public async Task ReadAsync(TProtocol iprot, CancellationToken cancellationToken) { iprot.IncrementRecursionDepth(); try { TField field; await iprot.ReadStructBeginAsync(cancellationToken); while (true) { field = await iprot.ReadFieldBeginAsync(cancellationToken); if (field.Type == TType.Stop) { break; } switch (field.ID) { case 1: if (field.Type == TType.Byte) { Value = await iprot.ReadByteAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; default: await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); break; } await iprot.ReadFieldEndAsync(cancellationToken); } await iprot.ReadStructEndAsync(cancellationToken); } finally { iprot.DecrementRecursionDepth(); } }
public async Task ReadAsync(TProtocol iprot, CancellationToken cancellationToken) { iprot.IncrementRecursionDepth(); try { TField field; await iprot.ReadStructBeginAsync(cancellationToken); while (true) { field = await iprot.ReadFieldBeginAsync(cancellationToken); if (field.Type == TType.Stop) { break; } switch (field.ID) { case 1: if (field.Type == TType.String) { _from = await iprot.ReadStringAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 2: if (field.Type == TType.String) { To = await iprot.ReadStringAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 3: if (field.Type == TType.I32) { ToType = (MIDType)await iprot.ReadI32Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 4: if (field.Type == TType.String) { Id = await iprot.ReadStringAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 5: if (field.Type == TType.I64) { CreatedTime = await iprot.ReadI64Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 6: if (field.Type == TType.I64) { DeliveredTime = await iprot.ReadI64Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 10: if (field.Type == TType.String) { Text = await iprot.ReadStringAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 11: if (field.Type == TType.Struct) { Location = new Location(); await Location.ReadAsync(iprot, cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 14: if (field.Type == TType.Bool) { HasContent = await iprot.ReadBoolAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 15: if (field.Type == TType.I32) { ContentType = (ContentType)await iprot.ReadI32Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 17: if (field.Type == TType.String) { ContentPreview = await iprot.ReadBinaryAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 18: if (field.Type == TType.Map) { { TMap _map157 = await iprot.ReadMapBeginAsync(cancellationToken); ContentMetadata = new Dictionary <string, string>(_map157.Count); for (int _i158 = 0; _i158 < _map157.Count; ++_i158) { string _key159; string _val160; _key159 = await iprot.ReadStringAsync(cancellationToken); _val160 = await iprot.ReadStringAsync(cancellationToken); ContentMetadata[_key159] = _val160; } await iprot.ReadMapEndAsync(cancellationToken); } } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 19: if (field.Type == TType.Byte) { SessionId = await iprot.ReadByteAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 20: if (field.Type == TType.List) { { TList _list161 = await iprot.ReadListBeginAsync(cancellationToken); Chunks = new List <byte[]>(_list161.Count); for (int _i162 = 0; _i162 < _list161.Count; ++_i162) { byte[] _elem163; _elem163 = await iprot.ReadBinaryAsync(cancellationToken); Chunks.Add(_elem163); } await iprot.ReadListEndAsync(cancellationToken); } } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 21: if (field.Type == TType.String) { RelatedMessageId = await iprot.ReadStringAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 22: if (field.Type == TType.I32) { MessageRelationType = (MessageRelationType)await iprot.ReadI32Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 23: if (field.Type == TType.I64) { ReadCount = await iprot.ReadI64Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 24: if (field.Type == TType.I32) { RelatedMessageServiceCode = (ServiceCode)await iprot.ReadI32Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; default: await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); break; } await iprot.ReadFieldEndAsync(cancellationToken); } await iprot.ReadStructEndAsync(cancellationToken); } finally { iprot.DecrementRecursionDepth(); } }
