package cloud import ( "bytes" "context" "encoding/base64" "errors" "fmt" "io" "io/ioutil" "math/rand" "os" "path/filepath" "strings" "sync" "time" tfe "github.com/hashicorp/go-tfe" tfversion "github.com/hashicorp/terraform/version" "github.com/mitchellh/copystructure" ) type MockClient struct { Applies *MockApplies ConfigurationVersions *MockConfigurationVersions CostEstimates *MockCostEstimates Organizations *MockOrganizations Plans *MockPlans PolicyChecks *MockPolicyChecks Runs *MockRuns StateVersions *MockStateVersions Variables *MockVariables Workspaces *MockWorkspaces } func NewMockClient() *MockClient { c := &MockClient{} c.Applies = newMockApplies(c) c.ConfigurationVersions = newMockConfigurationVersions(c) c.CostEstimates = newMockCostEstimates(c) c.Organizations = newMockOrganizations(c) c.Plans = newMockPlans(c) c.PolicyChecks = newMockPolicyChecks(c) c.Runs = newMockRuns(c) c.StateVersions = newMockStateVersions(c) c.Variables = newMockVariables(c) c.Workspaces = newMockWorkspaces(c) return c } type MockApplies struct { client *MockClient applies map[string]*tfe.Apply logs map[string]string } func newMockApplies(client *MockClient) *MockApplies { return &MockApplies{ client: client, applies: make(map[string]*tfe.Apply), logs: make(map[string]string), } } // create is a helper function to create a mock apply that uses the configured // working directory to find the logfile. func (m *MockApplies) create(cvID, workspaceID string) (*tfe.Apply, error) { c, ok := m.client.ConfigurationVersions.configVersions[cvID] if !ok { return nil, tfe.ErrResourceNotFound } if c.Speculative { // Speculative means its plan-only so we don't create a Apply. return nil, nil } id := GenerateID("apply-") url := fmt.Sprintf("https://app.terraform.io/_archivist/%s", id) a := &tfe.Apply{ ID: id, LogReadURL: url, Status: tfe.ApplyPending, } w, ok := m.client.Workspaces.workspaceIDs[workspaceID] if !ok { return nil, tfe.ErrResourceNotFound } if w.AutoApply { a.Status = tfe.ApplyRunning } m.logs[url] = filepath.Join( m.client.ConfigurationVersions.uploadPaths[cvID], w.WorkingDirectory, "apply.log", ) m.applies[a.ID] = a return a, nil } func (m *MockApplies) Read(ctx context.Context, applyID string) (*tfe.Apply, error) { a, ok := m.applies[applyID] if !ok { return nil, tfe.ErrResourceNotFound } // Together with the mockLogReader this allows testing queued runs. if a.Status == tfe.ApplyRunning { a.Status = tfe.ApplyFinished } return a, nil } func (m *MockApplies) Logs(ctx context.Context, applyID string) (io.Reader, error) { a, err := m.Read(ctx, applyID) if err != nil { return nil, err } logfile, ok := m.logs[a.LogReadURL] if !ok { return nil, tfe.ErrResourceNotFound } if _, err := os.Stat(logfile); os.IsNotExist(err) { return bytes.NewBufferString("logfile does not exist"), nil } logs, err := ioutil.ReadFile(logfile) if err != nil { return nil, err } done := func() (bool, error) { a, err := m.Read(ctx, applyID) if err != nil { return false, err } if a.Status != tfe.ApplyFinished { return false, nil } return true, nil } return &mockLogReader{ done: done, logs: bytes.NewBuffer(logs), }, nil } type MockConfigurationVersions struct { client *MockClient configVersions map[string]*tfe.ConfigurationVersion uploadPaths map[string]string uploadURLs map[string]*tfe.ConfigurationVersion } func newMockConfigurationVersions(client *MockClient) *MockConfigurationVersions { return &MockConfigurationVersions{ client: client, configVersions: make(map[string]*tfe.ConfigurationVersion), uploadPaths: make(map[string]string), uploadURLs: make(map[string]*tfe.ConfigurationVersion), } } func (m *MockConfigurationVersions) List(ctx context.Context, workspaceID string, options tfe.ConfigurationVersionListOptions) (*tfe.ConfigurationVersionList, error) { cvl := &tfe.ConfigurationVersionList{} for _, cv := range m.configVersions { cvl.Items = append(cvl.Items, cv) } cvl.Pagination = &tfe.Pagination{ CurrentPage: 1, NextPage: 1, PreviousPage: 1, TotalPages: 1, TotalCount: len(cvl.Items), } return cvl, nil } func (m *MockConfigurationVersions) Create(ctx context.Context, workspaceID string, options tfe.ConfigurationVersionCreateOptions) (*tfe.ConfigurationVersion, error) { id := GenerateID("cv-") url := fmt.Sprintf("https://app.terraform.io/_archivist/%s", id) cv := &tfe.ConfigurationVersion{ ID: id, Status: tfe.ConfigurationPending, UploadURL: url, } m.configVersions[cv.ID] = cv m.uploadURLs[url] = cv return cv, nil } func (m *MockConfigurationVersions) Read(ctx context.Context, cvID string) (*tfe.ConfigurationVersion, error) { cv, ok := m.configVersions[cvID] if !ok { return nil, tfe.ErrResourceNotFound } return cv, nil } func (m *MockConfigurationVersions) ReadWithOptions(ctx context.Context, cvID string, options *tfe.ConfigurationVersionReadOptions) (*tfe.ConfigurationVersion, error) { cv, ok := m.configVersions[cvID] if !ok { return nil, tfe.ErrResourceNotFound } return cv, nil } func (m *MockConfigurationVersions) Upload(ctx context.Context, url, path string) error { cv, ok := m.uploadURLs[url] if !ok { return errors.New("404 not found") } m.uploadPaths[cv.ID] = path cv.Status = tfe.ConfigurationUploaded return nil } type MockCostEstimates struct { client *MockClient Estimations map[string]*tfe.CostEstimate logs map[string]string } func newMockCostEstimates(client *MockClient) *MockCostEstimates { return &MockCostEstimates{ client: client, Estimations: make(map[string]*tfe.CostEstimate), logs: make(map[string]string), } } // create is a helper function to create a mock cost estimation that uses the // configured working directory to find the logfile. func (m *MockCostEstimates) create(cvID, workspaceID string) (*tfe.CostEstimate, error) { id := GenerateID("ce-") ce := &tfe.CostEstimate{ ID: id, MatchedResourcesCount: 1, ResourcesCount: 1, DeltaMonthlyCost: "0.00", ProposedMonthlyCost: "0.00", Status: tfe.CostEstimateFinished, } w, ok := m.client.Workspaces.workspaceIDs[workspaceID] if !ok { return nil, tfe.ErrResourceNotFound } logfile := filepath.Join( m.client.ConfigurationVersions.uploadPaths[cvID], w.WorkingDirectory, "cost-estimate.log", ) if _, err := os.Stat(logfile); os.IsNotExist(err) { return nil, nil } m.logs[ce.ID] = logfile m.Estimations[ce.ID] = ce return ce, nil } func (m *MockCostEstimates) Read(ctx context.Context, costEstimateID string) (*tfe.CostEstimate, error) { ce, ok := m.Estimations[costEstimateID] if !ok { return nil, tfe.ErrResourceNotFound } return ce, nil } func (m *MockCostEstimates) Logs(ctx context.Context, costEstimateID string) (io.Reader, error) { ce, ok := m.Estimations[costEstimateID] if !ok { return nil, tfe.ErrResourceNotFound } logfile, ok := m.logs[ce.ID] if !ok { return nil, tfe.ErrResourceNotFound } if _, err := os.Stat(logfile); os.IsNotExist(err) { return bytes.NewBufferString("logfile does not exist"), nil } logs, err := ioutil.ReadFile(logfile) if err != nil { return nil, err } ce.Status = tfe.CostEstimateFinished return bytes.NewBuffer(logs), nil } type MockOrganizations struct { client *MockClient organizations map[string]*tfe.Organization } func newMockOrganizations(client *MockClient) *MockOrganizations { return &MockOrganizations{ client: client, organizations: make(map[string]*tfe.Organization), } } func (m *MockOrganizations) List(ctx context.Context, options tfe.OrganizationListOptions) (*tfe.OrganizationList, error) { orgl := &tfe.OrganizationList{} for _, org := range m.organizations { orgl.Items = append(orgl.Items, org) } orgl.Pagination = &tfe.Pagination{ CurrentPage: 1, NextPage: 1, PreviousPage: 1, TotalPages: 1, TotalCount: len(orgl.Items), } return orgl, nil } // mockLogReader is a mock logreader that enables testing queued runs. type mockLogReader struct { done func() (bool, error) logs *bytes.Buffer } func (m *mockLogReader) Read(l []byte) (int, error) { for { if written, err := m.read(l); err != io.ErrNoProgress { return written, err } time.Sleep(1 * time.Millisecond) } } func (m *mockLogReader) read(l []byte) (int, error) { done, err := m.done() if err != nil { return 0, err } if !done { return 0, io.ErrNoProgress } return m.logs.Read(l) } func (m *MockOrganizations) Create(ctx context.Context, options tfe.OrganizationCreateOptions) (*tfe.Organization, error) { org := &tfe.Organization{Name: *options.Name} m.organizations[org.Name] = org return org, nil } func (m *MockOrganizations) Read(ctx context.Context, name string) (*tfe.Organization, error) { org, ok := m.organizations[name] if !ok { return nil, tfe.ErrResourceNotFound } return org, nil } func (m *MockOrganizations) Update(ctx context.Context, name string, options tfe.OrganizationUpdateOptions) (*tfe.Organization, error) { org, ok := m.organizations[name] if !ok { return nil, tfe.ErrResourceNotFound } org.Name = *options.Name return org, nil } func (m *MockOrganizations) Delete(ctx context.Context, name string) error { delete(m.organizations, name) return nil } func (m *MockOrganizations) Capacity(ctx context.Context, name string) (*tfe.Capacity, error) { var pending, running int for _, r := range m.client.Runs.Runs { if r.Status == tfe.RunPending { pending++ continue } running++ } return &tfe.Capacity{Pending: pending, Running: running}, nil } func (m *MockOrganizations) Entitlements(ctx context.Context, name string) (*tfe.Entitlements, error) { return &tfe.Entitlements{ Operations: true, PrivateModuleRegistry: true, Sentinel: true, StateStorage: true, Teams: true, VCSIntegrations: true, }, nil } func (m *MockOrganizations) RunQueue(ctx context.Context, name string, options tfe.RunQueueOptions) (*tfe.RunQueue, error) { rq := &tfe.RunQueue{} for _, r := range m.client.Runs.Runs { rq.Items = append(rq.Items, r) } rq.Pagination = &tfe.Pagination{ CurrentPage: 1, NextPage: 1, PreviousPage: 1, TotalPages: 1, TotalCount: len(rq.Items), } return rq, nil } type MockPlans struct { client *MockClient logs map[string]string planOutputs map[string]string plans map[string]*tfe.Plan } func newMockPlans(client *MockClient) *MockPlans { return &MockPlans{ client: client, logs: make(map[string]string), planOutputs: make(map[string]string), plans: make(map[string]*tfe.Plan), } } // create is a helper function to create a mock plan that uses the configured // working directory to find the logfile. func (m *MockPlans) create(cvID, workspaceID string) (*tfe.Plan, error) { id := GenerateID("plan-") url := fmt.Sprintf("https://app.terraform.io/_archivist/%s", id) p := &tfe.Plan{ ID: id, LogReadURL: url, Status: tfe.PlanPending, } w, ok := m.client.Workspaces.workspaceIDs[workspaceID] if !ok { return nil, tfe.ErrResourceNotFound } m.logs[url] = filepath.Join( m.client.ConfigurationVersions.uploadPaths[cvID], w.WorkingDirectory, "plan.log", ) m.plans[p.ID] = p return p, nil } func (m *MockPlans) Read(ctx context.Context, planID string) (*tfe.Plan, error) { p, ok := m.plans[planID] if !ok { return nil, tfe.ErrResourceNotFound } // Together with the mockLogReader this allows testing queued runs. if p.Status == tfe.PlanRunning { p.Status = tfe.PlanFinished } return p, nil } func (m *MockPlans) Logs(ctx context.Context, planID string) (io.Reader, error) { p, err := m.Read(ctx, planID) if err != nil { return nil, err } logfile, ok := m.logs[p.LogReadURL] if !ok { return nil, tfe.ErrResourceNotFound } if _, err := os.Stat(logfile); os.IsNotExist(err) { return bytes.NewBufferString("logfile does not exist"), nil } logs, err := ioutil.ReadFile(logfile) if err != nil { return nil, err } done := func() (bool, error) { p, err := m.Read(ctx, planID) if err != nil { return false, err } if p.Status != tfe.PlanFinished { return false, nil } return true, nil } return &mockLogReader{ done: done, logs: bytes.NewBuffer(logs), }, nil } func (m *MockPlans) JSONOutput(ctx context.Context, planID string) ([]byte, error) { planOutput, ok := m.planOutputs[planID] if !ok { return nil, tfe.ErrResourceNotFound } return []byte(planOutput), nil } type MockPolicyChecks struct { client *MockClient checks map[string]*tfe.PolicyCheck logs map[string]string } func newMockPolicyChecks(client *MockClient) *MockPolicyChecks { return &MockPolicyChecks{ client: client, checks: make(map[string]*tfe.PolicyCheck), logs: make(map[string]string), } } // create is a helper function to create a mock policy check that uses the // configured working directory to find the logfile. func (m *MockPolicyChecks) create(cvID, workspaceID string) (*tfe.PolicyCheck, error) { id := GenerateID("pc-") pc := &tfe.PolicyCheck{ ID: id, Actions: &tfe.PolicyActions{}, Permissions: &tfe.PolicyPermissions{}, Scope: tfe.PolicyScopeOrganization, Status: tfe.PolicyPending, } w, ok := m.client.Workspaces.workspaceIDs[workspaceID] if !ok { return nil, tfe.ErrResourceNotFound } logfile := filepath.Join( m.client.ConfigurationVersions.uploadPaths[cvID], w.WorkingDirectory, "policy.log", ) if _, err := os.Stat(logfile); os.IsNotExist(err) { return nil, nil } m.logs[pc.ID] = logfile m.checks[pc.ID] = pc return pc, nil } func (m *MockPolicyChecks) List(ctx context.Context, runID string, options tfe.PolicyCheckListOptions) (*tfe.PolicyCheckList, error) { _, ok := m.client.Runs.Runs[runID] if !ok { return nil, tfe.ErrResourceNotFound } pcl := &tfe.PolicyCheckList{} for _, pc := range m.checks { pcl.Items = append(pcl.Items, pc) } pcl.Pagination = &tfe.Pagination{ CurrentPage: 1, NextPage: 1, PreviousPage: 1, TotalPages: 1, TotalCount: len(pcl.Items), } return pcl, nil } func (m *MockPolicyChecks) Read(ctx context.Context, policyCheckID string) (*tfe.PolicyCheck, error) { pc, ok := m.checks[policyCheckID] if !ok { return nil, tfe.ErrResourceNotFound } logfile, ok := m.logs[pc.ID] if !ok { return nil, tfe.ErrResourceNotFound } if _, err := os.Stat(logfile); os.IsNotExist(err) { return nil, fmt.Errorf("logfile does not exist") } logs, err := ioutil.ReadFile(logfile) if err != nil { return nil, err } switch { case bytes.Contains(logs, []byte("Sentinel Result: true")): pc.Status = tfe.PolicyPasses case bytes.Contains(logs, []byte("Sentinel Result: false")): switch { case bytes.Contains(logs, []byte("hard-mandatory")): pc.Status = tfe.PolicyHardFailed case bytes.Contains(logs, []byte("soft-mandatory")): pc.Actions.IsOverridable = true pc.Permissions.CanOverride = true pc.Status = tfe.PolicySoftFailed } default: // As this is an unexpected state, we say the policy errored. pc.Status = tfe.PolicyErrored } return pc, nil } func (m *MockPolicyChecks) Override(ctx context.Context, policyCheckID string) (*tfe.PolicyCheck, error) { pc, ok := m.checks[policyCheckID] if !ok { return nil, tfe.ErrResourceNotFound } pc.Status = tfe.PolicyOverridden return pc, nil } func (m *MockPolicyChecks) Logs(ctx context.Context, policyCheckID string) (io.Reader, error) { pc, ok := m.checks[policyCheckID] if !ok { return nil, tfe.ErrResourceNotFound } logfile, ok := m.logs[pc.ID] if !ok { return nil, tfe.ErrResourceNotFound } if _, err := os.Stat(logfile); os.IsNotExist(err) { return bytes.NewBufferString("logfile does not exist"), nil } logs, err := ioutil.ReadFile(logfile) if err != nil { return nil, err } switch { case bytes.Contains(logs, []byte("Sentinel Result: true")): pc.Status = tfe.PolicyPasses case bytes.Contains(logs, []byte("Sentinel Result: false")): switch { case bytes.Contains(logs, []byte("hard-mandatory")): pc.Status = tfe.PolicyHardFailed case bytes.Contains(logs, []byte("soft-mandatory")): pc.Actions.IsOverridable = true pc.Permissions.CanOverride = true pc.Status = tfe.PolicySoftFailed } default: // As this is an unexpected state, we say the policy errored. pc.Status = tfe.PolicyErrored } return bytes.NewBuffer(logs), nil } type MockRuns struct { sync.Mutex client *MockClient Runs map[string]*tfe.Run workspaces map[string][]*tfe.Run // If ModifyNewRun is non-nil, the create method will call it just before // saving a new run in the runs map, so that a calling test can mimic // side-effects that a real server might apply in certain situations. ModifyNewRun func(client *MockClient, options tfe.RunCreateOptions, run *tfe.Run) } func newMockRuns(client *MockClient) *MockRuns { return &MockRuns{ client: client, Runs: make(map[string]*tfe.Run), workspaces: make(map[string][]*tfe.Run), } } func (m *MockRuns) List(ctx context.Context, workspaceID string, options tfe.RunListOptions) (*tfe.RunList, error) { m.Lock() defer m.Unlock() w, ok := m.client.Workspaces.workspaceIDs[workspaceID] if !ok { return nil, tfe.ErrResourceNotFound } rl := &tfe.RunList{} for _, run := range m.workspaces[w.ID] { rc, err := copystructure.Copy(run) if err != nil { panic(err) } rl.Items = append(rl.Items, rc.