const std = @import("std"); const expect = std.testing.expect; // TODO: validate this matches the schema pub const Smithy = struct { version: []const u8, metadata: ModelMetadata, shapes: []ShapeInfo, allocator: std.mem.Allocator, const Self = @This(); pub fn init(allocator: std.mem.Allocator, version: []const u8, metadata: ModelMetadata, shapeinfo: []ShapeInfo) Smithy { return .{ .version = version, .metadata = metadata, .shapes = shapeinfo, .allocator = allocator, }; } pub fn deinit(self: Self) void { for (self.shapes) |s| { switch (s.shape) { .string, .byte, .short, .integer, .long, .float, .double, .bigInteger, .bigDecimal, .blob, .boolean, .timestamp, .document, .member, .resource, => |v| self.allocator.free(v.traits), .structure => |v| { for (v.members) |m| self.allocator.free(m.traits); self.allocator.free(v.members); self.allocator.free(v.traits); }, .uniontype => |v| { for (v.members) |m| self.allocator.free(m.traits); self.allocator.free(v.members); self.allocator.free(v.traits); }, .service => |v| { self.allocator.free(v.traits); self.allocator.free(v.operations); }, .operation => |v| { if (v.errors) |e| self.allocator.free(e); self.allocator.free(v.traits); }, .list => |v| { self.allocator.free(v.traits); }, .set => |v| { self.allocator.free(v.traits); }, .map => |v| { self.allocator.free(v.key); self.allocator.free(v.value); self.allocator.free(v.traits); }, .@"enum" => |v| { for (v.members) |m| self.allocator.free(m.traits); self.allocator.free(v.members); self.allocator.free(v.traits); }, .unit => |v| { self.allocator.free(v.traits); }, } } self.allocator.free(self.shapes); } }; pub const ShapeInfo = struct { id: []const u8, namespace: []const u8, name: []const u8, member: ?[]const u8, shape: Shape, }; const ModelMetadata = struct { suppressions: []struct { id: []const u8, namespace: []const u8, }, }; pub const TraitType = enum { aws_api_service, aws_auth_sigv4, aws_protocol, ec2_query_name, http, http_header, http_label, http_query, http_payload, json_name, xml_name, required, // required on the server client_optional, // optional as far as the client is concerned documentation, pattern, range, length, box, sparse, enum_value, aws_query_error, }; pub const Trait = union(TraitType) { aws_api_service: struct { sdk_id: []const u8, arn_namespace: ?[]const u8, cloudformation_name: ?[]const u8, cloudtrail_event_source: ?[]const u8, endpoint_prefix: []const u8, }, aws_auth_sigv4: struct { name: []const u8, }, aws_protocol: AwsProtocol, ec2_query_name: []const u8, json_name: []const u8, xml_name: []const u8, http: struct { method: []const u8, uri: []const u8, code: i64 = 200, }, http_header: []const u8, http_label: []const u8, http_query: []const u8, http_payload: struct {}, required: struct {}, client_optional: void, documentation: []const u8, pattern: []const u8, range: struct { // most data is actually integers, but as some are floats, we'll use that here min: ?f64, max: ?f64, }, length: struct { min: ?f64, max: ?f64, }, box: struct {}, sparse: struct {}, enum_value: []const u8, aws_query_error: struct { http_response_code: i64, code: []const u8, }, }; const ShapeType = enum { blob, boolean, string, byte, short, integer, long, float, double, bigInteger, bigDecimal, timestamp, document, member, list, set, map, structure, uniontype, service, operation, resource, @"enum", unit, }; const TraitsOnly = struct { traits: []Trait, }; pub const TypeMember = struct { name: []const u8, target: []const u8, traits: []Trait, }; const Shape = union(ShapeType) { blob: TraitsOnly, boolean: TraitsOnly, string: TraitsOnly, byte: TraitsOnly, short: TraitsOnly, integer: TraitsOnly, long: TraitsOnly, float: TraitsOnly, double: TraitsOnly, bigInteger: TraitsOnly, bigDecimal: TraitsOnly, timestamp: TraitsOnly, document: TraitsOnly, member: TraitsOnly, list: struct { member_target: []const u8, traits: []Trait, }, set: struct { member_target: []const u8, traits: []Trait, }, map: struct { key: []const u8, value: []const u8, traits: []Trait, }, structure: struct { members: []TypeMember, traits: []Trait, }, uniontype: struct { members: []TypeMember, traits: []Trait, }, service: struct { version: []const u8, operations: [][]const u8, resources: [][]const u8, traits: []Trait, }, operation: struct { input: ?[]const u8, output: ?[]const u8, errors: ?[][]const u8, traits: []Trait, }, resource: TraitsOnly, @"enum": struct { members: []TypeMember, traits: []Trait, }, unit: TraitsOnly, }; // https://awslabs.github.io/smithy/1.0/spec/aws/index.html pub const AwsProtocol = enum { query, rest_xml, json_1_1, json_1_0, rest_json_1, ec2_query, }; pub fn parse(allocator: std.mem.Allocator, json_model: []const u8) !Smithy { // construct a parser. We're not copying strings here, but that may // be a poor decision var vt = try std.json.parseFromSlice(std.json.Value, allocator, json_model, .{}); defer vt.deinit(); return Smithy.init( allocator, vt.value.object.get("smithy").?.string, ModelMetadata{ // TODO: implement .suppressions = &.{}, }, try shapes(allocator, vt.value.object.get("shapes").?.object), ); } // anytype: HashMap([]const u8, std.json.Value...) // list must be deinitialized by caller fn shapes(allocator: std.mem.Allocator, map: anytype) ![]ShapeInfo { var list = try std.ArrayList(ShapeInfo).initCapacity(allocator, map.count()); defer list.deinit(); var iterator = map.iterator(); while (iterator.next()) |kv| { const id_info = try parseId(kv.key_ptr.*); try list.append(.{ .id = id_info.id, .namespace = id_info.namespace, .name = id_info.name, .member = id_info.member, .shape = getShape(allocator, kv.value_ptr.*) catch |e| { std.log.err("Caught error parsing shape with name {s}: {}", .{ id_info.name, e }); return e; }, }); } // This seems to be a synonym for the simple type "string" // https://awslabs.github.io/smithy/1.0/spec/core/model.html#simple-types // But I don't see it in the spec. We might need to preload other similar // simple types? try list.append(.{ .id = "smithy.api#String", .namespace = "smithy.api", .name = "String", .member = null, .shape = Shape{ .string = .{ .traits = &.{}, }, }, }); try list.append(.{ .id = "smithy.api#Boolean", .namespace = "smithy.api", .name = "Boolean", .member = null, .shape = Shape{ .boolean = .{ .traits = &.{}, }, }, }); try list.append(.{ .id = "smithy.api#Integer", .namespace = "smithy.api", .name = "Integer", .member = null, .shape = Shape{ .integer = .{ .traits = &.{}, }, }, }); try list.append(.{ .id = "smithy.api#Double", .namespace = "smithy.api", .name = "Double", .member = null, .shape = Shape{ .double = .{ .traits = &.{}, }, }, }); try list.append(.{ .id = "smithy.api#Timestamp", .namespace = "smithy.api", .name = "Timestamp", .member = null, .shape = Shape{ .timestamp = .{ .traits = &.{}, }, }, }); try list.append(.{ .id = "smithy.api#Blob", .namespace = "smithy.api", .name = "Blob", .member = null, .shape = Shape{ .blob = .{ .traits = &.{}, }, }, }); try list.append(.{ .id = "smithy.api#Unit", .namespace = "smithy.api", .name = "Unit", .member = null, .shape = Shape{ .unit = .{ .traits = &.{}, }, }, }); try list.append(.{ .id = "smithy.api#Long", .namespace = "smithy.api", .name = "Long", .member = null, .shape = Shape{ .long = .