package pkger import ( "context" "errors" "fmt" "net/url" "path" "sort" "strings" "sync" "time" "github.com/go-stack/stack" "github.com/influxdata/influxdb/v2" ierrors "github.com/influxdata/influxdb/v2/kit/errors" icheck "github.com/influxdata/influxdb/v2/notification/check" "github.com/influxdata/influxdb/v2/notification/rule" "github.com/influxdata/influxdb/v2/pkger/internal/wordplay" "github.com/influxdata/influxdb/v2/snowflake" "github.com/influxdata/influxdb/v2/task/options" "go.uber.org/zap" ) // APIVersion marks the current APIVersion for influx packages. const APIVersion = "influxdata.com/v2alpha1" // Stack is an identifier for stateful application of a package(s). This stack // will map created resources from the template(s) to existing resources on the // platform. This stack is updated only after side effects of applying a template. // If the template is applied, and no changes are had, then the stack is not updated. type Stack struct { ID influxdb.ID OrgID influxdb.ID CreatedAt time.Time `json:"createdAt"` Events []StackEvent } func (s Stack) LatestEvent() StackEvent { if len(s.Events) == 0 { return StackEvent{} } sort.Slice(s.Events, func(i, j int) bool { return s.Events[i].UpdatedAt.Before(s.Events[j].UpdatedAt) }) return s.Events[len(s.Events)-1] } type ( StackEvent struct { EventType StackEventType Name string Description string Sources []string TemplateURLs []string Resources []StackResource UpdatedAt time.Time `json:"updatedAt"` } StackCreate struct { OrgID influxdb.ID Name string Description string Sources []string TemplateURLs []string Resources []StackResource } // StackResource is a record for an individual resource side effect genereated from // applying a template. StackResource struct { APIVersion string ID influxdb.ID Kind Kind MetaName string Associations []StackResourceAssociation } // StackResourceAssociation associates a stack resource with another stack resource. StackResourceAssociation struct { Kind Kind MetaName string } // StackUpdate provides a means to update an existing stack. StackUpdate struct { ID influxdb.ID Name *string Description *string TemplateURLs []string AdditionalResources []StackAdditionalResource } StackAdditionalResource struct { APIVersion string ID influxdb.ID Kind Kind MetaName string } ) type StackEventType uint const ( StackEventCreate StackEventType = iota StackEventUpdate StackEventUninstalled ) func (e StackEventType) String() string { switch e { case StackEventCreate: return "create" case StackEventUninstalled: return "uninstall" case StackEventUpdate: return "update" default: return "unknown" } } const ResourceTypeStack influxdb.ResourceType = "stack" // SVC is the packages service interface. type SVC interface { InitStack(ctx context.Context, userID influxdb.ID, stack StackCreate) (Stack, error) UninstallStack(ctx context.Context, identifiers struct{ OrgID, UserID, StackID influxdb.ID }) (Stack, error) DeleteStack(ctx context.Context, identifiers struct{ OrgID, UserID, StackID influxdb.ID }) error ListStacks(ctx context.Context, orgID influxdb.ID, filter ListFilter) ([]Stack, error) ReadStack(ctx context.Context, id influxdb.ID) (Stack, error) UpdateStack(ctx context.Context, upd StackUpdate) (Stack, error) Export(ctx context.Context, opts ...ExportOptFn) (*Template, error) DryRun(ctx context.Context, orgID, userID influxdb.ID, opts ...ApplyOptFn) (ImpactSummary, error) Apply(ctx context.Context, orgID, userID influxdb.ID, opts ...ApplyOptFn) (ImpactSummary, error) } // SVCMiddleware is a service middleware func. type SVCMiddleware func(SVC) SVC type serviceOpt struct { logger *zap.Logger applyReqLimit int idGen influxdb.IDGenerator nameGen NameGenerator timeGen influxdb.TimeGenerator store Store bucketSVC influxdb.BucketService checkSVC influxdb.CheckService dashSVC influxdb.DashboardService labelSVC influxdb.LabelService endpointSVC influxdb.NotificationEndpointService orgSVC influxdb.OrganizationService ruleSVC influxdb.NotificationRuleStore secretSVC influxdb.SecretService taskSVC influxdb.TaskService teleSVC influxdb.TelegrafConfigStore varSVC influxdb.VariableService } // ServiceSetterFn is a means of setting dependencies on the Service type. type ServiceSetterFn func(opt *serviceOpt) // WithLogger sets the logger for the service. func WithLogger(log *zap.Logger) ServiceSetterFn { return func(o *serviceOpt) { o.logger = log } } // WithIDGenerator sets the id generator for the service. func WithIDGenerator(idGen influxdb.IDGenerator) ServiceSetterFn { return func(opt *serviceOpt) { opt.idGen = idGen } } // WithTimeGenerator sets the time generator for the service. func WithTimeGenerator(timeGen influxdb.TimeGenerator) ServiceSetterFn { return func(opt *serviceOpt) { opt.timeGen = timeGen } } // WithStore sets the store for the service. func WithStore(store Store) ServiceSetterFn { return func(opt *serviceOpt) { opt.store = store } } // WithBucketSVC sets the bucket service. func WithBucketSVC(bktSVC influxdb.BucketService) ServiceSetterFn { return func(opt *serviceOpt) { opt.bucketSVC = bktSVC } } // WithCheckSVC sets the check service. func WithCheckSVC(checkSVC influxdb.CheckService) ServiceSetterFn { return func(opt *serviceOpt) { opt.checkSVC = checkSVC } } // WithDashboardSVC sets the dashboard service. func WithDashboardSVC(dashSVC influxdb.DashboardService) ServiceSetterFn { return func(opt *serviceOpt) { opt.dashSVC = dashSVC } } // WithLabelSVC sets the label service. func WithLabelSVC(labelSVC influxdb.LabelService) ServiceSetterFn { return func(opt *serviceOpt) { opt.labelSVC = labelSVC } } func withNameGen(nameGen NameGenerator) ServiceSetterFn { return func(opt *serviceOpt) { opt.nameGen = nameGen } } // WithNotificationEndpointSVC sets the endpoint notification service. func WithNotificationEndpointSVC(endpointSVC influxdb.NotificationEndpointService) ServiceSetterFn { return func(opt *serviceOpt) { opt.endpointSVC = endpointSVC } } // WithNotificationRuleSVC sets the endpoint rule service. func WithNotificationRuleSVC(ruleSVC influxdb.NotificationRuleStore) ServiceSetterFn { return func(opt *serviceOpt) { opt.ruleSVC = ruleSVC } } // WithOrganizationService sets the organization service for the service. func WithOrganizationService(orgSVC influxdb.OrganizationService) ServiceSetterFn { return func(opt *serviceOpt) { opt.orgSVC = orgSVC } } // WithSecretSVC sets the secret service. func WithSecretSVC(secretSVC influxdb.SecretService) ServiceSetterFn { return func(opt *serviceOpt) { opt.secretSVC = secretSVC } } // WithTaskSVC sets the task service. func WithTaskSVC(taskSVC influxdb.TaskService) ServiceSetterFn { return func(opt *serviceOpt) { opt.taskSVC = taskSVC } } // WithTelegrafSVC sets the telegraf service. func WithTelegrafSVC(telegrafSVC influxdb.TelegrafConfigStore) ServiceSetterFn { return func(opt *serviceOpt) { opt.teleSVC = telegrafSVC } } // WithVariableSVC sets the variable service. func WithVariableSVC(varSVC influxdb.VariableService) ServiceSetterFn { return func(opt *serviceOpt) { opt.varSVC = varSVC } } // Store is the storage behavior the Service depends on. type Store interface { CreateStack(ctx context.Context, stack Stack) error ListStacks(ctx context.Context, orgID influxdb.ID, filter ListFilter) ([]Stack, error) ReadStackByID(ctx context.Context, id influxdb.ID) (Stack, error) UpdateStack(ctx context.Context, stack Stack) error DeleteStack(ctx context.Context, id influxdb.ID) error } // Service provides the template business logic including all the dependencies to make // this resource sausage. type Service struct { log *zap.Logger // internal dependencies applyReqLimit int idGen influxdb.IDGenerator nameGen NameGenerator store Store timeGen influxdb.TimeGenerator // external service dependencies bucketSVC influxdb.BucketService checkSVC influxdb.CheckService dashSVC influxdb.DashboardService labelSVC influxdb.LabelService endpointSVC influxdb.NotificationEndpointService orgSVC influxdb.OrganizationService ruleSVC influxdb.NotificationRuleStore secretSVC influxdb.SecretService taskSVC influxdb.TaskService teleSVC influxdb.TelegrafConfigStore varSVC influxdb.VariableService } var _ SVC = (*Service)(nil) // NewService is a constructor for a template Service. func NewService(opts ...ServiceSetterFn) *Service { opt := &serviceOpt{ logger: zap.NewNop(), applyReqLimit: 5, idGen: snowflake.NewDefaultIDGenerator(), nameGen: wordplay.GetRandomName, timeGen: influxdb.RealTimeGenerator{}, } for _, o := range opts { o(opt) } return &Service{ log: opt.logger, applyReqLimit: opt.applyReqLimit, idGen: opt.idGen, nameGen: opt.nameGen, store: opt.store, timeGen: opt.timeGen, bucketSVC: opt.bucketSVC, checkSVC: opt.checkSVC, labelSVC: opt.labelSVC, dashSVC: opt.dashSVC, endpointSVC: opt.endpointSVC, orgSVC: opt.orgSVC, ruleSVC: opt.ruleSVC, secretSVC: opt.secretSVC, taskSVC: opt.taskSVC, teleSVC: opt.teleSVC, varSVC: opt.varSVC, } } // InitStack will create a new stack for the given user and its given org. The stack can be created // with urls that point to the location of packages that are included as part of the stack when // it is applied. func (s *Service) InitStack(ctx context.Context, userID influxdb.ID, stCreate StackCreate) (Stack, error) { if err := validURLs(stCreate.TemplateURLs); err != nil { return Stack{}, err } if _, err := s.orgSVC.FindOrganizationByID(ctx, stCreate.OrgID); err != nil { if influxdb.ErrorCode(err) == influxdb.ENotFound { msg := fmt.Sprintf("organization dependency does not exist for id[%q]", stCreate.OrgID.String()) return Stack{}, influxErr(influxdb.EConflict, msg) } return Stack{}, internalErr(err) } now := s.timeGen.Now() newStack := Stack{ ID: s.idGen.ID(), OrgID: stCreate.OrgID, CreatedAt: now, Events: []StackEvent{ { EventType: StackEventCreate, Name: stCreate.Name, Description: stCreate.Description, Resources: stCreate.Resources, TemplateURLs: stCreate.TemplateURLs, UpdatedAt: now, }, }, } if err := s.store.CreateStack(ctx, newStack); err != nil { return Stack{}, internalErr(err) } return newStack, nil } // UninstallStack will remove all resources associated with the stack. func (s *Service) UninstallStack(ctx context.Context, identifiers struct{ OrgID, UserID, StackID influxdb.ID }) (Stack, error) { uninstalledStack, err := s.uninstallStack(ctx, identifiers) if err != nil { return Stack{}, err } ev := uninstalledStack.LatestEvent() ev.EventType = StackEventUninstalled ev.Resources = nil ev.UpdatedAt = s.timeGen.Now() uninstalledStack.Events = append(uninstalledStack.Events, ev) if err := s.store.UpdateStack(ctx, uninstalledStack); err != nil { s.log.Error("unable to update stack after uninstalling resources", zap.Error(err)) } return uninstalledStack, nil } // DeleteStack removes a stack and all the resources that have are associated with the stack. func (s *Service) DeleteStack(ctx context.Context, identifiers struct{ OrgID, UserID, StackID influxdb.ID }) (e error) { deletedStack, err := s.uninstallStack(ctx, identifiers) if influxdb.ErrorCode(err) == influxdb.ENotFound { return nil } if err != nil { return err } return s.store.DeleteStack(ctx, deletedStack.ID) } func (s *Service) uninstallStack(ctx context.Context, identifiers struct{ OrgID, UserID, StackID influxdb.ID }) (_ Stack, e error) { stack, err := s.store.ReadStackByID(ctx, identifiers.StackID) if err != nil { return Stack{}, err } if stack.OrgID != identifiers.OrgID { return Stack{}, &influxdb.Error{ Code: influxdb.EConflict, Msg: "you do not have access to given stack ID", } } // providing empty template will remove all applied resources state, err := s.dryRun(ctx, identifiers.OrgID, new(Template), applyOptFromOptFns(ApplyWithStackID(identifiers.StackID))) if err != nil { return Stack{}, err } coordinator := newRollbackCoordinator(s.log, s.applyReqLimit) defer coordinator.rollback(s.log, &e, identifiers.OrgID) err = s.applyState(ctx, coordinator, identifiers.OrgID, identifiers.UserID, state, nil) if err != nil { return Stack{}, err } return stack, nil } // ListFilter are filter options for filtering stacks from being returned. type ListFilter struct { StackIDs []influxdb.ID Names []string } // ListStacks returns a list of stacks. func (s *Service) ListStacks(ctx context.Context, orgID influxdb.ID, f ListFilter) ([]Stack, error) { return s.store.ListStacks(ctx, orgID, f) } // ReadStack returns a stack that matches the given id. func (s *Service) ReadStack(ctx context.Context, id influxdb.ID) (Stack, error) { return s.store.ReadStackByID(ctx, id) } // UpdateStack updates the stack by the given parameters. func (s *Service) UpdateStack(ctx context.Context, upd StackUpdate) (Stack, error) { existing, err := s.ReadStack(ctx, upd.ID) if err != nil { return Stack{}, err } updatedStack := s.applyStackUpdate(existing, upd) if err := s.store.UpdateStack(ctx, updatedStack); err != nil { return Stack{}, err } return updatedStack, nil } func (s *Service) applyStackUpdate(existing Stack, upd StackUpdate) Stack { ev := existing.LatestEvent() ev.EventType = StackEventUpdate ev.UpdatedAt = s.timeGen.Now() if upd.Name != nil { ev.Name = *upd.Name } if upd.Description != nil { ev.Description = *upd.Description } if upd.TemplateURLs != nil { ev.TemplateURLs = upd.TemplateURLs } type key struct { k Kind id influxdb.ID } mExistingResources := make(map[key]bool) mExistingNames := make(map[string]bool) for _, r := range ev.Resources { k := key{k: r.Kind, id: r.ID} mExistingResources[k] = true mExistingNames[r.MetaName] = true } var out []StackResource for _, r := range upd.AdditionalResources { k := key{k: r.Kind, id: r.ID} if mExistingResources[k] { continue } sr := StackResource{ APIVersion: r.APIVersion, ID: r.ID, Kind: r.Kind, } metaName := r.MetaName if metaName == "" || mExistingNames[metaName] { metaName = uniqMetaName(s.nameGen, s.idGen, mExistingNames) } mExistingNames[metaName] = true sr.MetaName = metaName out = append(out, sr) } ev.Resources = out existing.Events = append(existing.Events, ev) return existing } type ( // ExportOptFn is a functional input for setting the template fields. ExportOptFn func(opt *ExportOpt) error // ExportOpt are the options for creating a new package. ExportOpt struct { StackID influxdb.ID OrgIDs []ExportByOrgIDOpt Resources []ResourceToClone } // ExportByOrgIDOpt identifies an org to export resources for and provides // multiple filtering options. ExportByOrgIDOpt struct { OrgID influxdb.ID LabelNames []string ResourceKinds []Kind } ) // ExportWithExistingResources allows the create method to clone existing resources. func ExportWithExistingResources(resources ...ResourceToClone) ExportOptFn { return func(opt *ExportOpt) error { for _, r := range resources { if err := r.OK(); err != nil { return err } } opt.Resources = append(opt.Resources, resources...) return nil } } // ExportWithAllOrgResources allows the create method to clone all existing resources // for the given organization. func ExportWithAllOrgResources(orgIDOpt ExportByOrgIDOpt) ExportOptFn { return func(opt *ExportOpt) error { if orgIDOpt.OrgID == 0 { return errors.New("orgID provided must not be zero") } for _, k := range orgIDOpt.ResourceKinds { if err := k.OK(); err != nil { return err } } opt.OrgIDs = append(opt.OrgIDs, orgIDOpt) return nil } } // ExportWithStackID provides an export for the given stack ID. func ExportWithStackID(stackID influxdb.ID) ExportOptFn { return func(opt *ExportOpt) error { opt.StackID = stackID return nil } } func exportOptFromOptFns(opts []ExportOptFn) (ExportOpt, error) { var opt ExportOpt for _, setter := range opts { if err := setter(&opt); err != nil { return ExportOpt{}, err } } return opt, nil } // Export will produce a templates from the parameters provided. func (s *Service) Export(ctx context.Context, setters ...ExportOptFn) (*Template, error) { opt, err := exportOptFromOptFns(setters) if err != nil { return nil, err } var stack Stack if opt.StackID != 0 { stack, err = s.store.ReadStackByID(ctx, opt.StackID) if err != nil { return nil, err } var opts []ExportOptFn for _, r := range stack.LatestEvent().Resources { opts = append(opts, ExportWithExistingResources(ResourceToClone{ Kind: r.Kind, ID: r.ID, MetaName: r.MetaName, })) } opt, err = exportOptFromOptFns(append(setters, opts...)) if err != nil { return nil, err } } exporter := newResourceExporter(s) for _, orgIDOpt := range opt.OrgIDs { resourcesToClone, err := s.cloneOrgResources(ctx, orgIDOpt.OrgID, orgIDOpt.ResourceKinds) if err != nil { return nil, internalErr(err) } if err := exporter.Export(ctx, resourcesToClone, orgIDOpt.LabelNames...); err != nil { return nil, internalErr(err) } } if err := exporter.Export(ctx, opt.Resources); err != nil { return nil, internalErr(err) } template := &Template{Objects: exporter.Objects()} if err := template.Validate(ValidWithoutResources()); err != nil { return nil, failedValidationErr(err) } return template, nil } func (s *Service) cloneOrgResources(ctx context.Context, orgID influxdb.ID, resourceKinds []Kind) ([]ResourceToClone, error) { var resources []ResourceToClone for _, resGen := range s.filterOrgResourceKinds(resourceKinds) { existingResources, err := resGen.cloneFn(ctx, orgID) if err != nil { return nil, ierrors.Wrap(err, "finding "+string(resGen.resType)) } resources = append(resources, existingResources...) } return resources, nil } func (s *Service) cloneOrgBuckets(ctx context.Context, orgID influxdb.ID) ([]ResourceToClone, error) { buckets, _, err := s.bucketSVC.FindBuckets(ctx, influxdb.BucketFilter{ OrganizationID: &orgID, }) if err != nil { return nil, err } resources := make([]ResourceToClone, 0, len(buckets)) for _, b := range buckets { if b.Type == influxdb.BucketTypeSystem { continue } resources = append(resources, ResourceToClone{ Kind: KindBucket, ID: b.ID, }) } return resources, nil } func (s *Service) cloneOrgChecks(ctx context.Context, orgID influxdb.ID) ([]ResourceToClone, error) { checks, _, err := s.checkSVC.FindChecks(ctx, influxdb.CheckFilter{ OrgID: &orgID, }) if err != nil { return nil, err } resources := make([]ResourceToClone, 0, len(checks)) for _, c := range checks { resources = append(resources, ResourceToClone{ Kind: KindCheck, ID: c.GetID(), }) } return resources, nil } func (s *Service) cloneOrgDashboards(ctx context.Context, orgID influxdb.ID) ([]ResourceToClone, error) { dashs, _, err := s.dashSVC.FindDashboards(ctx, influxdb.DashboardFilter{ OrganizationID: &orgID, }, influxdb.FindOptions{Limit: 100}) if err != nil { return nil, err } resources := make([]ResourceToClone, 0, len(dashs)) for _, d := range dashs { resources = append(resources, ResourceToClone{ Kind: KindDashboard, ID: d.ID, }) } return resources, nil } func (s *Service) cloneOrgLabels(ctx context.Context, orgID influxdb.ID) ([]ResourceToClone, error) { labels, err := s.labelSVC.FindLabels(ctx, influxdb.LabelFilter{ OrgID: &orgID, }, influxdb.FindOptions{Limit: 10000}) if err != nil { return nil, ierrors.Wrap(err, "finding labels") } resources := make([]ResourceToClone, 0, len(labels)) for _, l := range labels { resources = append(resources, ResourceToClone{ Kind: KindLabel, ID: l.ID, }) } return resources, nil } func (s *Service) cloneOrgNotificationEndpoints(ctx context.Context, orgID influxdb.ID) ([]ResourceToClone, error) { endpoints, _, err := s.endpointSVC.FindNotificationEndpoints(ctx, influxdb.NotificationEndpointFilter{ OrgID: &orgID, }) if err != nil { return nil, err } resources := make([]ResourceToClone, 0, len(endpoints)) for _, e := range endpoints { resources = append(resources, ResourceToClone{ Kind: KindNotificationEndpoint, ID: e.GetID(), }) } return resources, nil } func (s *Service) cloneOrgNotificationRules(ctx context.Context, orgID influxdb.ID) ([]ResourceToClone, error) { rules, _, err := s.ruleSVC.FindNotificationRules(ctx, influxdb.NotificationRuleFilter{ OrgID: &orgID, }) if err != nil { return nil, err } resources := make([]ResourceToClone, 0, len(rules)) for _, r := range rules { resources = append(resources, ResourceToClone{ Kind: KindNotificationRule, ID: r.GetID(), }) } return resources, nil } func (s *Service) cloneOrgTasks(ctx context.Context, orgID influxdb.ID) ([]ResourceToClone, error) { tasks, err := s.getAllTasks(ctx, orgID) if err != nil { return nil, err } if len(tasks) == 0 { return nil, nil } checks, err := s.getAllChecks(ctx, orgID) if err != nil { return nil, err } rules, err := s.getNotificationRules(ctx, orgID) if err != nil { return nil, err } mTasks := make(map[influxdb.ID]*influxdb.Task) for i := range tasks { t := tasks[i] if t.Type != influxdb.TaskSystemType { continue } mTasks[t.ID] = t } for _, c := range checks { delete(mTasks, c.GetTaskID()) } for _, r := range rules { delete(mTasks, r.GetTaskID()) } resources := make([]ResourceToClone, 0, len(mTasks)) for _, t := range mTasks { resources = append(resources, ResourceToClone{ Kind: KindTask, ID: t.ID, }) } return resources, nil } func (s *Service) cloneOrgTelegrafs(ctx context.Context, orgID influxdb.ID) ([]ResourceToClone, error) { teles, _, err := s.teleSVC.FindTelegrafConfigs(ctx, influxdb.TelegrafConfigFilter{OrgID: &orgID}) if err != nil { return nil, err } resources := make([]ResourceToClone, 0, len(teles)) for _, t := range teles { resources = append(resources, ResourceToClone{ Kind: KindTelegraf, ID: t.ID, }) } return resources, nil } func (s *Service) cloneOrgVariables(ctx context.Context, orgID influxdb.ID) ([]ResourceToClone, error) { vars, err := s.varSVC.FindVariables(ctx, influxdb.VariableFilter{ OrganizationID: &orgID, }, influxdb.FindOptions{Limit: 10000}) if err != nil { return nil, err } resources := make([]ResourceToClone, 0, len(vars)) for _, v := range vars { resources = append(resources, ResourceToClone{ Kind: KindVariable, ID: v.ID, }) } return resources, nil } type cloneResFn func(context.Context, influxdb.ID) ([]ResourceToClone, error) func (s *Service) filterOrgResourceKinds(resourceKindFilters []Kind) []struct { resType influxdb.ResourceType cloneFn cloneResFn } { mKinds := map[Kind]cloneResFn{ KindBucket: s.cloneOrgBuckets, KindCheck: s.cloneOrgChecks, KindDashboard: s.cloneOrgDashboards, KindLabel: s.cloneOrgLabels, KindNotificationEndpoint: s.cloneOrgNotificationEndpoints, KindNotificationRule: s.cloneOrgNotificationRules, KindTask: s.cloneOrgTasks, KindTelegraf: s.cloneOrgTelegrafs, KindVariable: s.cloneOrgVariables, } newResGen := func(resType influxdb.ResourceType, cloneFn cloneResFn) struct { resType influxdb.ResourceType cloneFn cloneResFn } { return struct { resType influxdb.ResourceType cloneFn cloneResFn }{ resType: resType, cloneFn: cloneFn, } } var resourceTypeGens []struct { resType influxdb.ResourceType cloneFn cloneResFn } if len(resourceKindFilters) == 0 { for k, cloneFn := range mKinds { resourceTypeGens = append(resourceTypeGens, newResGen(k.ResourceType(), cloneFn)) } return resourceTypeGens } seenKinds := make(map[Kind]bool) for _, k := range resourceKindFilters { cloneFn, ok := mKinds[k] if !ok || seenKinds[k] { continue } seenKinds[k] = true resourceTypeGens = append(resourceTypeGens, newResGen(k.ResourceType(), cloneFn)) } return resourceTypeGens } // ImpactSummary represents the impact the application of a template will have on the system. type ImpactSummary struct { Sources []string StackID influxdb.ID Diff Diff Summary Summary } // DryRun provides a dry run of the template application. The template will be marked verified // for later calls to Apply. This func will be run on an Apply if it has not been