(*tfe.Run)) } rl.Pagination = &tfe.Pagination{ CurrentPage: 1, NextPage: 1, PreviousPage: 1, TotalPages: 1, TotalCount: len(rl.Items), } return rl, nil } func (m *MockRuns) Create(ctx context.Context, options tfe.RunCreateOptions) (*tfe.Run, error) { m.Lock() defer m.Unlock() a, err := m.client.Applies.create(options.ConfigurationVersion.ID, options.Workspace.ID) if err != nil { return nil, err } ce, err := m.client.CostEstimates.create(options.ConfigurationVersion.ID, options.Workspace.ID) if err != nil { return nil, err } p, err := m.client.Plans.create(options.ConfigurationVersion.ID, options.Workspace.ID) if err != nil { return nil, err } pc, err := m.client.PolicyChecks.create(options.ConfigurationVersion.ID, options.Workspace.ID) if err != nil { return nil, err } r := &tfe.Run{ ID: GenerateID("run-"), Actions: &tfe.RunActions{IsCancelable: true}, Apply: a, CostEstimate: ce, HasChanges: false, Permissions: &tfe.RunPermissions{}, Plan: p, ReplaceAddrs: options.ReplaceAddrs, Status: tfe.RunPending, TargetAddrs: options.TargetAddrs, } if options.Message != nil { r.Message = *options.Message } if pc != nil { r.PolicyChecks = []*tfe.PolicyCheck{pc} } if options.IsDestroy != nil { r.IsDestroy = *options.IsDestroy } if options.Refresh != nil { r.Refresh = *options.Refresh } if options.RefreshOnly != nil { r.RefreshOnly = *options.RefreshOnly } w, ok := m.client.Workspaces.workspaceIDs[options.Workspace.ID] if !ok { return nil, tfe.ErrResourceNotFound } if w.CurrentRun == nil { w.CurrentRun = r } if m.ModifyNewRun != nil { // caller-provided callback may modify the run in-place to mimic // side-effects that a real server might take in some situations. m.ModifyNewRun(m.client, options, r) } m.Runs[r.ID] = r m.workspaces[options.Workspace.ID] = append(m.workspaces[options.Workspace.ID], r) return r, nil } func (m *MockRuns) Read(ctx context.Context, runID string) (*tfe.Run, error) { return m.ReadWithOptions(ctx, runID, nil) } func (m *MockRuns) ReadWithOptions(ctx context.Context, runID string, _ *tfe.RunReadOptions) (*tfe.Run, error) { m.Lock() defer m.Unlock() r, ok := m.Runs[runID] if !ok { return nil, tfe.ErrResourceNotFound } pending := false for _, r := range m.Runs { if r.ID != runID && r.Status == tfe.RunPending { pending = true break } } if !pending && r.Status == tfe.RunPending { // Only update the status if there are no other pending runs. r.Status = tfe.RunPlanning r.Plan.Status = tfe.PlanRunning } logs, _ := ioutil.ReadFile(m.client.Plans.logs[r.Plan.LogReadURL]) if r.Status == tfe.RunPlanning && r.Plan.Status == tfe.PlanFinished { if r.IsDestroy || bytes.Contains(logs, []byte("1 to add, 0 to change, 0 to destroy")) { r.Actions.IsCancelable = false r.Actions.IsConfirmable = true r.HasChanges = true r.Permissions.CanApply = true } if bytes.Contains(logs, []byte("null_resource.foo: 1 error")) { r.Actions.IsCancelable = false r.HasChanges = false r.Status = tfe.RunErrored } } // we must return a copy for the client rc, err := copystructure.Copy(r) if err != nil { panic(err) } return rc.(*tfe.Run), nil } func (m *MockRuns) Apply(ctx context.Context, runID string, options tfe.RunApplyOptions) error { m.Lock() defer m.Unlock() r, ok := m.Runs[runID] if !ok { return tfe.ErrResourceNotFound } if r.Status != tfe.RunPending { // Only update the status if the run is not pending anymore. r.Status = tfe.RunApplying r.Actions.IsConfirmable = false r.Apply.Status = tfe.ApplyRunning } return nil } func (m *MockRuns) Cancel(ctx context.Context, runID string, options tfe.RunCancelOptions) error { panic("not implemented") } func (m *MockRuns) ForceCancel(ctx context.Context, runID string, options tfe.RunForceCancelOptions) error { panic("not implemented") } func (m *MockRuns) Discard(ctx context.Context, runID string, options tfe.RunDiscardOptions) error { m.Lock() defer m.Unlock() r, ok := m.Runs[runID] if !ok { return tfe.ErrResourceNotFound } r.Status = tfe.RunDiscarded r.Actions.IsConfirmable = false return nil } type MockStateVersions struct { client *MockClient states map[string][]byte stateVersions map[string]*tfe.StateVersion workspaces map[string][]string } func newMockStateVersions(client *MockClient) *MockStateVersions { return &MockStateVersions{ client: client, states: make(map[string][]byte), stateVersions: make(map[string]*tfe.StateVersion), workspaces: make(map[string][]string), } } func (m *MockStateVersions) List(ctx context.Context, options tfe.StateVersionListOptions) (*tfe.StateVersionList, error) { svl := &tfe.StateVersionList{} for _, sv := range m.stateVersions { svl.Items = append(svl.Items, sv) } svl.Pagination = &tfe.Pagination{ CurrentPage: 1, NextPage: 1, PreviousPage: 1, TotalPages: 1, TotalCount: len(svl.Items), } return svl, nil } func (m *MockStateVersions) Create(ctx context.Context, workspaceID string, options tfe.StateVersionCreateOptions) (*tfe.StateVersion, error) { id := GenerateID("sv-") runID := os.Getenv("TFE_RUN_ID") url := fmt.Sprintf("https://app.terraform.io/_archivist/%s", id) if runID != "" && (options.Run == nil || runID != options.Run.ID) { return nil, fmt.Errorf("option.Run.ID does not contain the ID exported by TFE_RUN_ID") } sv := &tfe.StateVersion{ ID: id, DownloadURL: url, Serial: *options.Serial, } state, err := base64.StdEncoding.DecodeString(*options.State) if err != nil { return nil, err } m.states[sv.DownloadURL] = state m.stateVersions[sv.ID] = sv m.workspaces[workspaceID] = append(m.workspaces[workspaceID], sv.ID) return sv, nil } func (m *MockStateVersions) Read(ctx context.Context, svID string) (*tfe.StateVersion, error) { return m.ReadWithOptions(ctx, svID, nil) } func (m *MockStateVersions) ReadWithOptions(ctx context.Context, svID string, options *tfe.StateVersionReadOptions) (*tfe.StateVersion, error) { sv, ok := m.stateVersions[svID] if !ok { return nil, tfe.ErrResourceNotFound } return sv, nil } func (m *MockStateVersions) Current(ctx context.Context, workspaceID string) (*tfe.StateVersion, error) { return m.CurrentWithOptions(ctx, workspaceID, nil) } func (m *MockStateVersions) CurrentWithOptions(ctx context.Context, workspaceID string, options *tfe.StateVersionCurrentOptions) (*tfe.StateVersion, error) { w, ok := m.client.Workspaces.workspaceIDs[workspaceID] if !ok { return nil, tfe.ErrResourceNotFound } svs, ok := m.workspaces[w.ID] if !ok || len(svs) == 0 { return nil, tfe.ErrResourceNotFound } sv, ok := m.stateVersions[svs[len(svs)-1]] if !ok { return nil, tfe.ErrResourceNotFound } return sv, nil } func (m *MockStateVersions) Download(ctx context.Context, url string) ([]byte, error) { state, ok := m.states[url] if !ok { return nil, tfe.ErrResourceNotFound } return state, nil } func (m *MockStateVersions) Outputs(ctx context.Context, svID string, options tfe.StateVersionOutputsListOptions) ([]*tfe.StateVersionOutput, error) { panic("not implemented") } type MockVariables struct { client *MockClient workspaces map[string]*tfe.VariableList } var _ tfe.Variables = (*MockVariables)(nil) func newMockVariables(client *MockClient) *MockVariables { return &MockVariables{ client: client, workspaces: make(map[string]*tfe.VariableList), } } func (m *MockVariables) List(ctx context.Context, workspaceID string, options tfe.VariableListOptions) (*tfe.VariableList, error) { vl := m.workspaces[workspaceID] return vl, nil } func (m *MockVariables) Create(ctx context.Context, workspaceID string, options tfe.VariableCreateOptions) (*tfe.Variable, error) { v := &tfe.Variable{ ID: GenerateID("var-"), Key: *options.Key, Category: *options.Category, } if options.Value != nil { v.Value = *options.Value } if options.HCL != nil { v.HCL = *options.HCL } if options.Sensitive != nil { v.Sensitive = *options.Sensitive } workspace := workspaceID if m.workspaces[workspace] == nil { m.workspaces[workspace] = &tfe.VariableList{} } vl := m.workspaces[workspace] vl.Items = append(vl.Items, v) return v, nil } func (m *MockVariables) Read(ctx context.Context, workspaceID string, variableID string) (*tfe.Variable, error) { panic("not implemented") } func (m *MockVariables) Update(ctx context.Context, workspaceID string, variableID string, options tfe.VariableUpdateOptions) (*tfe.Variable, error) { panic("not implemented") } func (m *MockVariables) Delete(ctx context.Context, workspaceID string, variableID string) error { panic("not implemented") } type MockWorkspaces struct { client *MockClient workspaceIDs map[string]*tfe.Workspace workspaceNames map[string]*tfe.Workspace } func newMockWorkspaces(client *MockClient) *MockWorkspaces { return &MockWorkspaces{ client: client, workspaceIDs: make(map[string]*tfe.Workspace), workspaceNames: make(map[string]*tfe.Workspace), } } func (m *MockWorkspaces) List(ctx context.Context, organization string, options