From 60440f90dca28e99a31dd328c5f6d5dc0f9b6a2e Mon Sep 17 00:00:00 2001 From: mo khan Date: Sun, 11 May 2025 21:12:57 -0600 Subject: chore: vendor go dependencies --- .../github.com/containerd/platforms/platforms.go | 308 +++++++++++++++++++++ 1 file changed, 308 insertions(+) create mode 100644 vendor/github.com/containerd/platforms/platforms.go (limited to 'vendor/github.com/containerd/platforms/platforms.go') diff --git a/vendor/github.com/containerd/platforms/platforms.go b/vendor/github.com/containerd/platforms/platforms.go new file mode 100644 index 0000000..1bbbdb9 --- /dev/null +++ b/vendor/github.com/containerd/platforms/platforms.go @@ -0,0 +1,308 @@ +/* + Copyright The containerd Authors. + + Licensed under the Apache License, Version 2.0 (the "License"); + you may not use this file except in compliance with the License. + You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + + Unless required by applicable law or agreed to in writing, software + distributed under the License is distributed on an "AS IS" BASIS, + WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + See the License for the specific language governing permissions and + limitations under the License. +*/ + +// Package platforms provides a toolkit for normalizing, matching and +// specifying container platforms. +// +// Centered around OCI platform specifications, we define a string-based +// specifier syntax that can be used for user input. With a specifier, users +// only need to specify the parts of the platform that are relevant to their +// context, providing an operating system or architecture or both. +// +// How do I use this package? +// +// The vast majority of use cases should simply use the match function with +// user input. The first step is to parse a specifier into a matcher: +// +// m, err := Parse("linux") +// if err != nil { ... } +// +// Once you have a matcher, use it to match against the platform declared by a +// component, typically from an image or runtime. Since extracting an images +// platform is a little more involved, we'll use an example against the +// platform default: +// +// if ok := m.Match(Default()); !ok { /* doesn't match */ } +// +// This can be composed in loops for resolving runtimes or used as a filter for +// fetch and select images. +// +// More details of the specifier syntax and platform spec follow. +// +// # Declaring Platform Support +// +// Components that have strict platform requirements should use the OCI +// platform specification to declare their support. Typically, this will be +// images and runtimes that should make these declaring which platform they +// support specifically. This looks roughly as follows: +// +// type Platform struct { +// Architecture string +// OS string +// Variant string +// } +// +// Most images and runtimes should at least set Architecture and OS, according +// to their GOARCH and GOOS values, respectively (follow the OCI image +// specification when in doubt). ARM should set variant under certain +// discussions, which are outlined below. +// +// # Platform Specifiers +// +// While the OCI platform specifications provide a tool for components to +// specify structured information, user input typically doesn't need the full +// context and much can be inferred. To solve this problem, we introduced +// "specifiers". A specifier has the format +// `||/[/]`. The user can provide either the +// operating system or the architecture or both. +// +// An example of a common specifier is `linux/amd64`. If the host has a default +// of runtime that matches this, the user can simply provide the component that +// matters. For example, if a image provides amd64 and arm64 support, the +// operating system, `linux` can be inferred, so they only have to provide +// `arm64` or `amd64`. Similar behavior is implemented for operating systems, +// where the architecture may be known but a runtime may support images from +// different operating systems. +// +// # Normalization +// +// Because not all users are familiar with the way the Go runtime represents +// platforms, several normalizations have been provided to make this package +// easier to user. +// +// The following are performed for architectures: +// +// Value Normalized +// aarch64 arm64 +// armhf arm +// armel arm/v6 +// i386 386 +// x86_64 amd64 +// x86-64 amd64 +// +// We also normalize the operating system `macos` to `darwin`. +// +// # ARM Support +// +// To qualify ARM architecture, the Variant field is used to qualify the arm +// version. The most common arm version, v7, is represented without the variant +// unless it is explicitly provided. This is treated as equivalent to armhf. A +// previous architecture, armel, will be normalized to arm/v6. +// +// Similarly, the most common arm64 version v8, and most common amd64 version v1 +// are represented without the variant. +// +// While these normalizations are provided, their support on arm platforms has +// not yet been fully implemented and tested. +package platforms + +import ( + "fmt" + "path" + "regexp" + "runtime" + "strconv" + "strings" + + specs "github.com/opencontainers/image-spec/specs-go/v1" +) + +var ( + specifierRe = regexp.MustCompile(`^[A-Za-z0-9_-]+$`) + osAndVersionRe = regexp.MustCompile(`^([A-Za-z0-9_-]+)(?:\(([A-Za-z0-9_.-]*)\))?