/* Copyright (c) Edgeless Systems GmbH SPDX-License-Identifier: AGPL-3.0-only */ package versionsapi import ( "encoding/json" "errors" "fmt" "path" "regexp" "strings" "github.com/edgelesssys/constellation/v2/internal/constants" "go.uber.org/multierr" "golang.org/x/mod/semver" ) // ReleaseRef is the ref used for release versions. const ReleaseRef = "-" // Version represents a version. A version has a ref, stream, version string and kind. // // Notice that version is a meta object to the versions API and there isn't an // actual corresponding object in the S3 bucket. // Therefore, the version object doesn't have a URL or JSON path. type Version struct { Ref string Stream string Version string Kind VersionKind } // NewVersionFromShortPath creates a new Version from a version short path. func NewVersionFromShortPath(shortPath string, kind VersionKind) (Version, error) { ref, stream, version, err := parseShortPath(shortPath) if err != nil { return Version{}, err } ver := Version{ Ref: ref, Stream: stream, Version: version, Kind: kind, } if err := ver.Validate(); err != nil { return Version{}, err } return ver, nil } // ShortPath returns the short path of the version. func (v Version) ShortPath() string { return shortPath(v.Ref, v.Stream, v.Version) } // Validate validates the version. func (v Version) Validate() error { var retErr error if err := ValidateRef(v.Ref); err != nil { retErr = multierr.Append(retErr, err) } if err := ValidateStream(v.Ref, v.Stream); err != nil { retErr = multierr.Append(retErr, err) } if !semver.IsValid(v.Version) { retErr = multierr.Append(retErr, fmt.Errorf("version %q is not a valid semantic version", v.Version)) } if semver.Canonical(v.Version) != v.Version { retErr = multierr.Append(retErr, fmt.Errorf("version %q is not a canonical semantic version", v.Version)) } if v.Kind == VersionKindUnknown { retErr = multierr.Append(retErr, errors.New("version kind is unknown")) } return retErr } // Major returns the major version corresponding to the version. // For example, if the version is "v1.2.3", the major version is "v1". func (v Version) Major() string { return semver.Major(v.Version) } // MajorMinor returns the major and minor version corresponding to the version. // For example, if the version is "v1.2.3", the major and minor version is "v1.2". func (v Version) MajorMinor() string { return semver.MajorMinor(v.Version) } // WithGranularity returns the version with the given granularity. // // For example, if the version is "v1.2.3" and the granularity is GranularityMajor, // the returned version is "v1". // This is a helper function for Major() and MajorMinor() and v.Version. // In case of an unknown granularity, an empty string is returned. func (v Version) WithGranularity(gran Granularity) string { switch gran { case GranularityMajor: return v.Major() case GranularityMinor: return v.MajorMinor() case GranularityPatch: return v.Version default: return "" } } // ListURL returns the URL of the list with the given granularity, // this version is listed in. // For example, assing GranularityMajor returns the URL of the versions list // that maps the major version of this version to its minor version. // In case of an unknown granularity, an empty string is returned. func (v Version) ListURL(gran Granularity) string { if gran == GranularityUnknown || gran == GranularityPatch { return "" } return constants.CDNRepositoryURL + "/" + v.ListPath(gran) } // ListPath returns the path of the list with the given granularity, // this version is listed in. // For example, assing GranularityMajor returns the path of the versions list // that maps the major version of this version to its minor version. // In case of an unknown granularity, an empty string is returned. func (v Version) ListPath(gran Granularity) string { if gran == GranularityUnknown || gran == GranularityPatch { return "" } return path.Join( constants.CDNAPIPrefix, "ref", v.Ref, "stream", v.Stream, "versions", gran.String(), v.WithGranularity(gran), v.Kind.String()+".json", ) } // ArtifactURL returns the URL to the artifacts stored for this version. // The URL points to a directory. func (v Version) ArtifactURL() string { return constants.CDNRepositoryURL + "/" + v.ArtifactPath() } // ArtifactPath returns the path to the artifacts stored for this version. // The path points to a directory. func (v Version) ArtifactPath() string { return path.Join( constants.CDNAPIPrefix, "ref", v.Ref, "stream", v.Stream, v.Version, ) } // VersionKind represents the kind of resource the version versions. type VersionKind int const ( // VersionKindUnknown is the default value for VersionKind. VersionKindUnknown VersionKind = iota // VersionKindImage is the kind for image versions. VersionKindImage ) // MarshalJSON marshals the VersionKind to JSON. func (k VersionKind) MarshalJSON() ([]byte, error) { return json.Marshal(k.String()) } // UnmarshalJSON unmarshals the VersionKind from