run // already. func (s *Service) DryRun(ctx context.Context, orgID, userID influxdb.ID, opts ...ApplyOptFn) (ImpactSummary, error) { opt := applyOptFromOptFns(opts...) template, err := s.templateFromApplyOpts(ctx, opt) if err != nil { return ImpactSummary{}, err } state, err := s.dryRun(ctx, orgID, template, opt) if err != nil { return ImpactSummary{}, err } return ImpactSummary{ Sources: template.sources, StackID: opt.StackID, Diff: state.diff(), Summary: newSummaryFromStateTemplate(state, template), }, nil } func (s *Service) dryRun(ctx context.Context, orgID influxdb.ID, template *Template, opt ApplyOpt) (*stateCoordinator, error) { // so here's the deal, when we have issues with the parsing validation, we // continue to do the diff anyhow. any resource that does not have a name // will be skipped, and won't bleed into the dry run here. We can now return // a error (parseErr) and valid diff/summary. var parseErr error err := template.Validate(ValidWithoutResources()) if err != nil && !IsParseErr(err) { return nil, internalErr(err) } parseErr = err if len(opt.EnvRefs) > 0 { err := template.applyEnvRefs(opt.EnvRefs) if err != nil && !IsParseErr(err) { return nil, internalErr(err) } parseErr = err } state := newStateCoordinator(template, resourceActions{ skipKinds: opt.KindsToSkip, skipResources: opt.ResourcesToSkip, }) if opt.StackID > 0 { if err := s.addStackState(ctx, opt.StackID, state); err != nil { return nil, internalErr(err) } } if err := s.dryRunSecrets(ctx, orgID, template); err != nil { return nil, err } s.dryRunBuckets(ctx, orgID, state.mBuckets) s.dryRunChecks(ctx, orgID, state.mChecks) s.dryRunDashboards(ctx, orgID, state.mDashboards) s.dryRunLabels(ctx, orgID, state.mLabels) s.dryRunTasks(ctx, orgID, state.mTasks) s.dryRunTelegrafConfigs(ctx, orgID, state.mTelegrafs) s.dryRunVariables(ctx, orgID, state.mVariables) err = s.dryRunNotificationEndpoints(ctx, orgID, state.mEndpoints) if err != nil { return nil, ierrors.Wrap(err, "failed to dry run notification endpoints") } err = s.dryRunNotificationRules(ctx, orgID, state.mRules, state.mEndpoints) if err != nil { return nil, err } stateLabelMappings, err := s.dryRunLabelMappings(ctx, state) if err != nil { return nil, err } state.labelMappings = stateLabelMappings return state, parseErr } func (s *Service) dryRunBuckets(ctx context.Context, orgID influxdb.ID, bkts map[string]*stateBucket) { for _, stateBkt := range bkts { stateBkt.orgID = orgID var existing *influxdb.Bucket if stateBkt.ID() != 0 { existing, _ = s.bucketSVC.FindBucketByID(ctx, stateBkt.ID()) } else { existing, _ = s.bucketSVC.FindBucketByName(ctx, orgID, stateBkt.parserBkt.Name()) } if IsNew(stateBkt.stateStatus) && existing != nil { stateBkt.stateStatus = StateStatusExists } stateBkt.existing = existing } } func (s *Service) dryRunChecks(ctx context.Context, orgID influxdb.ID, checks map[string]*stateCheck) { for _, c := range checks { c.orgID = orgID var existing influxdb.Check if c.ID() != 0 { existing, _ = s.checkSVC.FindCheckByID(ctx, c.ID()) } else { name := c.parserCheck.Name() existing, _ = s.checkSVC.FindCheck(ctx, influxdb.CheckFilter{ Name: &name, OrgID: &orgID, }) } if IsNew(c.stateStatus) && existing != nil { c.stateStatus = StateStatusExists } c.existing = existing } } func (s *Service) dryRunDashboards(ctx context.Context, orgID influxdb.ID, dashs map[string]*stateDashboard) { for _, stateDash := range dashs { stateDash.orgID = orgID var existing *influxdb.Dashboard if stateDash.ID() != 0 { existing, _ = s.dashSVC.FindDashboardByID(ctx, stateDash.ID()) } if IsNew(stateDash.stateStatus) && existing != nil { stateDash.stateStatus = StateStatusExists } stateDash.existing = existing } } func (s *Service) dryRunLabels(ctx context.Context, orgID influxdb.ID, labels map[string]*stateLabel) { for _, l := range labels { l.orgID = orgID existingLabel, _ := s.findLabel(ctx, orgID, l) if IsNew(l.stateStatus) && existingLabel != nil { l.stateStatus = StateStatusExists } l.existing = existingLabel } } func (s *Service) dryRunNotificationEndpoints(ctx context.Context, orgID influxdb.ID, endpoints map[string]*stateEndpoint) error { existingEndpoints, _, err := s.endpointSVC.FindNotificationEndpoints(ctx, influxdb.NotificationEndpointFilter{ OrgID: &orgID, }) // grab em all if err != nil { return internalErr(err) } mExistingByName := make(map[string]influxdb.NotificationEndpoint) mExistingByID := make(map[influxdb.ID]influxdb.NotificationEndpoint) for i := range existingEndpoints { e := existingEndpoints[i] mExistingByName[e.GetName()] = e mExistingByID[e.GetID()] = e } findEndpoint := func(e *stateEndpoint) influxdb.NotificationEndpoint { if iExisting, ok := mExistingByID[e.ID()]; ok { return iExisting } if iExisting, ok := mExistingByName[e.parserEndpoint.Name()]; ok { return iExisting } return nil } for _, newEndpoint := range endpoints { existing := findEndpoint(newEndpoint) if IsNew(newEndpoint.stateStatus) && existing != nil { newEndpoint.stateStatus = StateStatusExists } newEndpoint.existing = existing } return nil } func (s *Service) dryRunNotificationRules(ctx context.Context, orgID influxdb.ID, rules map[string]*stateRule, endpoints map[string]*stateEndpoint) error { for _, rule := range rules { rule.orgID = orgID var existing influxdb.NotificationRule if rule.ID() != 0 { existing, _ = s.ruleSVC.FindNotificationRuleByID(ctx, rule.ID()) } rule.existing = existing } for _, r := range rules { if r.associatedEndpoint != nil { continue } e, ok := endpoints[r.parserRule.endpointMetaName()] if !IsRemoval(r.stateStatus) && !ok { err := fmt.Errorf("failed to find notification endpoint %q dependency for notification rule %q", r.parserRule.endpointName, r.parserRule.MetaName()) return &influxdb.Error{ Code: influxdb.EUnprocessableEntity, Err: err, } } r.associatedEndpoint = e } return nil } func (s *Service) dryRunSecrets(ctx context.Context, orgID influxdb.ID, template *Template) error { templateSecrets := template.mSecrets if len(templateSecrets) == 0 { return nil } existingSecrets, err := s.secretSVC.GetSecretKeys(ctx, orgID) if err != nil { return &influxdb.Error{Code: influxdb.EInternal, Err: err} } for _, secret := range existingSecrets { templateSecrets[secret] = true // marked true since it exists in the platform } return nil } func (s *Service) dryRunTasks(ctx context.Context, orgID influxdb.ID, tasks map[string]*stateTask) { for _, stateTask := range tasks { stateTask.orgID = orgID var existing *influxdb.Task if stateTask.ID() != 0 { existing, _ = s.taskSVC.FindTaskByID(ctx, stateTask.ID()) } if IsNew(stateTask.stateStatus) && existing != nil { stateTask.stateStatus = StateStatusExists } stateTask.existing = existing } } func (s *Service) dryRunTelegrafConfigs(ctx context.Context, orgID influxdb.ID, teleConfigs map[string]*stateTelegraf) { for _, stateTele := range teleConfigs { stateTele.orgID = orgID var existing *influxdb.TelegrafConfig if stateTele.ID() != 0 { existing, _ = s.teleSVC.FindTelegrafConfigByID(ctx, stateTele.ID()) } if IsNew(stateTele.stateStatus) && existing != nil { stateTele.stateStatus = StateStatusExists } stateTele.existing = existing } } func (s *Service) dryRunVariables(ctx context.Context, orgID influxdb.ID, vars map[string]*stateVariable) { existingVars, _ := s.getAllPlatformVariables(ctx, orgID) mIDs := make(map[influxdb.ID]*influxdb.Variable) mNames := make(map[string]*influxdb.Variable) for _, v := range existingVars { mIDs[v.ID] = v mNames[v.Name] = v } for _, v := range vars { existing := mNames[v.parserVar.Name()] if v.ID() != 0 { existing = mIDs[v.ID()] } if IsNew(v.stateStatus) && existing != nil { v.stateStatus = StateStatusExists } v.existing = existing } } func (s *Service) dryRunLabelMappings(ctx context.Context, state *stateCoordinator) ([]stateLabelMapping, error) { stateLabelsByResName := make(map[string]*stateLabel) for _, l := range state.mLabels { if IsRemoval(l.stateStatus) { continue } stateLabelsByResName[l.parserLabel.Name()] = l } var mappings []stateLabelMapping for _, b := range state.mBuckets { if IsRemoval(b.stateStatus) { continue } mm, err := s.dryRunResourceLabelMapping(ctx, state, stateLabelsByResName, b) if err != nil { return nil, err } mappings = append(mappings, mm...) } for _, c := range state.mChecks { if IsRemoval(c.stateStatus) { continue } mm, err := s.dryRunResourceLabelMapping(ctx, state, stateLabelsByResName, c) if err != nil { return nil, err } mappings = append(mappings, mm...) } for _, d := range state.mDashboards { if IsRemoval(d.stateStatus) { continue } mm, err := s.dryRunResourceLabelMapping(ctx, state, stateLabelsByResName, d) if err != nil { return nil, err } mappings = append(mappings, mm...) } for _, e := range state.mEndpoints { if IsRemoval(e.stateStatus) { continue } mm, err := s.dryRunResourceLabelMapping(ctx, state, stateLabelsByResName, e) if err != nil { return nil, err } mappings = append(mappings, mm...) } for _, r := range state.mRules { if IsRemoval(r.stateStatus) { continue } mm, err := s.dryRunResourceLabelMapping(ctx, state, stateLabelsByResName, r) if err != nil { return nil, err } mappings = append(mappings, mm...) } for _, t := range state.mTasks { if IsRemoval(t.stateStatus) { continue } mm, err := s.dryRunResourceLabelMapping(ctx, state, stateLabelsByResName, t) if err != nil { return nil, err } mappings = append(mappings, mm...) } for _, t := range state.mTelegrafs { if IsRemoval(t.stateStatus) { continue } mm, err := s.dryRunResourceLabelMapping(ctx, state, stateLabelsByResName, t) if err != nil { return nil, err } mappings = append(mappings, mm...) } for _, v := range state.mVariables { if IsRemoval(v.stateStatus) { continue } mm, err := s.dryRunResourceLabelMapping(ctx, state, stateLabelsByResName, v) if err != nil { return nil, err } mappings = append(mappings, mm...) } return mappings, nil } func (s *Service) dryRunResourceLabelMapping(ctx context.Context, state *stateCoordinator, stateLabelsByResName map[string]*stateLabel, associatedResource interface { labels() []*stateLabel stateIdentity() stateIdentity }) ([]stateLabelMapping, error) { ident := associatedResource.stateIdentity() templateResourceLabels := associatedResource.labels() var mappings []stateLabelMapping if !ident.exists() { for _, l := range templateResourceLabels { mappings = append(mappings, stateLabelMapping{ status: StateStatusNew, resource: associatedResource, label: l, }) } return mappings, nil } existingLabels, err := s.labelSVC.FindResourceLabels(ctx, influxdb.LabelMappingFilter{ ResourceID: ident.id, ResourceType: ident.resourceType, }) if err != nil && influxdb.ErrorCode(err) != influxdb.ENotFound { msgFmt := fmt.Sprintf("failed to find labels mappings for %s resource[%q]", ident.resourceType, ident.id) return nil, ierrors.Wrap(err, msgFmt) } templateLabels := labelSlcToMap(templateResourceLabels) for _, l := range existingLabels { // if label is found in state then we track the mapping and mark it existing // otherwise we continue on delete(templateLabels, l.Name) if sLabel, ok := stateLabelsByResName[l.Name]; ok { mappings = append(mappings, stateLabelMapping{ status: StateStatusExists, resource: associatedResource, label: sLabel, }) } } // now we add labels that do not exist for _, l := range templateLabels { stLabel, found := state.getLabelByMetaName(l.MetaName()) if !found { continue } mappings = append(mappings, stateLabelMapping{ status: StateStatusNew, resource: associatedResource, label: stLabel, }) } return mappings, nil } func (s *Service) addStackState(ctx context.Context, stackID influxdb.ID, state *stateCoordinator) error { stack, err := s.store.ReadStackByID(ctx, stackID) if err != nil { return ierrors.Wrap(err, "reading stack") } state.addStackState(stack) return