$`) +) + +const osAndVersionFormat = "%s(%s)" + +// Platform is a type alias for convenience, so there is no need to import image-spec package everywhere. +type Platform = specs.Platform + +// Matcher matches platforms specifications, provided by an image or runtime. +type Matcher interface { + Match(platform specs.Platform) bool +} + +// NewMatcher returns a simple matcher based on the provided platform +// specification. The returned matcher only looks for equality based on os, +// architecture and variant. +// +// One may implement their own matcher if this doesn't provide the required +// functionality. +// +// Applications should opt to use `Match` over directly parsing specifiers. +func NewMatcher(platform specs.Platform) Matcher { + return newDefaultMatcher(platform) +} + +type matcher struct { + specs.Platform +} + +func (m *matcher) Match(platform specs.Platform) bool { + normalized := Normalize(platform) + return m.OS == normalized.OS && + m.Architecture == normalized.Architecture && + m.Variant == normalized.Variant +} + +func (m *matcher) String() string { + return FormatAll(m.Platform) +} + +// ParseAll parses a list of platform specifiers into a list of platform. +func ParseAll(specifiers []string) ([]specs.Platform, error) { + platforms := make([]specs.Platform, len(specifiers)) + for i, s := range specifiers { + p, err := Parse(s) + if err != nil { + return nil, fmt.Errorf("invalid platform %s: %w", s, err) + } + platforms[i] = p + } + return platforms, nil +} + +// Parse parses the platform specifier syntax into a platform declaration. +// +// Platform specifiers are in the format `[()]||[()]/[/]`. +// The minimum required information for a platform specifier is the operating +// system or architecture. The OSVersion can be part of the OS like `windows(10.0.17763)` +// When an OSVersion is specified, then specs.Platform.OSVersion is populated with that value, +// and an empty string otherwise. +// If there is only a single string (no slashes), the +// value will be matched against the known set of operating systems, then fall +// back to the known set of architectures. The missing component will be +// inferred based on the local environment. +func Parse(specifier string) (specs.Platform, error) { + if strings.Contains(specifier, "*") { + // TODO(stevvooe): need to work out exact wildcard handling + return specs.Platform{}, fmt.Errorf("%q: wildcards not yet supported: %w", specifier, errInvalidArgument) + } + + // Limit to 4 elements to prevent unbounded split + parts := strings.SplitN(specifier, "/", 4) + + var p specs.Platform + for i, part := range parts { + if i == 0 { + // First element is [()] + osVer := osAndVersionRe.FindStringSubmatch(part) + if osVer == nil { + return specs.Platform{}, fmt.Errorf("%q is an invalid OS component of %q: OSAndVersion specifier component must match %q: %w", part, specifier, osAndVersionRe.String(), errInvalidArgument) + } + + p.OS = normalizeOS(osVer[1]) + p.OSVersion = osVer[2] + } else { + if !specifierRe.MatchString(part) { + return specs.Platform{}, fmt.Errorf("%q is an invalid component of %q: platform specifier component must match %q: %w", part, specifier, specifierRe.String(), errInvalidArgument) + } + } + } + + switch len(parts) { + case 1: + // in this case, we will test that the value might be an OS (with or + // without the optional OSVersion specified) and look it up. + // If it is not known, we'll treat it as an architecture. Since + // we have very little information about the platform here, we are + // going to be a little more strict if we don't know about the argument + // value. + if isKnownOS(p.OS) { + // picks a default architecture + p.Architecture = runtime.GOARCH + if p.Architecture == "arm" && cpuVariant() != "v7" { + p.Variant = cpuVariant() + } + + return p, nil + } + + p.Architecture, p.Variant = normalizeArch(parts[0], "") + if p.Architecture == "arm" && p.Variant == "v7" { + p.Variant = "" + } + if isKnownArch(p.Architecture) { + p.OS = runtime.GOOS + return p, nil + } + + return specs.Platform{}, fmt.Errorf("%q: unknown operating system or architecture: %w", specifier, errInvalidArgument) + case 2: + // In this case, we treat as a regular OS[(OSVersion)]/arch pair. We don't care + // about whether or not we know of the platform. + p.Architecture, p.Variant = normalizeArch(parts[1], "") + if p.Architecture == "arm" && p.Variant == "v7" { + p.Variant = "" + } + + return p, nil + case 3: + // we have a fully specified variant, this is rare + p.Architecture, p.Variant = normalizeArch(parts[1], parts[2]) + if p.Architecture == "arm64" && p.Variant == "" { + p.Variant = "v8" + } + + return p, nil + } + + return specs.Platform{}, fmt.Errorf("%q: cannot parse platform specifier: %w", specifier, errInvalidArgument) +} + +// MustParse is like Parses but panics if the specifier cannot be parsed. +// Simplifies initialization of global variables. +func MustParse(specifier string) specs.Platform { + p, err := Parse(specifier) + if err != nil { + panic("platform: Parse(" + strconv.Quote(specifier) + "): " + err.Error()) + } + return p +} + +// Format returns a string specifier from the provided platform specification. +func Format(platform specs.Platform) string { + if platform.OS == "" { + return "unknown" + } + + return path.Join(platform.OS, platform.Architecture, platform.Variant) +} + +// FormatAll returns a string specifier that also includes the OSVersion from the +// provided platform specification. +func FormatAll(platform specs.Platform) string { + if platform.OS == "" { + return "unknown" + } + + if platform.OSVersion != "" { + OSAndVersion := fmt.Sprintf(osAndVersionFormat, platform.OS, platform.OSVersion) + return path.Join(OSAndVersion, platform.Architecture, platform.Variant) + } + return path.Join(platform.OS, platform.Architecture, platform.Variant) +} + +// Normalize validates and translate the platform to the canonical value. +// +// For example, if "Aarch64" is encountered, we change it to "arm64" or if +// "x86_64" is encountered, it becomes "amd64". +func Normalize(platform specs.Platform) specs.Platform { + platform.OS = normalizeOS(platform.OS) + platform.Architecture, platform.Variant = normalizeArch(platform.Architecture, platform.Variant) + + return platform +} -- cgit v1.2.3