public async global::System.Threading.Tasks.Task ReadAsync(TProtocol iprot, CancellationToken cancellationToken) { iprot.IncrementRecursionDepth(); try { TField field; await iprot.ReadStructBeginAsync(cancellationToken); while (true) { field = await iprot.ReadFieldBeginAsync(cancellationToken); if (field.Type == TType.Stop) { break; } switch (field.ID) { case 1: if (field.Type == TType.String) { String_thing = await iprot.ReadStringAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 4: if (field.Type == TType.Byte) { Byte_thing = await iprot.ReadByteAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 9: if (field.Type == TType.I32) { I32_thing = await iprot.ReadI32Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 11: if (field.Type == TType.I64) { I64_thing = await iprot.ReadI64Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; default: await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); break; } await iprot.ReadFieldEndAsync(cancellationToken); } await iprot.ReadStructEndAsync(cancellationToken); } finally { iprot.DecrementRecursionDepth(); } }
public static async Task SkipAsync(TProtocol protocol, TType type, CancellationToken cancellationToken) { cancellationToken.ThrowIfCancellationRequested(); protocol.IncrementRecursionDepth(); try { switch (type) { case TType.Bool: await protocol.ReadBoolAsync(cancellationToken); break; case TType.Byte: await protocol.ReadByteAsync(cancellationToken); break; case TType.I16: await protocol.ReadI16Async(cancellationToken); break; case TType.I32: await protocol.ReadI32Async(cancellationToken); break; case TType.I64: await protocol.ReadI64Async(cancellationToken); break; case TType.Double: await protocol.ReadDoubleAsync(cancellationToken); break; case TType.String: // Don't try to decode the string, just skip it. await protocol.ReadBinaryAsync(cancellationToken); break; case TType.Struct: await protocol.ReadStructBeginAsync(cancellationToken); while (true) { var field = await protocol.ReadFieldBeginAsync(cancellationToken); if (field.Type == TType.Stop) { break; } await SkipAsync(protocol, field.Type, cancellationToken); await protocol.ReadFieldEndAsync(cancellationToken); } await protocol.ReadStructEndAsync(cancellationToken); break; case TType.Map: var map = await protocol.ReadMapBeginAsync(cancellationToken); for (var i = 0; i < map.Count; i++) { await SkipAsync(protocol, map.KeyType, cancellationToken); await SkipAsync(protocol, map.ValueType, cancellationToken); } await protocol.ReadMapEndAsync(cancellationToken); break; case TType.Set: var set = await protocol.ReadSetBeginAsync(cancellationToken); for (var i = 0; i < set.Count; i++) { await SkipAsync(protocol, set.ElementType, cancellationToken); } await protocol.ReadSetEndAsync(cancellationToken); break; case TType.List: var list = await protocol.ReadListBeginAsync(cancellationToken); for (var i = 0; i < list.Count; i++) { await SkipAsync(protocol, list.ElementType, cancellationToken); } await protocol.ReadListEndAsync(cancellationToken); break; default: throw new TProtocolException(TProtocolException.INVALID_DATA, "Unknown data type " + type.ToString("d")); } } finally { protocol.DecrementRecursionDepth(); } }
public async Task ReadAsync(TProtocol iprot, CancellationToken cancellationToken) { iprot.IncrementRecursionDepth(); try { TField field; await iprot.ReadStructBeginAsync(cancellationToken); while (true) { field = await iprot.ReadFieldBeginAsync(cancellationToken); if (field.Type == TType.Stop) { break; } switch (field.ID) { case 1: if (field.Type == TType.String) { StartKey = await iprot.ReadBinaryAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 2: if (field.Type == TType.String) { EndKey = await iprot.ReadBinaryAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 3: if (field.Type == TType.I64) { Id = await iprot.ReadI64Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 4: if (field.Type == TType.String) { Name = await iprot.ReadBinaryAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 5: if (field.Type == TType.Byte) { Version = await iprot.ReadByteAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 6: if (field.Type == TType.String) { ServerName = await iprot.ReadBinaryAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 7: if (field.Type == TType.I32) { Port = await iprot.ReadI32Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; default: await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); break; } await iprot.ReadFieldEndAsync(cancellationToken); } await iprot.ReadStructEndAsync(cancellationToken); } finally { iprot.DecrementRecursionDepth(); } }