nil } type ( // ApplyOpt is an option for applying a package. ApplyOpt struct { Templates []*Template EnvRefs map[string]string MissingSecrets map[string]string StackID influxdb.ID ResourcesToSkip map[ActionSkipResource]bool KindsToSkip map[Kind]bool } // ActionSkipResource provides an action from the consumer to use the template with // modifications to the resource kind and template name that will be applied. ActionSkipResource struct { Kind Kind `json:"kind"` MetaName string `json:"resourceTemplateName"` } // ActionSkipKind provides an action from the consumer to use the template with // modifications to the resource kinds will be applied. ActionSkipKind struct { Kind Kind `json:"kind"` } // ApplyOptFn updates the ApplyOpt per the functional option. ApplyOptFn func(opt *ApplyOpt) ) // ApplyWithEnvRefs provides env refs to saturate the missing reference fields in the template. func ApplyWithEnvRefs(envRefs map[string]string) ApplyOptFn { return func(o *ApplyOpt) { o.EnvRefs = envRefs } } // ApplyWithTemplate provides a template to the application/dry run. func ApplyWithTemplate(template *Template) ApplyOptFn { return func(opt *ApplyOpt) { opt.Templates = append(opt.Templates, template) } } // ApplyWithResourceSkip provides an action skip a resource in the application of a template. func ApplyWithResourceSkip(action ActionSkipResource) ApplyOptFn { return func(opt *ApplyOpt) { if opt.ResourcesToSkip == nil { opt.ResourcesToSkip = make(map[ActionSkipResource]bool) } switch action.Kind { case KindCheckDeadman, KindCheckThreshold: action.Kind = KindCheck case KindNotificationEndpointHTTP, KindNotificationEndpointPagerDuty, KindNotificationEndpointSlack: action.Kind = KindNotificationEndpoint } opt.ResourcesToSkip[action] = true } } // ApplyWithKindSkip provides an action skip a kidn in the application of a template. func ApplyWithKindSkip(action ActionSkipKind) ApplyOptFn { return func(opt *ApplyOpt) { if opt.KindsToSkip == nil { opt.KindsToSkip = make(map[Kind]bool) } switch action.Kind { case KindCheckDeadman, KindCheckThreshold: action.Kind = KindCheck case KindNotificationEndpointHTTP, KindNotificationEndpointPagerDuty, KindNotificationEndpointSlack: action.Kind = KindNotificationEndpoint } opt.KindsToSkip[action.Kind] = true } } // ApplyWithSecrets provides secrets to the platform that the template will need. func ApplyWithSecrets(secrets map[string]string) ApplyOptFn { return func(o *ApplyOpt) { o.MissingSecrets = secrets } } // ApplyWithStackID associates the application of a template with a stack. func ApplyWithStackID(stackID influxdb.ID) ApplyOptFn { return func(o *ApplyOpt) { o.StackID = stackID } } func applyOptFromOptFns(opts ...ApplyOptFn) ApplyOpt { var opt ApplyOpt for _, o := range opts { o(&opt) } return opt } // Apply will apply all the resources identified in the provided template. The entire template will be applied // in its entirety. If a failure happens midway then the entire template will be rolled back to the state // from before the template were applied. func (s *Service) Apply(ctx context.Context, orgID, userID influxdb.ID, opts ...ApplyOptFn) (impact ImpactSummary, e error) { opt := applyOptFromOptFns(opts...) template, err := s.templateFromApplyOpts(ctx, opt) if err != nil { return ImpactSummary{}, err } if err := template.Validate(ValidWithoutResources()); err != nil { return ImpactSummary{}, failedValidationErr(err) } if err := template.applyEnvRefs(opt.EnvRefs); err != nil { return ImpactSummary{}, failedValidationErr(err) } state, err := s.dryRun(ctx, orgID, template, opt) if err != nil { return ImpactSummary{}, err } stackID := opt.StackID // if stackID is not provided, a stack will be provided for the application. if stackID == 0 { newStack, err := s.InitStack(ctx, userID, StackCreate{OrgID: orgID}) if err != nil { return ImpactSummary{}, err } stackID = newStack.ID } defer func(stackID influxdb.ID) { updateStackFn := s.updateStackAfterSuccess if e != nil { updateStackFn = s.updateStackAfterRollback if opt.StackID == 0 { if err := s.store.DeleteStack(ctx, stackID); err != nil { s.log.Error("failed to delete created stack", zap.Error(err)) } } } err := updateStackFn(ctx, stackID, state, template.Sources()) if err != nil { s.log.Error("failed to update stack", zap.Error(err)) } }(stackID) coordinator := newRollbackCoordinator(s.log, s.applyReqLimit) defer coordinator.rollback(s.log, &e, orgID) err = s.applyState(ctx, coordinator, orgID, userID, state, opt.MissingSecrets) if err != nil { return ImpactSummary{}, err } template.applySecrets(opt.MissingSecrets) return ImpactSummary{ Sources: template.sources, StackID: stackID, Diff: state.diff(), Summary: newSummaryFromStateTemplate(state, template), }, nil } func (s *Service) applyState(ctx context.Context, coordinator *rollbackCoordinator, orgID, userID influxdb.ID, state *stateCoordinator, missingSecrets map[string]string) (e error) { endpointApp, ruleApp, err := s.applyNotificationGenerator(ctx, userID, state.rules(), state.endpoints()) if err != nil { return ierrors.Wrap(err, "failed to setup notification generator") } // each grouping here runs for its entirety, then returns an error that // is indicative of running all appliers provided. For instance, the labels // may have 1 variable fail and one of the buckets fails. The errors aggregate so // the caller will be informed of both the failed label variable the failed bucket. // the groupings here allow for steps to occur before exiting. The first step is // adding the dependencies, resources that are associated by other resources. Then the // primary resources. Here we get all the errors associated with them. // If those are all good, then we run the secondary(dependent) resources which // rely on the primary resources having been created. appliers := [][]applier{ { // adds secrets that are referenced it the template, this allows user to // provide data that does not rest in the template. s.applySecrets(missingSecrets), }, { // deps for primary resources s.applyLabels(ctx, state.labels()), }, { // primary resources, can have relationships to labels s.applyVariables(ctx, state.variables()), s.applyBuckets(ctx, state.buckets()), s.applyChecks(ctx, state.checks()), s.applyDashboards(ctx, state.dashboards()), endpointApp, s.applyTasks(ctx, state.tasks()), s.applyTelegrafs(ctx, userID, state.telegrafConfigs()), }, } for _, group := range appliers { if err := coordinator.runTilEnd(ctx, orgID, userID, group...); err != nil { return internalErr(err) } } // this has to be run after the above primary resources, because it relies on // notification endpoints already being applied. if err := coordinator.runTilEnd(ctx, orgID, userID, ruleApp); err != nil { return err } // secondary resources // this last grouping relies on the above 2 steps having completely successfully secondary := []applier{ s.applyLabelMappings(ctx, state.labelMappings), s.removeLabelMappings(ctx, state.labelMappingsToRemove), } if err := coordinator.runTilEnd(ctx, orgID, userID, secondary...); err != nil { return internalErr(err) } return nil } func (s *Service) applyBuckets(ctx context.Context, buckets []*stateBucket) applier { const resource = "bucket" mutex := new(doMutex) rollbackBuckets := make([]*stateBucket, 0, len(buckets)) createFn := func(ctx context.Context, i int, orgID, userID influxdb.ID) *applyErrBody { var b *stateBucket mutex.Do(func() { buckets[i].orgID = orgID b = buckets[i] }) if !b.shouldApply() { return nil } influxBucket, err := s.applyBucket(ctx, b) if err != nil { return &applyErrBody{ name: b.parserBkt.MetaName(), msg: err.Error(), } } mutex.Do(func() { buckets[i].id = influxBucket.ID rollbackBuckets = append(rollbackBuckets, buckets[i]) }) return nil } return applier{ creater: creater{ entries: len(buckets), fn: createFn, }, rollbacker: rollbacker{ resource: resource, fn: func(_ influxdb.ID) error { return s.rollbackBuckets(ctx, rollbackBuckets) }, }, } } func (s *Service) rollbackBuckets(ctx context.Context, buckets []*stateBucket) error { rollbackFn := func(b *stateBucket) error { if !IsNew(b.stateStatus) && b.existing == nil || isSystemBucket(b.existing) { return nil } var err error switch { case IsRemoval(b.stateStatus): err = ierrors.Wrap(s.bucketSVC.CreateBucket(ctx, b.existing), "rolling back removed bucket") case IsExisting(b.stateStatus): _, err = s.bucketSVC.UpdateBucket(ctx, b.ID(), influxdb.BucketUpdate{ Description: &b.existing.Description, RetentionPeriod: &b.existing.RetentionPeriod, }) err = ierrors.Wrap(err, "rolling back existing bucket to previous state") default: err = ierrors.Wrap(s.bucketSVC.DeleteBucket(ctx, b.ID()), "rolling back new bucket") } return err } var errs []string for _, b := range buckets { if err := rollbackFn(b); err != nil { errs = append(errs, fmt.Sprintf("error for bucket[%q]: %s", b.ID(), err)) } } if len(errs) > 0 { // TODO: fixup error return errors.New(strings.Join(errs, ", ")) } return nil } func (s *Service) applyBucket(ctx context.Context, b *stateBucket) (influxdb.Bucket, error) { if isSystemBucket(b.existing) { return *b.existing, nil } switch { case IsRemoval(b.stateStatus): if err := s.bucketSVC.DeleteBucket(ctx, b.ID()); err != nil { if influxdb.ErrorCode(err) == influxdb.ENotFound { return influxdb.Bucket{}, nil } return influxdb.Bucket{}, applyFailErr("delete", b.stateIdentity(), err) } return *b.existing, nil case IsExisting(b.stateStatus) && b.existing != nil: rp := b.parserBkt.RetentionRules.RP() newName := b.parserBkt.Name() influxBucket, err := s.bucketSVC.UpdateBucket(ctx, b.ID(), influxdb.BucketUpdate{ Description: &b.parserBkt.Description, Name: &newName, RetentionPeriod: &rp, }) if err != nil { return influxdb.Bucket{}, applyFailErr("update", b.stateIdentity(), err) } return *influxBucket, nil default: rp := b.parserBkt.RetentionRules.RP() influxBucket := influxdb.Bucket{ OrgID: b.orgID, Description: b.parserBkt.Description, Name: b.parserBkt.Name(), RetentionPeriod: rp, } err := s.bucketSVC.CreateBucket(ctx, &influxBucket) if err != nil { return influxdb.Bucket{}, applyFailErr("create", b.stateIdentity(), err) } return influxBucket, nil } } func (s *Service) applyChecks(ctx context.Context, checks []*stateCheck) applier { const resource = "check" mutex := new(doMutex) rollbackChecks := make([]*stateCheck, 0, len(checks)) createFn := func(ctx context.Context, i int, orgID, userID influxdb.ID) *applyErrBody { var c *stateCheck mutex.Do(func() { checks[i].orgID = orgID c = checks[i] }) influxCheck, err := s.applyCheck(ctx, c, userID) if err != nil { return &applyErrBody{ name: c.parserCheck.MetaName(), msg: err.Error(), } } mutex.Do(func() { checks[i].id = influxCheck.GetID() rollbackChecks = append(rollbackChecks, checks[i]) }) return nil } return applier{ creater: creater{ entries: len(checks), fn: createFn, }, rollbacker: rollbacker{ resource: resource, fn: func(_ influxdb.ID) error { return s.rollbackChecks(ctx, rollbackChecks) }, }, } } func (s *Service) rollbackChecks(ctx context.Context, checks []*stateCheck) error { rollbackFn := func(c *stateCheck) error { var err error switch { case IsRemoval(c.stateStatus): err = s.checkSVC.CreateCheck( ctx, influxdb.CheckCreate{ Check: c.existing, Status: c.parserCheck.Status(), }, c.existing.GetOwnerID(), ) c.id = c.existing.GetID() case IsExisting(c.stateStatus): if c.existing == nil { return nil } _, err = s.checkSVC.UpdateCheck(ctx, c.ID(), influxdb.CheckCreate{ Check: c.summarize().Check, Status: influxdb.Status(c.parserCheck.status), }) default: err = s.checkSVC.DeleteCheck(ctx, c.ID()) } return err } var errs []string for _, c := range checks { if err := rollbackFn(c); err != nil { errs = append(errs, fmt.Sprintf("error for check[%q]: %s", c.ID(), err)) } } if