/* Copyright (c) Edgeless Systems GmbH SPDX-License-Identifier: AGPL-3.0-only */ package terraform import ( "bytes" "context" "errors" "io/fs" "path" "path/filepath" "strings" "testing" "github.com/edgelesssys/constellation/v2/internal/cloud/cloudprovider" "github.com/edgelesssys/constellation/v2/internal/constants" "github.com/edgelesssys/constellation/v2/internal/file" "github.com/edgelesssys/constellation/v2/internal/role" "github.com/hashicorp/terraform-exec/tfexec" tfjson "github.com/hashicorp/terraform-json" "github.com/spf13/afero" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" "go.uber.org/goleak" ) func TestMain(m *testing.M) { goleak.VerifyTestMain(m) } func TestPrepareCluster(t *testing.T) { qemuVars := &QEMUVariables{ Name: "name", NodeGroups: map[string]QEMUNodeGroup{ "control-plane": { Role: role.ControlPlane.TFString(), DiskSize: 30, CPUCount: 1, MemorySize: 1024, }, }, Machine: "q35", } testCases := map[string]struct { pathBase string provider cloudprovider.Provider vars Variables fs afero.Fs partiallyExtracted bool wantErr bool }{ "qemu": { pathBase: "terraform", provider: cloudprovider.QEMU, vars: qemuVars, fs: afero.NewMemMapFs(), wantErr: false, }, "no vars": { pathBase: "terraform", provider: cloudprovider.QEMU, fs: afero.NewMemMapFs(), wantErr: true, }, "continue on partially extracted": { pathBase: "terraform", provider: cloudprovider.QEMU, vars: qemuVars, fs: afero.NewMemMapFs(), partiallyExtracted: true, wantErr: false, }, "prepare workspace fails": { pathBase: "terraform", provider: cloudprovider.QEMU, vars: qemuVars, fs: afero.NewReadOnlyFs(afero.NewMemMapFs()), wantErr: true, }, } for name, tc := range testCases { t.Run(name, func(t *testing.T) { assert := assert.New(t) require := require.New(t) c := &Client{ tf: &stubTerraform{}, file: file.NewHandler(tc.fs), workingDir: "unittest", } path := path.Join(tc.pathBase, strings.ToLower(tc.provider.String())) err := c.PrepareWorkspace(path, tc.vars) // Test case: Check if we can continue to create on an incomplete workspace. if tc.partiallyExtracted { require.NoError(c.file.Remove(filepath.Join(c.workingDir, "main.tf"))) err = c.PrepareWorkspace(path, tc.vars) } if tc.wantErr { assert.Error(err) return } assert.NoError(err) }) } } func TestPrepareIAM(t *testing.T) { gcpVars := &GCPIAMVariables{ Project: "const-1234", Region: "europe-west1", Zone: "europe-west1-a", ServiceAccountID: "const-test-case", } azureVars := &AzureIAMVariables{ Region: "westus", ResourceGroup: "constell-test-rg", } awsVars := &AWSIAMVariables{ Region: "eu-east-2a", Prefix: "test", } testCases := map[string]struct { pathBase string provider cloudprovider.Provider vars Variables fs afero.Fs partiallyExtracted bool wantErr bool }{ "no vars": { pathBase: path.Join("terraform", "iam"), fs: afero.NewMemMapFs(), wantErr: true, }, "invalid path": { pathBase: path.Join("abc", "123"), fs: afero.NewMemMapFs(), wantErr: true, }, "gcp": { pathBase: path.Join("terraform", "iam"), provider: cloudprovider.GCP, vars: gcpVars, fs: afero.NewMemMapFs(), wantErr: false, }, "continue on partially extracted": { pathBase: path.Join("terraform", "iam"), provider: cloudprovider.GCP, vars: gcpVars, fs: afero.NewMemMapFs(), partiallyExtracted: true, wantErr: false, }, "azure": { pathBase: path.Join("terraform", "iam"), provider: cloudprovider.Azure, vars: