protected override void DeSerialise(byte[] buf, ref int o, int length)
{
SenderId = BinarySerializer.DeSerializeGuid(buf, ref o, length);
SenderIsTrial = BinarySerializer.DeSerializeBool(buf, ref o, length);
TextureEntry = BinarySerializer.DeSerializeTextureEntry(buf, ref o, length);
int len = buf[o++];
// TODO: Decode visual params: Each byte appears to be a weight that needs to be scaled between the min and max values of the parameter identified by the index
VisualParam = new byte[len];
Array.Copy(buf, o, VisualParam, 0, len);
o += len;
len = buf[o++];
for (int i = 0; i < len; i++)
{
AppearanceDatas.Add(new AppearanceData()
{
AppearanceVersion = buf[o++],
CofVersion = BinarySerializer.DeSerializeInt32_Le(buf, ref o, length),
Flags = BinarySerializer.DeSerializeUInt32_Le(buf, ref o, length)
});
}
len = buf[o++];
for (int i = 0; i < len; i++)
{
HoverHeights.Add(BinarySerializer.DeSerializeVector3(buf, ref o, length));
}
}
protected override void DeSerialise(byte[] buf, ref int o, int length)
{
RegionHandle = new RegionHandle(BinarySerializer.DeSerializeUInt64_Le(buf, ref o, length));
TimeDilation = BinarySerializer.DeSerializeUInt16_Le(buf, ref o, length);
int nObjects = buf[o++];
for (int i = 0; i < nObjects; i++)
{
int len;
ObjectUpdateMessage.ObjectData data = new ObjectUpdateMessage.ObjectData();
Objects.Add(data);
data.LocalId = BinarySerializer.DeSerializeUInt32_Le(buf, ref o, length);
data.State = buf[o++];
data.FullId = BinarySerializer.DeSerializeGuid(buf, ref o, length);
data.Crc = BinarySerializer.DeSerializeUInt32_Le(buf, ref o, length);
data.PCode = (PCode)buf[o++];
data.Material = (MaterialType)buf[o++];
data.ClickAction = (ClickAction)buf[o++];
data.Scale = BinarySerializer.DeSerializeVector3(buf, ref o, buf.Length);
data.MovementUpdate = DeSerializeMovementUpdate(buf, ref o, buf.Length);
data.ParentId = BinarySerializer.DeSerializeUInt32_Le(buf, ref o, length);
data.UpdateFlags = (ObjectUpdateFlags)BinarySerializer.DeSerializeUInt32_Le(buf, ref o, length);
data.PathCurve = (PathType)buf[o++];
data.ProfileCurve = (ProfileType)buf[o++];
data.PathBegin = BinarySerializer.DeSerializeUInt16_Le(buf, ref o, length) * CUT_QUANTA;
data.PathEnd = BinarySerializer.DeSerializeUInt16_Le(buf, ref o, length) * CUT_QUANTA;
data.PathScaleX = buf[o++] * SCALE_QUANTA;
data.PathScaleY = buf[o++] * SCALE_QUANTA;
data.PathShearX = buf[o++] * SHEAR_QUANTA;
data.PathShearY = buf[o++] * SHEAR_QUANTA;
data.PathTwist = (sbyte)buf[o++] * SCALE_QUANTA;
data.PathTwistBegin = (sbyte)buf[o++] * SCALE_QUANTA;
data.PathRadiusOffset = (sbyte)buf[o++] * SCALE_QUANTA;
data.PathTaperX = (sbyte)buf[o++] * TAPER_QUANTA;
data.PathTaperY = (sbyte)buf[o++] * TAPER_QUANTA;
data.PathRevolutions = buf[o++] * REV_QUANTA;
data.PathSkew = (sbyte)buf[o++] * SCALE_QUANTA;
data.ProfileBegin = BinarySerializer.DeSerializeUInt16_Le(buf, ref o, length) * CUT_QUANTA;
data.ProfileEnd = BinarySerializer.DeSerializeUInt16_Le(buf, ref o, length) * CUT_QUANTA;
data.ProfileHollow = BinarySerializer.DeSerializeUInt16_Le(buf, ref o, length) * HOLLOW_QUANTA;
