package job import ( "fmt" "sort" "strings" "github.com/pkg/errors" "github.com/zrepl/zrepl/config" "github.com/zrepl/zrepl/util/bandwidthlimit" ) func JobsFromConfig(c *config.Config, parseFlags config.ParseFlags) ([]Job, error) { js := make([]Job, len(c.Jobs)) for i := range c.Jobs { j, err := buildJob(c.Global, c.Jobs[i], parseFlags) if err != nil { return nil, err } if j == nil || j.Name() == "" { panic(fmt.Sprintf("implementation error: job builder returned nil job type %T", c.Jobs[i].Ret)) } js[i] = j } return js, nil } func buildJob(c *config.Global, in config.JobEnum, parseFlags config.ParseFlags) (j Job, err error) { cannotBuildJob := func(e error, name string) (Job, error) { return nil, errors.Wrapf(e, "cannot build job %q", name) } // FIXME prettify this switch v := in.Ret.(type) { case *config.SinkJob: j, err = passiveSideFromConfig(c, &v.PassiveJob, v, parseFlags) if err != nil { return cannotBuildJob(err, v.Name) } case *config.SourceJob: j, err = passiveSideFromConfig(c, &v.PassiveJob, v, parseFlags) if err != nil { return cannotBuildJob(err, v.Name) } case *config.SnapJob: j, err = snapJobFromConfig(c, v) if err != nil { return cannotBuildJob(err, v.Name) } case *config.PushJob: j, err = activeSide(c, &v.ActiveJob, v, parseFlags) if err != nil { return cannotBuildJob(err, v.Name) } case *config.PullJob: j, err = activeSide(c, &v.ActiveJob, v, parseFlags) if err != nil { return cannotBuildJob(err, v.Name) } default: panic(fmt.Sprintf("implementation error: unknown job type %T", v)) } return j, nil } func validateReceivingSidesDoNotOverlap(receivingRootFSs []string) error { if len(receivingRootFSs) == 0 { return nil } rfss := make([]string, len(receivingRootFSs)) copy(rfss, receivingRootFSs) sort.Slice(rfss, func(i, j int) bool { return strings.Compare(rfss[i], rfss[j]) == -1 }) // add tailing slash because of hierarchy-simulation // rootfs/ is not root of rootfs2/ for i := 0; i < len(rfss); i++ { rfss[i] += "/" } // idea: // no path in rfss must be prefix of another // // rfss is now lexicographically sorted, which means that // if i is prefix of j, i < j (in lexicographical order) // thus, // if any i is prefix of i+n (n >= 1), there is overlap for i := 0; i < len(rfss)-1; i++ { if strings.HasPrefix(rfss[i+1], rfss[i]) { return fmt.Errorf("receiving jobs with overlapping root filesystems are forbidden") } } return nil } func buildBandwidthLimitConfig(in *config.BandwidthLimit) (c bandwidthlimit.Config, _ error) { if in.Max.ToBytes() > 0 && int64(in.Max.ToBytes()) == 0 { return c, fmt.Errorf("bandwidth limit `max` is too small, must at least specify one byte") } return bandwidthlimit.Config{ Max: int64(in.Max.ToBytes()), BucketCapacity: int64(in.BucketCapacity.ToBytes()), }, nil }