public void MergeFrom(pb.CodedInputStream input)
{
#if !GOOGLE_PROTOBUF_REFSTRUCT_COMPATIBILITY_MODE
input.ReadRawMessage(this);
#else
uint tag;
while ((tag = input.ReadTag()) != 0)
{
switch (tag)
{
default:
_unknownFields = pb.UnknownFieldSet.MergeFieldFrom(_unknownFields, input);
break;
case 10: {
ClientId = input.ReadString();
break;
}
case 18: {
MessageId = input.ReadString();
break;
}
case 24: {
Type = (MessageType)input.ReadEnum();
break;
}
case 34: {
if (time_ == null)
{
Time = new global.Google.Protobuf.WellKnownTypes.Timestamp();
}
input.ReadMessage(Time);
break;
}
case 40: {
Status = (MessageStatus)input.ReadEnum();
break;
}
case 50: {
Payload = input.ReadBytes();
break;
}
case 56: {
Response = (ResponseType)input.ReadEnum();
break;
}
}
}
#endif
}
public void SkipGroup_WrongEndGroupTag()
{
// Create an output stream with:
// Field 1: string "field 1"
// Start group 2
// Field 3: fixed int32
// End group 4 (should give an error)
var stream = new MemoryStream();
var output = new CodedOutputStream(stream);
output.WriteTag(1, WireFormat.WireType.LengthDelimited);
output.WriteString("field 1");
// The outer group...
output.WriteTag(2, WireFormat.WireType.StartGroup);
output.WriteTag(3, WireFormat.WireType.Fixed32);
output.WriteFixed32(100);
output.WriteTag(4, WireFormat.WireType.EndGroup);
output.Flush();
stream.Position = 0;
// Now act like a generated client
var input = new CodedInputStream(stream);
Assert.AreEqual(WireFormat.MakeTag(1, WireFormat.WireType.LengthDelimited), input.ReadTag());
Assert.AreEqual("field 1", input.ReadString());
Assert.AreEqual(WireFormat.MakeTag(2, WireFormat.WireType.StartGroup), input.ReadTag());
Assert.Throws <InvalidProtocolBufferException>(input.SkipLastField);
}
public void ReadStringGreaterThanCurrentLimit()
{
MemoryStream ms = new MemoryStream();
CodedOutputStream output = new CodedOutputStream(ms);
uint tag = WireFormat.MakeTag(1, WireFormat.WireType.LengthDelimited);
output.WriteRawVarint32(tag);
output.WriteRawVarint32(4);
output.WriteRawBytes(new byte[4]); // Pad with a few random bytes.
output.Flush();
ms.Position = 0;
CodedInputStream input = new CodedInputStream(ms.ToArray());
Assert.AreEqual(tag, input.ReadTag());
// Specify limit smaller than data length
input.PushLimit(3);
Assert.Throws <InvalidProtocolBufferException>(() => input.ReadString());
AssertReadFromParseContext(new ReadOnlySequence <byte>(ms.ToArray()), (ref ParseContext ctx) =>
{
Assert.AreEqual(tag, ctx.ReadTag());
SegmentedBufferHelper.PushLimit(ref ctx.state, 3);
try
{
ctx.ReadString();
Assert.Fail();
}
catch (InvalidProtocolBufferException) { }
}, true);
}
public void SkipGroup()
{
// Create an output stream with a group in:
// Field 1: string "field 1"
// Field 2: group containing:
// Field 1: fixed int32 value 100
// Field 2: string "ignore me"
// Field 3: nested group containing
// Field 1: fixed int64 value 1000
// Field 3: string "field 3"
var stream = new MemoryStream();
var output = new CodedOutputStream(stream);
output.WriteTag(1, WireFormat.WireType.LengthDelimited);
output.WriteString("field 1");
// The outer group...
output.WriteTag(2, WireFormat.WireType.StartGroup);
output.WriteTag(1, WireFormat.WireType.Fixed32);
output.WriteFixed32(100);
output.WriteTag(2, WireFormat.WireType.LengthDelimited);
output.WriteString("ignore me");
// The nested group...
output.WriteTag(3, WireFormat.WireType.StartGroup);
output.WriteTag(1, WireFormat.WireType.Fixed64);
output.WriteFixed64(1000);
// Note: Not sure the field number is relevant for end group...
output.WriteTag(3, WireFormat.WireType.EndGroup);
// End the outer group
output.WriteTag(2, WireFormat.WireType.EndGroup);
output.WriteTag(3, WireFormat.WireType.LengthDelimited);
output.WriteString("field 3");
output.Flush();
stream.Position = 0;
// Now act like a generated client
var input = new CodedInputStream(stream);
Assert.AreEqual(WireFormat.MakeTag(1, WireFormat.WireType.LengthDelimited), input.ReadTag());
Assert.AreEqual("field 1", input.ReadString());
Assert.AreEqual(WireFormat.MakeTag(2, WireFormat.WireType.StartGroup), input.ReadTag());
input.SkipLastField(); // Should consume the whole group, including the nested one.