data.TextureEntry = BinarySerializer.DeSerializeTextureEntry(buf, ref o, length);
data.TextureAnimation = BinarySerializer.DeSerializeTextureAnimation(buf, ref o, length);
data.NameValue = BinarySerializer.DeSerializeString(buf, ref o, length, 2);
len = BinarySerializer.DeSerializeUInt16_Le(buf, ref o, length);
data.Data2 = new byte[len];
Array.Copy(buf, o, data.Data2, 0, len);
o += len;
data.Text = BinarySerializer.DeSerializeString(buf, ref o, length, 1);
data.TextColour = BinarySerializer.DeSerializeColor(buf, ref o, length);
data.MediaUrl = BinarySerializer.DeSerializeString(buf, ref o, length, 1);
len = buf[o++];
data.ParticleSystemData = new byte[len];
Array.Copy(buf, o, data.ParticleSystemData, 0, len);
o += len;
len = buf[o++];
data.ExtraParameters = BinarySerializer.DeSerializeExtraParameters(buf, ref o, o + len);
data.SoundId = BinarySerializer.DeSerializeGuid(buf, ref o, length);
data.OwnerId = BinarySerializer.DeSerializeGuid(buf, ref o, length);
data.Gain = BinarySerializer.DeSerializeUInt32_Le(buf, ref o, buf.Length);
data.SoundFlags = (SoundFlags)buf[o++];
data.Radius = BinarySerializer.DeSerializeFloat_Le(buf, ref o, length);
data.JointType = (JointType)buf[o++];
data.JointPivot = BinarySerializer.DeSerializeVector3(buf, ref o, buf.Length);
data.JointAxisOrAnchor = BinarySerializer.DeSerializeVector3(buf, ref o, buf.Length);
//Logger.LogDebug("ObjectUpdateMessage.DeSerialise", ToString());
}
}
protected override void DeSerialise(byte[] buf, ref int o, int length)
{
RegionHandle = new RegionHandle(BinarySerializer.DeSerializeUInt64_Le(buf, ref o, length));
TimeDilation = BinarySerializer.DeSerializeUInt16_Le(buf, ref o, length);
string logMessage = $"ObjectUpdateCompressed: RegionHandle={RegionHandle}, TimeDilation={TimeDilation}";
int nObjects = buf[o++];
for (int i = 0; i < nObjects; i++)
{
UInt32 len;
ObjectUpdateMessage.ObjectData data = new ObjectUpdateMessage.ObjectData();
Objects.Add(data);
data.UpdateFlags = (ObjectUpdateFlags)BinarySerializer.DeSerializeUInt32_Le(buf, ref o, length);
int compressedLength = BinarySerializer.DeSerializeUInt16_Le(buf, ref o, length);
byte[] compressedData = new byte[compressedLength];
Array.Copy(buf, o, compressedData, 0, compressedLength);
o += compressedLength;
int compressedOffset = 0;
logMessage += $"\n Object {i}: UpdateFlags={data.UpdateFlags}, Data({compressedData.Length})={BitConverter.ToString(compressedData)}";
data.FullId = BinarySerializer.DeSerializeGuid(compressedData, ref compressedOffset, compressedLength);
data.LocalId = BinarySerializer.DeSerializeUInt32_Le(compressedData, ref compressedOffset, compressedLength);
data.PCode = (PCode)compressedData[compressedOffset++];
data.State = compressedData[compressedOffset++];
data.Crc = BinarySerializer.DeSerializeUInt32_Le(compressedData, ref compressedOffset, compressedLength);
data.Material = (MaterialType)compressedData[compressedOffset++];
data.ClickAction = (ClickAction)compressedData[compressedOffset++];
data.Scale = BinarySerializer.DeSerializeVector3(compressedData, ref compressedOffset, compressedLength);