{ .traits = &.{}, }, }, }); try list.append(.{ .id = "smithy.api#Float", .namespace = "smithy.api", .name = "Float", .member = null, .shape = Shape{ .float = .{ .traits = &.{}, }, }, }); try list.append(.{ .id = "smithy.api#Document", .namespace = "smithy.api", .name = "Document", .member = null, .shape = Shape{ .document = .{ .traits = &.{}, }, }, }); // These "Primitive" versions only appear to differ in that they have defaults // defined. Not currently handled: // byte PrimitiveByte // short PrimitiveShort try list.append(.{ .id = "smithy.api#PrimitiveBoolean", .namespace = "smithy.api", .name = "PrimitiveBoolean", .member = null, .shape = Shape{ .boolean = .{ .traits = &.{}, }, }, }); try list.append(.{ .id = "smithy.api#PrimitiveInteger", .namespace = "smithy.api", .name = "PrimitiveInteger", .member = null, .shape = Shape{ .integer = .{ .traits = &.{}, }, }, }); try list.append(.{ .id = "smithy.api#PrimitiveDouble", .namespace = "smithy.api", .name = "PrimitiveDouble", .member = null, .shape = Shape{ .double = .{ .traits = &.{}, }, }, }); try list.append(.{ .id = "smithy.api#PrimitiveLong", .namespace = "smithy.api", .name = "PrimitiveLong", .member = null, .shape = Shape{ .long = .{ .traits = &.{}, }, }, }); try list.append(.{ .id = "smithy.api#PrimitiveFloat", .namespace = "smithy.api", .name = "PrimitiveFloat", .member = null, .shape = Shape{ .float = .{ .traits = &.{}, }, }, }); return list.toOwnedSlice(); } fn getShape(allocator: std.mem.Allocator, shape: std.json.Value) SmithyParseError!Shape { const shape_type = shape.object.get("type").?.string; if (std.mem.eql(u8, shape_type, "service")) return Shape{ .service = .{ .version = shape.object.get("version").?.string, .operations = if (shape.object.get("operations")) |ops| try parseTargetList(allocator, ops.array) else &.{}, // this doesn't make much sense, but it's happening // TODO: implement. We need some sample data tho .resources = &.{}, .traits = try parseTraits(allocator, shape.object.get("traits")), }, }; if (std.mem.eql(u8, shape_type, "structure")) return Shape{ .structure = .{ .members = try parseMembers(allocator, shape.object.get("members")), .traits = try parseTraits(allocator, shape.object.get("traits")), }, }; if (std.mem.eql(u8, shape_type, "union")) return Shape{ .uniontype = .{ .members = try parseMembers(allocator, shape.object.get("members")), .traits = try parseTraits(allocator, shape.object.get("traits")), }, }; if (std.mem.eql(u8, shape_type, "operation")) return Shape{ .operation = .{ .input = if (shape.object.get("input")) |member| member.object.get("target").?.string else null, .output = if (shape.object.get("output")) |member| member.object.get("target").?.string else null, .errors = blk: { if (shape.object.get("errors")) |e| { break :blk try parseTargetList(allocator, e.array); } break :blk null; }, .traits = try parseTraits(allocator, shape.object.get("traits")), }, }; if (std.mem.eql(u8, shape_type, "list")) return Shape{ .list = .{ .member_target = shape.object.get("member").?.object.get("target").?.string, .traits = try parseTraits(allocator, shape.object.get("traits")), }, }; if (std.mem.eql(u8, shape_type, "set")) return Shape{ .set = .{ .member_target = shape.object.get("member").?.object.get("target").?.string, .traits = try parseTraits(allocator, shape.object.get("traits")), }, }; if (std.mem.eql(u8, shape_type, "map")) return Shape{ .map = .