tfe.WorkspaceListOptions) (*tfe.WorkspaceList, error) { wl := &tfe.WorkspaceList{} // Get all the workspaces that match the Search value searchValue := "" if options.Search != nil { searchValue = *options.Search } var ws []*tfe.Workspace var tags []string if options.Tags != nil { tags = strings.Split(*options.Tags, ",") } for _, w := range m.workspaceIDs { wTags := make(map[string]struct{}) for _, wTag := range w.Tags { wTags[wTag.Name] = struct{}{} } if strings.Contains(w.Name, searchValue) { tagsSatisfied := true for _, tag := range tags { if _, ok := wTags[tag]; !ok { tagsSatisfied = false } } if tagsSatisfied { ws = append(ws, w) } } } // Return an empty result if we have no matches. if len(ws) == 0 { wl.Pagination = &tfe.Pagination{ CurrentPage: 1, } return wl, nil } numPages := (len(ws) / 20) + 1 currentPage := 1 if options.PageNumber != 0 { currentPage = options.PageNumber } previousPage := currentPage - 1 nextPage := currentPage + 1 for i := ((currentPage - 1) * 20); i < ((currentPage-1)*20)+20; i++ { if i > (len(ws) - 1) { break } wl.Items = append(wl.Items, ws[i]) } wl.Pagination = &tfe.Pagination{ CurrentPage: currentPage, NextPage: nextPage, PreviousPage: previousPage, TotalPages: numPages, TotalCount: len(wl.Items), } return wl, nil } func (m *MockWorkspaces) Create(ctx context.Context, organization string, options tfe.WorkspaceCreateOptions) (*tfe.Workspace, error) { // for TestCloud_setUnavailableTerraformVersion if *options.Name == "unavailable-terraform-version" && options.TerraformVersion != nil { return nil, fmt.Errorf("requested Terraform version not available in this TFC instance") } if strings.HasSuffix(*options.Name, "no-operations") { options.Operations = tfe.Bool(false) } else if options.Operations == nil { options.Operations = tfe.Bool(true) } w := &tfe.Workspace{ ID: GenerateID("ws-"), Name: *options.Name, Operations: *options.Operations, Permissions: &tfe.WorkspacePermissions{ CanQueueApply: true, CanQueueRun: true, }, } if options.AutoApply != nil { w.AutoApply = *options.AutoApply } if options.VCSRepo != nil { w.VCSRepo = &tfe.VCSRepo{} } if options.TerraformVersion != nil { w.TerraformVersion = *options.TerraformVersion } else { w.TerraformVersion = tfversion.String() } var tags []*tfe.Tag for _, tag := range options.Tags { tags = append(tags, tag) w.TagNames = append(w.TagNames, tag.Name) } w.Tags = tags m.workspaceIDs[w.ID] = w m.workspaceNames[w.Name] = w return w, nil } func (m *MockWorkspaces) Read(ctx context.Context, organization, workspace string) (*tfe.Workspace, error) { // custom error for TestCloud_plan500 in backend_plan_test.go if workspace == "network-error" { return nil, errors.New("I'm a little teacup") } w, ok := m.workspaceNames[workspace] if !ok { return nil, tfe.ErrResourceNotFound } return w, nil } func (m *MockWorkspaces) ReadByID(ctx context.Context, workspaceID string) (*tfe.Workspace, error) { w, ok := m.workspaceIDs[workspaceID] if !ok { return nil, tfe.ErrResourceNotFound } return w, nil } func (m *MockWorkspaces) ReadWithOptions(ctx context.Context, organization string, workspace string, options *tfe.WorkspaceReadOptions) (*tfe.Workspace, error) { panic("not implemented") } func (m *MockWorkspaces) ReadByIDWithOptions(ctx context.Context, workspaceID string, options *tfe.WorkspaceReadOptions) (*tfe.Workspace, error) { w, ok := m.workspaceIDs[workspaceID] if !ok { return nil, tfe.ErrResourceNotFound } return w, nil } func (m *MockWorkspaces) Update(ctx context.Context, organization, workspace string, options tfe.WorkspaceUpdateOptions) (*tfe.Workspace, error) { w, ok := m.workspaceNames[workspace] if !ok { return nil, tfe.ErrResourceNotFound } err := updateMockWorkspaceAttributes(w, options) if err != nil { return nil, err } delete(m.workspaceNames, workspace) m.workspaceNames[w.Name] = w return w, nil } func (m *MockWorkspaces) UpdateByID(ctx context.Context, workspaceID string, options tfe.WorkspaceUpdateOptions) (*tfe.Workspace, error) { w, ok := m.workspaceIDs[workspaceID] if !ok { return nil, tfe.ErrResourceNotFound } originalName := w.Name err := updateMockWorkspaceAttributes(w, options) if err != nil { return nil, err } delete(m.workspaceNames, originalName) m.workspaceNames[w.Name] = w