azureVars, fs: afero.NewMemMapFs(), wantErr: false, }, "aws": { pathBase: path.Join("terraform", "iam"), provider: cloudprovider.AWS, vars: awsVars, fs: afero.NewMemMapFs(), wantErr: false, }, } for name, tc := range testCases { t.Run(name, func(t *testing.T) { assert := assert.New(t) require := require.New(t) c := &Client{ tf: &stubTerraform{}, file: file.NewHandler(tc.fs), workingDir: constants.TerraformIAMWorkingDir, } path := path.Join(tc.pathBase, strings.ToLower(tc.provider.String())) err := c.PrepareWorkspace(path, tc.vars) // Test case: Check if we can continue to create on an incomplete workspace. if tc.partiallyExtracted { require.NoError(c.file.Remove(filepath.Join(c.workingDir, "main.tf"))) err = c.PrepareWorkspace(path, tc.vars) } if tc.wantErr { assert.Error(err) return } assert.NoError(err) }) } } func TestCreateCluster(t *testing.T) { newQEMUState := func() *tfjson.State { workingState := tfjson.State{ Values: &tfjson.StateValues{ Outputs: map[string]*tfjson.StateOutput{ "ip": { Value: "192.0.2.100", }, "initSecret": { Value: "initSecret", }, "uid": { Value: "12345abc", }, "api_server_cert_sans": { Value: []any{"192.0.2.100"}, }, }, }, } return &workingState } newAzureState := func() *tfjson.State { workingState := tfjson.State{ Values: &tfjson.StateValues{ Outputs: map[string]*tfjson.StateOutput{ "ip": { Value: "192.0.2.100", }, "initSecret": { Value: "initSecret", }, "uid": { Value: "12345abc", }, "attestationURL": { Value: "https://12345.neu.attest.azure.net", }, "api_server_cert_sans": { Value: []any{"192.0.2.100"}, }, "user_assigned_identity_client_id": { Value: "test_uami_id", }, "resource_group": { Value: "test_rg", }, "subscription_id": { Value: "test_subscription_id", }, "network_security_group_name": { Value: "test_nsg_name", }, "loadbalancer_name": { Value: "test_lb_name", }, }, }, } return &workingState } qemuVars := &QEMUVariables{ Name: "name", NodeGroups: map[string]QEMUNodeGroup{ "control-plane": { Role: role.ControlPlane.TFString(), DiskSize: 11, CPUCount: 1, MemorySize: 1024, }, }, Machine: "q35", ImagePath: "path", ImageFormat: "format", MetadataAPIImage: "api", } testCases := map[string]struct { pathBase string provider cloudprovider.Provider vars Variables tf *stubTerraform fs afero.Fs // expectedAttestationURL is the expected attestation URL to be returned by // the Terraform client. It is declared in the test case because it is // provider-specific. expectedAttestationURL string wantErr bool }{ "works": { pathBase: "terraform", provider: cloudprovider.QEMU, vars: qemuVars, tf: &stubTerraform{showState: newQEMUState()}, fs: afero.NewMemMapFs(), }, "init fails": { pathBase: "terraform", provider: cloudprovider.QEMU, vars: qemuVars, tf: &stubTerraform{initErr: assert.AnError}, fs: afero.NewMemMapFs(), wantErr: true, }, "apply fails": { pathBase: "terraform", provider: cloudprovider.QEMU, vars: qemuVars, tf: &stubTerraform{applyErr: assert.AnError}, fs: afero.NewMemMapFs(), wantErr: true, }, "show fails": { pathBase: "terraform", provider: cloudprovider.QEMU, vars: qemuVars, tf: &stubTerraform{showErr: assert.AnError}, fs: afero.NewMemMapFs(), wantErr: true, }, "set log fails": { pathBase: "terraform", provider: cloudprovider.QEMU, vars: qemuVars, tf: &stubTerraform{setLogErr: assert.AnError}, fs: afero.NewMemMapFs(), wantErr: