// Copyright © 2019 Ettore Di Giacinto // // This program is free software; you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation; either version 2 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License along // with this program; if not, see . package installer import ( "fmt" "io/ioutil" "os" "path" "path/filepath" "regexp" "sort" "strconv" "strings" "time" artifact "github.com/mudler/luet/pkg/compiler/types/artifact" compression "github.com/mudler/luet/pkg/compiler/types/compression" fileHelper "github.com/mudler/luet/pkg/helpers/file" "go.uber.org/multierr" "github.com/mudler/luet/pkg/api/core/types" "github.com/mudler/luet/pkg/compiler" "github.com/mudler/luet/pkg/config" "github.com/mudler/luet/pkg/installer/client" . "github.com/mudler/luet/pkg/logger" pkg "github.com/mudler/luet/pkg/package" tree "github.com/mudler/luet/pkg/tree" "github.com/ghodss/yaml" "github.com/pkg/errors" ) const ( REPOSITORY_METAFILE = "repository.meta.yaml" REPOSITORY_SPECFILE = "repository.yaml" TREE_TARBALL = "tree.tar" COMPILERTREE_TARBALL = "compilertree.tar" REPOFILE_TREE_KEY = "tree" REPOFILE_COMPILER_TREE_KEY = "compilertree" REPOFILE_META_KEY = "meta" DiskRepositoryType = "disk" HttpRepositoryType = "http" DockerRepositoryType = "docker" ) type LuetRepositoryFile struct { FileName string `json:"filename"` CompressionType compression.Implementation `json:"compressiontype,omitempty"` Checksums artifact.Checksums `json:"checksums,omitempty"` } type LuetSystemRepository struct { *types.LuetRepository Index compiler.ArtifactIndex `json:"index"` BuildTree, Tree tree.Builder `json:"-"` RepositoryFiles map[string]LuetRepositoryFile `json:"repo_files"` Backend compiler.CompilerBackend `json:"-"` PushImages bool `json:"-"` ForcePush bool `json:"-"` imagePrefix string } type LuetSystemRepositoryMetadata struct { Index []*artifact.PackageArtifact `json:"index,omitempty"` } type LuetSearchModeType int const ( SLabel = iota SRegexPkg = iota SRegexLabel = iota FileSearch = iota ) type LuetSearchOpts struct { Mode LuetSearchModeType } func NewLuetSystemRepositoryMetadata(file string, removeFile bool) (*LuetSystemRepositoryMetadata, error) { ans := &LuetSystemRepositoryMetadata{} err := ans.ReadFile(file, removeFile) if err != nil { return nil, err } return ans, nil } // SystemRepositories returns the repositories from the local configuration file // it filters the available repositories returning the ones that are enabled func SystemRepositories(t types.LuetRepositories) Repositories { repos := Repositories{} for _, repo := range t.Enabled() { r := NewSystemRepository(repo) repos = append(repos, r) } return repos } // LoadBuildTree loads to the tree the compilation specs from the system repositories func LoadBuildTree(t tree.Builder, db pkg.PackageDatabase, c *config.LuetConfig) error { var reserr error repos := SystemRepositories(c.SystemRepositories) for _, r := range repos { repodir, err := config.LuetCfg.GetSystem().TempDir(r.Name) if err != nil { reserr = multierr.Append(reserr, err) } if err := r.SyncBuildMetadata(repodir); err != nil { reserr = multierr.Append(reserr, err) } generalRecipe := tree.NewCompilerRecipe(pkg.NewInMemoryDatabase(false)) if err := generalRecipe.Load(filepath.Join(repodir, "tree")); err != nil { reserr = multierr.Append(reserr, err) } if err := generalRecipe.GetDatabase().Clone(t.GetDatabase()); err != nil { reserr = multierr.Append(reserr, err) } r.SetTree(generalRecipe) } repos.SyncDatabase(db) return reserr } func (m *LuetSystemRepositoryMetadata) WriteFile(path string) error { data, err := yaml.Marshal(m) if err != nil { return err } err = ioutil.WriteFile(path, data, os.ModePerm) if err != nil { return err } return nil } func (m *LuetSystemRepositoryMetadata) ReadFile(file