package server import ( "context" "crypto/sha256" "encoding/json" "fmt" "math/rand" "regexp" "strconv" "strings" "time" "github.com/gin-gonic/gin" "github.com/Sirupsen/logrus" "github.com/drone/drone/model" "github.com/drone/drone/remote" "github.com/drone/drone/shared/httputil" "github.com/drone/drone/shared/token" "github.com/drone/drone/store" "github.com/drone/envsubst" "github.com/cncd/pipeline/pipeline/backend" "github.com/cncd/pipeline/pipeline/frontend" "github.com/cncd/pipeline/pipeline/frontend/yaml" "github.com/cncd/pipeline/pipeline/frontend/yaml/compiler" "github.com/cncd/pipeline/pipeline/frontend/yaml/linter" "github.com/cncd/pipeline/pipeline/frontend/yaml/matrix" "github.com/cncd/pipeline/pipeline/rpc" "github.com/cncd/pubsub" "github.com/cncd/queue" ) // // CANARY IMPLEMENTATION // // This file is a complete disaster because I'm trying to wedge in some // experimental code. Please pardon our appearance during renovations. // var skipRe = regexp.MustCompile(`\[(?i:ci *skip|skip *ci)\]`) func init() { rand.Seed(time.Now().UnixNano()) } func GetQueueInfo(c *gin.Context) { c.IndentedJSON(200, Config.Services.Queue.Info(c), ) } func PostHook(c *gin.Context) { remote_ := remote.FromContext(c) tmprepo, build, err := remote_.Hook(c.Request) if err != nil { logrus.Errorf("failure to parse hook. %s", err) c.AbortWithError(400, err) return } if build == nil { c.Writer.WriteHeader(200) return } if tmprepo == nil { logrus.Errorf("failure to ascertain repo from hook.") c.Writer.WriteHeader(400) return } // skip the build if any case-insensitive combination of the words "skip" and "ci" // wrapped in square brackets appear in the commit message skipMatch := skipRe.FindString(build.Message) if len(skipMatch) > 0 { logrus.Infof("ignoring hook. %s found in %s", skipMatch, build.Commit) c.Writer.WriteHeader(204) return } repo, err := store.GetRepoOwnerName(c, tmprepo.Owner, tmprepo.Name) if err != nil { logrus.Errorf("failure to find repo %s/%s from hook. %s", tmprepo.Owner, tmprepo.Name, err) c.AbortWithError(404, err) return } if !repo.IsActive { logrus.Errorf("ignoring hook. %s/%s is inactive.", tmprepo.Owner, tmprepo.Name) c.AbortWithError(204, err) return } // get the token and verify the hook is authorized parsed, err := token.ParseRequest(c.Request, func(t *token.Token) (string, error) { return repo.Hash, nil }) if err != nil { logrus.Errorf("failure to parse token from hook for %s. %s", repo.FullName, err) c.AbortWithError(400, err) return } if parsed.Text != repo.FullName { logrus.Errorf("failure to verify token from hook. Expected %s, got %s", repo.FullName, parsed.Text) c.AbortWithStatus(403) return } if repo.UserID == 0 { logrus.Warnf("ignoring hook. repo %s has no owner.", repo.FullName) c.Writer.WriteHeader(204) return } var skipped = true if (build.Event == model.EventPush && repo.AllowPush) || (build.Event == model.EventPull && repo.AllowPull) || (build.Event == model.EventDeploy && repo.AllowDeploy) || (build.Event == model.EventTag && repo.AllowTag) { skipped = false } if skipped { logrus.Infof("ignoring hook. repo %s is disabled for %s events.", repo.FullName, build.Event) c.Writer.WriteHeader(204) return } user, err := store.GetUser(c, repo.UserID) if err != nil { logrus.Errorf("failure to find repo owner %s. %s", repo.FullName, err) c.AbortWithError(500, err) return } // if the remote has a refresh token, the current access token // may be stale. Therefore, we should refresh prior to dispatching // the build. if refresher, ok := remote_.(remote.Refresher); ok { ok, _ := refresher.Refresh(user) if ok { store.UpdateUser(c, user) } } // fetch the build file from the database confb, err := remote_.File(user, repo, build, repo.Config) if err != nil { logrus.Errorf("error: %s: cannot find %s in %s: %s", repo.FullName, repo.Config, build.Ref, err) c.AbortWithError(404, err) return } sha := shasum(confb) conf, err := Config.Storage.Config.ConfigFind(repo, sha) if err != nil { conf = &model.Config{ RepoID: repo.ID, Data: string(confb), Hash: sha, } err = Config.Storage.Config.ConfigCreate(conf) if err != nil { // retry in case we receive two hooks at the same time conf, err = Config.Storage.Config.ConfigFind(repo, sha) if err != nil { logrus.Errorf("failure to find or persist build config for %s. %s", repo.FullName, err) c.AbortWithError(500, err) return } } } build.ConfigID = conf.ID netrc, err := remote_.Netrc(user, repo) if err != nil { c.String(500, "Failed to generate netrc file. %s", err) return } // verify the branches can be built vs skipped branches, err := yaml.ParseString(conf.Data) if err == nil { if !branches.Branches.Match(build.Branch) && build.Event != model.EventTag && build.Event != model.EventDeploy { c.String(200, "Branch does not match restrictions defined in yaml") return } } // update some build fields build.RepoID = repo.ID build.Verified = true build.Status = model.StatusPending if repo.IsGated { allowed, _ := Config.Services.Senders.SenderAllowed(user, repo, build, conf) if !allowed { build.Status = model.StatusBlocked } } build.Trim() err = store.CreateBuild(c, build, build.Procs...) if err != nil { logrus.Errorf("failure to save commit for %s. %s", repo.FullName, err) c.AbortWithError(500, err) return } c.JSON(200, build) if build.Status == model.StatusBlocked { return } envs := map[string]string{} if Config.Services.Environ != nil { globals, _ := Config.Services.Environ.EnvironList(repo) for _, global := range globals { envs[global.Name] = global.Value } } secs, err := Config.Services.Secrets.SecretListBuild(repo, build) if err != nil { logrus.Debugf("Error getting secrets for %s#%d. %s", repo.FullName, build.Number, err) } regs, err := Config.Services.Registries.RegistryList(repo) if err != nil { logrus.Debugf("Error getting registry credentials for %s#%d. %s", repo.FullName, build.Number, err) } // get the previous build so that we can send // on status change notifications last, _ := store.GetBuildLastBefore(c, repo, build.Branch, build.ID) // // BELOW: NEW // defer func() { uri := fmt.Sprintf("%s/%s/%d", httputil.GetURL(c.Request), repo.FullName, build.Number) err = remote_.Status(user, repo, build, uri) if err != nil { logrus.Errorf("error setting commit status for %s/%d", repo.FullName, build.Number) } }() b := builder{ Repo: repo, Curr: build, Last: last, Netrc: netrc, Secs: secs, Regs: regs, Envs: envs, Link: httputil.GetURL(c.Request), Yaml: conf.Data, } items, err := b.Build() if err != nil { build.Status = model.StatusError build.Started = time.Now().Unix() build.Finished = build.Started build.Error = err.Error() store.UpdateBuild(c, build) return } var pcounter = len(items) for _, item := range items { build.Procs = append(build.Procs, item.Proc) item.Proc.BuildID = build.ID for _, stage := range item.Config.Stages { var gid int for _, step := range stage.Steps { pcounter++ if gid == 0 { gid = pcounter } proc := &model.Proc{ BuildID: build.ID, Name: step.Alias, PID: pcounter, PPID: item.Proc.PID, PGID: gid, State: model.StatusPending, } build.Procs = append(build.Procs, proc) } } } err = store.FromContext(c).ProcCreate(build.Procs) if err != nil { logrus.Errorf("error persisting procs %s/%d: %s", repo.FullName, build.Number, err) } // // publish topic // message := pubsub.Message{ Labels: map[string]string{ "repo": repo.FullName, "private": strconv.FormatBool(repo.IsPrivate), }, } buildCopy := *build buildCopy.Procs = model.Tree(buildCopy.Procs) message.Data, _ = json.Marshal(model.Event{ Type: model.Enqueued, Repo: *repo, Build: buildCopy, }) // TODO remove global reference Config.Services.Pubsub.Publish(c, "topic/events", message) // // end publish topic // for _, item := range items { task := new(queue.Task) task.ID = fmt.Sprint(item.Proc.ID) task.Labels = map[string]string{} for k, v := range item.Labels { task.Labels[k] = v } task.Labels["platform"] = item.Platform task.Labels["repo"] = b.Repo.FullName task.Data, _ = json.Marshal(rpc.Pipeline{ ID: fmt.Sprint(item.Proc.ID), Config: item.Config, Timeout: b.Repo.Timeout, }) Config.Services.Logs.Open(context.Background(), task.ID) Config.Services.Queue.Push(context.Background(), task) } } // return the metadata from the cli context. func metadataFromStruct(repo *model.Repo, build, last *model.Build, proc *model.Proc, link string) frontend.Metadata { return frontend.Metadata{ Repo: frontend.Repo{ Name: repo.FullName, Link: repo.Link, Remote: repo.Clone, Private: repo.IsPrivate, }, Curr: frontend.Build{ Number: build.Number, Parent: build.Parent, Created: build.Created, Started: build.Started, Finished: build.Finished, Status: build.Status, Event: build.Event, Link: build.Link, Target: build.Deploy, Commit: frontend.Commit{ Sha: build.Commit, Ref: build.Ref, Refspec: build.Refspec, Branch: build.Branch, Message: build.Message, Author: frontend.Author{ Name: build.Author, Email: build.Email, Avatar: build.Avatar, }, }, }, Prev: frontend.Build{ Number: last.Number, Created: last.Created, Started: last.Started, Finished: last.Finished, Status: last.Status, Event: last.Event, Link: last.Link, Target: last.Deploy, Commit: frontend.Commit{ Sha: last.Commit, Ref: last.Ref, Refspec: last.Refspec, Branch: last.Branch, Message: last.Message, Author: frontend.Author{ Name: last.Author, Email: last.Email, Avatar: last.Avatar, }, }, }, Job: frontend.Job{ Number: proc.PID, Matrix: proc.Environ, }, Sys: frontend.System{ Name: "drone", Link: link, Arch: "linux/amd64", }, } } type builder struct { Repo *model.Repo Curr *model.Build Last *model.Build Netrc *model.Netrc Secs []*model.Secret Regs []*model.Registry Link string Yaml string Envs map[string]string } type buildItem struct { Proc *model.Proc Platform string Labels map[string]string Config *backend.Config } func (b *builder) Build() ([]*buildItem, error) { axes, err := matrix.ParseString(b.Yaml) if err != nil { return nil, err } if len(axes) == 0 { axes = append(axes, matrix.Axis{}) } var items []*buildItem for i, axis := range axes { proc := &model.Proc{ BuildID: b.Curr.ID, PID: i + 1, PGID: i + 1, State: model.StatusPending, Environ: axis, } metadata := metadataFromStruct(b.Repo, b.Curr, b.Last, proc, b.Link) environ := metadata.Environ() for k, v := range metadata.EnvironDrone() { environ[k] = v } for k, v := range axis { environ[k] = v } var secrets []compiler.Secret for _, sec := range b.Secs { if !sec.Match(b.Curr.Event) { continue } secrets = append(secrets, compiler.Secret{ Name: sec.Name, Value: sec.Value, Match: sec.Images, }) } y := b.Yaml s, err := envsubst.Eval(y, func(name string) string { env := environ[name] if strings.Contains(env, "\n") { env = fmt.Sprintf("%q", env) } return env }) if err != nil { return nil, err } y = s parsed, err := yaml.ParseString(y) if err != nil { return nil, err } metadata.Sys.Arch = parsed.Platform if metadata.Sys.Arch == "" { metadata.Sys.Arch = "linux/amd64" } lerr := linter.New( linter.WithTrusted(b.Repo.IsTrusted), ).Lint(parsed) if lerr != nil { return nil, lerr } var registries []compiler.Registry for _, reg := range b.Regs { registries = append(registries, compiler.Registry{ Hostname: reg.Address, Username: reg.Username, Password: reg.Password, Email: reg.Email, }) } ir := compiler.New( compiler.WithEnviron(environ), compiler.WithEnviron(b.Envs), compiler.WithEscalated(Config.Pipeline.Privileged...), compiler.WithResourceLimit(Config.Pipeline.Limits.MemSwapLimit, Config.Pipeline.Limits.MemLimit, Config.Pipeline.Limits.ShmSize, Config.Pipeline.Limits.CPUQuota, Config.Pipeline.Limits.CPUShares, Config.Pipeline.Limits.CPUSet), compiler.WithVolumes(Config.Pipeline.Volumes...), compiler.WithNetworks(Config.Pipeline.Networks...), compiler.WithLocal(false), compiler.WithOption( compiler.WithNetrc( b.Netrc.Login, b.Netrc.Password, b.Netrc.Machine, ), b.Repo.IsPrivate, ), compiler.WithRegistry(registries...), compiler.WithSecret(secrets...), compiler.WithPrefix( fmt.Sprintf( "%d_%d", proc.ID, rand.Int(), ), ), compiler.WithEnviron(proc.Environ), compiler.WithProxy(), compiler.WithWorkspaceFromURL("/drone", b.Repo.Link), compiler.WithMetadata(metadata), ).Compile(parsed) // for _, sec := range b.Secs { // if !sec.MatchEvent(b.Curr.Event) { // continue // } // if b.Curr.Verified || sec.SkipVerify { // ir.Secrets = append(ir.Secrets, &backend.Secret{ // Mask: sec.Conceal, // Name: sec.Name, // Value: sec.Value, // }) // } // } item := &buildItem{ Proc: proc, Config: ir, Labels: parsed.Labels, Platform: metadata.Sys.Arch, } if item.Labels == nil { item.Labels = map[string]string{} } items = append(items, item) } return items, nil } func shasum(raw []byte) string { sum := sha256.Sum256(raw) return fmt.Sprintf("%x", sum) }