data.Position = BinarySerializer.DeSerializeVector3(compressedData, ref compressedOffset, compressedLength);
data.Rotation = BinarySerializer.DeSerializeQuaternion(compressedData, ref compressedOffset, compressedLength);
CompressedFlags compressedFlags = (CompressedFlags)BinarySerializer.DeSerializeUInt32_Le(compressedData, ref compressedOffset, compressedLength);
data.OwnerId = BinarySerializer.DeSerializeGuid(compressedData, ref compressedOffset, compressedLength);
logMessage += $"\n FullId={data.FullId}, LocalId={data.LocalId}, PCode={data.PCode}, State={data.State}, Crc={data.Crc}, Material={data.Material}, ClickAction={data.ClickAction}, Scale={data.Scale}, Position={data.Position}, Rotation={data.Rotation}, CompressedFlags=({compressedFlags})";
if ((compressedFlags & CompressedFlags.HasAngularVelocity) != 0)
{
data.AngularVelocity = BinarySerializer.DeSerializeVector3(compressedData, ref compressedOffset, compressedLength);
logMessage += $", AngularVelocity={data.AngularVelocity}";
}
data.ParentId = (compressedFlags & CompressedFlags.HasParent) != 0 ? BinarySerializer.DeSerializeUInt32_Le(compressedData, ref compressedOffset, compressedLength) : (uint)0;
logMessage += $", ParentId={data.ParentId}";
if ((compressedFlags & CompressedFlags.Tree) != 0)
{
byte treeSpecies = compressedData[compressedOffset++];
logMessage += $", TreeSpecies={treeSpecies}";
}
if ((compressedFlags & CompressedFlags.ScratchPad) != 0)
{
len = compressedData[compressedOffset++];
compressedOffset += (int)len; // TODO: These offsets and length should all be UInt32
logMessage += $", Scratchpad({len})";
}
if ((compressedFlags & CompressedFlags.HasText) != 0)
{
data.Text = BinarySerializer.DeSerializeString(compressedData, ref compressedOffset, compressedLength, 0);
data.TextColour = BinarySerializer.DeSerializeColor(compressedData, ref compressedOffset, compressedLength);
logMessage += $", Text={data.Text}, TextColour={data.TextColour}";
}
if ((compressedFlags & CompressedFlags.MediaURL) != 0)
{
data.MediaUrl = BinarySerializer.DeSerializeString(compressedData, ref compressedOffset, compressedLength, 0);
logMessage += $", MediaUrl={data.MediaUrl}";
}
if ((compressedFlags & CompressedFlags.HasParticles) != 0)
{
// TODO: Parse the particle system data. OpenMetaverse says that this is a BitPack of 86 bytes.
len = 86;
compressedOffset += (int)len;
logMessage += $", ParticleSystem({len})";
}
data.ExtraParameters = BinarySerializer.DeSerializeExtraParameters(compressedData, ref compressedOffset, compressedOffset + compressedLength);
if ((compressedFlags & CompressedFlags.HasSound) != 0)
{
data.SoundId = BinarySerializer.DeSerializeGuid(compressedData, ref compressedOffset, compressedLength);
data.Gain = BinarySerializer.DeSerializeUInt32_Le(compressedData, ref compressedOffset, compressedLength);
data.SoundFlags = (SoundFlags)compressedData[compressedOffset++];
data.Radius = BinarySerializer.DeSerializeFloat_Le(compressedData, ref compressedOffset, compressedLength);
logMessage += $", SoundId={data.SoundId}, Gain={data.Gain}, SoundFlags={data.SoundFlags}, Radius={data.Radius}";
