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|
/**
* @file lltemplatemessagebuilder.cpp
* @brief LLTemplateMessageBuilder class implementation.
*
* $LicenseInfo:firstyear=2007&license=viewergpl$
*
* Copyright (c) 2007-2009, Linden Research, Inc.
*
* Second Life Viewer Source Code
* The source code in this file ("Source Code") is provided by Linden Lab
* to you under the terms of the GNU General Public License, version 2.0
* ("GPL"), unless you have obtained a separate licensing agreement
* ("Other License"), formally executed by you and Linden Lab. Terms of
* the GPL can be found in doc/GPL-license.txt in this distribution, or
* online at http://secondlifegrid.net/programs/open_source/licensing/gplv2
*
* There are special exceptions to the terms and conditions of the GPL as
* it is applied to this Source Code. View the full text of the exception
* in the file doc/FLOSS-exception.txt in this software distribution, or
* online at
* http://secondlifegrid.net/programs/open_source/licensing/flossexception
*
* By copying, modifying or distributing this software, you acknowledge
* that you have read and understood your obligations described above,
* and agree to abide by those obligations.
*
* ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO
* WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY,
* COMPLETENESS OR PERFORMANCE.
* $/LicenseInfo$
*/
#include "linden_common.h"
#include "lltemplatemessagebuilder.h"
#include "llmessagetemplate.h"
#include "llquaternion.h"
#include "u64.h"
#include "v3dmath.h"
#include "v3math.h"
#include "v4math.h"
LLTemplateMessageBuilder::LLTemplateMessageBuilder(message_template_name_map_t& name_template_map) :
mCurrentSMessageData(NULL),
mCurrentSMessageTemplate(NULL),
mCurrentSDataBlock(NULL),
mCurrentSMessageName(NULL),
mCurrentSBlockName(NULL),
mbSBuilt(FALSE),
mbSClear(TRUE),
mCurrentSendTotal(0),
mMessageTemplates(name_template_map)
{
}
//virtual
LLTemplateMessageBuilder::~LLTemplateMessageBuilder()
{
delete mCurrentSMessageData;
mCurrentSMessageData = NULL;
}
// virtual
void LLTemplateMessageBuilder::newMessage(const char *name)
{
mbSBuilt = FALSE;
mbSClear = FALSE;
mCurrentSendTotal = 0;
delete mCurrentSMessageData;
mCurrentSMessageData = NULL;
char* namep = (char*)name;
if (mMessageTemplates.count(namep) > 0)
{
mCurrentSMessageTemplate = mMessageTemplates[namep];
mCurrentSMessageData = new LLMsgData(namep);
mCurrentSMessageName = namep;
mCurrentSDataBlock = NULL;
mCurrentSBlockName = NULL;
// add at one of each block
const LLMessageTemplate* msg_template = mMessageTemplates[namep];
if (msg_template->getDeprecation() != MD_NOTDEPRECATED)
{
llwarns << "Sending deprecated message " << namep << llendl;
}
LLMessageTemplate::message_block_map_t::const_iterator iter;
for(iter = msg_template->mMemberBlocks.begin();
iter != msg_template->mMemberBlocks.end();
++iter)
{
LLMessageBlock* ci = *iter;
LLMsgBlkData* tblockp = new LLMsgBlkData(ci->mName, 0);
mCurrentSMessageData->addBlock(tblockp);
}
}
else
{
llerrs << "newMessage - Message " << name << " not registered" << llendl;
}
}
// virtual
void LLTemplateMessageBuilder::clearMessage()
{
mbSBuilt = FALSE;
mbSClear = TRUE;
mCurrentSendTotal = 0;
mCurrentSMessageTemplate = NULL;
delete mCurrentSMessageData;
mCurrentSMessageData = NULL;
mCurrentSMessageName = NULL;
mCurrentSDataBlock = NULL;
mCurrentSBlockName = NULL;
}
// virtual
void LLTemplateMessageBuilder::nextBlock(const char* blockname)
{
char *bnamep = (char *)blockname;
if (!mCurrentSMessageTemplate)
{
llerrs << "newMessage not called prior to setBlock" << llendl;
return;
}
// now, does this block exist?
const LLMessageBlock* template_data = mCurrentSMessageTemplate->getBlock(bnamep);
if (!template_data)
{
llerrs << "LLTemplateMessageBuilder::nextBlock " << bnamep
<< " not a block in " << mCurrentSMessageTemplate->mName << llendl;
return;
}
// ok, have we already set this block?