len(errs) > 0 { return errors.New(strings.Join(errs, "; ")) } return nil } func (s *Service) applyCheck(ctx context.Context, c *stateCheck, userID influxdb.ID) (influxdb.Check, error) { switch { case IsRemoval(c.stateStatus): if err := s.checkSVC.DeleteCheck(ctx, c.ID()); err != nil { if influxdb.ErrorCode(err) == influxdb.ENotFound { return &icheck.Threshold{Base: icheck.Base{ID: c.ID()}}, nil } return nil, applyFailErr("delete", c.stateIdentity(), err) } return c.existing, nil case IsExisting(c.stateStatus) && c.existing != nil: influxCheck, err := s.checkSVC.UpdateCheck(ctx, c.ID(), influxdb.CheckCreate{ Check: c.summarize().Check, Status: c.parserCheck.Status(), }) if err != nil { return nil, applyFailErr("update", c.stateIdentity(), err) } return influxCheck, nil default: checkStub := influxdb.CheckCreate{ Check: c.summarize().Check, Status: c.parserCheck.Status(), } err := s.checkSVC.CreateCheck(ctx, checkStub, userID) if err != nil { return nil, applyFailErr("create", c.stateIdentity(), err) } return checkStub.Check, nil } } func (s *Service) applyDashboards(ctx context.Context, dashboards []*stateDashboard) applier { const resource = "dashboard" mutex := new(doMutex) rollbackDashboards := make([]*stateDashboard, 0, len(dashboards)) createFn := func(ctx context.Context, i int, orgID, userID influxdb.ID) *applyErrBody { var d *stateDashboard mutex.Do(func() { dashboards[i].orgID = orgID d = dashboards[i] }) influxBucket, err := s.applyDashboard(ctx, d) if err != nil { return &applyErrBody{ name: d.parserDash.MetaName(), msg: err.Error(), } } mutex.Do(func() { dashboards[i].id = influxBucket.ID rollbackDashboards = append(rollbackDashboards, dashboards[i]) }) return nil } return applier{ creater: creater{ entries: len(dashboards), fn: createFn, }, rollbacker: rollbacker{ resource: resource, fn: func(_ influxdb.ID) error { return s.rollbackDashboards(ctx, rollbackDashboards) }, }, } } func (s *Service) applyDashboard(ctx context.Context, d *stateDashboard) (influxdb.Dashboard, error) { switch { case IsRemoval(d.stateStatus): if err := s.dashSVC.DeleteDashboard(ctx, d.ID()); err != nil { if influxdb.ErrorCode(err) == influxdb.ENotFound { return influxdb.Dashboard{}, nil } return influxdb.Dashboard{}, applyFailErr("delete", d.stateIdentity(), err) } return *d.existing, nil case IsExisting(d.stateStatus) && d.existing != nil: name := d.parserDash.Name() cells := convertChartsToCells(d.parserDash.Charts) dash, err := s.dashSVC.UpdateDashboard(ctx, d.ID(), influxdb.DashboardUpdate{ Name: &name, Description: &d.parserDash.Description, Cells: &cells, }) if err != nil { return influxdb.Dashboard{}, applyFailErr("update", d.stateIdentity(), err) } return *dash, nil default: cells := convertChartsToCells(d.parserDash.Charts) influxDashboard := influxdb.Dashboard{ OrganizationID: d.orgID, Description: d.parserDash.Description, Name: d.parserDash.Name(), Cells: cells, } err := s.dashSVC.CreateDashboard(ctx, &influxDashboard) if err != nil { return influxdb.Dashboard{}, applyFailErr("create", d.stateIdentity(), err) } return influxDashboard, nil } } func (s *Service) rollbackDashboards(ctx context.Context, dashs []*stateDashboard) error { rollbackFn := func(d *stateDashboard) error { if !IsNew(d.stateStatus) && d.existing == nil { return nil } var err error switch { case IsRemoval(d.stateStatus): err = ierrors.Wrap(s.dashSVC.CreateDashboard(ctx, d.existing), "rolling back removed dashboard") case IsExisting(d.stateStatus): _, err := s.dashSVC.UpdateDashboard(ctx, d.ID(), influxdb.DashboardUpdate{ Name: &d.existing.Name, Description: &d.existing.Description, Cells: &d.existing.Cells, }) return ierrors.Wrap(err, "failed to update dashboard") default: err = ierrors.Wrap(s.dashSVC.DeleteDashboard(ctx, d.ID()), "rolling back new dashboard") } return err } var errs []string for _, d := range dashs { if err := rollbackFn(d); err != nil { errs = append(errs, fmt.Sprintf("error for dashboard[%q]: %s", d.ID(), err)) } } if len(errs) > 0 { // TODO: fixup error return errors.New(strings.Join(errs, ", ")) } return nil } func convertChartsToCells(ch []chart) []*influxdb.Cell { icells := make([]*influxdb.Cell, 0, len(ch)) for _, c := range ch { icell := &influxdb.Cell{ CellProperty: influxdb.CellProperty{ X: int32(c.XPos), Y: int32(c.YPos), H: int32(c.Height), W: int32(c.Width), }, View: &influxdb.View{ ViewContents: influxdb.ViewContents{Name: c.Name}, Properties: c.properties(), }, } icells = append(icells, icell) } return icells } func (s *Service) applyLabels(ctx context.Context, labels []*stateLabel) applier { const resource = "label" mutex := new(doMutex) rollBackLabels := make([]*stateLabel, 0, len(labels)) createFn := func(ctx context.Context, i int, orgID, userID influxdb.ID) *applyErrBody { var l *stateLabel mutex.Do(func() { labels[i].orgID = orgID l = labels[i] }) if !l.shouldApply() { return nil } influxLabel, err := s.applyLabel(ctx, l) if err != nil { return &applyErrBody{ name: l.parserLabel.MetaName(), msg: err.Error(), } } mutex.Do(func() { labels[i].id = influxLabel.ID rollBackLabels = append(rollBackLabels, labels[i]) }) return nil } return applier{ creater: creater{ entries: len(labels), fn: createFn, }, rollbacker: rollbacker{ resource: resource, fn: func(_ influxdb.ID) error { return s.rollbackLabels(ctx, rollBackLabels) }, }, } } func (s *Service) rollbackLabels(ctx context.Context, labels []*stateLabel) error { rollbackFn := func(l *stateLabel) error { if !IsNew(l.stateStatus) && l.existing == nil { return nil } var err error switch { case IsRemoval(l.stateStatus): err = s.labelSVC.CreateLabel(ctx, l.existing) case IsExisting(l.stateStatus): _, err = s.labelSVC.UpdateLabel(ctx, l.ID(), influxdb.LabelUpdate{ Name: l.parserLabel.Name(), Properties: l.existing.Properties, }) default: err = s.labelSVC.DeleteLabel(ctx, l.ID()) } return err } var errs []string for _, l := range labels { if err := rollbackFn(l); err != nil { errs = append(errs, fmt.Sprintf("error for label[%q]: %s", l.ID(), err)) } } if len(errs) > 0 { return errors.New(strings.Join(errs, ", ")) } return nil } func (s *Service) applyLabel(ctx context.Context, l *stateLabel) (influxdb.Label, error) { var ( influxLabel *influxdb.Label err error ) switch { case IsRemoval(l.stateStatus): influxLabel, err = l.existing, s.labelSVC.DeleteLabel(ctx, l.ID()) case IsExisting(l.stateStatus) && l.existing != nil: influxLabel, err = s.labelSVC.UpdateLabel(ctx, l.ID(), influxdb.LabelUpdate{ Name: l.parserLabel.Name(), Properties: l.properties(), }) err = ierrors.Wrap(err, "updating") default: creatLabel := l.toInfluxLabel() influxLabel = &creatLabel err = ierrors.Wrap(s.labelSVC.CreateLabel(ctx, &creatLabel), "creating") } if influxdb.ErrorCode(err) == influxdb.ENotFound { return influxdb.Label{}, nil } if err != nil || influxLabel == nil { return influxdb.Label{}, err } return *influxLabel, nil } func (s *Service) applyNotificationEndpoints(ctx context.Context, userID influxdb.ID, endpoints []*stateEndpoint) (applier, func(influxdb.ID) error) { mutex := new(doMutex) rollbackEndpoints := make([]*stateEndpoint, 0, len(endpoints)) createFn := func(ctx context.Context, i int, orgID, userID influxdb.ID) *applyErrBody { var endpoint *stateEndpoint mutex.Do(func() { endpoints[i].orgID = orgID endpoint = endpoints[i] }) influxEndpoint, err := s.applyNotificationEndpoint(ctx, endpoint, userID) if err != nil { return &applyErrBody{ name: endpoint.parserEndpoint.MetaName(), msg: err.Error(), } } mutex.Do(func() { if influxEndpoint != nil { endpoints[i].id = influxEndpoint.GetID() for _, secret := range influxEndpoint.SecretFields() { switch { case strings.HasSuffix(secret.Key, "-routing-key"): if endpoints[i].parserEndpoint.routingKey == nil { endpoints[i].parserEndpoint.routingKey = new(references) } endpoints[i].parserEndpoint.routingKey.Secret = secret.Key case strings.HasSuffix(secret.Key, "-token"): if endpoints[i].parserEndpoint.token == nil { endpoints[i].parserEndpoint.token = new(references) } endpoints[i].parserEndpoint.token.Secret = secret.Key case strings.HasSuffix(secret.Key, "-username"): if endpoints[i].parserEndpoint.username == nil { endpoints[i].parserEndpoint.username = new(references) } endpoints[i].parserEndpoint.username.Secret = secret.Key case strings.HasSuffix(secret.Key, "-password"): if endpoints[i].parserEndpoint.password == nil { endpoints[i].parserEndpoint.password = new(references) } endpoints[i].parserEndpoint.password.Secret = secret.Key } } } rollbackEndpoints = append(rollbackEndpoints, endpoints[i]) }) return nil } rollbackFn := func(_ influxdb.ID) error { return s.rollbackNotificationEndpoints(ctx, userID, rollbackEndpoints) } return applier{ creater: creater{ entries: len(endpoints), fn: createFn, }, rollbacker: rollbacker{ fn: func(_ influxdb.ID) error { return nil }, }, }, rollbackFn } func (s *Service) applyNotificationEndpoint(ctx context.Context, e *stateEndpoint, userID influxdb.ID) (influxdb.NotificationEndpoint, error) { switch { case IsRemoval(e.stateStatus): _, _, err := s.endpointSVC.DeleteNotificationEndpoint(ctx, e.ID()) if err != nil && influxdb.ErrorCode(err) != influxdb.ENotFound { return nil, applyFailErr("delete", e.stateIdentity(), err) } return e.existing, nil case IsExisting(e.stateStatus) && e.existing != nil: // stub out userID since we're always using hte http client which will fill it in for us with the token // feels a bit broken that is required. // TODO: look into this userID requirement end, err := s.endpointSVC.UpdateNotificationEndpoint( ctx, e.ID(), e.summarize().NotificationEndpoint, userID, ) return end, applyFailErr("update", e.stateIdentity(), err) default: actual := e.summarize().NotificationEndpoint err := s.endpointSVC.CreateNotificationEndpoint(ctx, actual, userID) if err != nil { return nil, applyFailErr("create", e.stateIdentity(), err) } return actual, nil } } func (s *Service) rollbackNotificationEndpoints(ctx context.Context, userID influxdb.ID, endpoints []*stateEndpoint) error { rollbackFn := func(e *stateEndpoint) error { if !IsNew(e.stateStatus) && e.existing == nil { return nil } var err error switch e.stateStatus { case StateStatusRemove: err = s.endpointSVC.CreateNotificationEndpoint(ctx, e.existing, userID) err = ierrors.Wrap(err, "failed to rollback removed endpoint") case StateStatusExists: _, err = s.endpointSVC.UpdateNotificationEndpoint(ctx, e.ID(), e.existing, userID) err = ierrors.Wrap(err, "failed to rollback updated endpoint") default: _, _, err = s.endpointSVC.DeleteNotificationEndpoint(ctx, e.ID()) err = ierrors.Wrap(err, "failed to rollback created endpoint") } return err } var errs []string for _, e := range endpoints { if err := rollbackFn(e); err != nil { errs = append(errs, fmt.Sprintf("error for notification endpoint[%q]: %s", e.ID(), err)) } } if len(errs) > 0 { return errors.New(strings.Join(errs, "; ")) } return nil } func (s *Service) applyNotificationGenerator(ctx context.Context, userID influxdb.ID, rules []*stateRule, stateEndpoints []*stateEndpoint) (endpointApplier applier, ruleApplier applier, err error) { mEndpoints := make(map[string]*stateEndpoint) for _, e := range stateEndpoints { mEndpoints[e.parserEndpoint.MetaName()] = e } var errs applyErrs for _, r := range rules { if IsRemoval(r.stateStatus) { continue } v, ok := mEndpoints[r.endpointTemplateName()] if !ok { errs = append(errs, &applyErrBody{ name: r.parserRule.MetaName(), msg: fmt.Sprintf("notification rule endpoint dependency does not exist; endpointName=%q", r.parserRule.associatedEndpoint.MetaName()), }) continue } r.associatedEndpoint = v } err = errs.toError("notification_rules", "failed to find dependency") if err != nil { return applier{}, applier{}, err } endpointApp, endpointRollbackFn := s.applyNotificationEndpoints(ctx, userID, stateEndpoints) ruleApp, ruleRollbackFn := s.applyNotificationRules(ctx, userID, rules) // here we have to couple the endpoints to rules b/c of the dependency here when rolling back // a deleted endpoint and rule. This forces the endpoints to be rolled back first so the // reference for the rule has settled. The dependency has to be available before rolling back // notification rules. endpointApp.rollbacker = rollbacker{ fn: func(orgID influxdb.ID) error { if err := endpointRollbackFn(orgID); err != nil { s.log.Error("failed to roll back endpoints", zap.Error(err)) } return ruleRollbackFn(orgID) }, } return endpointApp, ruleApp, nil } func (s *Service) applyNotificationRules(ctx context.Context, userID influxdb.ID, rules []*stateRule) (applier, func(influxdb.ID) error) { mutex := new(doMutex) rollbackEndpoints := make([]*stateRule, 0, len(rules)) createFn := func(ctx context.Context, i int, orgID, userID influxdb.ID) *applyErrBody { var rule *stateRule mutex.Do(func() { rules[i].orgID = orgID rule = rules[i] }) influxRule, err := s.applyNotificationRule(ctx, rule, userID) if err != nil { return &applyErrBody{ name: rule.parserRule.MetaName(), msg: err.Error(), } } mutex.Do(func() { if influxRule != nil { rules[i].id = influxRule.GetID() } rollbackEndpoints = append(rollbackEndpoints, rules[i]) }) return nil } rollbackFn := func(_ influxdb.ID) error { return s.rollbackNotificationRules(ctx, userID, rollbackEndpoints) } return applier{ creater: creater{ entries: len(rules), fn: createFn, }, rollbacker: rollbacker{ fn: func(_ influxdb.ID) error { return nil }, }, }, rollbackFn } func (s *Service) applyNotificationRule(ctx context.Context, r *stateRule, userID influxdb.ID) (influxdb.NotificationRule, error) { switch { case IsRemoval(r.stateStatus): if err := s.ruleSVC.DeleteNotificationRule(ctx, r.ID()); err != nil { if influxdb.ErrorCode(err) == influxdb.ENotFound { return nil, nil } return nil, applyFailErr("delete", r.stateIdentity(), err) } return r.existing, nil case IsExisting(r.stateStatus) && r.existing != nil: ruleCreate := influxdb.NotificationRuleCreate{ NotificationRule: r.toInfluxRule(), Status: r.parserRule.Status(), } influxRule, err := s.ruleSVC.UpdateNotificationRule(ctx, r.ID(), ruleCreate, userID) if err != nil { return nil, applyFailErr("update", r.stateIdentity(), err) } return influxRule, nil default: influxRule := influxdb.NotificationRuleCreate{ NotificationRule: r.toInfluxRule(), Status: r.parserRule.Status(), } err := s.ruleSVC.CreateNotificationRule(ctx, influxRule, userID) if err != nil { return nil, applyFailErr("create", r.stateIdentity(), err) } return influxRule.NotificationRule, nil } } func (s *Service) rollbackNotificationRules(ctx context.Context, userID influxdb.ID, rules []*stateRule) error { rollbackFn := func(r *stateRule) error { if !IsNew(r.stateStatus) && r.existing == nil { return nil } existingRuleFn := func(endpointID influxdb.ID) influxdb.NotificationRule { switch rr := r.existing.(type) { case *rule.HTTP: rr.EndpointID = endpointID case *rule.PagerDuty: rr.EndpointID = endpointID case *rule.Slack: rr.EndpointID = endpointID } return r.existing } // setting status to unknown b/c these resources for two reasons: // 1. we have no ability to find status via the Service, only to set it... // 2. we have no way of inspecting an existing rule and pulling status from it // 3. since this is a fallback condition, we set things to inactive as a user // is likely to follow up this failure by fixing their template up then reapplying unknownStatus := influxdb.Inactive var err error switch r.stateStatus { case StateStatusRemove: if r.associatedEndpoint == nil { return internalErr(errors.New("failed to find endpoint dependency to rollback existing notification rule")) } influxRule := influxdb.NotificationRuleCreate{ NotificationRule: existingRuleFn(r.endpointID()), Status: unknownStatus, } err = s.ruleSVC.CreateNotificationRule(ctx, influxRule, userID) err = ierrors.Wrap(err, "failed to rollback created notification rule") case StateStatusExists: if r.associatedEndpoint == nil { return internalErr(errors.New("failed to find endpoint dependency to rollback existing notification rule")) } influxRule := influxdb.NotificationRuleCreate{ NotificationRule: existingRuleFn(r.endpointID()), Status: unknownStatus, } _, err = s.ruleSVC.UpdateNotificationRule(ctx, r.ID(), influxRule, r.existing.GetOwnerID()) err = ierrors.Wrap(err, "failed to rollback updated notification rule") default: err = s.ruleSVC.DeleteNotificationRule(ctx, r.ID()) err = ierrors.Wrap(err, "failed to rollback created notification rule") } return err } var errs []string for _, r := range rules { if err := rollbackFn(r); err != nil { errs = append(errs, fmt.Sprintf("error for notification rule[%q]: %s", r.ID(), err)) } } if len(errs) > 0 { return errors.New(strings.Join(errs, "; ")) } return nil } func (s *Service) applySecrets(secrets map[string]string) applier { const resource = "secrets" if len(secrets) == 0 { return applier{ rollbacker: rollbacker{fn: func(orgID influxdb.ID) error { return nil }}, } } mutex := new(doMutex) rollbackSecrets := make([]string, 0) createFn := func(ctx context.Context, i int, orgID, userID influxdb.ID) *applyErrBody { err := s.secretSVC.PutSecrets(ctx, orgID, secrets) if err != nil { return &applyErrBody{name: "secrets", msg: err.Error()} } mutex.Do(func() { for key := range secrets { rollbackSecrets = append(rollbackSecrets, key) } }) return nil } return applier{ creater: creater{ entries: 1, fn: createFn, }, rollbacker: rollbacker{ resource: resource, fn: func(orgID influxdb.ID) error { return s.secretSVC.DeleteSecret(context.Background(), orgID) }, }, } } func (s *Service) applyTasks(ctx context.Context, tasks []*stateTask) applier { const resource = "tasks" mutex := new(doMutex) rollbackTasks := make([]*stateTask, 0, len(tasks)) createFn := func(ctx context.Context, i int, orgID, userID influxdb.ID) *applyErrBody { var t *stateTask mutex.Do(func() { tasks[i].orgID = orgID t = tasks[i] }) newTask, err := s.applyTask(ctx, userID, t) if err != nil { return &applyErrBody{ name: t.parserTask.MetaName(), msg: err.Error(), } } mutex.Do(func() { tasks[i].id = newTask.ID rollbackTasks = append(rollbackTasks, tasks[i]) }) return nil } return applier{ creater: creater{ entries: len(tasks), fn: createFn, }, rollbacker: rollbacker{ resource: resource, fn: func(_ influxdb.ID) error { return s.rollbackTasks(ctx, rollbackTasks) }, }, } } func (s *Service) applyTask(ctx context.Context, userID influxdb.ID, t *stateTask) (influxdb.Task, error) { if isRestrictedTask(t.existing) { return *t.existing, nil } switch { case IsRemoval(t.stateStatus): if err := s.taskSVC.DeleteTask(ctx, t.ID()); err != nil { if influxdb.ErrorCode(err) == influxdb.ENotFound { return influxdb.Task{}, nil } return influxdb.Task{}, applyFailErr("delete", t.stateIdentity(), err) } return *t.existing, nil case IsExisting(t.stateStatus) && t.existing != nil: newFlux := t.parserTask.flux() newStatus := string(t.parserTask.Status()) opt := options.Options{ Name: t.parserTask.Name(), Cron: t.parserTask.cron, } if every := t.parserTask.every; every > 0 { opt.Every.Parse(every.String()) } if offset := t.parserTask.offset; offset > 0 { var off options.Duration if err := off.Parse(offset.String()); err == nil { opt.Offset = &off } } updatedTask, err := s.taskSVC.UpdateTask(ctx, t.ID(), influxdb.TaskUpdate{ Flux: &newFlux, Status: &newStatus, Description: &t.parserTask.description, Options: opt, }) if err != nil { return influxdb.Task{}, applyFailErr("update", t.stateIdentity(), err) } return *updatedTask, nil default: newTask, err := s.taskSVC.CreateTask(ctx, influxdb.TaskCreate{ Type: influxdb.TaskSystemType, Flux: t.parserTask.flux(), OwnerID: userID, Description: t.parserTask.description, Status: string(t.parserTask.Status()), OrganizationID: t.orgID, }) if err != nil { return influxdb.Task{}, applyFailErr("create", t.stateIdentity(), err) } return *newTask, nil } } func (s *Service) rollbackTasks(ctx context.Context, tasks []*stateTask) error { rollbackFn := func(t *stateTask) error { if !IsNew(t.stateStatus) && t.existing == nil || isRestrictedTask(t.existing) { return nil } var err error switch t.stateStatus { case StateStatusRemove: newTask, err := s.taskSVC.CreateTask(ctx, influxdb.TaskCreate{ Type: t.existing.Type, Flux: t.existing.Flux, OwnerID: t.existing.OwnerID, Description: t.existing.Description, Status: t.existing.Status, OrganizationID: t.orgID, Metadata: t.existing.Metadata, }) if err != nil { return ierrors.Wrap(err, "failed to rollback removed task") } t.existing = newTask case StateStatusExists: opt := options.Options{ Name: t.existing.Name, Cron: t.existing.Cron, } if every := t.existing.Every; every != "" { opt.Every.Parse(every) } if offset := t.existing.Offset; offset > 0 { var off options.Duration if err := off.Parse(offset.String()); err == nil { opt.Offset = &off } } _, err = s.taskSVC.UpdateTask(ctx, t.ID(), influxdb.TaskUpdate{ Flux: &t.existing.Flux, Status: &t.existing.Status, Description: &t.existing.Description, Metadata: t.existing.Metadata, Options: opt, }) err = ierrors.Wrap(err, "failed to rollback updated task") default: err = s.taskSVC.DeleteTask(ctx, t.ID()) err = ierrors.Wrap(err, "failed to rollback created task") } return err } var errs []string for _, d := range tasks { if err := rollbackFn(d); err != nil { errs = append(errs, fmt.Sprintf("error for task[%q]: %s", d.ID(), err)) } } if len(errs) > 0 { // TODO: fixup error return errors.New(strings.Join(errs, ", ")) } return nil } func (s *Service) applyTelegrafs(ctx context.Context, userID influxdb.ID, teles []*stateTelegraf) applier { const resource = "telegrafs" mutex := new(doMutex) rollbackTelegrafs := make([]*stateTelegraf, 0, len(teles)) createFn := func(ctx context.Context, i int, orgID, userID influxdb.ID) *applyErrBody { var t *stateTelegraf mutex.Do(func() { teles[i].orgID = orgID t = teles[i] }) existing, err := s.applyTelegrafConfig(ctx, userID, t) if err != nil { return &applyErrBody{ name: t.parserTelegraf.MetaName(), msg: err.Error(), } } mutex.Do(func() { teles[i].id = existing.ID rollbackTelegrafs = append(rollbackTelegrafs, teles[i]) }) return nil } return applier{ creater: creater{ entries: len(teles), fn: createFn, }, rollbacker: rollbacker{ resource: resource, fn: func(_ influxdb.ID) error { return s.rollbackTelegrafConfigs(ctx, userID, rollbackTelegrafs) }, }, } } func (s *Service) applyTelegrafConfig(ctx context.Context, userID influxdb.ID, t *stateTelegraf) (influxdb.TelegrafConfig, error) { switch { case IsRemoval(t.stateStatus): if err := s.teleSVC.DeleteTelegrafConfig(ctx, t.ID()); err != nil { if influxdb.ErrorCode(err) == influxdb.ENotFound { return influxdb.TelegrafConfig{}, nil } return influxdb.TelegrafConfig{}, applyFailErr("delete", t.stateIdentity(), err) } return *t.existing, nil case IsExisting(t.stateStatus) && t.existing != nil: cfg := t.summarize().TelegrafConfig updatedConfig, err := s.teleSVC.UpdateTelegrafConfig(ctx, t.ID(), &cfg, userID) if err != nil { return influxdb.TelegrafConfig{}, applyFailErr("update", t.stateIdentity(), err) } return *updatedConfig, nil default: cfg := t.summarize().TelegrafConfig err := s.teleSVC.CreateTelegrafConfig(ctx, &cfg, userID) if err != nil { return influxdb.TelegrafConfig{}, applyFailErr("create", t.stateIdentity(), err) } return cfg, nil } } func (s *Service) rollbackTelegrafConfigs(ctx context.Context, userID influxdb.ID, cfgs []*stateTelegraf) error { rollbackFn := func(t *stateTelegraf) error { if !IsNew(t.stateStatus) && t.existing == nil { return nil } var err error switch