string, removeFile bool) error { if file == "" { return errors.New("Invalid path for repository metadata") } dat, err := ioutil.ReadFile(file) if err != nil { return err } if removeFile { defer os.Remove(file) } err = yaml.Unmarshal(dat, m) if err != nil { return err } return nil } func (m *LuetSystemRepositoryMetadata) ToArtifactIndex() (ans compiler.ArtifactIndex) { for _, a := range m.Index { ans = append(ans, a) } return } func NewDefaultTreeRepositoryFile() LuetRepositoryFile { return LuetRepositoryFile{ FileName: TREE_TARBALL, CompressionType: compression.GZip, } } func NewDefaultCompilerTreeRepositoryFile() LuetRepositoryFile { return LuetRepositoryFile{ FileName: COMPILERTREE_TARBALL, CompressionType: compression.GZip, } } func NewDefaultMetaRepositoryFile() LuetRepositoryFile { return LuetRepositoryFile{ FileName: REPOSITORY_METAFILE + ".tar", CompressionType: compression.None, } } // SetFileName sets the name of the repository file. // Each repository can ship arbitrary file that will be downloaded by the client // in case of need, this set the filename that the client will pull func (f *LuetRepositoryFile) SetFileName(n string) { f.FileName = n } // GetFileName returns the name of the repository file. // Each repository can ship arbitrary file that will be downloaded by the client // in case of need, this gets the filename that the client will pull func (f *LuetRepositoryFile) GetFileName() string { return f.FileName } // SetCompressionType sets the compression type of the repository file. // Each repository can ship arbitrary file that will be downloaded by the client // in case of need, this sets the compression type that the client will use to uncompress the artifact func (f *LuetRepositoryFile) SetCompressionType(c compression.Implementation) { f.CompressionType = c } // GetCompressionType gets the compression type of the repository file. // Each repository can ship arbitrary file that will be downloaded by the client // in case of need, this gets the compression type that the client will use to uncompress the artifact func (f *LuetRepositoryFile) GetCompressionType() compression.Implementation { return f.CompressionType } // SetChecksums sets the checksum of the repository file. // Each repository can ship arbitrary file that will be downloaded by the client // in case of need, this sets the checksums that the client will use to verify the artifact func (f *LuetRepositoryFile) SetChecksums(c artifact.Checksums) { f.Checksums = c } // GetChecksums gets the checksum of the repository file. // Each repository can ship arbitrary file that will be downloaded by the client // in case of need, this gets the checksums that the client will use to verify the artifact func (f *LuetRepositoryFile) GetChecksums() artifact.Checksums { return f.Checksums } // GenerateRepository generates a new repository from the given argument. // If the repository is of the docker type, it will also push the package images. // In case the repository is local, it will build the package Index func GenerateRepository(p ...RepositoryOption) (*LuetSystemRepository, error) { c := RepositoryConfig{} c.Apply(p...) btr := tree.NewCompilerRecipe(pkg.NewInMemoryDatabase(false)) runtimeTree := pkg.NewInMemoryDatabase(false) tempTree := pkg.NewInMemoryDatabase(false) temptr := tree.NewInstallerRecipe(tempTree) for _, treeDir := range c.Tree { if err := temptr.Load(treeDir); err != nil { return nil, err } if err := btr.Load(treeDir); err != nil { return nil, err } } // 2: if fromRepo, build a new tree like the compiler is doing and use it to source the above specs, // instead of local tree repodb := pkg.NewInMemoryDatabase(false) generalRecipe := tree.NewCompilerRecipe(repodb) if