package getproviders import ( "fmt" "regexp" "strings" "testing" "github.com/apparentlymart/go-versions/versions" "github.com/google/go-cmp/cmp" svchost "github.com/hashicorp/terraform-svchost" "github.com/hashicorp/terraform/addrs" ) func TestSourceAvailableVersions(t *testing.T) { source, baseURL, close := testRegistrySource(t) defer close() tests := []struct { provider string wantVersions []string wantErr string }{ // These test cases are relying on behaviors of the fake provider // registry server implemented in client_test.go. { "example.com/awesomesauce/happycloud", []string{"1.0.0", "1.2.0"}, ``, }, { "example.com/weaksauce/no-versions", nil, ``, // having no versions is not an error, it's just odd }, { "example.com/nonexist/nonexist", nil, `provider registry example.com does not have a provider named example.com/nonexist/nonexist`, }, { "not.example.com/foo/bar", nil, `host not.example.com does not offer a Terraform provider registry`, }, { "too-new.example.com/foo/bar", nil, `host too-new.example.com does not support the provider registry protocol required by this Terraform version, but may be compatible with a different Terraform version`, }, { "fails.example.com/foo/bar", nil, `could not query provider registry for fails.example.com/foo/bar: Get ` + baseURL + `/fails-immediately/foo/bar/versions: EOF`, }, } for _, test := range tests { t.Run(test.provider, func(t *testing.T) { // TEMP: We don't yet have a function for parsing provider // source addresses so we'll just fake it in here for now. parts := strings.Split(test.provider, "/") providerAddr := addrs.Provider{ Hostname: svchost.Hostname(parts[0]), Namespace: parts[1], Type: parts[2], } gotVersions, err := source.AvailableVersions(providerAddr) if err != nil { if test.wantErr == "" { t.Fatalf("wrong error\ngot: %s\nwant: ", err.Error()) } if got, want := err.Error(), test.wantErr; got != want { t.Fatalf("wrong error\ngot: %s\nwant: %s", got, want) } return } if test.wantErr != "" { t.Fatalf("wrong error\ngot: \nwant: %s", test.wantErr) } var gotVersionsStr []string if gotVersions != nil { gotVersionsStr = make([]string, len(gotVersions)) for i, v := range gotVersions { gotVersionsStr[i] = v.String() } } if diff := cmp.Diff(test.wantVersions, gotVersionsStr); diff != "" { t.Errorf("wrong result\n%s", diff) } }) } } func TestSourcePackageMeta(t *testing.T) { source, baseURL, close := testRegistrySource(t) defer close() tests := []struct { provider string version string os, arch string want PackageMeta wantErr string }{ // These test cases are relying on behaviors of the fake provider // registry server implemented in client_test.go. { "example.com/awesomesauce/happycloud", "1.2.0", "linux", "amd64", PackageMeta{ Provider: addrs.NewProvider( svchost.Hostname("example.com"), "awesomesauce", "happycloud", ), Version: versions.MustParseVersion("1.2.0"), ProtocolVersions: VersionList{versions.MustParseVersion("5.0.0")}, TargetPlatform: Platform{"linux", "amd64"}, Filename: "happycloud_1.2.0.zip", Location: PackageHTTPURL(baseURL + "/pkg/happycloud_1.2.0.zip"), SHA256Sum: [32]uint8{30: 0xf0, 31: 0x0d}, // fake registry uses a memorable sum }, ``, }, { "example.com/awesomesauce/happycloud", "1.2.0", "nonexist", "amd64", PackageMeta{}, `provider example.com/awesomesauce/happycloud 1.2.0 is not available for nonexist_amd64`, }, { "not.example.com/awesomesauce/happycloud", "1.2.0", "linux", "amd64", PackageMeta{}, `host not.example.com does not offer a Terraform provider registry`, }, { "too-new.example.com/awesomesauce/happycloud", "1.2.0", "linux", "amd64", PackageMeta{}, `host too-new.example.com does not support the provider registry protocol required by this Terraform version, but may be compatible with a different Terraform version`, }, { "fails.example.com/awesomesauce/happycloud", "1.2.0", "linux", "amd64", PackageMeta{}, `could not query provider registry for fails.example.com/awesomesauce/happycloud: Get http://placeholder-origin/fails-immediately/awesomesauce/happycloud/1.2.0/download/linux/amd64: EOF`, }, } // Sometimes error messages contain specific HTTP endpoint URLs, but // since our test server is on a random port we'd not be able to // consistently match those. Instead, we'll normalize the URLs. urlPattern := regexp.MustCompile(`http://[^/]+/`) cmpOpts := cmp.Comparer(Version.Same) for _, test := range tests { t.Run(fmt.Sprintf("%s for %s_%s", test.provider, test.os, test.arch), func(t *testing.T) { // TEMP: We don't yet have a function for parsing provider // source addresses so we'll just fake it in here for now. parts := strings.Split(test.provider, "/") providerAddr := addrs.Provider{ Hostname: svchost.Hostname(parts[0]), Namespace: parts[1], Type: parts[2], } version := versions.MustParseVersion(test.version) got, err := source.PackageMeta(providerAddr, version, Platform{test.os, test.arch}) if err != nil { if test.wantErr == "" { t.Fatalf("wrong error\ngot: %s\nwant: ", err.Error()) } gotErr := urlPattern.ReplaceAllLiteralString(err.Error(), "http://placeholder-origin/") if got, want := gotErr, test.wantErr; got != want { t.Fatalf("wrong error\ngot: %s\nwant: %s", got, want) } return } if test.wantErr != "" { t.Fatalf("wrong error\ngot: \nwant: %s", test.wantErr) } if diff := cmp.Diff(test.want, got, cmpOpts); diff != "" { t.Errorf("wrong result\n%s", diff) } }) } }