package shell import ( "io/ioutil" "os" "regexp" "strings" "testing" "github.com/hashicorp/packer/packer" "github.com/hashicorp/packer/packer-plugin-sdk/multistep/commonsteps" ) func testConfig() map[string]interface{} { return map[string]interface{}{ "inline": []interface{}{"foo", "bar"}, } } func TestProvisioner_Impl(t *testing.T) { var raw interface{} raw = &Provisioner{} if _, ok := raw.(packer.Provisioner); !ok { t.Fatalf("must be a Provisioner") } } func TestProvisionerPrepare_Defaults(t *testing.T) { var p Provisioner config := testConfig() err := p.Prepare(config) if err != nil { t.Fatalf("err: %s", err) } if p.config.ExpectDisconnect != false { t.Errorf("expected ExpectDisconnect to default to false") } if p.config.RemotePath == "" { t.Errorf("unexpected remote path: %s", p.config.RemotePath) } } func TestProvisionerPrepare_ExpectDisconnect(t *testing.T) { config := testConfig() p := new(Provisioner) config["expect_disconnect"] = false err := p.Prepare(config) if err != nil { t.Fatalf("err: %s", err) } if p.config.ExpectDisconnect != false { t.Errorf("expected ExpectDisconnect to be false") } config["expect_disconnect"] = true p = new(Provisioner) err = p.Prepare(config) if err != nil { t.Fatalf("err: %s", err) } if p.config.ExpectDisconnect != true { t.Errorf("expected ExpectDisconnect to be true") } } func TestProvisionerPrepare_InlineShebang(t *testing.T) { config := testConfig() delete(config, "inline_shebang") p := new(Provisioner) err := p.Prepare(config) if err != nil { t.Fatalf("should not have error: %s", err) } if p.config.InlineShebang != "/bin/sh -e" { t.Fatalf("bad value: %s", p.config.InlineShebang) } // Test with a good one config["inline_shebang"] = "foo" p = new(Provisioner) err = p.Prepare(config) if err != nil { t.Fatalf("should not have error: %s", err) } if p.config.InlineShebang != "foo" { t.Fatalf("bad value: %s", p.config.InlineShebang) } } func TestProvisionerPrepare_InvalidKey(t *testing.T) { var p Provisioner config := testConfig() // Add a random key config["i_should_not_be_valid"] = true err := p.Prepare(config) if err == nil { t.Fatal("should have error") } } func TestProvisionerPrepare_Script(t *testing.T) { config := testConfig() delete(config, "inline") config["script"] = "/this/should/not/exist" p := new(Provisioner) err := p.Prepare(config) if err == nil { t.Fatal("should have error") } // Test with a good one tf, err := ioutil.TempFile("", "packer") if err != nil { t.Fatalf("error tempfile: %s", err) } defer os.Remove(tf.Name()) config["script"] = tf.Name() p = new(Provisioner) err = p.Prepare(config) if err != nil { t.Fatalf("should not have error: %s", err) } } func TestProvisionerPrepare_ScriptAndInline(t *testing.T) { var p Provisioner config := testConfig() delete(config, "inline") delete(config, "script") err := p.Prepare(config) if err == nil { t.Fatal("should have error") } // Test with both tf, err := ioutil.TempFile("", "packer") if err != nil { t.Fatalf("error tempfile: %s", err) } defer os.Remove(tf.Name()) config["inline"] = []interface{}{"foo"} config["script"] = tf.Name() err = p.Prepare(config) if err == nil { t.Fatal("should have error") } } func TestProvisionerPrepare_ScriptAndScripts(t *testing.T) { var p Provisioner config := testConfig() // Test with both tf, err := ioutil.TempFile("", "packer") if err != nil { t.Fatalf("error tempfile: %s", err) } defer os.Remove(tf.Name()) config["inline"] = []interface{}{"foo"} config["scripts"] = []string{tf.Name()} err = p.Prepare(config) if err == nil { t.Fatal("should have error") } } func TestProvisionerPrepare_Scripts(t *testing.T) { config := testConfig() delete(config, "inline") config["scripts"] = []string{} p := new(Provisioner) err := p.Prepare(config) if err == nil { t.Fatal("should have error") } // Test with a good one tf, err := ioutil.TempFile("", "packer") if err != nil { t.Fatalf("error tempfile: %s", err) } defer os.Remove(tf.Name()) config["scripts"] = []string{tf.Name()} p = new(Provisioner) err = p.Prepare(config) if err != nil { t.Fatalf("should not have error: %s", err) } } func TestProvisionerPrepare_EnvironmentVars(t *testing.T) { config := testConfig() // Test with a bad case config["environment_vars"] = []string{"badvar", "good=var"} p := new(Provisioner) err := p.Prepare(config) if err == nil { t.Fatal("should have error") } // Test with a trickier case config["environment_vars"] = []string{"=bad"} p = new(Provisioner) err = p.Prepare(config) if err == nil { t.Fatal("should have error") } // Test with a good case // Note: baz= is a real env variable, just empty config["environment_vars"] = []string{"FOO=bar", "baz="} p = new(Provisioner) err = p.Prepare(config) if err != nil { t.Fatalf("should not have error: %s", err) } // Test when the env variable value contains an equals sign config["environment_vars"] = []string{"good=withequals=true"} p = new(Provisioner) err = p.Prepare(config) if err != nil { t.Fatalf("should not have error: %s", err) } // Test when the env variable value starts with an equals sign config["environment_vars"] = []string{"good==true"} p = new(Provisioner) err = p.Prepare(config) if err != nil { t.Fatalf("should not have error: %s", err) } } func TestProvisioner_createFlattenedEnvVars(t *testing.T) { var flattenedEnvVars string config := testConfig() userEnvVarTests := [][]string{ {}, // No user env var {"FOO=bar"}, // Single user env var {"FOO=bar's"}, // User env var with single quote in value {"FOO=bar", "BAZ=qux"}, // Multiple user env vars {"FOO=bar=baz"}, // User env var with value containing equals {"FOO==bar"}, // User env var with value starting with equals } expected := []string{ `PACKER_BUILDER_TYPE='iso' PACKER_BUILD_NAME='vmware' `, `FOO='bar' PACKER_BUILDER_TYPE='iso' PACKER_BUILD_NAME='vmware' `, `FOO='bar'"'"'s' PACKER_BUILDER_TYPE='iso' PACKER_BUILD_NAME='vmware' `, `BAZ='qux' FOO='bar' PACKER_BUILDER_TYPE='iso' PACKER_BUILD_NAME='vmware' `, `FOO='bar=baz' PACKER_BUILDER_TYPE='iso' PACKER_BUILD_NAME='vmware' `, `FOO='=bar' PACKER_BUILDER_TYPE='iso' PACKER_BUILD_NAME='vmware' `, } p := new(Provisioner) p.generatedData = generatedData() p.Prepare(config) // Defaults provided by Packer p.config.PackerBuildName = "vmware" p.config.PackerBuilderType = "iso" for i, expectedValue := range expected { p.config.Vars = userEnvVarTests[i] flattenedEnvVars = p.createFlattenedEnvVars() if flattenedEnvVars != expectedValue { t.Fatalf("expected flattened env vars to be: %s, got %s.", expectedValue, flattenedEnvVars) } } } func TestProvisioner_createFlattenedEnvVars_withEnvVarFormat(t *testing.T) { var flattenedEnvVars string config := testConfig() userEnvVarTests := [][]string{ {}, // No user env var {"FOO=bar"}, // Single user env var {"FOO=bar's"}, // User env var with single quote in value {"FOO=bar", "BAZ=qux"}, // Multiple user env vars {"FOO=bar=baz"}, // User env var with value containing equals {"FOO==bar"}, // User env var with value starting with equals } expected := []string{ `PACKER_BUILDER_TYPE=iso