from the directory names. ```ruby livecheck do url "https://www.example.com/releases/example/" regex(%r{href=["']?v?(\d+(?:\.\d+)+)/?["' >]}i) end ``` ### Git tags When the `stable` URL uses the `Git` strategy, the following example will only match tags like `1.2`/`v1.2`, etc. ```ruby livecheck do url :stable regex(/^v?(\d+(?:\.\d+)+)$/i) end ``` If tags include the software name as a prefix (e.g. `example-1.2.3`), it's easy to modify the regex accordingly: `/^example[._-]v?(\d+(?:\.\d+)+)$/i` ### Referenced formula/cask A formula/cask can use the same check as another by using `formula` or `cask`. ```ruby livecheck do formula "another-formula" end ``` The referenced formula/cask should be in the same tap, as a reference to a formula/cask from another tap will generate an error if the user doesn't already have it tapped. ### `strategy` blocks If the upstream version format needs to be manipulated to match the formula/cask format, a `strategy` block can be used instead of a `regex`. #### `PageMatch` `strategy` block Here is a basic example, extracting a simple version from a page: ```ruby livecheck do url "https://example.org/my-app/download" regex(%r{href=.*?/MyApp-(\d+(?:\.\d+)*)\.zip}i) strategy :page_match end ``` More complex versions can be handled by specifying a block. ```ruby livecheck do url "https://example.org/my-app/download" regex(%r{href=.*?/(\d+)/MyApp-(\d+(?:\.\d+)*)\.zip}i) strategy :page_match do |page, regex| match = page.match(regex) next if match.blank? "#{match[2]},#{match[1]}" end end ``` In the example below, we're scanning the contents of the homepage for a date format like `2020-01-01` and converting it into `20200101`. ```ruby livecheck do url :homepage strategy :page_match do |page| page.scan(/href=.*?example[._-]v?(\d{4}-\d{2}-\d{2})\.t/i) .map { |match| match&.first&.gsub(/\D/, "") } end end ``` The `PageMatch` `strategy` block style seen here also applies to any site-specific strategy that uses `PageMatch` internally. #### `HeaderMatch` `strategy` block A `strategy` block for `HeaderMatch` will try to parse a version from the filename (in the `Content-Disposition` header) and the final URL (in the `Location` header). If that doesn't work, a `regex` can be specified. ```ruby livecheck do url "https://example.org/my-app/download/latest" regex(/MyApp-(\d+(?:\.\d+)*)\.zip/i) strategy :header_match end ``` If the version depends on multiple header fields, a block can be specified. ```ruby livecheck do url "https://example.org/my-app/download/latest" strategy :header_match do |headers| v = headers["content-disposition"][/MyApp-(\d+(?:\.\d+)*)\.zip/i, 1] id = headers["location"][%r{/(\d+)/download$}i, 1] next if v.blank? || id.blank? "#{v},#{id}" end end ``` #### `Git` `strategy` block A `strategy` block for `Git` is a bit different, as the block receives an array of tag strings instead of a page content string. Similar to the `PageMatch` example, this is converting tags with a date format like `2020-01-01` into `20200101`. ```ruby livecheck do url :stable strategy :git do |tags| tags.filter_map { |tag| tag[/^(\d{4}-\d{2}-\d{2})$/i, 1]&.gsub(/\D/, "") } end end ``` #### `GithubLatest` `strategy` block A `strategy` block for `GithubLatest` receives the parsed JSON data from the GitHub API for a repository's "latest" release, along with a regex. When a regex is not provided in a `livecheck` block, the strategy's default regex is passed into the `strategy` block instead. By default, the strategy matches version text in the release's tag or title but a `strategy` block can be used to check any of the fields in the release JSON. The logic in the following `strategy` block is similar to the default behavior but only checks the release tag instead, for the sake of demonstration: ```ruby livecheck do url :stable regex(/^example[._-]v?(\d+(?:\.\d+)+)$/i) strategy :github_latest do |json, regex| match = json["tag_name"]&.match(regex) next if match.blank? match[1] end end ``` You can find more information on the response JSON from this API endpoint in the related [GitHub REST API documentation](https://docs.github.com/en/rest/releases/releases?apiVersion=latest#get-the-latest-release). #### `GithubReleases` `strategy` block A `strategy` block for `GithubReleases` receives the parsed JSON data from the GitHub API for a repository's most recent releases, along with a regex. When a regex is not provided in a `livecheck` block, the strategy's default regex is passed into the `strategy` block instead. By default, the strategy matches version text in each release's tag or title but a `strategy` block can be used to check any of the fields in the release JSON. The logic in the following `strategy` block is similar to the default behavior but only checks the release tag instead, for the sake of demonstration: ```ruby livecheck do url :stable regex(/^example[._-]v?(\d+(?:\.