Assert.AreEqual(WireFormat.MakeTag(3, WireFormat.WireType.LengthDelimited), input.ReadTag());
Assert.AreEqual("field 3", input.ReadString());
}
public void WriteString_AsciiSmall_MaxUtf8SizeExceedsBuffer()
{
var buffer = new byte[5];
var output = new CodedOutputStream(buffer);
output.WriteString("ABC");
output.Flush();
// Verify written content
var input = new CodedInputStream(buffer);
Assert.AreEqual("ABC", input.ReadString());
}
/// <summary>
/// Decode a value of the given type.
/// Should not be called directly. This interface is used by service client stubs.
/// </summary>
public static object Decode(ByteString value, Type type, Connection client)
{
var stream = new CodedInputStream (value.ToByteArray ());
if (type == typeof(double))
return stream.ReadDouble ();
else if (type == typeof(float))
return stream.ReadFloat ();
else if (type == typeof(int))
return stream.ReadInt32 ();
else if (type == typeof(long))
return stream.ReadInt64 ();
else if (type == typeof(uint))
return stream.ReadUInt32 ();
else if (type == typeof(ulong))
return stream.ReadUInt64 ();
else if (type == typeof(bool))
return stream.ReadBool ();
else if (type == typeof(string))
return stream.ReadString ();
else if (type == typeof(byte[]))
return stream.ReadBytes ().ToByteArray ();
else if (type.IsEnum)
return stream.ReadInt32 ();
else if (typeof(RemoteObject).IsAssignableFrom (type)) {
if (client == null)
throw new ArgumentException ("Client not passed when decoding remote object");
var id = stream.ReadUInt64 ();
if (id == 0)
return null;
return (RemoteObject)Activator.CreateInstance (type, client, id);
} else if (typeof(IMessage).IsAssignableFrom (type)) {
IMessage message = (IMessage)Activator.CreateInstance (type);
message.MergeFrom (stream);
return message;
} else if (type.IsGenericType && type.GetGenericTypeDefinition () == typeof(IList<>))
return DecodeList (value, type, client);
else if (type.IsGenericType && type.GetGenericTypeDefinition () == typeof(IDictionary<,>))
return DecodeDictionary (value, type, client);
else if (type.IsGenericType && type.GetGenericTypeDefinition () == typeof(ISet<>))
return DecodeSet (value, type, client);
else if (type.IsGenericType &&
(type.GetGenericTypeDefinition () == typeof(Tuple<>) ||
type.GetGenericTypeDefinition () == typeof(Tuple<,>) ||
type.GetGenericTypeDefinition () == typeof(Tuple<,,>) ||
type.GetGenericTypeDefinition () == typeof(Tuple<,,,>) ||
type.GetGenericTypeDefinition () == typeof(Tuple<,,,,>) ||
type.GetGenericTypeDefinition () == typeof(Tuple<,,,,,>)))
return DecodeTuple (value, type, client); // TODO: ugly handing of tuple types
throw new ArgumentException (type + " is not a serializable type");
}
public void MergeFrom(CodedInputStream input)
{
while (true)
{
IL_F1:
uint num;
uint arg_B1_0 = ((num = input.ReadTag()) == 0u) ? 892360258u : 1848098736u;
while (true)
{
uint num2;
switch ((num2 = (arg_B1_0 ^ 1527141277u)) % 9u)
{
case 0u:
goto IL_F1;
case 1u:
arg_B1_0 = (((num != 16u) ? 2248849807u : 3227524151u) ^ num2 * 3730220176u);
continue;
case 3u:
input.SkipLastField();
arg_B1_0 = (num2 * 783818891u ^ 1987640322u);
continue;
case 4u:
arg_B1_0 = ((num == 10u) ? 319223136u : 559492368u);
continue;
case 5u:
arg_B1_0 = (num2 * 1269553354u ^ 293555476u);
continue;
case 6u:
this.IsExtension = input.ReadBool();
arg_B1_0 = 894606036u;
continue;
case 7u:
arg_B1_0 = 1848098736u;
continue;
case 8u:
this.NamePart_ = input.ReadString();
arg_B1_0 = 55025149u;
continue;
}
return;
}
}
}
public void ReadNegativeSizedStringThrowsInvalidProtocolBufferException()
{
MemoryStream ms = new MemoryStream();
CodedOutputStream output = new CodedOutputStream(ms);
uint tag = WireFormat.MakeTag(1, WireFormat.WireType.LengthDelimited);