PACKER_BUILD_NAME=vmware `, `FOO=bar PACKER_BUILDER_TYPE=iso PACKER_BUILD_NAME=vmware `, `FOO=bar'"'"'s PACKER_BUILDER_TYPE=iso PACKER_BUILD_NAME=vmware `, `BAZ=qux FOO=bar PACKER_BUILDER_TYPE=iso PACKER_BUILD_NAME=vmware `, `FOO=bar=baz PACKER_BUILDER_TYPE=iso PACKER_BUILD_NAME=vmware `, `FOO==bar PACKER_BUILDER_TYPE=iso PACKER_BUILD_NAME=vmware `, } p := new(Provisioner) p.generatedData = generatedData() p.config.EnvVarFormat = "%s=%s " p.Prepare(config) // Defaults provided by Packer p.config.PackerBuildName = "vmware" p.config.PackerBuilderType = "iso" for i, expectedValue := range expected { p.config.Vars = userEnvVarTests[i] flattenedEnvVars = p.createFlattenedEnvVars() if flattenedEnvVars != expectedValue { t.Fatalf("expected flattened env vars to be: %s, got %s.", expectedValue, flattenedEnvVars) } } } func TestProvisioner_createEnvVarFileContent(t *testing.T) { var flattenedEnvVars string config := testConfig() userEnvVarTests := [][]string{ {}, // No user env var {"FOO=bar"}, // Single user env var {"FOO=bar's"}, // User env var with single quote in value {"FOO=bar", "BAZ=qux"}, // Multiple user env vars {"FOO=bar=baz"}, // User env var with value containing equals {"FOO==bar"}, // User env var with value starting with equals } expected := []string{ `export PACKER_BUILDER_TYPE='iso' export PACKER_BUILD_NAME='vmware' `, `export FOO='bar' export PACKER_BUILDER_TYPE='iso' export PACKER_BUILD_NAME='vmware' `, `export FOO='bar'"'"'s' export PACKER_BUILDER_TYPE='iso' export PACKER_BUILD_NAME='vmware' `, `export BAZ='qux' export FOO='bar' export PACKER_BUILDER_TYPE='iso' export PACKER_BUILD_NAME='vmware' `, `export FOO='bar=baz' export PACKER_BUILDER_TYPE='iso' export PACKER_BUILD_NAME='vmware' `, `export FOO='=bar' export PACKER_BUILDER_TYPE='iso' export PACKER_BUILD_NAME='vmware' `, } p := new(Provisioner) p.generatedData = generatedData() p.config.UseEnvVarFile = true p.Prepare(config) // Defaults provided by Packer p.config.PackerBuildName = "vmware" p.config.PackerBuilderType = "iso" for i, expectedValue := range expected { p.config.Vars = userEnvVarTests[i] flattenedEnvVars = p.createEnvVarFileContent() if flattenedEnvVars != expectedValue { t.Fatalf("expected flattened env vars to be: %s, got %s.", expectedValue, flattenedEnvVars) } } } func TestProvisioner_createEnvVarFileContent_withEnvVarFormat(t *testing.T) { var flattenedEnvVars string config := testConfig() userEnvVarTests := [][]string{ {}, // No user env var {"FOO=bar", "BAZ=qux"}, // Multiple user env vars {"FOO=bar=baz"}, // User env var with value containing equals {"FOO==bar"}, // User env var with value starting with equals } expected := []string{ `PACKER_BUILDER_TYPE=iso PACKER_BUILD_NAME=vmware `, `BAZ=qux FOO=bar PACKER_BUILDER_TYPE=iso PACKER_BUILD_NAME=vmware `, `FOO=bar=baz PACKER_BUILDER_TYPE=iso PACKER_BUILD_NAME=vmware `, `FOO==bar PACKER_BUILDER_TYPE=iso PACKER_BUILD_NAME=vmware `, } p := new(Provisioner) p.generatedData = generatedData() p.config.UseEnvVarFile = true //User provided env_var_format without export prefix p.config.EnvVarFormat = "%s=%s\n" p.Prepare(config) // Defaults provided by Packer p.config.PackerBuildName = "vmware" p.config.PackerBuilderType = "iso" for i, expectedValue := range expected { p.config.Vars = userEnvVarTests[i] flattenedEnvVars = p.createEnvVarFileContent() if flattenedEnvVars != expectedValue { t.Fatalf("expected flattened env vars to be: %q, got %q.", expectedValue, flattenedEnvVars) } } } func