{ .key = shape.object.get("key").?.object.get("target").?.string, .value = shape.object.get("value").?.object.get("target").?.string, .traits = try parseTraits(allocator, shape.object.get("traits")), }, }; if (std.mem.eql(u8, shape_type, "string")) return Shape{ .string = try parseTraitsOnly(allocator, shape) }; if (std.mem.eql(u8, shape_type, "byte")) return Shape{ .byte = try parseTraitsOnly(allocator, shape) }; if (std.mem.eql(u8, shape_type, "short")) return Shape{ .short = try parseTraitsOnly(allocator, shape) }; if (std.mem.eql(u8, shape_type, "integer")) return Shape{ .integer = try parseTraitsOnly(allocator, shape) }; if (std.mem.eql(u8, shape_type, "long")) return Shape{ .long = try parseTraitsOnly(allocator, shape) }; if (std.mem.eql(u8, shape_type, "float")) return Shape{ .float = try parseTraitsOnly(allocator, shape) }; if (std.mem.eql(u8, shape_type, "double")) return Shape{ .double = try parseTraitsOnly(allocator, shape) }; if (std.mem.eql(u8, shape_type, "bigInteger")) return Shape{ .bigInteger = try parseTraitsOnly(allocator, shape) }; if (std.mem.eql(u8, shape_type, "bigDecimal")) return Shape{ .bigDecimal = try parseTraitsOnly(allocator, shape) }; if (std.mem.eql(u8, shape_type, "boolean")) return Shape{ .boolean = try parseTraitsOnly(allocator, shape) }; if (std.mem.eql(u8, shape_type, "blob")) return Shape{ .blob = try parseTraitsOnly(allocator, shape) }; if (std.mem.eql(u8, shape_type, "timestamp")) return Shape{ .timestamp = try parseTraitsOnly(allocator, shape) }; if (std.mem.eql(u8, shape_type, "document")) return Shape{ .document = try parseTraitsOnly(allocator, shape) }; if (std.mem.eql(u8, shape_type, "member")) return Shape{ .member = try parseTraitsOnly(allocator, shape) }; if (std.mem.eql(u8, shape_type, "resource")) return Shape{ .resource = try parseTraitsOnly(allocator, shape) }; if (std.mem.eql(u8, shape_type, "enum")) return Shape{ .@"enum" = .{ .members = try parseMembers(allocator, shape.object.get("members")), .traits = try parseTraits(allocator, shape.object.get("traits")), }, }; std.debug.print("Invalid Type: {s}", .{shape_type}); return SmithyParseError.InvalidType; } fn parseMembers(allocator: std.mem.Allocator, shape: ?std.json.Value) SmithyParseError![]TypeMember { var rc: []TypeMember = &.{}; if (shape == null) return rc; const map = shape.?.object; var list = std.ArrayList(TypeMember).initCapacity(allocator, map.count()) catch return SmithyParseError.OutOfMemory; defer list.deinit(); var iterator = map.iterator(); while (iterator.next()) |kv| { try list.append(TypeMember{ .name = kv.key_ptr.*, .target = kv.value_ptr.*.object.get("target").?.string, .traits = try parseTraits(allocator, kv.value_ptr.*.object.get("traits")), }); } return list.toOwnedSlice(); } // ArrayList of std.Json.Value fn parseTargetList(allocator: std.mem.Allocator, list: anytype) SmithyParseError![][]const u8 { var array_list = std.ArrayList([]const u8).initCapacity(allocator, list.items.len) catch return SmithyParseError.OutOfMemory; defer array_list.deinit(); for (list.items) |i| { try array_list.append(i.object.get("target").?.string); } return array_list.toOwnedSlice(); } fn parseTraitsOnly(allocator: std.mem.Allocator, shape: std.json.Value) SmithyParseError!TraitsOnly { return TraitsOnly{ .traits = try parseTraits(allocator, shape.object.get("traits")), }; } fn parseTraits(allocator: std.mem.Allocator, shape: ?std.json.Value) SmithyParseError![]Trait { var rc: []Trait = &.{}; if (shape == null) return rc; const map = shape.?.object; var list = std.ArrayList(Trait).initCapacity(allocator, map.count()) catch return SmithyParseError.OutOfMemory; defer list.deinit(); var iterator = map.iterator(); while (iterator.next()) |kv| { if (try getTrait(kv.key_ptr.*, kv.value_ptr.