LLMsgBlkData* block_data = mCurrentSMessageData->mMemberBlocks[bnamep];
if (block_data->mBlockNumber == 0)
{
// nope! set this as the current block
block_data->mBlockNumber = 1;
mCurrentSDataBlock = block_data;
mCurrentSBlockName = bnamep;
// add placeholders for each of the variables
for (LLMessageBlock::message_variable_map_t::const_iterator iter = template_data->mMemberVariables.begin();
iter != template_data->mMemberVariables.end(); iter++)
{
LLMessageVariable& ci = **iter;
mCurrentSDataBlock->addVariable(ci.getName(), ci.getType());
}
return;
}
else
{
// already have this block. . .
// are we supposed to have a new one?
// if the block is type MBT_SINGLE this is bad!
if (template_data->mType == MBT_SINGLE)
{
llerrs << "LLTemplateMessageBuilder::nextBlock called multiple times"
<< " for " << bnamep << " but is type MBT_SINGLE" << llendl;
return;
}
// if the block is type MBT_MULTIPLE then we need a known number,
// make sure that we're not exceeding it
if ( (template_data->mType == MBT_MULTIPLE)
&&(mCurrentSDataBlock->mBlockNumber == template_data->mNumber))
{
llerrs << "LLTemplateMessageBuilder::nextBlock called "
<< mCurrentSDataBlock->mBlockNumber << " times for " << bnamep
<< " exceeding " << template_data->mNumber
<< " specified in type MBT_MULTIPLE." << llendl;
return;
}
// ok, we can make a new one
// modify the name to avoid name collision by adding number to end
S32 count = block_data->mBlockNumber;
// incrememt base name's count
block_data->mBlockNumber++;
if (block_data->mBlockNumber > MAX_BLOCKS)
{
llerrs << "Trying to pack too many blocks into MBT_VARIABLE type "
<< "(limited to " << MAX_BLOCKS << ")" << llendl;
}
// create new name
// Nota Bene: if things are working correctly,
// mCurrentMessageData->mMemberBlocks[blockname]->mBlockNumber ==
// mCurrentDataBlock->mBlockNumber + 1
char *nbnamep = bnamep + count;
mCurrentSDataBlock = new LLMsgBlkData(bnamep, count);
mCurrentSDataBlock->mName = nbnamep;
mCurrentSMessageData->mMemberBlocks[nbnamep] = mCurrentSDataBlock;
// add placeholders for each of the variables
for (LLMessageBlock::message_variable_map_t::const_iterator
iter = template_data->mMemberVariables.begin(),
end = template_data->mMemberVariables.end();
iter != end; iter++)
{
LLMessageVariable& ci = **iter;
mCurrentSDataBlock->addVariable(ci.getName(), ci.getType());
}
return;
}
}
// TODO: Remove this horror...
BOOL LLTemplateMessageBuilder::removeLastBlock()
{
if (mCurrentSBlockName)
{
if ( (mCurrentSMessageData)
&&(mCurrentSMessageTemplate))
{
if (mCurrentSMessageData->mMemberBlocks[mCurrentSBlockName]->mBlockNumber >= 1)
{
// At least one block for the current block name.
// Store the current block name for future reference.
char *block_name = mCurrentSBlockName;
// Decrement the sent total by the size of the
// data in the message block that we're currently building.
const LLMessageBlock* template_data = mCurrentSMessageTemplate->getBlock(mCurrentSBlockName);
for (LLMessageBlock::message_variable_map_t::const_iterator iter = template_data->mMemberVariables.begin();
iter != template_data->mMemberVariables.end(); iter++)
{
LLMessageVariable& ci = **iter;
mCurrentSendTotal -= ci.getSize();
}
// Now we want to find the block that we're blowing away.
// Get the number of blocks.