output.WriteRawVarint32(tag);
output.WriteLength(-1);
output.Flush();
ms.Position = 0;
CodedInputStream input = new CodedInputStream(ms);
Assert.AreEqual(tag, input.ReadTag());
Assert.Throws <InvalidProtocolBufferException>(() => input.ReadString());
}
public void ReadInvalidUtf8()
{
MemoryStream ms = new MemoryStream();
CodedOutputStream output = new CodedOutputStream(ms);
uint tag = WireFormat.MakeTag(1, WireFormat.WireType.LengthDelimited);
output.WriteRawVarint32(tag);
output.WriteRawVarint32(1);
output.WriteRawBytes(new byte[] { 0x80 });
output.Flush();
ms.Position = 0;
CodedInputStream input = new CodedInputStream(ms);
Assert.AreEqual(tag, input.ReadTag());
string text = input.ReadString();
Assert.AreEqual('\ufffd', text[0]);
}
public void WriteStringsOfDifferentSizes_Ascii()
{
for (int i = 1; i <= 1024; i++)
{
var buffer = new byte[4096];
var output = new CodedOutputStream(buffer);
var sb = new StringBuilder();
for (int j = 0; j < i; j++)
{
sb.Append((j % 10).ToString()); // incrementing numbers, repeating
}
var s = sb.ToString();
output.WriteString(s);
output.Flush();
// Verify written content
var input = new CodedInputStream(buffer);
Assert.AreEqual(s, input.ReadString());
}
}
public void SkipGroup_WrongEndGroupTag()
{
// Create an output stream with:
// Field 1: string "field 1"
// Start group 2
// Field 3: fixed int32
// End group 4 (should give an error)
var stream = new MemoryStream();
var output = new CodedOutputStream(stream);
output.WriteTag(1, WireFormat.WireType.LengthDelimited);
output.WriteString("field 1");
// The outer group...
output.WriteTag(2, WireFormat.WireType.StartGroup);
output.WriteTag(3, WireFormat.WireType.Fixed32);
output.WriteFixed32(100);
output.WriteTag(4, WireFormat.WireType.EndGroup);
output.Flush();
stream.Position = 0;
// Now act like a generated client
var input = new CodedInputStream(stream);
Assert.AreEqual(WireFormat.MakeTag(1, WireFormat.WireType.LengthDelimited), input.ReadTag());
Assert.AreEqual("field 1", input.ReadString());
Assert.AreEqual(WireFormat.MakeTag(2, WireFormat.WireType.StartGroup), input.ReadTag());
Assert.Throws<InvalidProtocolBufferException>(input.SkipLastField);
}
public void SkipGroup()
{
// Create an output stream with a group in:
// Field 1: string "field 1"
// Field 2: group containing:
// Field 1: fixed int32 value 100
// Field 2: string "ignore me"
// Field 3: nested group containing
// Field 1: fixed int64 value 1000
// Field 3: string "field 3"
var stream = new MemoryStream();
var output = new CodedOutputStream(stream);
output.WriteTag(1, WireFormat.WireType.LengthDelimited);
output.WriteString("field 1");
// The outer group...
output.WriteTag(2, WireFormat.WireType.StartGroup);
output.WriteTag(1, WireFormat.WireType.Fixed32);
output.WriteFixed32(100);
output.WriteTag(2, WireFormat.WireType.LengthDelimited);
output.WriteString("ignore me");
// The nested group...
output.WriteTag(3, WireFormat.WireType.StartGroup);
output.WriteTag(1, WireFormat.WireType.Fixed64);
output.WriteFixed64(1000);
// Note: Not sure the field number is relevant for end group...
output.WriteTag(3, WireFormat.WireType.EndGroup);
// End the outer group
output.WriteTag(2, WireFormat.WireType.EndGroup);
output.WriteTag(3, WireFormat.WireType.LengthDelimited);
output.WriteString("field 3");
output.Flush();
stream.Position = 0;
// Now act like a generated client
var input = new CodedInputStream(stream);
Assert.AreEqual(WireFormat.MakeTag(1, WireFormat.WireType.LengthDelimited), input.ReadTag());
Assert.AreEqual("field 1", input.ReadString());
Assert.AreEqual(WireFormat.MakeTag(2, WireFormat.WireType.StartGroup), input.ReadTag());
input.SkipLastField(); // Should consume the whole group, including the nested one.