TestProvisioner_RemoteFolderSetSuccessfully(t *testing.T) { config := testConfig() expectedRemoteFolder := "/example/path" config["remote_folder"] = expectedRemoteFolder p := new(Provisioner) err := p.Prepare(config) if err != nil { t.Fatalf("should not have error: %s", err) } if !strings.Contains(p.config.RemotePath, expectedRemoteFolder) { t.Fatalf("remote path does not contain remote_folder") } } func TestProvisioner_RemoteFolderDefaultsToTmp(t *testing.T) { config := testConfig() p := new(Provisioner) err := p.Prepare(config) if err != nil { t.Fatalf("should not have error: %s", err) } if p.config.RemoteFolder != "/tmp" { t.Fatalf("remote_folder did not default to /tmp") } if !strings.Contains(p.config.RemotePath, "/tmp") { t.Fatalf("remote path does not contain remote_folder") } } func TestProvisioner_RemoteFileSetSuccessfully(t *testing.T) { config := testConfig() expectedRemoteFile := "example.sh" config["remote_file"] = expectedRemoteFile p := new(Provisioner) err := p.Prepare(config) if err != nil { t.Fatalf("should not have error: %s", err) } if !strings.Contains(p.config.RemotePath, expectedRemoteFile) { t.Fatalf("remote path does not contain remote_file") } } func TestProvisioner_RemoteFileDefaultsToScriptnnnn(t *testing.T) { config := testConfig() p := new(Provisioner) err := p.Prepare(config) if err != nil { t.Fatalf("should not have error: %s", err) } remoteFileRegex := regexp.MustCompile("script_[0-9]{1,4}.sh") if !remoteFileRegex.MatchString(p.config.RemoteFile) { t.Fatalf("remote_file did not default to script_nnnn.sh: %q", p.config.RemoteFile) } if !remoteFileRegex.MatchString(p.config.RemotePath) { t.Fatalf("remote_path did not match script_nnnn.sh: %q", p.config.RemotePath) } } func TestProvisioner_RemotePathSetViaRemotePathAndRemoteFile(t *testing.T) { config := testConfig() expectedRemoteFile := "example.sh" expectedRemoteFolder := "/example/path" config["remote_file"] = expectedRemoteFile config["remote_folder"] = expectedRemoteFolder p := new(Provisioner) err := p.Prepare(config) if err != nil { t.Fatalf("should not have error: %s", err) } if p.config.RemotePath != expectedRemoteFolder+"/"+expectedRemoteFile { t.Fatalf("remote path does not contain remote_file: %q", p.config.RemotePath) } } func TestProvisioner_RemotePathOverridesRemotePathAndRemoteFile(t *testing.T) { config := testConfig() expectedRemoteFile := "example.sh" expectedRemoteFolder := "/example/path" expectedRemotePath := "/example/remote/path/script.sh" config["remote_file"] = expectedRemoteFile config["remote_folder"] = expectedRemoteFolder config["remote_path"] = expectedRemotePath p := new(Provisioner) err := p.Prepare(config) if err != nil { t.Fatalf("should not have error: %s", err) } if p.config.RemotePath != expectedRemotePath { t.Fatalf("remote path does not contain remote_path: %q", p.config.RemotePath) } } func TestProvisionerRemotePathDefaultsSuccessfully(t *testing.T) { config := testConfig() p := new(Provisioner) err := p.Prepare(config) if err != nil { t.Fatalf("should not have error: %s", err) } remotePathRegex := regexp.MustCompile("/tmp/script_[0-9]{1,4}.sh") if !remotePathRegex.MatchString(p.config.RemotePath) { t.Fatalf("remote path does not match the expected default regex: %q", p.config.RemotePath) } } func generatedData() map[string]interface{} { return map[string]interface{}{ "PackerHTTPAddr": commonsteps.HttpAddrNotImplemented, "PackerHTTPIP": commonsteps.HttpIPNotImplemented, "PackerHTTPPort": commonsteps.HttpPortNotImplemented, } }