constellation/internal/versionsapi/list.go
Paul Meyer 3f00f89d55 versionsapi: new implementation
Signed-off-by: Paul Meyer <49727155+katexochen@users.noreply.github.com>
2023-01-04 11:39:19 +01:00

174 lines
5.4 KiB
Go

/*
Copyright (c) Edgeless Systems GmbH
SPDX-License-Identifier: AGPL-3.0-only
*/
package versionsapi
import (
"fmt"
"net/url"
"path"
"github.com/edgelesssys/constellation/v2/internal/constants"
"go.uber.org/multierr"
"golang.org/x/mod/semver"
)
// List represents a list of versions for a kind of resource.
// It has a granularity of either "major" or "minor".
//
// For example, a List with granularity "major" could contain
// the base version "v1" and a list of minor versions "v1.0", "v1.1", "v1.2" etc.
// A List with granularity "minor" could contain the base version
// "v1.0" and a list of patch versions "v1.0.0", "v1.0.1", "v1.0.2" etc.
type List struct {
// Ref is the branch name the list belongs to.
Ref string `json:"ref,omitempty"`
// Stream is the update stream of the list.
Stream string `json:"stream,omitempty"`
// Granularity is the granularity of the base version of this list.
// It can be either "major" or "minor".
Granularity Granularity `json:"granularity,omitempty"`
// Base is the base version of the list.
// Every version in the list is a finer-grained version of this base version.
Base string `json:"base,omitempty"`
// Kind is the kind of resource this list is for.
Kind VersionKind `json:"kind,omitempty"`
// Versions is a list of all versions in this list.
Versions []string `json:"versions,omitempty"`
}
// JSONPath returns the S3 JSON path for this object.
func (l List) JSONPath() string {
return path.Join(
constants.CDNAPIPrefix,
"ref", l.Ref,
"stream", l.Stream,
"versions", l.Granularity.String(), l.Base,
l.Kind.String()+".json",
)
}
// URL returns the URL for this object.
func (l List) URL() (string, error) {
url, err := url.Parse(constants.CDNRepositoryURL)
if err != nil {
return "", fmt.Errorf("parsing CDN URL: %w", err)
}
url.Path = l.JSONPath()
return url.String(), nil
}
// ValidateRequest validates the request parameters of the list.
// The versions field must be empty.
func (l List) ValidateRequest() error {
var retErr error
if err := ValidateRef(l.Ref); err != nil {
retErr = multierr.Append(retErr, err)
}
if err := ValidateStream(l.Ref, l.Stream); err != nil {
retErr = multierr.Append(retErr, err)
}
if l.Granularity != GranularityMajor && l.Granularity != GranularityMinor {
retErr = multierr.Append(retErr, fmt.Errorf("granularity %q is not supported", l.Granularity))
}
if l.Kind != VersionKindImage {
retErr = multierr.Append(retErr, fmt.Errorf("kind %q is not supported", l.Kind))
}
if !semver.IsValid(l.Base) {
retErr = multierr.Append(retErr, fmt.Errorf("base version %q is not a valid semantic version", l.Base))
}
var normalizeFunc func(string) string
switch l.Granularity {
case GranularityMajor:
normalizeFunc = semver.Major
case GranularityMinor:
normalizeFunc = semver.MajorMinor
default:
normalizeFunc = func(s string) string { return s }
}
if normalizeFunc(l.Base) != l.Base {
retErr = multierr.Append(retErr, fmt.Errorf("base version %q does not match granularity %q", l.Base, l.Granularity))
}
if len(l.Versions) != 0 {
retErr = multierr.Append(retErr, fmt.Errorf("versions must be empty for request"))
}
return retErr
}
// Validate checks if the list is valid.
// This performs the following checks:
// - The ref is set.
// - The stream is supported.
// - The granularity is "major" or "minor".
// - The kind is supported.
// - The base version is a valid semantic version that matches the granularity.
// - All versions in the list are valid semantic versions that are finer-grained than the base version.
func (l List) Validate() error {
var retErr error
if err := ValidateRef(l.Ref); err != nil {
retErr = multierr.Append(retErr, err)
}
if err := ValidateStream(l.Ref, l.Stream); err != nil {
retErr = multierr.Append(retErr, err)
}
if l.Granularity != GranularityMajor && l.Granularity != GranularityMinor {
retErr = multierr.Append(retErr, fmt.Errorf("granularity %q is not supported", l.Granularity))
}
if l.Kind != VersionKindImage {
retErr = multierr.Append(retErr, fmt.Errorf("kind %q is not supported", l.Kind))
}
if !semver.IsValid(l.Base) {
retErr = multierr.Append(retErr, fmt.Errorf("base version %q is not a valid semantic version", l.Base))
}
var normalizeFunc func(string) string
switch l.Granularity {
case GranularityMajor:
normalizeFunc = semver.Major
case GranularityMinor:
normalizeFunc = semver.MajorMinor
default:
normalizeFunc = func(s string) string { return s }
}
if normalizeFunc(l.Base) != l.Base {
retErr = multierr.Append(retErr, fmt.Errorf("base version %q does not match granularity %q", l.Base, l.Granularity))
}
for _, ver := range l.Versions {
if !semver.IsValid(ver) {
retErr = multierr.Append(retErr, fmt.Errorf("version %q is not a valid semantic version", ver))
}
if normalizeFunc(ver) != l.Base || normalizeFunc(ver) == ver {
retErr = multierr.Append(retErr, fmt.Errorf("version %q is not finer-grained than base version %q", ver, l.Base))
}
}
return retErr
}
// Contains returns true if the list contains the given version.
func (l List) Contains(version string) bool {
for _, v := range l.Versions {
if v == version {
return true
}
}
return false
}
// StructuredVersions returns the versions of the list as slice of
// Version structs.
func (l List) StructuredVersions() []Version {
versions := make([]Version, len(l.Versions))
for i, v := range l.Versions {
versions[i] = Version{
Ref: l.Ref,
Stream: l.Stream,
Version: v,
Kind: l.Kind,
}
}
return versions
}