package packer import ( "cgl.tideland.biz/asserts" "reflect" "testing" ) func testBuild() *coreBuild { return &coreBuild{ name: "test", builder: &TestBuilder{artifactId: "b"}, builderConfig: 42, builderType: "foo", hooks: map[string][]Hook{ "foo": []Hook{&MockHook{}}, }, provisioners: []coreBuildProvisioner{ coreBuildProvisioner{&MockProvisioner{}, []interface{}{42}}, }, postProcessors: [][]coreBuildPostProcessor{ []coreBuildPostProcessor{ coreBuildPostProcessor{&TestPostProcessor{artifactId: "pp"}, "testPP", make(map[string]interface{}), true}, }, }, variables: make(map[string]string), } } func testBuilder() *TestBuilder { return &TestBuilder{} } func testDefaultPackerConfig() map[string]interface{} { return map[string]interface{}{ BuildNameConfigKey: "test", BuilderTypeConfigKey: "foo", DebugConfigKey: false, ForceConfigKey: false, UserVariablesConfigKey: make(map[string]string), } } func TestBuild_Name(t *testing.T) { assert := asserts.NewTestingAsserts(t, true) build := testBuild() assert.Equal(build.Name(), "test", "should have a name") } func TestBuild_Prepare(t *testing.T) { assert := asserts.NewTestingAsserts(t, true) packerConfig := testDefaultPackerConfig() build := testBuild() builder := build.builder.(*TestBuilder) build.Prepare(nil) assert.True(builder.prepareCalled, "prepare should be called") assert.Equal(builder.prepareConfig, []interface{}{42, packerConfig}, "prepare config should be 42") coreProv := build.provisioners[0] prov := coreProv.provisioner.(*MockProvisioner) assert.True(prov.PrepCalled, "prepare should be called") assert.Equal(prov.PrepConfigs, []interface{}{42, packerConfig}, "prepare should be called with proper config") corePP := build.postProcessors[0][0] pp := corePP.processor.(*TestPostProcessor) assert.True(pp.configCalled, "config should be called") assert.Equal(pp.configVal, []interface{}{make(map[string]interface{}), packerConfig}, "config should have right value") } func TestBuild_Prepare_Twice(t *testing.T) { build := testBuild() if err := build.Prepare(nil); err != nil { t.Fatalf("bad error: %s", err) } defer func() { p := recover() if p == nil { t.Fatalf("should've paniced") } if p.(string) != "prepare already called" { t.Fatalf("Invalid panic: %s", p) } }() build.Prepare(nil) } func TestBuild_Prepare_Debug(t *testing.T) { assert := asserts.NewTestingAsserts(t, true) packerConfig := testDefaultPackerConfig() packerConfig[DebugConfigKey] = true build := testBuild() builder := build.builder.(*TestBuilder) build.SetDebug(true) build.Prepare(nil) assert.True(builder.prepareCalled, "prepare should be called") assert.Equal(builder.prepareConfig, []interface{}{42, packerConfig}, "prepare config should be 42") coreProv := build.provisioners[0] prov := coreProv.provisioner.(*MockProvisioner) assert.True(prov.PrepCalled, "prepare should be called") assert.Equal(prov.PrepConfigs, []interface{}{42, packerConfig}, "prepare should be called with proper config") } func TestBuildPrepare_variables_default(t *testing.T) { packerConfig := testDefaultPackerConfig() packerConfig[UserVariablesConfigKey] = map[string]string{ "foo": "bar", } build := testBuild() build.variables["foo"] = "bar" builder := build.builder.(*TestBuilder) err := build.Prepare(nil) if err != nil { t.Fatalf("err: %s", err) } if !builder.prepareCalled { t.Fatal("prepare should be called") } if !reflect.DeepEqual(builder.prepareConfig[1], packerConfig) { t.Fatalf("prepare bad: %#v", builder.prepareConfig[1]) } } func TestBuildPrepare_variables_nonexist(t *testing.T) { build := testBuild() build.variables["foo"] = "bar" err := build.Prepare(map[string]string{"bar": "baz"}) if err == nil { t.Fatal("should have had error") } } func TestBuildPrepare_variables_override(t *testing.T) { packerConfig := testDefaultPackerConfig() packerConfig[UserVariablesConfigKey] = map[string]string{ "foo": "baz", } build := testBuild() build.variables["foo"] = "bar" builder := build.builder.(*TestBuilder) err := build.Prepare(map[string]string{"foo": "baz"}) if err != nil { t.Fatalf("err: %s", err) } if !builder.prepareCalled { t.Fatal("prepare should be called") } if !reflect.DeepEqual(builder.prepareConfig[1], packerConfig) { t.Fatalf("prepare bad: %#v", builder.prepareConfig[1]) } } func TestBuild_Run(t *testing.T) { assert := asserts.NewTestingAsserts(t, true) cache := &TestCache{} ui := testUi() build := testBuild() build.Prepare(nil) artifacts, err := build.Run(ui, cache) assert.Nil(err, "should not error") assert.Equal(len(artifacts), 2, "should have two artifacts") // Verify builder was run builder := build.builder.(*TestBuilder) assert.True(builder.runCalled, "run should be called") // Verify hooks are disapatchable dispatchHook := builder.runHook dispatchHook.Run("foo", nil, nil, 42) hook := build.hooks["foo"][0].