JSON. func (k *VersionKind) UnmarshalJSON(data []byte) error { var s string if err := json.Unmarshal(data, &s); err != nil { return err } *k = VersionKindFromString(s) return nil } // String returns the string representation of the VersionKind. func (k VersionKind) String() string { switch k { case VersionKindImage: return "image" default: return "unknown" } } // VersionKindFromString returns the VersionKind for the given string. func VersionKindFromString(s string) VersionKind { switch strings.ToLower(s) { case "image": return VersionKindImage default: return VersionKindUnknown } } // Granularity represents the granularity of a semantic version. type Granularity int const ( // GranularityUnknown is the default granularity. GranularityUnknown Granularity = iota // GranularityMajor is the granularity of a major version, e.g. "v1". // Lists with granularity "major" map from a major version to a list of minor versions. GranularityMajor // GranularityMinor is the granularity of a minor version, e.g. "v1.0". // Lists with granularity "minor" map from a minor version to a list of patch versions. GranularityMinor // GranularityPatch is the granularity of a patch version, e.g. "v1.0.0". // There are no lists with granularity "patch". GranularityPatch ) // MarshalJSON marshals the granularity to JSON. func (g Granularity) MarshalJSON() ([]byte, error) { return json.Marshal(g.String()) } // UnmarshalJSON unmarshals the granularity from JSON. func (g *Granularity) UnmarshalJSON(data []byte) error { var s string if err := json.Unmarshal(data, &s); err != nil { return err } *g = GranularityFromString(s) return nil } // String returns the string representation of the granularity. func (g Granularity) String() string { switch g { case GranularityMajor: return "major" case GranularityMinor: return "minor" case GranularityPatch: return "patch" default: return "unknown" } } // GranularityFromString returns the granularity for the given string. func GranularityFromString(s string) Granularity { switch strings.ToLower(s) { case "major": return GranularityMajor case "minor": return GranularityMinor case "patch": return GranularityPatch default: return GranularityUnknown } } var notAZ09Regexp = regexp.MustCompile("[^a-zA-Z0-9-]") // CanonicalizeRef returns the canonicalized ref for the given ref. func CanonicalizeRef(ref string) string { if ref == ReleaseRef { return ref } canRef := notAZ09Regexp.ReplaceAllString(ref, "-") if canRef == ReleaseRef { return "" // No ref should be cannonicalized to the release ref. } return canRef } // ValidateRef checks if the given ref is a valid ref. // Canonicalize the ref before checking if it is valid. func ValidateRef(ref string) error { if ref == "" { return errors.New("ref must not be empty") } if notAZ09Regexp.FindString(ref) != "" { return errors.New("ref must only contain alphanumeric characters and dashes") } if strings.HasPrefix(ref, "refs-heads") { return errors.New("ref must not start with 'refs-heads'") } return nil } // ValidateStream checks if the given stream is a valid stream for the given ref. func ValidateStream(ref, stream string) error { validReleaseStreams := []string{"stable", "console", "debug"} validStreams := []string{"nightly", "console", "debug"} if ref == ReleaseRef { validStreams = validReleaseStreams } for _, validStream := range validStreams { if stream == validStream { return nil } } return fmt.Errorf("stream %q is unknown or not supported on ref %q", stream, ref) } var ( shortPathRegex = regexp.MustCompile(`^ref/([a-zA-Z0-9-]+)/stream/([a-zA-Z0-9-]+)/([a-zA-Z0-9.-]+)$`) shortPathReleaseRegex = regexp.MustCompile(`^stream/([a-zA-Z0-9-]+)/([a-zA-Z0-9.-]+)$`) ) func shortPath(ref, stream, version string) string { var sp string if ref != ReleaseRef { return path.Join("ref", ref, "stream", stream, version) } if stream != "stable" { return path.Join(sp, "stream", stream, version) } return version } func parseShortPath(shortPath string) (ref, stream, version string, err error) { if shortPathRegex.MatchString(shortPath) { matches := shortPathRegex.FindStringSubmatch(shortPath) ref := matches[1] if err := ValidateRef(ref); err != nil { return "", "", "", err } stream := matches[2] if err := ValidateStream(ref, stream); err != nil { return "", "", "", err } version := matches[3] if !semver.IsValid(version) { return "", "", "", fmt.Errorf("invalid version %q", version) } return ref, stream, version, nil } if shortPathReleaseRegex.MatchString(shortPath) { matches := shortPathReleaseRegex.FindStringSubmatch(shortPath) stream := matches[1] if err := ValidateStream(ref, stream); err != nil { return "", "", "", err } version := matches[2] if !semver.IsValid(version) { return "", "", "", fmt.Errorf("invalid version %q", version) } return ReleaseRef, stream, version, nil } if semver.IsValid(shortPath) { return ReleaseRef, "stable", shortPath, nil } return "", "", "", fmt.Errorf("invalid short path %q", shortPath) }