public async global::System.Threading.Tasks.Task ReadAsync(TProtocol iprot, CancellationToken cancellationToken) { iprot.IncrementRecursionDepth(); try { TField field; await iprot.ReadStructBeginAsync(cancellationToken); while (true) { field = await iprot.ReadFieldBeginAsync(cancellationToken); if (field.Type == TType.Stop) { break; } switch (field.ID) { case 1: if (field.Type == TType.I32) { Begin_in_both = await iprot.ReadI32Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 2: if (field.Type == TType.I32) { Newint = await iprot.ReadI32Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 3: if (field.Type == TType.Byte) { Newbyte = await iprot.ReadByteAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 4: if (field.Type == TType.I16) { Newshort = await iprot.ReadI16Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 5: if (field.Type == TType.I64) { Newlong = await iprot.ReadI64Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 6: if (field.Type == TType.Double) { Newdouble = await iprot.ReadDoubleAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 7: if (field.Type == TType.Struct) { Newstruct = new global::ThriftTest.Bonk(); await Newstruct.ReadAsync(iprot, cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 8: if (field.Type == TType.List) { { TList _list74 = await iprot.ReadListBeginAsync(cancellationToken); Newlist = new List <int>(_list74.Count); for (int _i75 = 0; _i75 < _list74.Count; ++_i75) { int _elem76; _elem76 = await iprot.ReadI32Async(cancellationToken); Newlist.Add(_elem76); } await iprot.ReadListEndAsync(cancellationToken); } } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 9: if (field.Type == TType.Set) { { TSet _set77 = await iprot.ReadSetBeginAsync(cancellationToken); Newset = new THashSet <int>(_set77.Count); for (int _i78 = 0; _i78 < _set77.Count; ++_i78) { int _elem79; _elem79 = await iprot.ReadI32Async(cancellationToken); Newset.Add(_elem79); } await iprot.ReadSetEndAsync(cancellationToken); } } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 10: if (field.Type == TType.Map) { { TMap _map80 = await iprot.ReadMapBeginAsync(cancellationToken); Newmap = new Dictionary <int, int>(_map80.Count); for (int _i81 = 0; _i81 < _map80.Count; ++_i81) { int _key82; int _val83; _key82 = await iprot.ReadI32Async(cancellationToken); _val83 = await iprot.ReadI32Async(cancellationToken); Newmap[_key82] = _val83; } await iprot.ReadMapEndAsync(cancellationToken); } } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 11: if (field.Type == TType.String) { Newstring = await iprot.ReadStringAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 12: if (field.Type == TType.I32) { End_in_both = await iprot.ReadI32Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; default: await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); break; } await iprot.ReadFieldEndAsync(cancellationToken); } await iprot.ReadStructEndAsync(cancellationToken); } finally { iprot.DecrementRecursionDepth(); } }
public async Task ReadAsync(TProtocol iprot, CancellationToken cancellationToken) { iprot.IncrementRecursionDepth(); try { TField field; await iprot.ReadStructBeginAsync(cancellationToken); while (true) { field = await iprot.ReadFieldBeginAsync(cancellationToken); if (field.Type == TType.Stop) { break; } switch (field.ID) { case 1: if (field.Type == TType.String) { DeviceId = await iprot.ReadStringAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 2: if (field.Type == TType.String) { UserId = await iprot.ReadStringAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 3: if (field.Type == TType.I32) { ButtonFlags = await iprot.ReadI32Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 4: if (field.Type == TType.Byte) { LeftTrigger = await iprot.ReadByteAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 5: if (field.Type == TType.Byte) { RightTrigger = await iprot.ReadByteAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 6: if (field.Type == TType.I16) { LeftThumbX = await iprot.ReadI16Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 7: if (field.Type == TType.I16) { LeftThumbY = await iprot.ReadI16Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 8: if (field.Type == TType.I16) { RightThumbX = await iprot.ReadI16Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 9: if (field.Type == TType.I16) { RightThumbY = await iprot.ReadI16Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; default: await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); break; } await iprot.ReadFieldEndAsync(cancellationToken); } await iprot.ReadStructEndAsync(cancellationToken); } finally { iprot.DecrementRecursionDepth(); } }