*)) |t| try list.append(t); } return list.toOwnedSlice(); } fn getTrait(trait_type: []const u8, value: std.json.Value) SmithyParseError!?Trait { if (std.mem.eql(u8, trait_type, "aws.api#service")) return Trait{ .aws_api_service = .{ .sdk_id = value.object.get("sdkId").?.string, .arn_namespace = if (value.object.get("arnNamespace")) |a| a.string else null, .cloudformation_name = if (value.object.get("cloudFormationName")) |n| n.string else null, .cloudtrail_event_source = if (value.object.get("cloudTrailEventSource")) |s| s.string else null, // what good is a service without an endpoint? I don't know - ask amp .endpoint_prefix = if (value.object.get("endpointPrefix")) |endpoint| endpoint.string else "", }, }; if (std.mem.eql(u8, trait_type, "aws.auth#sigv4")) return Trait{ .aws_auth_sigv4 = .{ .name = value.object.get("name").?.string, }, }; if (std.mem.eql(u8, trait_type, "smithy.api#required")) return Trait{ .required = .{} }; if (std.mem.eql(u8, trait_type, "smithy.api#clientOptional")) return Trait{ .client_optional = {} }; if (std.mem.eql(u8, trait_type, "smithy.api#sparse")) return Trait{ .sparse = .{} }; if (std.mem.eql(u8, trait_type, "smithy.api#box")) return Trait{ .box = .{} }; if (std.mem.eql(u8, trait_type, "smithy.api#range")) return Trait{ .range = .{ .min = getOptionalNumber(value, "min"), .max = getOptionalNumber(value, "max"), }, }; if (std.mem.eql(u8, trait_type, "smithy.api#length")) return Trait{ .length = .{ .min = getOptionalNumber(value, "min"), .max = getOptionalNumber(value, "max"), }, }; if (std.mem.eql(u8, trait_type, "aws.protocols#restJson1")) return Trait{ .aws_protocol = .rest_json_1, }; if (std.mem.eql(u8, trait_type, "aws.protocols#awsJson1_0")) return Trait{ .aws_protocol = .json_1_0, }; if (std.mem.eql(u8, trait_type, "aws.protocols#awsJson1_1")) return Trait{ .aws_protocol = .json_1_1, }; if (std.mem.eql(u8, trait_type, "aws.protocols#restXml")) return Trait{ .aws_protocol = .rest_xml, }; if (std.mem.eql(u8, trait_type, "aws.protocols#awsQuery")) return Trait{ .aws_protocol = .query, }; if (std.mem.eql(u8, trait_type, "aws.protocols#ec2Query")) return Trait{ .aws_protocol = .ec2_query, }; if (std.mem.eql(u8, trait_type, "smithy.api#documentation")) return Trait{ .documentation = value.string }; if (std.mem.eql(u8, trait_type, "smithy.api#pattern")) return Trait{ .pattern = value.string }; if (std.mem.eql(u8, trait_type, "aws.protocols#ec2QueryName")) return Trait{ .ec2_query_name = value.string }; if (std.mem.eql(u8, trait_type, "smithy.api#http")) { var code: i64 = 200; if (value.object.get("code")) |v| { if (v == .integer) code = v.integer; } return Trait{ .http = .{ .method = value.object.get("method").?.string, .uri = value.object.get("uri").?.string, .code = code, } }; } if (std.mem.eql(u8, trait_type, "aws.protocols#awsQueryError")) { return Trait{ .aws_query_error = .{ .code = value.object.get("code").?.string, // code is required .http_response_code = value.object.get("httpResponseCode").?.integer, }, }; } if (std.mem.eql(u8, trait_type, "smithy.api#jsonName")) return Trait{ .json_name = value.string }; if (std.mem.eql(u8, trait_type, "smithy.api#xmlName")) return Trait{ .xml_name = value.string }; if (std.mem.eql(u8, trait_type, "smithy.api#httpQuery")) return Trait{ .http_query = value.string }; if (std.mem.eql(u8, trait_type, "smithy.api#httpHeader")) return Trait{ .http_header = value.string }; if (std.mem.eql(u8, trait_type, "smithy.api#httpPayload")) return Trait{ .http_payload = .