t.stateStatus { case StateStatusRemove: err = ierrors.Wrap(s.teleSVC.CreateTelegrafConfig(ctx, t.existing, userID), "rolling back removed telegraf config") case StateStatusExists: _, err = s.teleSVC.UpdateTelegrafConfig(ctx, t.ID(), t.existing, userID) err = ierrors.Wrap(err, "rolling back updated telegraf config") default: err = ierrors.Wrap(s.teleSVC.DeleteTelegrafConfig(ctx, t.ID()), "rolling back created telegraf config") } return err } var errs []string for _, v := range cfgs { if err := rollbackFn(v); err != nil { errs = append(errs, fmt.Sprintf("error for variable[%q]: %s", v.ID(), err)) } } if len(errs) > 0 { return errors.New(strings.Join(errs, "; ")) } return nil } func (s *Service) applyVariables(ctx context.Context, vars []*stateVariable) applier { const resource = "variable" mutex := new(doMutex) rollBackVars := make([]*stateVariable, 0, len(vars)) createFn := func(ctx context.Context, i int, orgID, userID influxdb.ID) *applyErrBody { var v *stateVariable mutex.Do(func() { vars[i].orgID = orgID v = vars[i] }) if !v.shouldApply() { return nil } influxVar, err := s.applyVariable(ctx, v) if err != nil { return &applyErrBody{ name: v.parserVar.MetaName(), msg: err.Error(), } } mutex.Do(func() { vars[i].id = influxVar.ID rollBackVars = append(rollBackVars, vars[i]) }) return nil } return applier{ creater: creater{ entries: len(vars), fn: createFn, }, rollbacker: rollbacker{ resource: resource, fn: func(_ influxdb.ID) error { return s.rollbackVariables(ctx, rollBackVars) }, }, } } func (s *Service) rollbackVariables(ctx context.Context, variables []*stateVariable) error { rollbackFn := func(v *stateVariable) error { var err error switch { case IsRemoval(v.stateStatus): if v.existing == nil { return nil } err = ierrors.Wrap(s.varSVC.CreateVariable(ctx, v.existing), "rolling back removed variable") case IsExisting(v.stateStatus): if v.existing == nil { return nil } _, err = s.varSVC.UpdateVariable(ctx, v.ID(), &influxdb.VariableUpdate{ Name: v.existing.Name, Description: v.existing.Description, Selected: v.existing.Selected, Arguments: v.existing.Arguments, }) err = ierrors.Wrap(err, "rolling back updated variable") default: err = ierrors.Wrap(s.varSVC.DeleteVariable(ctx, v.ID()), "rolling back created variable") } return err } var errs []string for _, v := range variables { if err := rollbackFn(v); err != nil { errs = append(errs, fmt.Sprintf("error for variable[%q]: %s", v.ID(), err)) } } if len(errs) > 0 { return errors.New(strings.Join(errs, "; ")) } return nil } func (s *Service) applyVariable(ctx context.Context, v *stateVariable) (influxdb.Variable, error) { switch { case IsRemoval(v.stateStatus): if err := s.varSVC.DeleteVariable(ctx, v.id); err != nil && influxdb.ErrorCode(err) != influxdb.ENotFound { return influxdb.Variable{}, applyFailErr("delete", v.stateIdentity(), err) } if v.existing == nil { return influxdb.Variable{}, nil } return *v.existing, nil case IsExisting(v.stateStatus) && v.existing != nil: updatedVar, err := s.varSVC.UpdateVariable(ctx, v.ID(), &influxdb.VariableUpdate{ Name: v.parserVar.Name(), Selected: v.parserVar.Selected(), Description: v.parserVar.Description, Arguments: v.parserVar.influxVarArgs(), }) if err != nil { return influxdb.Variable{}, applyFailErr("update", v.stateIdentity(), err) } return *updatedVar, nil default: // when an existing variable (referenced in stack) has been deleted by a user // then the resource is created anew to get it back to the expected state. influxVar := influxdb.Variable{ OrganizationID: v.orgID, Name: v.parserVar.Name(), Selected: v.parserVar.Selected(), Description: v.parserVar.Description, Arguments: v.parserVar.influxVarArgs(), } err := s.varSVC.CreateVariable(ctx, &influxVar) if err != nil { return influxdb.Variable{}, applyFailErr("create", v.stateIdentity(), err) } return influxVar, nil } } func (s *Service) removeLabelMappings(ctx context.Context, labelMappings []stateLabelMappingForRemoval) applier { const resource = "removed_label_mapping" var rollbackMappings []stateLabelMappingForRemoval mutex := new(doMutex) createFn := func(ctx context.Context, i int, orgID, userID influxdb.ID) *applyErrBody { var mapping stateLabelMappingForRemoval mutex.Do(func() { mapping = labelMappings[i] }) err := s.labelSVC.DeleteLabelMapping(ctx, &influxdb.LabelMapping{ LabelID: mapping.LabelID, ResourceID: mapping.ResourceID, ResourceType: mapping.ResourceType, }) if err != nil && influxdb.ErrorCode(err) != influxdb.ENotFound { return &applyErrBody{ name: fmt.Sprintf("%s:%s:%s", mapping.ResourceType, mapping.ResourceID, mapping.LabelID), msg: err.Error(), } } mutex.Do(func() { rollbackMappings = append(rollbackMappings, mapping) }) return nil } return applier{ creater: creater{ entries: len(labelMappings), fn: createFn, }, rollbacker: rollbacker{ resource: resource, fn: func(_ influxdb.ID) error { return s.rollbackRemoveLabelMappings(ctx, rollbackMappings) }, }, } } func (s *Service) rollbackRemoveLabelMappings(ctx context.Context, mappings []stateLabelMappingForRemoval) error { var errs []string for _, m := range mappings { err := s.labelSVC.CreateLabelMapping(ctx, &influxdb.LabelMapping{ LabelID: m.LabelID, ResourceID: m.ResourceID, ResourceType: m.ResourceType, }) if err != nil { errs = append(errs, fmt.Sprintf( "error for label mapping: resource_type=%s resource_id=%s label_id=%s err=%s", m.ResourceType, m.ResourceID, m.LabelID, err, )) } } if len(errs) > 0 { return errors.New(strings.Join(errs, "; ")) } return nil } func (s *Service) applyLabelMappings(ctx context.Context, labelMappings []stateLabelMapping) applier { const resource = "label_mapping" mutex := new(doMutex) rollbackMappings := make([]stateLabelMapping, 0, len(labelMappings)) createFn := func(ctx context.Context, i int, orgID, userID influxdb.ID) *applyErrBody { var mapping stateLabelMapping mutex.Do(func() { mapping = labelMappings[i] }) ident := mapping.resource.stateIdentity() if IsExisting(mapping.status) || mapping.label.ID() == 0 || ident.id == 0 { // this block here does 2 things, it does not write a // mapping when one exists. it also avoids having to worry // about deleting an existing mapping since it will not be // passed to the delete function below b/c it is never added // to the list of mappings that is referenced in the delete // call. return nil } m := influxdb.LabelMapping{ LabelID: mapping.label.ID(), ResourceID: ident.id, ResourceType: ident.resourceType, } err := s.labelSVC.CreateLabelMapping(ctx, &m) if err != nil { return &applyErrBody{ name: fmt.Sprintf("%s:%s:%s", ident.resourceType, ident.id, mapping.label.ID()), msg: err.Error(), } } mutex.Do(func() { rollbackMappings = append(rollbackMappings, mapping) }) return nil } return applier{ creater: creater{ entries: len(labelMappings), fn: createFn, }, rollbacker: rollbacker{ resource: resource, fn: func(_ influxdb.ID) error { return s.rollbackLabelMappings(ctx, rollbackMappings) }, }, } } func (s *Service) rollbackLabelMappings(ctx context.Context, mappings []stateLabelMapping) error { var errs []string for _, stateMapping := range mappings { influxMapping := stateLabelMappingToInfluxLabelMapping(stateMapping) err := s.labelSVC.DeleteLabelMapping(ctx, &influxMapping) if err != nil { errs = append(errs, fmt.Sprintf("%s:%s", stateMapping.label.ID(), stateMapping.resource.stateIdentity().id)) } } if len(errs) > 0 { return fmt.Errorf(`label_resource_id_pairs=[%s] err="unable to delete label"`, strings.Join(errs, ", ")) } return nil } func (s *Service) templateFromApplyOpts(ctx context.Context, opt ApplyOpt) (*Template, error) { if opt.StackID != 0 { remotes, err := s.getStackRemoteTemplates(ctx, opt.StackID) if err != nil { return nil, err } opt.Templates = append(opt.Templates, remotes...) } return Combine(opt.Templates, ValidWithoutResources()) } func (s *Service) getStackRemoteTemplates(ctx context.Context, stackID influxdb.ID) ([]*Template, error) { stack, err := s.store.ReadStackByID(ctx, stackID) if err != nil { return nil, err } lastEvent := stack.LatestEvent() var remotes []*Template for _, rawURL := range lastEvent.TemplateURLs { u, err := url.Parse(rawURL) if err != nil { return nil, &influxdb.Error{ Code: influxdb.EInternal, Msg: "failed to parse url", Err: err, } } encoding := EncodingSource switch path.Ext(u.String()) { case ".jsonnet": encoding = EncodingJsonnet case ".json": encoding = EncodingJSON case ".yaml", ".yml": encoding = EncodingYAML } readerFn := FromHTTPRequest(u.String()) if u.Scheme == "file" { readerFn = FromFile(u.Path) } template, err := Parse(encoding, readerFn) if err != nil { return nil, err } remotes = append(remotes, template) } return remotes, nil } func (s *Service) updateStackAfterSuccess(ctx context.Context, stackID influxdb.ID, state *stateCoordinator, sources []string) error { stack, err := s.store.ReadStackByID(ctx, stackID) if err != nil { return err } var stackResources []StackResource for _, b := range state.mBuckets { if IsRemoval(b.stateStatus) || isSystemBucket(b.existing) { continue } stackResources = append(stackResources, StackResource{ APIVersion: APIVersion, ID: b.ID(), Kind: KindBucket, MetaName: b.parserBkt.MetaName(), Associations: stateLabelsToStackAssociations(b.labels()), }) } for _, c := range state.mChecks { if IsRemoval(c.stateStatus) { continue } stackResources = append(stackResources, StackResource{ APIVersion: APIVersion, ID: c.ID(), Kind: KindCheck, MetaName: c.parserCheck.MetaName(), Associations: stateLabelsToStackAssociations(c.labels()), }) } for _, d := range state.mDashboards { if IsRemoval(d.stateStatus) { continue } stackResources = append(stackResources, StackResource{ APIVersion: APIVersion, ID: d.ID(), Kind: KindDashboard, MetaName: d.parserDash.MetaName(), Associations: stateLabelsToStackAssociations(d.labels()), }) } for _, n := range state.mEndpoints { if IsRemoval(n.stateStatus) { continue } stackResources = append(stackResources, StackResource{ APIVersion: APIVersion, ID: n.ID(), Kind: KindNotificationEndpoint, MetaName: n.parserEndpoint.MetaName(), Associations: stateLabelsToStackAssociations(n.labels()), }) } for _, l := range state.mLabels { if IsRemoval(l.stateStatus) { continue } stackResources = append(stackResources, StackResource{ APIVersion: APIVersion, ID: l.ID(), Kind: KindLabel, MetaName: l.parserLabel.MetaName(), }) } for _, r := range state.mRules { if IsRemoval(r.stateStatus) { continue } stackResources = append(stackResources, StackResource{ APIVersion: APIVersion, ID: r.ID(), Kind: KindNotificationRule, MetaName: r.parserRule.MetaName(), Associations: append( stateLabelsToStackAssociations(r.labels()), r.endpointAssociation(), ), }) } for _, t := range state.mTasks { if IsRemoval(t.stateStatus) || isRestrictedTask(t.existing) { continue } stackResources = append(stackResources, StackResource{ APIVersion: APIVersion, ID: t.ID(), Kind: KindTask, MetaName: t.parserTask.MetaName(), Associations: stateLabelsToStackAssociations(t.labels()), }) } for _, t := range state.mTelegrafs { if IsRemoval(t.stateStatus) { continue } stackResources = append(stackResources, StackResource{ APIVersion: APIVersion, ID: t.ID(), Kind: KindTelegraf, MetaName: t.parserTelegraf.MetaName(), Associations: stateLabelsToStackAssociations(t.labels()), }) } for _, v := range state.mVariables { if IsRemoval(v.stateStatus) { continue } stackResources = append(stackResources, StackResource{ APIVersion: APIVersion, ID: v.ID(), Kind: KindVariable, MetaName: v.parserVar.MetaName(), Associations: stateLabelsToStackAssociations(v.labels()), }) } ev := stack.LatestEvent() ev.EventType = StackEventUpdate ev.Resources = stackResources ev.Sources = sources ev.UpdatedAt = s.timeGen.Now() stack.Events = append(stack.Events, ev) return