}
if ((compressedFlags & CompressedFlags.HasNameValues) != 0)
{
data.NameValue = BinarySerializer.DeSerializeString(compressedData, ref compressedOffset, compressedLength, 0);
logMessage += $", NameValue={data.NameValue}";
}
data.PathCurve = (PathType)compressedData[compressedOffset++];
data.PathBegin = BinarySerializer.DeSerializeUInt16_Le(compressedData, ref compressedOffset, length) * CUT_QUANTA;
data.PathEnd = BinarySerializer.DeSerializeUInt16_Le(compressedData, ref compressedOffset, length) * CUT_QUANTA;
data.PathScaleX = compressedData[compressedOffset++] * SCALE_QUANTA;
data.PathScaleY = compressedData[compressedOffset++] * SCALE_QUANTA;
data.PathShearX = compressedData[compressedOffset++] * SHEAR_QUANTA;
data.PathShearY = compressedData[compressedOffset++] * SHEAR_QUANTA;
data.PathTwist = (sbyte)compressedData[compressedOffset++] * SCALE_QUANTA;
data.PathTwistBegin = (sbyte)compressedData[compressedOffset++] * SCALE_QUANTA;
data.PathRadiusOffset = (sbyte)compressedData[compressedOffset++] * SCALE_QUANTA;
data.PathTaperX = (sbyte)compressedData[compressedOffset++] * TAPER_QUANTA;
data.PathTaperY = (sbyte)compressedData[compressedOffset++] * TAPER_QUANTA;
data.PathRevolutions = compressedData[compressedOffset++] * REV_QUANTA;
data.PathSkew = (sbyte)compressedData[compressedOffset++] * SCALE_QUANTA;
data.ProfileCurve = (ProfileType)compressedData[compressedOffset++];
data.ProfileBegin = BinarySerializer.DeSerializeUInt16_Le(compressedData, ref compressedOffset, length) * CUT_QUANTA;
data.ProfileEnd = BinarySerializer.DeSerializeUInt16_Le(compressedData, ref compressedOffset, length) * CUT_QUANTA;
data.ProfileHollow = BinarySerializer.DeSerializeUInt16_Le(compressedData, ref compressedOffset, length) * HOLLOW_QUANTA;
data.TextureEntry = BinarySerializer.DeSerializeTextureEntry(compressedData, ref compressedOffset, compressedLength, true);
logMessage += $", TextureEntry={data.TextureEntry}";
if ((compressedFlags & CompressedFlags.TextureAnimation) != 0)
{
data.TextureAnimation = BinarySerializer.DeSerializeTextureAnimation(compressedData, ref compressedOffset, compressedLength);
logMessage += ", TextureAnimation";
}
data.IsAttachment = (compressedFlags & CompressedFlags.HasNameValues) != 0 && data.ParentId != 0;
}
//Logger.LogDebug("ObjectUpdateCompressedMessage.DeSerialise", logMessage);
}
public void AvatarAppearanceExample()
{
byte[] buffer =
{
0x68, 0x00,
0xc2, 0x28, 0xd1, 0xcf, 0x4b, 0x5d, 0x4b, 0xa8, 0x84, 0xf4, 0x89, 0x9a, 0x07, 0x96, 0xaa, 0x97, // image_id (Default)
0x9f, 0xff, 0xff, 0x9f, 0xe1, 0x7f, // mask (Exception 0)
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // image_id (Exception 0)
0xc0, 0x9e, 0x00, // mask (Exception 1)
0x3a, 0x36, 0x7d, 0x1c, 0xbe, 0xf1, 0x6d, 0x43, 0x75, 0x95, 0xe8, 0x8c, 0x1e, 0x3a, 0xad, 0xb3, // image_id (Exception 1)
0x00, // end
0x00, 0x00, 0x00, 0x00, // color (Default)
0x00, // end
0x00, 0x00, 0x80, 0x3f, // scale_s (Default)
0x00, // end
0x00, 0x00, 0x80, 0x3f, // scale_t (Default)
0x00, // end
0x00, 0x00, // offset_s (Default)
0x00, // end