true, }, "set log path fails": { pathBase: "terraform", provider: cloudprovider.QEMU, vars: qemuVars, tf: &stubTerraform{setLogPathErr: assert.AnError}, fs: afero.NewMemMapFs(), wantErr: true, }, "no ip": { pathBase: "terraform", provider: cloudprovider.QEMU, vars: qemuVars, tf: &stubTerraform{ showState: &tfjson.State{ Values: &tfjson.StateValues{ Outputs: map[string]*tfjson.StateOutput{}, }, }, }, fs: afero.NewMemMapFs(), wantErr: true, }, "ip has wrong type": { pathBase: "terraform", provider: cloudprovider.QEMU, vars: qemuVars, tf: &stubTerraform{ showState: &tfjson.State{ Values: &tfjson.StateValues{ Outputs: map[string]*tfjson.StateOutput{"ip": {Value: 42}}, }, }, }, fs: afero.NewMemMapFs(), wantErr: true, }, "no uid": { pathBase: "terraform", provider: cloudprovider.QEMU, vars: qemuVars, tf: &stubTerraform{ showState: &tfjson.State{ Values: &tfjson.StateValues{ Outputs: map[string]*tfjson.StateOutput{}, }, }, }, fs: afero.NewMemMapFs(), wantErr: true, }, "uid has wrong type": { pathBase: "terraform", provider: cloudprovider.QEMU, vars: qemuVars, tf: &stubTerraform{ showState: &tfjson.State{ Values: &tfjson.StateValues{ Outputs: map[string]*tfjson.StateOutput{"uid": {Value: 42}}, }, }, }, fs: afero.NewMemMapFs(), wantErr: true, }, "working attestation url": { pathBase: "terraform", provider: cloudprovider.Azure, vars: qemuVars, // works for mocking azure vars tf: &stubTerraform{showState: newAzureState()}, fs: afero.NewMemMapFs(), expectedAttestationURL: "https://12345.neu.attest.azure.net", }, "no attestation url": { pathBase: "terraform", provider: cloudprovider.Azure, vars: qemuVars, // works for mocking azure vars tf: &stubTerraform{ showState: &tfjson.State{ Values: &tfjson.StateValues{ Outputs: map[string]*tfjson.StateOutput{}, }, }, }, fs: afero.NewMemMapFs(), wantErr: true, }, "attestation url has wrong type": { pathBase: "terraform", provider: cloudprovider.Azure, vars: qemuVars, // works for mocking azure vars tf: &stubTerraform{ showState: &tfjson.State{ Values: &tfjson.StateValues{ Outputs: map[string]*tfjson.StateOutput{"attestationURL": {Value: 42}}, }, }, }, fs: afero.NewMemMapFs(), wantErr: true, }, } for name, tc := range testCases { t.Run(name, func(t *testing.T) { assert := assert.New(t) require := require.New(t) c := &Client{ tf: tc.tf, file: file.NewHandler(tc.fs), workingDir: "unittest", } path := path.Join(tc.pathBase, strings.ToLower(tc.provider.String())) require.NoError(c.PrepareWorkspace(path, tc.vars)) infraState, err := c.ApplyCluster(context.Background(), tc.provider, LogLevelDebug) if tc.wantErr { assert.Error(err) return } assert.NoError(err) assert.Equal("192.0.2.100", infraState.ClusterEndpoint) assert.Equal("initSecret", infraState.InitSecret) assert.Equal("12345abc", infraState.UID) if tc.provider == cloudprovider.Azure { assert.Equal(tc.expectedAttestationURL, infraState.Azure.AttestationURL) } }) } } func TestCreateIAM(t *testing.T) { newTestState := func() *tfjson.State { workingState := tfjson.State{ Values: &tfjson.StateValues{ Outputs: map[string]*tfjson.StateOutput{ "sa_key": { Value: "12345678_abcdefg", }, "subscription_id": { Value: "test_subscription_id", }, "tenant_id": { Value: "test_tenant_id", }, "application_id": { Value: "test_application_id", }, "uami_id": { Value: "test_uami_id", }, "application_client_secret_value": { Value: "test_application_client_secret_value", }, "control_plane_instance_profile": { Value: "test_control_plane_instance_profile", }, "worker_nodes_instance_profile": { Value: "test_worker_nodes_instance_profile", }, }, }, } return &workingState } gcpVars := &GCPIAMVariables{ Project: "const-1234", Region: "europe-west1", Zone: "europe-west1-a", ServiceAccountID: "const-test-case", } azureVars := &AzureIAMVariables{ Region: "westus", ResourceGroup: "constell-test-rg", } awsVars := &AWSIAMVariables{ Region: "eu-east-2a", Prefix: "test", } testCases := map[string]struct { pathBase string provider cloudprovider.Provider vars Variables tf *stubTerraform fs afero.Fs wantErr bool want IAMOutput }{ "set log fails": { pathBase: path.Join("terraform", "iam"), provider: cloudprovider.GCP, vars: gcpVars, tf: &stubTerraform{setLogErr: assert.AnError}, fs: afero.NewMemMapFs(), wantErr: true, }, "set log path fails": { pathBase: path.Join("terraform", "iam"), provider: cloudprovider.GCP, vars: gcpVars, tf: &stubTerraform{setLogPathErr: assert.AnError}, fs: afero.NewMemMapFs(), wantErr: true, }, "gcp works": { pathBase: path.Join("terraform", "iam"), provider: cloudprovider.GCP, vars: gcpVars, tf: &stubTerraform{showState: newTestState()}, fs: afero.NewMemMapFs(), want: IAMOutput{GCP: GCPIAMOutput{SaKey: "12345678_abcdefg"}}, }, "gcp init fails": { pathBase: path.Join("terraform", "iam"), provider: cloudprovider.GCP, vars: gcpVars, tf: &stubTerraform{initErr: assert.AnError}, fs: afero.NewMemMapFs(), wantErr: true, }, "gcp apply fails": { pathBase: path.Join("terraform", "iam"), provider: cloudprovider.GCP, vars: gcpVars, tf: &stubTerraform{applyErr: assert.AnError}, fs: afero.NewMemMapFs(), wantErr: true, }, "gcp show fails": { pathBase: path.Join("terraform", "iam"), provider: cloudprovider.GCP, vars: gcpVars, tf: &stubTerraform{showErr: assert.AnError}, fs: afero.NewMemMapFs(), wantErr: true, }, "gcp no sa_key": { pathBase: path.Join("terraform", "iam"), provider: cloudprovider.GCP, vars: gcpVars, tf: &stubTerraform{ showState: &tfjson.State{ Values: &tfjson.StateValues{ Outputs: map[string]*tfjson.StateOutput{}, }, }, }, fs: afero.NewMemMapFs(), wantErr: true, }, "gcp sa_key has wrong type": { pathBase: path.Join("terraform", "iam"), provider: cloudprovider.GCP, vars: gcpVars, tf: &stubTerraform{ showState: &tfjson.State{ Values: &tfjson.StateValues{ Outputs: map[string]*tfjson.StateOutput{"sa_key": {Value: 42}}, }, }, }, fs: afero.NewMemMapFs(), wantErr: true, }, "azure works": { pathBase: path.Join("terraform", "iam"), provider: cloudprovider.Azure, vars: azureVars, tf: &stubTerraform{showState: newTestState()}, fs: afero.NewMemMapFs(), want: IAMOutput{Azure: AzureIAMOutput{ SubscriptionID: "test_subscription_id", TenantID: "test_tenant_id", UAMIID: "test_uami_id", }}, }, "azure init fails": { pathBase: path.Join("terraform", "iam"), provider: cloudprovider.Azure, vars: azureVars, tf: &stubTerraform{initErr: assert.AnError}, fs: afero.NewMemMapFs(), wantErr: true, }, "azure apply fails": { pathBase: path.Join("terraform", "iam"), provider: cloudprovider.Azure, vars: azureVars, tf: &stubTerraform{applyErr: assert.AnError}, fs: afero.NewMemMapFs(), wantErr: true, }, "azure show fails": { pathBase: path.Join("terraform", "iam"), provider: cloudprovider.Azure, vars: azureVars, tf: &stubTerraform{showErr: assert.AnError}, fs: afero.NewMemMapFs(), wantErr: true, }, "azure no subscription_id": { pathBase: path.Join("terraform", "iam"), provider: cloudprovider.Azure, vars: azureVars, tf: &stubTerraform{ showState: &tfjson.State{ Values: &tfjson.StateValues{ Outputs: map[string]*tfjson.StateOutput{}, }, }, }, fs: afero.NewMemMapFs(), wantErr: true, }, "azure subscription_id has wrong type": { pathBase: path.Join("terraform", "iam"), provider: cloudprovider.Azure, vars: azureVars, tf: &stubTerraform{ showState: &tfjson.State{ Values: &tfjson.StateValues{ Outputs: map[string]*tfjson.StateOutput{"subscription_id": {Value: 42}}, }, }, }, fs: afero.NewMemMapFs(), wantErr: true, }, "aws works": { pathBase: path.Join("terraform", "iam"), provider: cloudprovider.AWS, vars: awsVars, tf: &stubTerraform{showState: newTestState()}, fs: afero.NewMemMapFs(), want: IAMOutput{AWS: AWSIAMOutput{ ControlPlaneInstanceProfile: "test_control_plane_instance_profile", WorkerNodeInstanceProfile: "test_worker_nodes_instance_profile", }}, }, "aws init fails": { pathBase: path.Join("terraform", "iam"), provider: cloudprovider.AWS, vars: awsVars, tf: &stubTerraform{initErr: assert.AnError}, fs: afero.NewMemMapFs(), wantErr: true, }, "aws apply fails": { pathBase: path.Join("terraform", "iam"), provider: cloudprovider.AWS, vars: awsVars, tf: &stubTerraform{applyErr: assert.AnError}, fs: afero.NewMemMapFs(), wantErr: true, }, "aws show fails": { pathBase: path.Join("terraform", "iam"), provider: cloudprovider.AWS, vars: awsVars, tf: &stubTerraform{showErr: assert.AnError}, fs: afero.NewMemMapFs(), wantErr: true, }, "aws no control_plane_instance_profile": { pathBase: path.Join("terraform", "iam"), provider: cloudprovider.AWS, vars: awsVars, tf: &stubTerraform{ showState: &tfjson.State{ Values: &tfjson.StateValues{ Outputs: map[string]*tfjson.StateOutput{}, }, }, }, fs: afero.NewMemMapFs(), wantErr: true, }, "azure control_plane_instance_profile has wrong type": { pathBase: path.Join("terraform", "iam"), provider: cloudprovider.AWS, vars: awsVars, tf: &stubTerraform{ showState: &tfjson.State{ Values: &tfjson.StateValues{ Outputs: map[string]*tfjson.StateOutput{"control_plane_instance_profile": {Value: 42}}, }, }, }, fs: afero.NewMemMapFs(), wantErr: true, }, } for name, tc := range testCases { t.Run(name, func(t *testing.T) { assert := assert.New(t) require := require.New(t) c := &Client{ tf: tc.tf, file: file.NewHandler(tc.fs), workingDir: constants.TerraformIAMWorkingDir, } path := path.Join(tc.pathBase, strings.ToLower(tc.provider.String())) require.NoError(c.PrepareWorkspace(path, tc.vars)) IAMoutput, err := c.ApplyIAM(context.Background(), tc.provider, LogLevelDebug) if tc.wantErr { assert.Error(err) return } assert.NoError(err) assert.Equal(tc.want, IAMoutput) }) } } func TestDestroyInstances(t *testing.T) { testCases := map[string]struct { tf *stubTerraform wantErr bool }{ "works": { tf: &stubTerraform{}, }, "destroy fails": { tf: &stubTerraform{destroyErr: assert.AnError}, wantErr: true, }, "setLog fails": { tf: &stubTerraform{setLogErr: assert.AnError}, wantErr: true, }, "setLogPath fails": { tf: &stubTerraform{setLogPathErr: assert.AnError}, wantErr: true, }, } for name, tc := range testCases { t.Run(name, func(t *testing.T) { assert := assert.New(t) c := &Client{ tf: tc.tf, } err := c.Destroy(context.Background(), LogLevelDebug) if tc.wantErr { assert.Error(err) return } assert.NoError(err) }) } } func TestCleanupWorkspace(t *testing.T) { someContent := []byte("some content") testCases := map[string]struct { provider cloudprovider.Provider prepareFS func(file.Handler) error wantErr bool }{ "files are cleaned up": { provider: cloudprovider.QEMU, prepareFS: func(f file.Handler) error { if err := f.Write("terraform.tfvars", someContent); err != nil { return err } if err := f.Write("terraform.tfstate", someContent); err != nil { return err } return f.Write("terraform.tfstate.backup", someContent) }, }, "no error if files do not exist": { provider: cloudprovider.QEMU, prepareFS: func(f file.Handler) error { return nil }, }, } for name, tc := range testCases { t.Run(name, func(t *testing.T) { assert := assert.New(t) require := require.New(t) file := file.NewHandler(afero.NewMemMapFs()) require.NoError(tc.prepareFS(file)) c := &Client{ file: file, tf: &stubTerraform{}, workingDir: "unittest", } err := c.CleanUpWorkspace() if tc.wantErr { assert.Error(err) return } assert.NoError(err) _, err = file.Stat(filepath.Join(c.workingDir, "terraform.tfvars")) assert.ErrorIs(err, fs.ErrNotExist) _, err = file.Stat(filepath.Join(c.workingDir, "terraform.tfstate")) assert.ErrorIs(err, fs.ErrNotExist) _, err = file.Stat(filepath.Join(c.workingDir, "terraform.tfstate.backup")) assert.ErrorIs(err, fs.ErrNotExist) }) } } func TestParseLogLevel(t *testing.T) { testCases := map[string]struct { level string want LogLevel wantErr bool }{ "json": { level: "json", want: LogLevelJSON, }, "trace": { level: "trace", want: LogLevelTrace, }, "debug": { level: "debug", want: LogLevelDebug, }, "info": { level: "info", want: LogLevelInfo, }, "warn": { level: "warn", want: LogLevelWarn, }, "error": { level: "error", want: LogLevelError, }, "none": { level: "none", want: LogLevelNone, }, "unknown": { level: "unknown", wantErr: true, }, "empty": { level: "", wantErr: true, }, } for name, tc := range testCases { t.Run(name, func(t *testing.T) { assert := assert.New(t) level, err := ParseLogLevel(tc.level) if tc.wantErr { assert.Error(err) return } assert.NoError(err) assert.Equal(tc.want, level) }) } } func TestLogLevelString(t *testing.T) { testCases := map[string]struct { level LogLevel want string }{ "json": { level: LogLevelJSON, want: "JSON", }, "trace": { level: LogLevelTrace, want: "TRACE", }, "debug": { level: LogLevelDebug, want: "DEBUG", }, "info": { level: LogLevelInfo, want: "INFO", }, "warn": { level: LogLevelWarn, want: "WARN", }, "error": { level: LogLevelError, want: "ERROR", }, "none": { level: LogLevelNone, want: "", }, "invalid int": { level: LogLevel(-1), want: "", }, } for name, tc := range testCases { t.Run(name, func(t *testing.T) { assert := assert.New(t) assert.Equal(tc.want, tc.level.String()) }) } } func TestPlan(t *testing.T) { someError := errors.New("some error") testCases := map[string]struct { pathBase string tf *stubTerraform fs afero.Fs wantErr bool }{ "plan succeeds": { pathBase: "terraform", tf: &stubTerraform{}, fs: afero.NewMemMapFs(), }, "set log path fails": { pathBase: "terraform", tf: &stubTerraform{ setLogPathErr: someError, }, fs: afero.NewMemMapFs(), wantErr: true, }, "set log fails": { pathBase: "terraform", tf: &stubTerraform{ setLogErr: someError, }, fs: afero.NewMemMapFs(), wantErr: true, }, "plan fails": { pathBase: "terraform", tf: &stubTerraform{ planJSONErr: someError, }, fs: afero.NewMemMapFs(), wantErr: true, }, "init fails": { pathBase: "terraform", tf: &stubTerraform{ initErr: someError, }, fs: afero.NewMemMapFs(), wantErr: true, }, } for name, tc := range testCases { t.Run(name, func(t *testing.T) { require := require.New(t) c := &Client{ file: file.NewHandler(tc.fs), tf: tc.tf, workingDir: tc.pathBase, } _, err := c.Plan(context.Background(), LogLevelDebug) if tc.wantErr { require.Error(err) } else { require.NoError(err) } }) } } func TestShowPlan(t *testing.T) { someError := errors.New("some error") testCases := map[string]struct { pathBase string tf *stubTerraform fs afero.Fs wantErr bool }{ "show plan succeeds": { pathBase: "terraform", tf: &stubTerraform{}, fs: afero.NewMemMapFs(), }, "set log path fails": { pathBase: "terraform", tf: &stubTerraform{ setLogPathErr: someError, }, fs: afero.NewMemMapFs(), wantErr: true, }, "set log fails": { pathBase: "terraform", tf: &stubTerraform{ setLogErr: someError, }, fs: afero.NewMemMapFs(), wantErr: true, }, "show plan file fails": { pathBase: "terraform", tf: &stubTerraform{ showPlanFileErr: someError, }, fs: afero.NewMemMapFs(), wantErr: true, }, } for name, tc := range testCases { t.Run(name, func(t *testing.T) { require := require.New(t) c := &Client{ file: file.NewHandler(tc.fs), tf: tc.tf, workingDir: tc.pathBase, } err := c.ShowPlan(context.Background(), LogLevelDebug, bytes.NewBuffer(nil)) if tc.wantErr { require.Error(err) } else { require.NoError(err) } }) } } func TestShowIAM(t *testing.T) { testCases := map[string]struct { tf *stubTerraform csp cloudprovider.Provider wantErr bool }{ "GCP success": { tf: &stubTerraform{ showState: getTfjsonState(map[string]any{ "sa_key": "key", }), }, csp: cloudprovider.GCP, }, "GCP wrong data type": { tf: &stubTerraform{ showState: getTfjsonState(map[string]any{ "sa_key": map[string]any{}, }), }, csp: cloudprovider.GCP, wantErr: true, }, "GCP missing key": { tf: &stubTerraform{ showState: getTfjsonState(map[string]any{}), }, csp: cloudprovider.GCP, wantErr: true, }, "Azure success": { tf: &stubTerraform{ showState: getTfjsonState(map[string]any{ "subscription_id": "sub", "tenant_id": "tenant", "uami_id": "uami", }), }, csp: cloudprovider.Azure, }, "Azure wrong data type subscription_id": { tf: &stubTerraform{ showState: getTfjsonState(map[string]any{ "subscription_id": map[string]any{}, "tenant_id": "tenant", "uami_id": "uami", }), }, csp: cloudprovider.Azure, wantErr: true, }, "Azure wrong data type tenant_id": { tf: &stubTerraform{ showState: getTfjsonState(map[string]any{ "subscription_id": "sub", "tenant_id": map[string]any{}, "uami_id": "uami", }), }, csp: cloudprovider.Azure, wantErr: true, }, "Azure wrong data type uami_id": { tf: &stubTerraform{ showState: getTfjsonState(map[string]any{ "subscription_id": "sub", "tenant_id": "tenant", "uami_id": map[string]any{}, }), }, csp: cloudprovider.Azure, wantErr: true, }, "Azure missing uami_id": { tf: &stubTerraform{ showState: getTfjsonState(map[string]any{ "subscription_id": "sub", "tenant_id": "tenant", }), }, csp: cloudprovider.Azure, wantErr: true, }, "Azure missing tenant_id": { tf: &stubTerraform{ showState: getTfjsonState(map[string]any{ "subscription_id": "sub", "uami_id": "uami", }), }, csp: cloudprovider.Azure, wantErr: true, }, "Azure missing subscription_id": { tf: &stubTerraform{ showState: getTfjsonState(map[string]any{ "tenant_id": "tenant", "uami_id": "uami", }), }, csp: cloudprovider.Azure, wantErr: true, }, "AWS success": { tf: &stubTerraform{ showState: getTfjsonState(map[string]any{ "control_plane_instance_profile": "profile", "worker_nodes_instance_profile": "profile", }), }, csp: cloudprovider.AWS, }, "AWS wrong data type control_plane_instance_profile": { tf: &stubTerraform{ showState: getTfjsonState(map[string]any{ "control_plane_instance_profile": map[string]any{}, "worker_nodes_instance_profile": "profile", }), }, csp: cloudprovider.AWS, wantErr: true, }, "AWS wrong data type worker_nodes_instance_profile": { tf: &stubTerraform{ showState: getTfjsonState(map[string]any{ "control_plane_instance_profile": "profile", "worker_nodes_instance_profile": map[string]any{}, }), }, csp: cloudprovider.AWS, wantErr: true, }, "AWS missing control_plane_instance_profile": { tf: &stubTerraform{ showState: getTfjsonState(map[string]any{ "worker_nodes_instance_profile": "profile", }), }, csp: cloudprovider.AWS, wantErr: true, }, "AWS missing worker_nodes_instance_profile": { tf: &stubTerraform{ showState: getTfjsonState(map[string]any{ "control_plane_instance_profile": "profile", }), }, csp: cloudprovider.AWS, wantErr: true, }, "Show fails": { tf: &stubTerraform{ showErr: assert.AnError, }, csp: cloudprovider.AWS, wantErr: true, }, "Show returns state with nil Value": { tf: &stubTerraform{ showState: &tfjson.State{}, }, csp: cloudprovider.AWS, wantErr: true, }, } for name, tc := range testCases { t.Run(name, func(t *testing.T) { assert := assert.New(t) c := &Client{ tf: tc.tf, } _, err := c.ShowIAM(context.Background(), tc.csp) if tc.wantErr { assert.Error(err) return } assert.NoError(err) }) } } type stubTerraform struct { applyErr error destroyErr error initErr error showErr error setLogErr error setLogPathErr error planJSONErr error showPlanFileErr error stateMvErr error showState *tfjson.State } func (s *stubTerraform) Apply(context.Context, ...tfexec.ApplyOption) error { return s.applyErr } func (s *stubTerraform) Destroy(context.Context, ...tfexec.DestroyOption) error { return s.destroyErr } func (s *stubTerraform) Init(context.Context, ...tfexec.InitOption) error { return s.initErr } func (s *stubTerraform) Show(context.Context, ...tfexec.ShowOption) (*tfjson.State, error) { return s.showState, s.showErr } func (s *stubTerraform) Plan(context.Context, ...tfexec.PlanOption) (bool, error) { return false, s.planJSONErr } func (s *stubTerraform) ShowPlanFileRaw(context.Context, string, ...tfexec.ShowOption) (string, error) { return "", s.showPlanFileErr } func (s *stubTerraform) SetLog(_ string) error { return s.setLogErr } func (s *stubTerraform) SetLogPath(_ string) error { return s.setLogPathErr } func (s *stubTerraform) StateMv(_ context.Context, _, _ string, _ ...tfexec.StateMvCmdOption) error { return s.stateMvErr } func getTfjsonState(values map[string]any) *tfjson.State { state := tfjson.State{ Values: &tfjson.StateValues{ Outputs: map[string]*tfjson.StateOutput{}, }, } for k, v := range values { state.Values.Outputs[k] = &tfjson.StateOutput{Value: v} } return &state }