return w, nil } func updateMockWorkspaceAttributes(w *tfe.Workspace, options tfe.WorkspaceUpdateOptions) error { // for TestCloud_setUnavailableTerraformVersion if w.Name == "unavailable-terraform-version" && options.TerraformVersion != nil { return fmt.Errorf("requested Terraform version not available in this TFC instance") } if options.Operations != nil { w.Operations = *options.Operations } if options.Name != nil { w.Name = *options.Name } if options.TerraformVersion != nil { w.TerraformVersion = *options.TerraformVersion } if options.WorkingDirectory != nil { w.WorkingDirectory = *options.WorkingDirectory } return nil } func (m *MockWorkspaces) Delete(ctx context.Context, organization, workspace string) error { if w, ok := m.workspaceNames[workspace]; ok { delete(m.workspaceIDs, w.ID) } delete(m.workspaceNames, workspace) return nil } func (m *MockWorkspaces) DeleteByID(ctx context.Context, workspaceID string) error { if w, ok := m.workspaceIDs[workspaceID]; ok { delete(m.workspaceIDs, w.Name) } delete(m.workspaceIDs, workspaceID) return nil } func (m *MockWorkspaces) RemoveVCSConnection(ctx context.Context, organization, workspace string) (*tfe.Workspace, error) { w, ok := m.workspaceNames[workspace] if !ok { return nil, tfe.ErrResourceNotFound } w.VCSRepo = nil return w, nil } func (m *MockWorkspaces) RemoveVCSConnectionByID(ctx context.Context, workspaceID string) (*tfe.Workspace, error) { w, ok := m.workspaceIDs[workspaceID] if !ok { return nil, tfe.ErrResourceNotFound } w.VCSRepo = nil return w, nil } func (m *MockWorkspaces) Lock(ctx context.Context, workspaceID string, options tfe.WorkspaceLockOptions) (*tfe.Workspace, error) { w, ok := m.workspaceIDs[workspaceID] if !ok { return nil, tfe.ErrResourceNotFound } if w.Locked { return nil, tfe.ErrWorkspaceLocked } w.Locked = true return w, nil } func (m *MockWorkspaces) Unlock(ctx context.Context, workspaceID string) (*tfe.Workspace, error) { w, ok := m.workspaceIDs[workspaceID] if !ok { return nil, tfe.ErrResourceNotFound } if !w.Locked { return nil, tfe.ErrWorkspaceNotLocked } w.Locked = false return w, nil } func (m *MockWorkspaces) ForceUnlock(ctx context.Context, workspaceID string) (*tfe.Workspace, error) { w, ok := m.workspaceIDs[workspaceID] if !ok { return nil, tfe.ErrResourceNotFound } if !w.Locked { return nil, tfe.ErrWorkspaceNotLocked } w.Locked = false return w, nil } func (m *MockWorkspaces) AssignSSHKey(ctx context.Context, workspaceID string, options tfe.WorkspaceAssignSSHKeyOptions) (*tfe.Workspace, error) { panic("not implemented") } func (m *MockWorkspaces) UnassignSSHKey(ctx context.Context, workspaceID string) (*tfe.Workspace, error) { panic("not implemented") } func (m *MockWorkspaces) RemoteStateConsumers(ctx context.Context, workspaceID string, options *tfe.RemoteStateConsumersListOptions) (*tfe.WorkspaceList, error) { panic("not implemented") } func (m *MockWorkspaces) AddRemoteStateConsumers(ctx context.Context, workspaceID string, options tfe.WorkspaceAddRemoteStateConsumersOptions) error { panic("not implemented") } func (m *MockWorkspaces) RemoveRemoteStateConsumers(ctx context.Context, workspaceID string, options tfe.WorkspaceRemoveRemoteStateConsumersOptions) error { panic("not implemented") } func (m *MockWorkspaces) UpdateRemoteStateConsumers(ctx context.Context, workspaceID string, options tfe.WorkspaceUpdateRemoteStateConsumersOptions) error { panic("not implemented") } func (m *MockWorkspaces) Readme(ctx context.Context, workspaceID string) (io.Reader, error) { panic("not implemented") } func (m *MockWorkspaces) Tags(ctx context.Context, workspaceID string, options tfe.WorkspaceTagListOptions) (*tfe.TagList, error) { panic("not implemented") } func (m *MockWorkspaces) AddTags(ctx context.Context, workspaceID string, options tfe.WorkspaceAddTagsOptions) error { return nil } func (m *MockWorkspaces) RemoveTags(ctx context.Context, workspaceID string, options tfe.WorkspaceRemoveTagsOptions) error { panic("not implemented") } const alphanumeric = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789" func GenerateID(s string) string { b := make([]byte, 16) for i := range b { b[i] = alphanumeric[rand.Intn(len(alphanumeric))] } return s + string(b) }