Assert.AreEqual(WireFormat.MakeTag(3, WireFormat.WireType.LengthDelimited), input.ReadTag());
Assert.AreEqual("field 3", input.ReadString());
}
public void ReadInvalidUtf8()
{
MemoryStream ms = new MemoryStream();
CodedOutputStream output = new CodedOutputStream(ms);
uint tag = WireFormat.MakeTag(1, WireFormat.WireType.LengthDelimited);
output.WriteRawVarint32(tag);
output.WriteRawVarint32(1);
output.WriteRawBytes(new byte[] {0x80});
output.Flush();
ms.Position = 0;
CodedInputStream input = new CodedInputStream(ms);
Assert.AreEqual(tag, input.ReadTag());
string text = input.ReadString();
Assert.AreEqual('\ufffd', text[0]);
}
internal string <ForString> b__0_0(CodedInputStream input)
{
return(input.ReadString());
}
public void MergeFrom(CodedInputStream input)
{
while (true)
{
IL_22B:
uint num;
uint arg_1C7_0 = ((num = input.ReadTag()) != 0u) ? 3338900507u : 3490427704u;
while (true)
{
uint num2;
switch ((num2 = (arg_1C7_0 ^ 3575757851u)) % 18u)
{
case 0u:
arg_1C7_0 = (num2 * 4161478824u ^ 2103420624u);
continue;
case 1u:
this.path_.AddEntriesFrom(input, SourceCodeInfo.Types.Location._repeated_path_codec);
arg_1C7_0 = 2227857680u;
continue;
case 2u:
arg_1C7_0 = ((num <= 16u) ? 2859386605u : 4283208004u);
continue;
case 3u:
arg_1C7_0 = (((num != 34u) ? 1520889365u : 1267782305u) ^ num2 * 2173165572u);
continue;
case 4u:
this.TrailingComments = input.ReadString();
arg_1C7_0 = 2227857680u;
continue;
case 5u:
arg_1C7_0 = 3338900507u;
continue;
case 6u:
arg_1C7_0 = (num2 * 2358789655u ^ 2159803823u);
continue;
case 8u:
input.SkipLastField();
arg_1C7_0 = 2183611349u;
continue;
case 9u:
arg_1C7_0 = ((num == 18u) ? 2447739934u : 2669850999u);
continue;
case 10u:
arg_1C7_0 = (((num != 8u) ? 3280687541u : 3841024010u) ^ num2 * 3329312757u);
continue;
case 11u:
this.LeadingComments = input.ReadString();
arg_1C7_0 = 2227857680u;
continue;
case 12u:
arg_1C7_0 = (((num != 26u) ? 3138895318u : 3479952318u) ^ num2 * 1481422129u);
continue;
case 13u:
arg_1C7_0 = (((num != 16u) ? 278902393u : 1407783438u) ^ num2 * 615822576u);
continue;
case 14u:
arg_1C7_0 = (num2 * 255842685u ^ 4130925702u);
continue;
case 15u:
goto IL_22B;
case 16u:
arg_1C7_0 = (((num != 10u) ? 1246054996u : 1063320292u) ^ num2 * 84701410u);
continue;
case 17u:
this.span_.AddEntriesFrom(input, SourceCodeInfo.Types.Location._repeated_span_codec);
arg_1C7_0 = 3200795651u;
continue;
}
return;
}
}
}
/// <summary>
/// Convert a Protocol Buffer value type, encoded as a byte string, to a C# value.
/// </summary>
public static object ReadValue(ByteString value, Type type)
{
if (value.Length == 0)
throw new ArgumentException ("Value is empty");
var stream = new CodedInputStream (value.ToByteArray ());
if (type == typeof(double)) {
return stream.ReadDouble ();
} else if (type == typeof(float)) {
return stream.ReadFloat ();
} else if (type == typeof(int)) {
return stream.ReadInt32 ();
} else if (type == typeof(long)) {
return stream.ReadInt64 ();
} else if (type == typeof(uint)) {
return stream.ReadUInt32 ();
} else if (type == typeof(ulong)) {
return stream.ReadUInt64 ();
} else if (type == typeof(bool)) {
return stream.ReadBool ();
} else if (type == typeof(string)) {
return stream.ReadString ();
} else if (type == typeof(byte[])) {
return stream.ReadBytes ().ToByteArray();
}
throw new ArgumentException (type + " is not a Protocol Buffer value type");
}