{} }; // TODO: Maybe care about these traits? if (std.mem.eql(u8, trait_type, "smithy.api#title")) return null; if (std.mem.eql(u8, trait_type, "smithy.api#xmlNamespace")) return null; if (std.mem.eql(u8, trait_type, "smithy.api#enumValue")) return Trait{ .enum_value = value.string }; // TODO: win argument with compiler to get this comptime const list = \\aws.api#arnReference \\aws.api#clientDiscoveredEndpoint \\aws.api#clientEndpointDiscovery \\aws.api#arn \\aws.auth#unsignedPayload \\aws.iam#disableConditionKeyInference \\smithy.api#auth \\smithy.api#cors \\smithy.api#deprecated \\smithy.api#endpoint \\smithy.api#enum \\smithy.api#error \\smithy.api#eventPayload \\smithy.api#externalDocumentation \\smithy.api#hostLabel \\smithy.api#httpError \\smithy.api#httpChecksumRequired \\smithy.api#httpLabel \\smithy.api#httpPrefixHeaders \\smithy.api#httpQueryParams \\smithy.api#httpResponseCode \\smithy.api#idempotencyToken \\smithy.api#idempotent \\smithy.api#mediaType \\smithy.api#noReplace \\smithy.api#optionalAuth \\smithy.api#paginated \\smithy.api#readonly \\smithy.api#references \\smithy.api#requiresLength \\smithy.api#retryable \\smithy.api#sensitive \\smithy.api#streaming \\smithy.api#suppress \\smithy.api#tags \\smithy.api#timestampFormat \\smithy.api#xmlAttribute \\smithy.api#xmlFlattened \\smithy.waiters#waitable \\smithy.rules#endpointTests \\smithy.api#input \\smithy.api#output \\smithy.api#default \\smithy.api#examples \\smithy.api#uniqueItems \\smithy.api#addedDefault \\smithy.api#resourceIdentifier \\smithy.api#unstable \\smithy.api#property \\smithy.api#notProperty \\smithy.api#recommended \\smithy.api#httpBearerAuth \\smithy.api#nestedProperties \\smithy.rules#endpointRuleSet \\smithy.rules#contextParam \\smithy.rules#clientContextParams \\smithy.rules#staticContextParams \\aws.cloudformation#cfnResource \\aws.cloudformation#cfnMutability \\aws.cloudformation#cfnExcludeProperty \\aws.cloudformation#cfnAdditionalIdentifier \\aws.iam#actionPermissionDescription \\aws.iam#requiredActions \\aws.iam#conditionKeys \\aws.iam#iamResource \\aws.iam#iamAction \\aws.iam#supportedPrincipalTypes \\aws.iam#defineConditionKeys \\aws.iam#actionName \\aws.api#data \\aws.api#controlPlane \\aws.api#dataPlane \\aws.api#tagEnabled \\aws.api#taggable \\aws.protocols#awsQueryCompatible \\aws.protocols#httpChecksum \\aws.customizations#s3UnwrappedXmlOutput ; // NOTE: inputs/outputs are not used in AWS models, but default is and might be handy var iterator = std.mem.split(u8, list, "\n"); while (iterator.next()) |known_but_unimplemented| { if (std.mem.eql(u8, trait_type, known_but_unimplemented)) return null; } // Totally unknown type std.log.err("Invalid Trait Type: {s}", .{trait_type}); return null; } fn getOptionalNumber(value: std.json.Value, key: []const u8) ?f64 { if (value.object.get(key)) |v| return switch (v) { .integer => @as(f64, @floatFromInt(v.integer)), .float => v.float, .null, .bool, .number_string, .string, .array, .object => null, }; return null; } const IdInfo = struct { id: []const u8, namespace: []const u8, name: []const u8, member: ?[]const u8 }; const SmithyParseError = error{ NoHashtagFound, InvalidType, OutOfMemory, }; fn parseId(id: []const u8) SmithyParseError!IdInfo { var hashtag: ?usize = null; var dollar: ?usize = null; var inx: usize = 0; for (id) |ch| { switch (ch) { '#' => hashtag = inx, '$' => dollar = inx, else => {}, } inx = inx + 1; } if (hashtag == null) { std.debug.print("no hashtag found on id: {s}\n", .{id}); return SmithyParseError.NoHashtagFound; } const namespace = id[0..hashtag.?]; var end = id.len; var member: ?