public async Task ReadAsync(TProtocol iprot, CancellationToken cancellationToken) { iprot.IncrementRecursionDepth(); try { bool isset_bitWidth = false; bool isset_isSigned = false; TField field; await iprot.ReadStructBeginAsync(cancellationToken); while (true) { field = await iprot.ReadFieldBeginAsync(cancellationToken); if (field.Type == TType.Stop) { break; } switch (field.ID) { case 1: if (field.Type == TType.Byte) { BitWidth = await iprot.ReadByteAsync(cancellationToken); isset_bitWidth = true; } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 2: if (field.Type == TType.Bool) { IsSigned = await iprot.ReadBoolAsync(cancellationToken); isset_isSigned = true; } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; default: await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); break; } await iprot.ReadFieldEndAsync(cancellationToken); } await iprot.ReadStructEndAsync(cancellationToken); if (!isset_bitWidth) { throw new TProtocolException(TProtocolException.INVALID_DATA); } if (!isset_isSigned) { throw new TProtocolException(TProtocolException.INVALID_DATA); } } finally { iprot.DecrementRecursionDepth(); } }
public static async Task SkipAsync(TProtocol prot, TType type, CancellationToken cancellationToken) { if (cancellationToken.IsCancellationRequested) { await Task.FromCanceled(cancellationToken); } prot.IncrementRecursionDepth(); try { switch (type) { case TType.Bool: await prot.ReadBoolAsync(cancellationToken); break; case TType.Byte: await prot.ReadByteAsync(cancellationToken); break; case TType.I16: await prot.ReadI16Async(cancellationToken); break; case TType.I32: await prot.ReadI32Async(cancellationToken); break; case TType.I64: await prot.ReadI64Async(cancellationToken); break; case TType.Double: await prot.ReadDoubleAsync(cancellationToken); break; case TType.String: // Don't try to decode the string, just skip it. await prot.ReadBinaryAsync(cancellationToken); break; case TType.Struct: await prot.ReadStructBeginAsync(cancellationToken); while (true) { var field = await prot.ReadFieldBeginAsync(cancellationToken); if (field.Type == TType.Stop) { break; } await SkipAsync(prot, field.Type, cancellationToken); await prot.ReadFieldEndAsync(cancellationToken); } await prot.ReadStructEndAsync(cancellationToken); break; case TType.Map: var map = await prot.ReadMapBeginAsync(cancellationToken); for (var i = 0; i < map.Count; i++) { await SkipAsync(prot, map.KeyType, cancellationToken); await SkipAsync(prot, map.ValueType, cancellationToken); } await prot.ReadMapEndAsync(cancellationToken); break; case TType.Set: var set = await prot.ReadSetBeginAsync(cancellationToken); for (var i = 0; i < set.Count; i++) { await SkipAsync(prot, set.ElementType, cancellationToken); } await prot.ReadSetEndAsync(cancellationToken); break; case TType.List: var list = await prot.ReadListBeginAsync(cancellationToken); for (var i = 0; i < list.Count; i++) { await SkipAsync(prot, list.ElementType, cancellationToken); } await prot.ReadListEndAsync(cancellationToken); break; default: throw new TProtocolException(TProtocolException.INVALID_DATA, "Unknown data type " + type.ToString("d")); } } finally { prot.DecrementRecursionDepth(); } }
public async global::System.Threading.Tasks.Task ReadAsync(TProtocol iprot, CancellationToken cancellationToken) { iprot.IncrementRecursionDepth(); try { TField field; await iprot.ReadStructBeginAsync(cancellationToken); while (true) { field = await iprot.ReadFieldBeginAsync(cancellationToken); if (field.Type == TType.Stop) { break; } switch (field.ID) { case 1: if (field.Type == TType.I64) { Cid = await iprot.ReadI64Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 2: if (field.Type == TType.String) { Col_name = await iprot.ReadStringAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 3: if (field.Type == TType.List) { { TList _list6 = await iprot.ReadListBeginAsync(cancellationToken); Col_tags = new List <string>(_list6.Count); for (int _i7 = 0; _i7 < _list6.Count; ++_i7) { string _elem8; _elem8 = await iprot.ReadStringAsync(cancellationToken); Col_tags.Add(_elem8); } await iprot.ReadListEndAsync(cancellationToken); } } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 4: if (field.Type == TType.I32) { Col_seq = (KeySeq)await iprot.ReadI32Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 