\d+)+)$/i) strategy :github_releases do |json, regex| json.map do |release| next if release["draft"] || release["prerelease"] match = release["tag_name"]&.match(regex) next if match.blank? match[1] end end end ``` You can find more information on the response JSON from this API endpoint in the related [GitHub REST API documentation](https://docs.github.com/en/rest/releases/releases?apiVersion=latest#list-releases). #### `Crate` `strategy` block A `strategy` block for `Crate` receives parsed JSON data from the registry API's `versions` endpoint and either the provided or default strategy regex. The strategy uses the following logic by default, so this `strategy` block may be a good starting point for a modified approach: ```ruby livecheck do url :stable strategy :crate do |json, regex| json["versions"]&.map do |version| next if version["yanked"] next unless (match = version["num"]&.match(regex)) match[1] end end end ``` #### `ElectronBuilder` `strategy` block A `strategy` block for `ElectronBuilder` fetches content at a URL and parses it as an electron-builder appcast in YAML format. It's used for casks of macOS applications built using the Electron framework. ```ruby livecheck do url "https://example.org/my-app/latest-mac.yml" strategy :electron_builder end ``` If you need to modify the version, you can access the YAML hash in the `strategy` block like so: ```ruby livecheck do url "https://example.org/my-app/latest-mac.yml" strategy :electron_builder do |yaml| yaml["version"]&.gsub(/\D/, "") end end ``` Similarly, you can work with the `files` array like this: ```ruby livecheck do url "https://example.org/my-app/latest-mac.yml" regex(/MyApp[._-]v?(\d+(?:\.\d+)+)-(\h+)\.dmg/i) strategy :electron_builder do |yaml, regex| yaml["files"]&.map do |file| match = file["url"]&.match(regex) next if match.blank? "#{match[1]},#{match[2]}" end end end ``` #### `Json` `strategy` block A `strategy` block for `Json` receives parsed JSON data and, if provided, a regex. For example, if we have an object containing an array of objects with a `version` string, we can select only the members that match the regex and isolate the relevant version text as follows: ```ruby livecheck do url "https://www.example.com/example.json" regex(/^v?(\d+(?:\.\d+)+)$/i) strategy :json do |json, regex| json["versions"].select { |item| item["version"]&.match?(regex) } .map { |item| item["version"][regex, 1] } end end ``` #### `Sparkle` `strategy` block A `strategy` block for `Sparkle` receives an `item` which has methods for the `version`, `short_version`, `nice_version`, `url`, `channel` and `title`. It expects a URL for an XML feed providing release information to a macOS application that self-updates using the Sparkle framework. This URL can be found within the app bundle as the `SUFeedURL` property in `Contents/Info.plist` or by using the [`find-appcast`](https://github.com/Homebrew/homebrew-cask/blob/HEAD/cmd/find-appcast.rb) command. Run it with: ```bash brew find-appcast '/path/to/application.app' ``` The default pattern for the `Sparkle` strategy is to generate `"#{item.short_version},#{item.version}"` from `sparkle:shortVersionString` and `sparkle:version` if both are set. In the example below, the `url` also includes a download ID which is needed: ```ruby livecheck do url "https://www.example.com/example.xml" strategy :sparkle do |item| "#{item.short_version},#{item.version}:#{item.url[%r{/(\d+)/[^/]+\.zip}i, 1]}" end end ``` To use only one, specify `&:version`, `&:short_version` or `&:nice_version`: ```ruby livecheck do url "https://www.example.com/example.xml" strategy :sparkle, &:short_version end ``` #### `Xml` `strategy` block A `strategy` block for `Xml` receives an `REXML::Document` object and, if provided, a regex. For example, if the XML contains a `versions` element with nested `version` elements and their inner text contains the version string, we could extract it using a regex as follows: ```ruby livecheck do url "https://www.example.com/example.xml" regex(/v?(\d+(?:\.\d+)+)/i) strategy :xml do |xml, regex| xml.get_elements("versions//version").map { |item| item.text[regex, 1] } end end ``` For more information on how to work with an `REXML::Document` object, please refer to the [`REXML::Document`](https://ruby.github.io/rexml/REXML/Document.html) and [`REXML::Element`](https://ruby.github.io/rexml/REXML/Element.html) documentation. #### `Yaml` `strategy` block A `strategy` block for `Yaml` receives parsed YAML data and, if provided, a regex. Borrowing the `Json` example, if we have an object containing an array of objects with a `version` string, we can select only the members that match the regex and isolate the relevant version text as follows: ```ruby livecheck do url "https://www.example.com/example.yaml" regex(/^v?(\d+(?:\.\d+)+)$/i) strategy :yaml do |yaml, regex| yaml["versions"].select { |item| item["version"]&.match?(regex) } .map { |item| item["version"][regex, 1] } end end ``` #### `ExtractPlist` `strategy` block If no means are available online for checking which version of a macOS package is current, as a last resort the `:extract_plist` strategy will have `brew livecheck` download the artifact and retrieve its version string from contained `.plist` files. ```ruby livecheck do url :url strategy :extract_plist end ``` A `strategy` block for `ExtractPlist` receives a hash containing keys for each found bundle identifier and `item`s with methods for each `version` and `short_version`. ```ruby livecheck do url :url strategy :extract_plist do |items| items["com.example.MyApp"].short_version end end ``` ### `skip` Livecheck automatically skips some formulae/casks for a number of reasons (deprecated, disabled, etc.). However, on rare occasions we need to use a `livecheck` block to do a manual skip. The `skip` method takes a string containing a very brief reason for skipping. ```ruby livecheck do skip "No version information available" end ```