c.FromRepository { if err := LoadBuildTree(generalRecipe, repodb, c.config); err != nil { Warning("errors while loading trees from repositories", err.Error()) } if err := repodb.Clone(tempTree); err != nil { Warning("errors while cloning trees from repositories", err.Error()) } } // Pick only atoms in db which have a real metadata for runtime db (tr) for _, p := range tempTree.World() { if _, err := os.Stat(filepath.Join(c.Src, p.GetMetadataFilePath())); err == nil { runtimeTree.CreatePackage(p) } } // Load packages from metadata files if not present already. var ff = func(currentpath string, info os.FileInfo, err error) error { if err != nil { return nil } // Only those which are metadata if !strings.HasSuffix(info.Name(), pkg.PackageMetaSuffix) { return nil } dat, err := ioutil.ReadFile(currentpath) if err != nil { return nil } art, err := artifact.NewPackageArtifactFromYaml(dat) if err != nil { return nil } if _, err := runtimeTree.FindPackage(art.CompileSpec.Package); err != nil && art.CompileSpec.Package.Name != "" { Debug("Adding", art.CompileSpec.Package.HumanReadableString(), "from metadata file", currentpath) if art.Runtime != nil && art.Runtime.Name != "" { runtimeTree.CreatePackage(art.Runtime) } else { // We don't have runtime at this point. So we import the package as is r := []*pkg.DefaultPackage{} p := art.CompileSpec.Package.Clone() p.Requires(r) p.SetProvides(r) p.Conflicts(r) runtimeTree.CreatePackage(p) } } return nil } if c.FromMetadata { // Best effort filepath.Walk(c.Src, ff) } repo := &LuetSystemRepository{ LuetRepository: types.NewLuetRepository(c.Name, c.Type, c.Description, c.Urls, c.Priority, true, false), Tree: tree.NewInstallerRecipe(runtimeTree), BuildTree: btr, RepositoryFiles: map[string]LuetRepositoryFile{}, PushImages: c.PushImages, ForcePush: c.Force, Backend: c.CompilerBackend, imagePrefix: c.ImagePrefix, } if err := repo.initialize(c.Src); err != nil { return nil, errors.Wrap(err, "while building repository artifact index") } return repo, nil } func NewSystemRepository(repo types.LuetRepository) *LuetSystemRepository { return &LuetSystemRepository{ LuetRepository: &repo, RepositoryFiles: map[string]LuetRepositoryFile{}, } } func NewLuetSystemRepositoryFromYaml(data []byte, db pkg.PackageDatabase) (*LuetSystemRepository, error) { var p *LuetSystemRepository err := yaml.Unmarshal(data, &p) if err != nil { return nil, err } p.Tree = tree.NewInstallerRecipe(db) return p, err } func (r *LuetSystemRepository) SetPriority(n int) { r.LuetRepository.Priority = n } func (r *LuetSystemRepository) initialize(src string) error { generator, err := r.getGenerator() if err != nil { return errors.Wrap(err, "while constructing repository generator") } art, err := generator.Initialize(src, r.Tree.GetDatabase()) if err != nil { return errors.Wrap(err, "while initializing repository generator") } // update the repository index r.Index = art return nil } // FileSearch search a pattern among the artifacts in a repository func (r *LuetSystemRepository) FileSearch(pattern string) (pkg.Packages, error) { var matches pkg.Packages reg, err := regexp.Compile(pattern) if err != nil { return matches, err } ARTIFACT: for _, a := range r.GetIndex() { for _, f := range a.Files { if reg.MatchString(f) { matches = append(matches, a.CompileSpec.GetPackage()) continue ARTIFACT } } } return matches, nil } func (r *LuetSystemRepository) GetName() string { return r.LuetRepository.Name } func (r *LuetSystemRepository) GetDescription() string { return r.LuetRepository.Description } func (r *LuetSystemRepository) GetAuthentication() map[string]string { return r.LuetRepository.Authentication } func (r *LuetSystemRepository) GetType() string { return r.LuetRepository.Type } func (r *LuetSystemRepository) SetType(p string) { r.LuetRepository.Type = p } func (r *LuetSystemRepository) GetVerify() bool { return r.LuetRepository.Verify } func (r *LuetSystemRepository) SetVerify(p bool) { r.LuetRepository.Verify = p } func (r *LuetSystemRepository) GetBackend() compiler.CompilerBackend { return r.Backend } func (r *LuetSystemRepository) SetBackend(b compiler.CompilerBackend) { r.Backend = b } func (r *LuetSystemRepository) SetName(p string) { r.LuetRepository.Name = p } func (r *LuetSystemRepository) AddUrl(p string) { r.LuetRepository.Urls = append(r.LuetRepository.Urls, p) } func (r *LuetSystemRepository) GetUrls() []string { return r.LuetRepository.Urls } func (r *LuetSystemRepository) SetUrls(urls []string) { r.LuetRepository.Urls = urls } func (r *LuetSystemRepository) GetPriority() int { return r.LuetRepository.Priority } func (r *LuetSystemRepository) GetTreePath() string { return r.TreePath } func (r *LuetSystemRepository) SetTreePath(p string) { r.TreePath = p } func (r *LuetSystemRepository) GetMetaPath() string { return r.MetaPath } func (r *LuetSystemRepository) SetMetaPath(p string) { r.MetaPath = p } func (r *LuetSystemRepository) SetTree(b tree.Builder) { r.Tree = b } func (r *LuetSystemRepository) GetIndex() compiler.ArtifactIndex { return r.Index } func (r *LuetSystemRepository) SetIndex(i compiler.ArtifactIndex) { r.Index = i } func (r *LuetSystemRepository) GetTree() tree.Builder { return r.Tree } func (r *LuetSystemRepository) GetRevision() int { return r.LuetRepository.Revision } func (r *LuetSystemRepository) GetLastUpdate() string { return r.LuetRepository.LastUpdate } func (r *LuetSystemRepository) SetLastUpdate(u string) { r.LuetRepository.LastUpdate = u } func (r *LuetSystemRepository) IncrementRevision() { r.LuetRepository.Revision++ } func (r *LuetSystemRepository) SetAuthentication(auth map[string]string) { r.LuetRepository.Authentication = auth } // BumpRevision bumps the internal repository revision by reading the current one from repospec func (r *LuetSystemRepository) BumpRevision(repospec string, resetRevision bool) error { if resetRevision { r.Revision = 0 } else { if _, err := os.Stat(repospec); !os.IsNotExist(err) { // Read existing file for retrieve revision spec, err := r.ReadSpecFile(repospec) if err != nil { return err } r.Revision = spec.GetRevision() } } r.Revision++ return nil } // AddMetadata adds the repository serialized content into the metadata key of the repository // It writes the serialized content to repospec, and writes the repository.meta.yaml file into dst func (r *LuetSystemRepository) AddMetadata(repospec, dst string) (*artifact.PackageArtifact, error) { // Create Metadata struct and serialized repository meta, serialized := r.Serialize() // Create metadata file and repository file metaTmpDir, err := config.LuetCfg.GetSystem().TempDir("metadata") defer os.RemoveAll(metaTmpDir) // clean up if err != nil { return nil, errors.Wrap(err, "Error met while creating tempdir for metadata") } repoMetaSpec := filepath.Join(metaTmpDir, REPOSITORY_METAFILE) // Create repository.meta.yaml file err = meta.WriteFile(repoMetaSpec) if err != nil { return nil, err } a, err := r.AddRepositoryFile(metaTmpDir, REPOFILE_META_KEY, dst, NewDefaultMetaRepositoryFile()) if err != nil { return a, errors.Wrap(err, "Error met while adding archive to repository") } data, err := yaml.Marshal(serialized) if err != nil { return a, err } err = ioutil.WriteFile(repospec, data, os.ModePerm) if err != nil { return a, err } return a, nil } // AddTree adds a tree.Builder with the given key to the repository. // It will generate an artifact which will be then embedded in the repository manifest // It returns the generated artifacts and an error func (r *LuetSystemRepository) AddTree(t tree.Builder, dst, key string, f LuetRepositoryFile) (*artifact.PackageArtifact, error) { // Create tree and repository file archive, err := config.LuetCfg.GetSystem().TempDir("archive") if err != nil { return nil, errors.Wrap(err, "Error met while creating tempdir for archive") } defer os.RemoveAll(archive) // clean up if err := t.Save(archive); err != nil { return nil, errors.Wrap(err, "Error met while saving the tree") } a, err := r.AddRepositoryFile(archive, key, dst, f) if err != nil { return nil, errors.Wrap(err, "Error met while adding archive to repository") } return a, nil } // AddRepositoryFile adds a path to a key in the repository manifest. // The path will be compressed, and a default File has to be passed in case there is no entry into // the repository manifest func (r *LuetSystemRepository) AddRepositoryFile(src, fileKey, repositoryRoot string, defaults LuetRepositoryFile) (*artifact.PackageArtifact, error) { treeFile, err := r.GetRepositoryFile(fileKey) if err != nil { treeFile = defaults // r.SetRepositoryFile(fileKey, treeFile) } a := artifact.NewPackageArtifact(filepath.Join(repositoryRoot, treeFile.GetFileName())) a.CompressionType = treeFile.GetCompressionType() err = a.Compress(src, 1) if err != nil { return a, errors.Wrap(err, "Error met while creating package archive") } err = a.Hash() if err != nil { return a, errors.Wrap(err, "Failed generating checksums for tree") } // Update the tree name with the name created by compression selected. treeFile.SetChecksums(a.Checksums) treeFile.SetFileName(path.Base(a.Path)) r.SetRepositoryFile(fileKey, treeFile) return a, nil } func (r *LuetSystemRepository) GetRepositoryFile(name string) (LuetRepositoryFile, error) { ans, ok := r.RepositoryFiles[name] if ok { return ans, nil } return ans, errors.New("Repository file " + name + " not found!") } func (r *LuetSystemRepository) SetRepositoryFile(name string, f LuetRepositoryFile) { r.RepositoryFiles[name] = f } func (r *LuetSystemRepository) ReadSpecFile(file string) (*LuetSystemRepository, error) { dat, err := ioutil.ReadFile(file) if err != nil { return nil, errors.Wrap(err, "Error reading file "+file) } var repo *LuetSystemRepository repo, err = NewLuetSystemRepositoryFromYaml(dat, pkg.NewInMemoryDatabase(false)) if err != nil { return nil, errors.Wrap(err, "Error reading repository from file "+file) } // Check if mandatory key are present _, err = repo.GetRepositoryFile(REPOFILE_TREE_KEY) if err != nil { return nil, errors.New("Invalid repository without the " + REPOFILE_TREE_KEY + " key file.") } _, err = repo.GetRepositoryFile(REPOFILE_META_KEY) if err != nil { return nil, errors.New("Invalid repository without the " + REPOFILE_META_KEY + " key file.") } return repo, err } type RepositoryGenerator interface { Generate(*LuetSystemRepository, string, bool) error Initialize(string, pkg.PackageDatabase) ([]*artifact.PackageArtifact, error) } func (r *LuetSystemRepository) getGenerator() (RepositoryGenerator, error) { var rg RepositoryGenerator switch r.GetType() { case DiskRepositoryType, HttpRepositoryType: rg = &localRepositoryGenerator{} case DockerRepositoryType: rg = &dockerRepositoryGenerator{ b: r.Backend, imagePrefix: r.imagePrefix, imagePush: r.PushImages, force: r.ForcePush, } default: return nil, errors.New("invalid repository type") } return rg, nil } // Write writes the repository metadata to the supplied destination func (r *LuetSystemRepository) Write(dst string, resetRevision, force bool) error { rg, err := r.getGenerator() if err != nil { return err } return rg.Generate(r, dst, resetRevision) } func (r *LuetSystemRepository) Client() Client { switch r.GetType() { case DiskRepositoryType: return client.NewLocalClient(client.RepoData{Urls: r.GetUrls()}) case HttpRepositoryType: return client.NewHttpClient( client.RepoData{ Urls: r.GetUrls(), Authentication: r.GetAuthentication(), }) case DockerRepositoryType: return client.NewDockerClient( client.RepoData{ Urls: r.GetUrls(), Authentication: r.GetAuthentication(), Verify: r.Verify, }) } return nil } func (r *LuetSystemRepository) SearchArtefact(p pkg.Package) (*artifact.PackageArtifact, error) { for _, a := range r.GetIndex() { if a.CompileSpec.GetPackage().Matches(p) { return a, nil } } return nil, errors.New("Not found") } func (r *LuetSystemRepository) getRepoFile(c Client, key string) (*artifact.PackageArtifact, error) { treeFile, err := r.GetRepositoryFile(key) if err != nil { return nil, errors.Wrapf(err, "key %s not present in the repository", key) } // Get Tree downloadedTreeFile, err := c.DownloadFile(treeFile.GetFileName()) if err != nil { return nil, errors.Wrap(err, "While downloading "+treeFile.GetFileName()) } //defer os.Remove(downloadedTreeFile) treeFileArtifact := artifact.NewPackageArtifact(downloadedTreeFile) treeFileArtifact.Checksums = treeFile.GetChecksums() treeFileArtifact.CompressionType = treeFile.GetCompressionType() err = treeFileArtifact.Verify() if err != nil { return nil, errors.Wrap(err, "file integrity check failure") } return treeFileArtifact, nil } func (r *LuetSystemRepository) SyncBuildMetadata(path string) error { repo, err := r.Sync(false) if err != nil { return errors.Wrap(err, "while syncronizing repository") } c := repo.Client() if c == nil { return errors.New("no client could be generated from repository") } a, err := repo.getRepoFile(c, REPOFILE_COMPILER_TREE_KEY) if err != nil { return fmt.Errorf("failed while getting: %s", REPOFILE_COMPILER_TREE_KEY) } defer os.RemoveAll(a.Path) if err := a.Unpack(filepath.Join(path, "tree"), false); err != nil { return errors.Wrapf(err, "while unpacking: %s", REPOFILE_COMPILER_TREE_KEY) } for _, ai := range repo.GetTree().GetDatabase().World() { // Retrieve remote repository.yaml for retrieve revision and date file, err := c.DownloadFile(ai.GetMetadataFilePath()) if err != nil { return errors.Wrapf(err, "while downloading metadata for %s", ai.HumanReadableString()) } if err := fileHelper.Move(file, filepath.Join(path, ai.GetMetadataFilePath())); err != nil { return err } } return nil } func (r *LuetSystemRepository) Sync(force bool) (*LuetSystemRepository, error) { var repoUpdated bool = false var treefs, metafs string aurora := GetAurora() Debug("Sync of the repository", r.Name, "in progress...") c := r.Client() if c == nil { return nil, errors.New("no client could be generated from repository") } // Retrieve remote repository.yaml for retrieve revision and date file, err := c.DownloadFile(REPOSITORY_SPECFILE) if err != nil { return nil, errors.Wrap(err, "While downloading "+REPOSITORY_SPECFILE) } repobasedir := config.LuetCfg.GetSystem().GetRepoDatabaseDirPath(r.GetName()) downloadedRepoMeta, err := r.ReadSpecFile(file) if err != nil { return nil, err } // Remove temporary file that contains repository.yaml // Example: /tmp/HttpClient236052003 defer os.RemoveAll(file) if r.Cached { if !force { localRepo, _ := r.ReadSpecFile(filepath.Join(repobasedir, REPOSITORY_SPECFILE)) if localRepo != nil { if localRepo.GetRevision() == downloadedRepoMeta.GetRevision() && localRepo.GetLastUpdate() == downloadedRepoMeta.GetLastUpdate() { repoUpdated = true } } } if r.GetTreePath() == "" { treefs = filepath.Join(repobasedir, "treefs") } else { treefs = r.GetTreePath() } if r.GetMetaPath() == "" { metafs = filepath.Join(repobasedir, "metafs") } else { metafs = r.GetMetaPath() } } else { treefs, err = config.LuetCfg.GetSystem().TempDir("treefs") if err != nil { return nil, errors.Wrap(err, "Error