5: if (field.Type == TType.I32) { Col_type = (ColumnType)await iprot.ReadI32Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 6: if (field.Type == TType.I32) { Cell_versions = await iprot.ReadI32Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 7: if (field.Type == TType.I32) { Cell_ttl = await iprot.ReadI32Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 8: if (field.Type == TType.I32) { Blk_encoding = (EncodingType)await iprot.ReadI32Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 9: if (field.Type == TType.I32) { Blk_size = await iprot.ReadI32Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 10: if (field.Type == TType.I32) { Blk_cells = await iprot.ReadI32Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 11: if (field.Type == TType.Byte) { Cs_replication = await iprot.ReadByteAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 12: if (field.Type == TType.I32) { Cs_size = await iprot.ReadI32Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 13: if (field.Type == TType.Byte) { Cs_max = await iprot.ReadByteAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 14: if (field.Type == TType.Byte) { Log_rollout_ratio = await iprot.ReadByteAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 15: if (field.Type == TType.Byte) { Log_compact_cointervaling = await iprot.ReadByteAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 16: if (field.Type == TType.Byte) { Log_fragment_preload = await iprot.ReadByteAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 17: if (field.Type == TType.Byte) { Compact_percent = await iprot.ReadByteAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 18: if (field.Type == TType.I64) { Revision = await iprot.ReadI64Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; default: await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); break; } await iprot.ReadFieldEndAsync(cancellationToken); } await iprot.ReadStructEndAsync(cancellationToken); } finally { iprot.DecrementRecursionDepth(); } }
public async Task ReadAsync(TProtocol iprot, CancellationToken cancellationToken) { iprot.IncrementRecursionDepth(); try { TField field; await iprot.ReadStructBeginAsync(cancellationToken); while (true) { field = await iprot.ReadFieldBeginAsync(cancellationToken); if (field.Type == TType.Stop) { break; } switch (field.ID) { case 1: if (field.Type == TType.I32) { Seq = await iprot.ReadI32Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 2: if (field.Type == TType.String) { Mid = await iprot.ReadStringAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 3: if (field.Type == TType.I64) { Watermark = await iprot.ReadI64Async(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 4: if (field.Type == TType.Byte) { SessionId = await iprot.ReadByteAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; default: await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); break; } await iprot.ReadFieldEndAsync(cancellationToken); } await iprot.ReadStructEndAsync(cancellationToken); } finally { iprot.DecrementRecursionDepth(); } }
public async Task ReadAsync(TProtocol iprot, CancellationToken cancellationToken) { iprot.IncrementRecursionDepth(); try { bool isset_values = false; bool isset_nulls = false; TField field; await iprot.ReadStructBeginAsync(cancellationToken); while (true) { field = await iprot.ReadFieldBeginAsync(cancellationToken); if (field.Type == TType.Stop) { break; } switch (field.ID) { case 1: if (field.Type == TType.List) { { TList _list31 = await iprot.ReadListBeginAsync(cancellationToken); Values = new List <sbyte>(_list31.Count); for (int _i32 = 0; _i32 < _list31.Count; ++_i32) { sbyte _elem33; _elem33 = await iprot.ReadByteAsync(cancellationToken); Values.Add(_elem33); } await iprot.ReadListEndAsync(cancellationToken); } isset_values = true; } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 2: if (field.Type == TType.String) { Nulls = await iprot.ReadBinaryAsync(cancellationToken); isset_nulls = true; } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; default: await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); break; } await iprot.ReadFieldEndAsync(cancellationToken); } await iprot.ReadStructEndAsync(cancellationToken); if (!isset_values) { throw new TProtocolException(TProtocolException.INVALID_DATA); } if (!isset_nulls) { throw new TProtocolException(TProtocolException.INVALID_DATA); } } finally { iprot.DecrementRecursionDepth(); } }