s.store.UpdateStack(ctx, stack) } func (s *Service) updateStackAfterRollback(ctx context.Context, stackID influxdb.ID, state *stateCoordinator, sources []string) error { stack, err := s.store.ReadStackByID(ctx, stackID) if err != nil { return err } type key struct { k Kind metaName string } newKey := func(k Kind, metaName string) key { return key{k: k, metaName: metaName} } latestEvent := stack.LatestEvent() existingResources := make(map[key]*StackResource) for i := range latestEvent.Resources { res := latestEvent.Resources[i] existingResources[newKey(res.Kind, res.MetaName)] = &latestEvent.Resources[i] } hasChanges := false { // these are the case where a deletion happens and is rolled back creating a new resource. // when resource is not to be removed this is a nothing burger, as it should be // rolled back to previous state. for _, b := range state.mBuckets { res, ok := existingResources[newKey(KindBucket, b.parserBkt.MetaName())] if ok && res.ID != b.ID() { hasChanges = true res.ID = b.existing.ID } } for _, c := range state.mChecks { res, ok := existingResources[newKey(KindCheck, c.parserCheck.MetaName())] if ok && res.ID != c.ID() { hasChanges = true res.ID = c.existing.GetID() } } for _, d := range state.mDashboards { res, ok := existingResources[newKey(KindDashboard, d.parserDash.MetaName())] if ok && res.ID != d.ID() { hasChanges = true res.ID = d.existing.ID } } for _, e := range state.mEndpoints { res, ok := existingResources[newKey(KindNotificationEndpoint, e.parserEndpoint.MetaName())] if ok && res.ID != e.ID() { hasChanges = true res.ID = e.existing.GetID() } } for _, l := range state.mLabels { res, ok := existingResources[newKey(KindLabel, l.parserLabel.MetaName())] if ok && res.ID != l.ID() { hasChanges = true res.ID = l.existing.ID } } for _, r := range state.mRules { res, ok := existingResources[newKey(KindNotificationRule, r.parserRule.MetaName())] if !ok { continue } if res.ID != r.ID() { hasChanges = true res.ID = r.existing.GetID() } endpointAssociation := r.endpointAssociation() newAss := make([]StackResourceAssociation, 0, len(res.Associations)) var endpointAssociationChanged bool for _, ass := range res.Associations { if ass.Kind.is(KindNotificationEndpoint) && ass != endpointAssociation { endpointAssociationChanged = true ass = endpointAssociation } newAss = append(newAss, ass) } if endpointAssociationChanged { hasChanges = true res.Associations = newAss } } for _, t := range state.mTasks { res, ok := existingResources[newKey(KindTask, t.parserTask.MetaName())] if ok && res.ID != t.ID() { hasChanges = true res.ID = t.existing.ID } } for _, t := range state.mTelegrafs { res, ok := existingResources[newKey(KindTelegraf, t.parserTelegraf.MetaName())] if ok && res.ID != t.ID() { hasChanges = true res.ID = t.existing.ID } } for _, v := range state.mVariables { res, ok := existingResources[newKey(KindVariable, v.parserVar.MetaName())] if ok && res.ID != v.ID() { hasChanges = true res.ID = v.existing.ID } } } if !hasChanges { return nil } latestEvent.EventType = StackEventUpdate latestEvent.Sources = sources latestEvent.UpdatedAt = s.timeGen.Now() stack.Events = append(stack.Events, latestEvent) return s.store.UpdateStack(ctx, stack) } func (s *Service) findLabel(ctx context.Context, orgID influxdb.ID, l *stateLabel) (*influxdb.Label, error) { if l.ID() != 0 { return s.labelSVC.FindLabelByID(ctx, l.ID()) } existingLabels, err := s.labelSVC.FindLabels(ctx, influxdb.LabelFilter{ Name: l.parserLabel.Name(), OrgID: &orgID, }, influxdb.FindOptions{Limit: 1}) if err != nil { return nil, err } if len(existingLabels) == 0 { return nil, errors.New("no labels found for name: " + l.parserLabel.Name()) } return existingLabels[0], nil } func (s *Service) getAllPlatformVariables(ctx context.Context, orgID influxdb.ID) ([]*influxdb.Variable, error) { const limit = 100 var ( existingVars []*influxdb.Variable offset int ) for { vars, err := s.varSVC.FindVariables(ctx, influxdb.VariableFilter{ OrganizationID: &orgID, // TODO: would be ideal to extend find variables to allow for a name matcher // since names are unique for vars within an org. In the meanwhile, make large // limit returned vars, should be more than enough for the time being. }, influxdb.FindOptions{Limit: limit, Offset: offset}) if err != nil { return nil, err } existingVars = append(existingVars, vars...) if len(vars) < limit { break } offset += len(vars) } return existingVars, nil } func (s *Service) getAllChecks(ctx context.Context, orgID influxdb.ID) ([]influxdb.Check, error) { filter := influxdb.CheckFilter{OrgID: &orgID} const limit = 100 var ( out []influxdb.Check offset int ) for { checks, _, err := s.checkSVC.FindChecks(ctx, filter, influxdb.FindOptions{ Limit: limit, Offset: offset, }) if err != nil { return nil, err } out = append(out, checks...) if len(checks) < limit { break } offset += limit } return out, nil } func (s *Service) getNotificationRules(ctx context.Context, orgID influxdb.ID) ([]influxdb.NotificationRule, error) { filter := influxdb.NotificationRuleFilter{OrgID: &orgID} const limit = 100 var ( out []influxdb.NotificationRule offset int ) for { rules, _, err := s.ruleSVC.FindNotificationRules(ctx, filter) if err != nil { return nil, err } out = append(out, rules...) if len(rules) < limit { break } offset += limit } return out, nil } func (s *Service) getAllTasks(ctx context.Context, orgID influxdb.ID) ([]*influxdb.Task, error) { var ( out []*influxdb.Task afterID *influxdb.ID ) for { f := influxdb.TaskFilter{ OrganizationID: &orgID, Limit: 100, } if afterID != nil { f.After = afterID } tasks, _, err := s.taskSVC.FindTasks(ctx, f) if err != nil { return nil, err } if len(tasks) == 0 { break } out = append(out, tasks...) afterID = &tasks[len(tasks)-1].ID } return out, nil } func newSummaryFromStateTemplate(state *stateCoordinator, template *Template) Summary { stateSum := state.summary() stateSum.MissingEnvs = template.missingEnvRefs() stateSum.MissingSecrets = template.missingSecrets() return stateSum } func stateLabelsToStackAssociations(stateLabels []*stateLabel) []StackResourceAssociation { var out []StackResourceAssociation for _, l := range stateLabels { out = append(out, StackResourceAssociation{ Kind: KindLabel, MetaName: l.parserLabel.MetaName(), }) } return out } func applyFailErr(method string, ident stateIdentity, err error) error { v := ident.id.String() if v == "" { v = ident.metaName } msg := fmt.Sprintf("failed to %s %s[%q]", method, ident.resourceType, v) return ierrors.Wrap(err, msg) } func getLabelIDMap(ctx context.Context, labelSVC influxdb.LabelService, labelNames []string) (map[influxdb.ID]bool, error) { mLabelIDs := make(map[influxdb.ID]bool) for _, labelName := range labelNames { iLabels, err := labelSVC.FindLabels(ctx, influxdb.LabelFilter{ Name: labelName, }) if err != nil { return nil, err } if len(iLabels) == 1 { mLabelIDs[iLabels[0].ID] = true } } return mLabelIDs, nil } func sortObjects(objects []Object) []Object { sort.Slice(objects, func(i, j int) bool { iName, jName := objects[i].Name(), objects[j].Name() iKind, jKind := objects[i].Kind, objects[j].Kind if iKind.is(jKind) { return iName < jName } return kindPriorities[iKind] < kindPriorities[jKind] }) return objects } type doMutex struct { sync.Mutex } func (m *doMutex) Do(fn func()) { m.Lock() defer m.Unlock() fn() } type ( applier struct { creater creater rollbacker rollbacker } rollbacker struct { resource string fn func(orgID influxdb.ID) error } creater struct { entries int fn func(ctx context.Context, i int, orgID, userID influxdb.ID) *applyErrBody } ) type rollbackCoordinator struct { logger *zap.Logger rollbacks []rollbacker sem chan struct{} } func newRollbackCoordinator(logger *zap.Logger, reqLimit int) *rollbackCoordinator { return &rollbackCoordinator{ logger: logger, sem: make(chan struct{}, reqLimit), } } func (r *rollbackCoordinator) runTilEnd(ctx context.Context, orgID, userID influxdb.ID, appliers ...applier) error { errStr := newErrStream(ctx) wg := new(sync.WaitGroup) for i := range appliers { // cannot reuse the shared variable from for loop since we're using concurrency b/c // that temp var gets recycled between iterations app := appliers[i] r.rollbacks = append(r.rollbacks, app.rollbacker) for idx := range make([]struct{}, app.creater.entries) { r.sem <- struct{}{} wg.Add(1) go func(i int, resource string) { defer func() { wg.Done() <-r.sem }() ctx, cancel := context.WithTimeout(ctx, 30*time.Second) defer cancel() defer func() { if recover() != nil { r.logger.Error( "panic applying "+resource, zap.String("stack_trace", fmt.Sprintf("%+v", stack.Trace())), ) errStr.add(errMsg{ resource: resource, err: applyErrBody{ msg: fmt.Sprintf("panic: %s paniced", resource), }, }) } }() if err := app.creater.fn(ctx, i, orgID, userID); err != nil { errStr.add(errMsg{resource: resource, err: *err}) } }(idx, app.rollbacker.resource) } } wg.Wait() return errStr.close() } func (r *rollbackCoordinator) rollback(l *zap.Logger, err *error, orgID influxdb.ID) { if *err == nil { return } for _, r := range r.rollbacks { if err := r.fn(orgID); err != nil { l.Error("failed to delete "+r.resource, zap.Error(err)) } } } type errMsg struct { resource string err applyErrBody } type errStream struct { msgStream chan errMsg err chan error done <-chan struct{} } func newErrStream(ctx context.Context) *errStream { e := &errStream{ msgStream: make(chan errMsg), err: make(chan error), done: ctx.Done(), } e.do() return e } func (e *errStream) do() { go func() { mErrs := func() map[string]applyErrs { mErrs := make(map[string]applyErrs) for { select { case <-e.done: return nil case msg, ok := <-e.msgStream: if !ok { return mErrs } mErrs[msg.resource] = append(mErrs[msg.resource], &msg.err) } } }() if len(mErrs) == 0 { e.err <- nil return } var errs []string for resource, err := range mErrs { errs = append(errs, err.toError(resource, "failed to apply resource").Error()) } e.err <- errors.New(strings.Join(errs, "\n")) }() } func (e *errStream) close() error { close(e.msgStream) return <-e.err } func (e *errStream) add(msg errMsg) { select { case <-e.done: case e.msgStream <- msg: } } // TODO: clean up apply errors to inform the user in an actionable way type applyErrBody struct { name string msg string } type applyErrs []*applyErrBody func (a applyErrs) toError(resType, msg string) error { if len(a) == 0 { return nil } errMsg := fmt.Sprintf(`resource_type=%q err=%q`, resType, msg) for _, e := range a { errMsg += fmt.Sprintf("\n\tmetadata_name=%q err_msg=%q", e.name, e.msg) } return errors.New(errMsg) } func validURLs(urls []string) error { for _, u := range urls { if _, err := url.Parse(u); err != nil { msg := fmt.Sprintf("url invalid for entry %q", u) return influxErr(influxdb.EInvalid, msg) } } return nil } func isRestrictedTask(t *influxdb.Task) bool { return t != nil && t.Type != influxdb.TaskSystemType } func isSystemBucket(b *influxdb.Bucket) bool { return b != nil && b.Type == influxdb.BucketTypeSystem } func labelSlcToMap(labels []*stateLabel) map[string]*stateLabel { m := make(map[string]*stateLabel) for i := range labels { m[labels[i].Name()] = labels[i] } return m } func failedValidationErr(err error) error { if err == nil { return nil } return &influxdb.Error{Code: influxdb.EUnprocessableEntity, Err: err} } func internalErr(err error) error { if err == nil { return nil } return influxErr(influxdb.EInternal, err) } func influxErr(code string, errArg interface{}, rest ...interface{}) *influxdb.Error { err := &influxdb.Error{ Code: code, } for _, a := range append(rest, errArg) { switch v := a.(type) { case string: err.Msg = v case error: err.Err = v case nil: case interface{ String() string }: err.Msg = v.String() } } return err }