met while creating tempdir for rootfs") } metafs, err = config.LuetCfg.GetSystem().TempDir("metafs") if err != nil { return nil, errors.Wrap(err, "Error met whilte creating tempdir for metafs") } } // treeFile and metaFile must be present, they aren't optional if !repoUpdated { treeFileArtifact, err := downloadedRepoMeta.getRepoFile(c, REPOFILE_TREE_KEY) if err != nil { return nil, errors.Wrapf(err, "while fetching '%s'", REPOFILE_TREE_KEY) } defer os.Remove(treeFileArtifact.Path) Debug("Tree tarball for the repository " + r.GetName() + " downloaded correctly.") metaFileArtifact, err := downloadedRepoMeta.getRepoFile(c, REPOFILE_META_KEY) if err != nil { return nil, errors.Wrapf(err, "while fetching '%s'", REPOFILE_META_KEY) } defer os.Remove(metaFileArtifact.Path) Debug("Metadata tarball for the repository " + r.GetName() + " downloaded correctly.") if r.Cached { // Copy updated repository.yaml file to repo dir now that the tree is synced. err = fileHelper.CopyFile(file, filepath.Join(repobasedir, REPOSITORY_SPECFILE)) if err != nil { return nil, errors.Wrap(err, "Error on update "+REPOSITORY_SPECFILE) } // Remove previous tree os.RemoveAll(treefs) // Remove previous meta dir os.RemoveAll(metafs) } Debug("Decompress tree of the repository " + r.Name + "...") err = treeFileArtifact.Unpack(treefs, true) if err != nil { return nil, errors.Wrap(err, "Error met while unpacking tree") } // FIXME: It seems that tar with only one file doesn't create destination // directory. I create directory directly for now. os.MkdirAll(metafs, os.ModePerm) err = metaFileArtifact.Unpack(metafs, true) if err != nil { return nil, errors.Wrap(err, "Error met while unpacking metadata") } tsec, _ := strconv.ParseInt(downloadedRepoMeta.GetLastUpdate(), 10, 64) InfoC( aurora.Bold( aurora.Red(":house: Repository "+downloadedRepoMeta.GetName()+" revision: ")).String() + aurora.Bold(aurora.Green(downloadedRepoMeta.GetRevision())).String() + " - " + aurora.Bold(aurora.Green(time.Unix(tsec, 0).String())).String(), ) } else { Info("Repository", downloadedRepoMeta.GetName(), "is already up to date.") } meta, err := NewLuetSystemRepositoryMetadata( filepath.Join(metafs, REPOSITORY_METAFILE), false, ) if err != nil { return nil, errors.Wrap(err, "While processing "+REPOSITORY_METAFILE) } downloadedRepoMeta.SetIndex(meta.ToArtifactIndex()) reciper := tree.NewInstallerRecipe(pkg.NewInMemoryDatabase(false)) err = reciper.Load(treefs) if err != nil { return nil, errors.Wrap(err, "Error met while unpacking rootfs") } downloadedRepoMeta.SetTree(reciper) downloadedRepoMeta.SetTreePath(treefs) // Copy the local available data to the one which was synced // e.g. locally we can override the type (disk), or priority // while remotely it could be advertized differently r.fill(downloadedRepoMeta) InfoC( aurora.Yellow(":information_source:").String() + aurora.Magenta("Repository: ").String() + aurora.Green(aurora.Bold(downloadedRepoMeta.GetName()).String()).String() + aurora.Magenta(" Priority: ").String() + aurora.Bold(aurora.Green(downloadedRepoMeta.GetPriority())).String() + aurora.Magenta(" Type: ").String() + aurora.Bold(aurora.Green(downloadedRepoMeta.GetType())).String(), ) return downloadedRepoMeta, nil } func (r *LuetSystemRepository) fill(r2 *LuetSystemRepository) { r2.SetUrls(r.GetUrls()) r2.SetAuthentication(r.GetAuthentication()) r2.SetType(r.GetType()) r2.SetPriority(r.GetPriority()) r2.SetName(r.GetName()) r2.SetVerify(r.GetVerify()) } func (r *LuetSystemRepository) Serialize() (*LuetSystemRepositoryMetadata, LuetSystemRepository) { serialized := *r serialized.Authentication = nil serialized.Index = compiler.ArtifactIndex{} meta := &LuetSystemRepositoryMetadata{ Index: []*artifact.PackageArtifact{}, } for _, a := range r.Index { cp := *a copy := &cp copy.Path = filepath.Base(copy.Path) meta.Index = append(meta.Index, copy) } return meta, serialized } func (r Repositories) Len() int { return len(r) } func (r Repositories) Swap(i, j int) { r[i], r[j] = r[j], r[i] } func (r Repositories) Less(i, j int) bool { return r[i].GetPriority() < r[j].GetPriority() } func (r Repositories) World() pkg.Packages { cache := map[string]pkg.Package{} world := pkg.Packages{} // Get Uniques. Walk in reverse so the definitions of most prio-repo overwrites lower ones // In this way, when we will walk again later the deps sorting them by most higher prio we have better chance of success. for i := len(r) - 1; i >= 0; i-- { for _, p := range r[i].GetTree().GetDatabase().World() { cache[p.GetFingerPrint()] = p } } for _, v := range cache { world = append(world, v) } return world } func (r Repositories) SyncDatabase(d pkg.PackageDatabase) { cache := map[string]bool{} // Get Uniques. Walk in reverse so the definitions of most prio-repo overwrites lower ones // In this way, when we will walk again later the deps sorting them by most higher prio we have better chance of success. for i := len(r) - 1; i >= 0; i-- { for _, p := range r[i].GetTree().GetDatabase().World() { if _, ok := cache[p.GetFingerPrint()]; !ok { cache[p.GetFingerPrint()] = true d.CreatePackage(p) } } } } type PackageMatch struct { Repo *LuetSystemRepository Artifact *artifact.PackageArtifact Package pkg.Package } func (re Repositories) PackageMatches(p pkg.Packages) []PackageMatch { // TODO: Better heuristic. here we pick the first repo that contains the atom, sorted by priority but // we should do a permutations and get the best match, and in case there are more solutions the user should be able to pick sort.Sort(re) var matches []PackageMatch PACKAGE: for _, pack := range p { for _, r := range re { c, err := r.GetTree().GetDatabase().FindPackage(pack) if err == nil { matches = append(matches, PackageMatch{Package: c, Repo: r}) continue PACKAGE } } } return matches } func (re Repositories) ResolveSelectors(p pkg.Packages) pkg.Packages { // If a selector is given, get the best from each repo sort.Sort(re) // respect prio var matches pkg.Packages PACKAGE: for _, pack := range p { REPOSITORY: for _, r := range re { if pack.IsSelector() { c, err := r.GetTree().GetDatabase().FindPackageCandidate(pack) // If FindPackageCandidate returns the same package, it means it couldn't find one. // Skip this repository and keep looking. if err != nil { //c.String() == pack.String() { continue REPOSITORY } matches = append(matches, c) continue PACKAGE } else { // If it's not a selector, just append it matches = append(matches, pack) } } } return matches } func (re Repositories) SearchPackages(p string, t LuetSearchModeType) []PackageMatch { sort.Sort(re) var matches []PackageMatch var err error for _, r := range re { var repoMatches pkg.Packages switch t { case SRegexPkg: repoMatches, err = r.GetTree().GetDatabase().FindPackageMatch(p) case SLabel: repoMatches, err = r.GetTree().GetDatabase().FindPackageLabel(p) case SRegexLabel: repoMatches, err = r.GetTree().GetDatabase().FindPackageLabelMatch(p) case FileSearch: repoMatches, err = r.FileSearch(p) } if err == nil && len(repoMatches) > 0 { for _, pack := range repoMatches { a, _ := r.SearchArtefact(pack) matches = append(matches, PackageMatch{Package: pack, Repo: r, Artifact: a}) } } } return matches } func (re Repositories) SearchLabelMatch(s string) []PackageMatch { return re.SearchPackages(s, SRegexLabel) } func (re Repositories) SearchLabel(s string) []PackageMatch { return re.SearchPackages(s, SLabel) } func (re Repositories) Search(s string) []PackageMatch { return re.SearchPackages(s, SRegexPkg) }