0x00, 0x00, // offset_t (Default)
0x00, // end
0x00, // image_rot (Default)
0x00, // end
0x00, // bump (Default)
0x00, // end
0x00, // media_flags (Default)
0x00, // end
0x00, // glow (Default)
0x00, // end
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // material_id (Default)
0x00 // end
};
int offset = 0;
Guid a = BinarySerializer.DeSerializeGuid(new byte[] { 0xc2, 0x28, 0xd1, 0xcf, 0x4b, 0x5d, 0x4b, 0xa8, 0x84, 0xf4, 0x89, 0x9a, 0x07, 0x96, 0xaa, 0x97 }, ref offset, 16);
offset = 0;
Guid b = BinarySerializer.DeSerializeGuid(new byte[] { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }, ref offset, 16);
offset = 0;
Guid c = BinarySerializer.DeSerializeGuid(new byte[] { 0x3a, 0x36, 0x7d, 0x1c, 0xbe, 0xf1, 0x6d, 0x43, 0x75, 0x95, 0xe8, 0x8c, 0x1e, 0x3a, 0xad, 0xb3 }, ref offset, 16);
offset = 0;
TextureEntry entry = BinarySerializer.DeSerializeTextureEntry(buffer, ref offset, buffer.Length);
//for (int i = 0; i < entry.FaceTextures.Length; i++)
//{
// TextureEntryFace face = entry.FaceTextures[i];
// UnityEngine.Debug.Log($"{i:x2}: {face.TextureId}");
//}
//var s = string.Concat(entry.FaceTextures.Select(x =>
//{
// if (x.TextureId == a) return 'a';
// if (x.TextureId == b) return 'b';
// if (x.TextureId == c) return 'c';
// return ' ';
//}));
//UnityEngine.Debug.Log(s);
Assert.AreEqual(b, entry.FaceTextures[0x00].TextureId);
Assert.AreEqual(b, entry.FaceTextures[0x01].TextureId);
Assert.AreEqual(b, entry.FaceTextures[0x02].TextureId);
Assert.AreEqual(b, entry.FaceTextures[0x03].TextureId);
Assert.AreEqual(b, entry.FaceTextures[0x04].TextureId);
Assert.AreEqual(b, entry.FaceTextures[0x05].TextureId);
Assert.AreEqual(b, entry.FaceTextures[0x06].TextureId);
Assert.AreEqual(b, entry.FaceTextures[0x07].TextureId);
Assert.AreEqual(c, entry.FaceTextures[0x08].TextureId);
Assert.AreEqual(c, entry.FaceTextures[0x09].TextureId);
Assert.AreEqual(c, entry.FaceTextures[0x0a].TextureId);
Assert.AreEqual(c, entry.FaceTextures[0x0b].TextureId);
Assert.AreEqual(b, entry.FaceTextures[0x0c].TextureId);
Assert.AreEqual(b, entry.FaceTextures[0x0d].TextureId);
Assert.AreEqual(b, entry.FaceTextures[0x0e].TextureId);
Assert.AreEqual(b, entry.FaceTextures[0x0f].TextureId);
Assert.AreEqual(b, entry.FaceTextures[0x10].TextureId);
Assert.AreEqual(b, entry.FaceTextures[0x11].TextureId);
Assert.AreEqual(b, entry.FaceTextures[0x12].TextureId);
Assert.AreEqual(a, entry.FaceTextures[0x13].TextureId);
Assert.AreEqual(c, entry.FaceTextures[0x14].TextureId);
Assert.AreEqual(b, entry.FaceTextures[0x15].TextureId);
Assert.AreEqual(b, entry.FaceTextures[0x16].TextureId);
Assert.AreEqual(b, entry.FaceTextures[0x17].TextureId);
Assert.AreEqual(b, entry.FaceTextures[0x18].TextureId);
Assert.AreEqual(b, entry.FaceTextures[0x19].TextureId);
Assert.AreEqual(b, entry.FaceTextures[0x1a].TextureId);
Assert.AreEqual(b, entry.FaceTextures[0x1b].TextureId);
Assert.AreEqual(b, entry.FaceTextures[0x1c].TextureId);
Assert.AreEqual(b, entry.FaceTextures[0x1d].TextureId);
Assert.AreEqual(b, entry.FaceTextures[0x1e].TextureId);
Assert.AreEqual(b, entry.FaceTextures[0x1f].TextureId);
}