[]const u8 = null; if (dollar) |d| { member = id[dollar.? + 1 .. end]; end = d; } const name = id[hashtag.? + 1 .. end]; return IdInfo{ .id = id, .namespace = namespace, .name = name, .member = member, }; } fn read_file_to_string(allocator: std.mem.Allocator, file_name: []const u8, max_bytes: usize) ![]const u8 { const file = try std.fs.cwd().openFile(file_name, std.fs.File.OpenFlags{}); defer file.close(); return file.readToEndAlloc(allocator, max_bytes); } const test_data: []const u8 = @embedFile("test.json"); const intrinsic_type_count: usize = 5; // 5 intrinsic types are added to every model test "parse string" { const test_string = \\ { \\ "smithy": "1.0", \\ "shapes": { \\ "com.amazonaws.sts#AWSSecurityTokenServiceV20110615": { \\ "type": "service", \\ "version": "2011-06-15", \\ "operations": [ \\ { \\ "target": "op" \\ } \\ ] \\ } \\ } \\ } \\ \\ ; const allocator = std.testing.allocator; const model = try parse(allocator, test_string); defer model.deinit(); try expect(std.mem.eql(u8, model.version, "1.0")); try std.testing.expectEqual(intrinsic_type_count + 1, model.shapes.len); try std.testing.expectEqualStrings("com.amazonaws.sts#AWSSecurityTokenServiceV20110615", model.shapes[0].id); try std.testing.expectEqualStrings("com.amazonaws.sts", model.shapes[0].namespace); try std.testing.expectEqualStrings("AWSSecurityTokenServiceV20110615", model.shapes[0].name); try std.testing.expect(model.shapes[0].member == null); try std.testing.expectEqualStrings("2011-06-15", model.shapes[0].shape.service.version); } test "parse shape with member" { const test_string = \\ { \\ "smithy": "1.0", \\ "shapes": { \\ "com.amazonaws.sts#AWSSecurityTokenServiceV20110615$member": { \\ "type": "service", \\ "version": "2011-06-15", \\ "operations": [ \\ { \\ "target": "op" \\ } \\ ] \\ } \\ } \\ } \\ \\ ; const allocator = std.testing.allocator; const model = try parse(allocator, test_string); defer model.deinit(); try expect(std.mem.eql(u8, model.version, "1.0")); try std.testing.expectEqual(intrinsic_type_count + 1, model.shapes.len); try std.testing.expectEqualStrings("com.amazonaws.sts#AWSSecurityTokenServiceV20110615$member", model.shapes[0].id); try std.testing.expectEqualStrings("com.amazonaws.sts", model.shapes[0].namespace); try std.testing.expectEqualStrings("AWSSecurityTokenServiceV20110615", model.shapes[0].name); try std.testing.expectEqualStrings("2011-06-15", model.shapes[0].shape.service.version); try std.testing.expectEqualStrings("member", model.shapes[0].member.?); } test "parse file" { const allocator = std.testing.allocator; const model = try parse(allocator, test_data); defer model.deinit(); try std.testing.expectEqualStrings(model.version, "1.0"); // metadata expectations // try expect(std.mem.eql(u8, model.version, "version 1.0")); // shape expectations try std.testing.expectEqual(intrinsic_type_count + 81, model.shapes.len); var optsvc: ?ShapeInfo = null; for (model.shapes) |shape| { if (std.mem.eql(u8, shape.id, "com.amazonaws.sts#AWSSecurityTokenServiceV20110615")) { optsvc = shape; break; } } try std.testing.expect(optsvc != null); const svc = optsvc.?; try std.testing.expectEqualStrings("com.amazonaws.sts#AWSSecurityTokenServiceV20110615", svc.id); try std.testing.expectEqualStrings("com.amazonaws.sts", svc.namespace); try std.testing.expectEqualStrings("AWSSecurityTokenServiceV20110615", svc.name); try std.testing.expectEqualStrings("2011-06-15", svc.shape.service.version); // Should be 6, but we don't handle title or xml namespace try std.testing.expectEqual(@as(usize, 4), svc.shape.service.traits.len); try std.testing.expectEqual(@as(usize, 8), svc.shape.service.operations.len); }