(*MockHook) assert.True(hook.RunCalled, "run should be called") assert.Equal(hook.RunData, 42, "should have correct data") // Verify provisioners run dispatchHook.Run(HookProvision, nil, nil, 42) prov := build.provisioners[0].provisioner.(*MockProvisioner) assert.True(prov.ProvCalled, "provision should be called") // Verify post-processor was run pp := build.postProcessors[0][0].processor.(*TestPostProcessor) assert.True(pp.ppCalled, "post processor should be called") } func TestBuild_Run_Artifacts(t *testing.T) { cache := &TestCache{} ui := testUi() // Test case: Test that with no post-processors, we only get the // main build. build := testBuild() build.postProcessors = [][]coreBuildPostProcessor{} build.Prepare(nil) artifacts, err := build.Run(ui, cache) if err != nil { t.Fatalf("err: %s", err) } expectedIds := []string{"b"} artifactIds := make([]string, len(artifacts)) for i, artifact := range artifacts { artifactIds[i] = artifact.Id() } if !reflect.DeepEqual(artifactIds, expectedIds) { t.Fatalf("unexpected ids: %#v", artifactIds) } // Test case: Test that with a single post-processor that doesn't keep // inputs, only that post-processors results are returned. build = testBuild() build.postProcessors = [][]coreBuildPostProcessor{ []coreBuildPostProcessor{ coreBuildPostProcessor{&TestPostProcessor{artifactId: "pp"}, "pp", make(map[string]interface{}), false}, }, } build.Prepare(nil) artifacts, err = build.Run(ui, cache) if err != nil { t.Fatalf("err: %s", err) } expectedIds = []string{"pp"} artifactIds = make([]string, len(artifacts)) for i, artifact := range artifacts { artifactIds[i] = artifact.Id() } if !reflect.DeepEqual(artifactIds, expectedIds) { t.Fatalf("unexpected ids: %#v", artifactIds) } // Test case: Test that with multiple post-processors, as long as one // keeps the original, the original is kept. build = testBuild() build.postProcessors = [][]coreBuildPostProcessor{ []coreBuildPostProcessor{ coreBuildPostProcessor{&TestPostProcessor{artifactId: "pp1"}, "pp", make(map[string]interface{}), false}, }, []coreBuildPostProcessor{ coreBuildPostProcessor{&TestPostProcessor{artifactId: "pp2"}, "pp", make(map[string]interface{}), true}, }, } build.Prepare(nil) artifacts, err = build.Run(ui, cache) if err != nil { t.Fatalf("err: %s", err) } expectedIds = []string{"b", "pp1", "pp2"} artifactIds = make([]string, len(artifacts)) for i, artifact := range artifacts { artifactIds[i] = artifact.Id() } if !reflect.DeepEqual(artifactIds, expectedIds) { t.Fatalf("unexpected ids: %#v", artifactIds) } // Test case: Test that with sequences, intermediaries are kept if they // want to be. build = testBuild() build.postProcessors = [][]coreBuildPostProcessor{ []coreBuildPostProcessor{ coreBuildPostProcessor{&TestPostProcessor{artifactId: "pp1a"}, "pp", make(map[string]interface{}), false}, coreBuildPostProcessor{&TestPostProcessor{artifactId: "pp1b"}, "pp", make(map[string]interface{}), true}, }, []coreBuildPostProcessor{ coreBuildPostProcessor{&TestPostProcessor{artifactId: "pp2a"}, "pp", make(map[string]interface{}), false}, coreBuildPostProcessor{&TestPostProcessor{artifactId: "pp2b"}, "pp", make(map[string]interface{}), false}, }, } build.Prepare(nil) artifacts, err = build.Run(ui, cache) if err != nil { t.Fatalf("err: %s", err) } expectedIds = []string{"pp1a", "pp1b", "pp2b"} artifactIds = make([]string, len(artifacts)) for i, artifact := range artifacts { artifactIds[i] = artifact.Id() } if !reflect.DeepEqual(artifactIds, expectedIds) { t.Fatalf("unexpected ids: %#v", artifactIds) } // Test case: Test that with a single post-processor that forcibly // keeps inputs, that the artifacts are kept. build = testBuild() build.postProcessors = [][]coreBuildPostProcessor{ []coreBuildPostProcessor{ coreBuildPostProcessor{ &TestPostProcessor{artifactId: "pp", keep: true}, "pp", make(map[string]interface{}), false, }, }, } build.Prepare(nil) artifacts, err = build.Run(ui, cache) if err != nil { t.Fatalf("err: %s", err) } expectedIds = []string{"b", "pp"} artifactIds = make([]string, len(artifacts)) for i, artifact := range artifacts { artifactIds[i] = artifact.Id() } if !reflect.DeepEqual(artifactIds, expectedIds) { t.Fatalf("unexpected ids: %#v", artifactIds) } } func TestBuild_RunBeforePrepare(t *testing.T) { assert := asserts.NewTestingAsserts(t, true) defer func() { p := recover() assert.NotNil(p, "should panic") assert.Equal(p.(string), "Prepare must be called first", "right panic") }() testBuild().Run(testUi(), &TestCache{}) } func TestBuild_Cancel(t *testing.T) { assert := asserts.NewTestingAsserts(t, true) build := testBuild() build.Cancel() builder := build.builder.(*TestBuilder) assert.True(builder.cancelCalled, "cancel should be called") }