const std = @import("std"); const ProtocolError = @import("../main.zig").ProtocolError; const enum_from_int = @import("../main.zig").enum_from_int; const ByteArrayList = std.ArrayList(u8); const ReadyForQuery = @This(); pub const Tag: u8 = 'Z'; const TransactionStatus = enum(u8) { idle = 'I', transaction = 'T', err = 'E', }; transaction_status: TransactionStatus, pub fn read(allocator: std.mem.Allocator, b: []const u8) !ReadyForQuery { _ = allocator; if (b.len != 1) return ProtocolError.InvalidMessageLength; return .{ .transaction_status = enum_from_int(TransactionStatus, b[0]) orelse return ProtocolError.InvalidTransactionStatus }; } pub fn write(self: ReadyForQuery, allocator: std.mem.Allocator, stream_writer: anytype) !void { _ = allocator; try stream_writer.writeByte(Tag); try stream_writer.writeIntBig(u32, 5); try stream_writer.writeByte(@intFromEnum(self.transaction_status)); } pub fn deinit(_: *ReadyForQuery, _: std.mem.Allocator) void {} test "round trip" { const allocator = std.testing.allocator; var sm = ReadyForQuery{ .transaction_status = TransactionStatus.idle, }; defer sm.deinit(allocator); var bal = ByteArrayList.init(allocator); defer bal.deinit(); try sm.write(allocator, bal.writer()); var fbs = std.io.fixedBufferStream(bal.items); var reader = fbs.reader(); const tag = try reader.readByte(); try std.testing.expectEqual(Tag, tag); const len = try reader.readIntBig(u32); const buf = try allocator.alloc(u8, len - 4); defer allocator.free(buf); try reader.readNoEof(buf); var sm2 = try ReadyForQuery.read(allocator, buf); defer sm2.deinit(allocator); try std.testing.expectEqual(TransactionStatus.idle, sm2.transaction_status); }