LLMsgBlkData* block_data = mCurrentSMessageData->mMemberBlocks[block_name];
S32 num_blocks = block_data->mBlockNumber;
// Use the same (suspect?) algorithm that's used to generate
// the names in the nextBlock method to find it.
char *block_getting_whacked = block_name + num_blocks - 1;
LLMsgBlkData* whacked_data = mCurrentSMessageData->mMemberBlocks[block_getting_whacked];
delete whacked_data;
mCurrentSMessageData->mMemberBlocks.erase(block_getting_whacked);
if (num_blocks <= 1)
{
// we just blew away the last one, so return FALSE
llwarns << "not blowing away the only block of message "
<< mCurrentSMessageName
<< ". Block: " << block_name
<< ". Number: " << num_blocks
<< llendl;
return FALSE;
}
else
{
// Decrement the counter.
block_data->mBlockNumber--;
return TRUE;
}
}
}
}
return FALSE;
}
// add data to variable in current block
void LLTemplateMessageBuilder::addData(const char *varname, const void *data, EMsgVariableType type, S32 size)
{
char *vnamep = (char *)varname;
// do we have a current message?
if (!mCurrentSMessageTemplate)
{
llerrs << "newMessage not called prior to addData" << llendl;
return;
}
// do we have a current block?
if (!mCurrentSDataBlock)
{
llerrs << "setBlock not called prior to addData" << llendl;
return;
}
// kewl, add the data if it exists
const LLMessageVariable* var_data = mCurrentSMessageTemplate->getBlock(mCurrentSBlockName)->getVariable(vnamep);
if (!var_data || !var_data->getName())
{
llerrs << vnamep << " not a variable in block " << mCurrentSBlockName << " of " << mCurrentSMessageTemplate->mName << llendl;
return;
}
// ok, it seems ok. . . are we the correct size?
if (var_data->getType() == MVT_VARIABLE)
{
// Variable 1 can only store 255 bytes, make sure our data is smaller
if ((var_data->getSize() == 1) &&
(size > 255))
{
llwarns << "Field " << varname << " is a Variable 1 but program "
<< "attempted to stuff more than 255 bytes in "
<< "(" << size << "). Clamping size and truncating data." << llendl;
size = 255;
char *truncate = (char *)data;
truncate[255] = 0;
}
// no correct size for MVT_VARIABLE, instead we need to tell how many bytes the size will be encoded as
mCurrentSDataBlock->addData(vnamep, data, size, type, var_data->getSize());
mCurrentSendTotal += size;
}
else
{
if (size != var_data->getSize())
{
llerrs << varname << " is type MVT_FIXED but request size " << size << " doesn't match template size "
<< var_data->getSize() << llendl;
return;
}
// alright, smash it in
mCurrentSDataBlock->addData(vnamep, data, size, type);
mCurrentSendTotal += size;
}
}
// add data to variable in current block - fails if variable isn't MVT_FIXED
void LLTemplateMessageBuilder::addData(const char *varname, const void *data, EMsgVariableType type)
{
char *vnamep = (char *)varname;
// do we have a current message?
if (!mCurrentSMessageTemplate)
{
llerrs << "newMessage not called prior to addData" << llendl;
return;
}
// do we have a current block?
if (!mCurrentSDataBlock)
{
llerrs << "setBlock not called prior to addData" << llendl;
return;
}
// kewl, add the data if it exists
const LLMessageVariable* var_data = mCurrentSMessageTemplate->getBlock(mCurrentSBlockName)->getVariable(vnamep);
if (!var_data->getName())
{
llerrs << vnamep << " not a variable in block " << mCurrentSBlockName << " of " << mCurrentSMessageTemplate->mName << llendl;
return;
}
// ok, it seems ok. . . are we MVT_VARIABLE?
if (var_data->getType() == MVT_VARIABLE)
{
// nope
llerrs << vnamep << " is type MVT_VARIABLE. Call using addData(name, data, size)" << llendl;
return;
}
else
{
mCurrentSDataBlock->addData(vnamep, data, var_data->getSize(), type);
mCurrentSendTotal += var_data->getSize();
}
}
void LLTemplateMessageBuilder::addBinaryData(const char *varname,
const void *data, S32 size)
{
addData(varname, data, MVT_FIXED, size);
}
void LLTemplateMessageBuilder::addS8(const char *varname, S8 s)
{
addData(varname, &s, MVT_S8, sizeof(s));
}
void LLTemplateMessageBuilder::addU8(const char *varname, U8 u)
{
addData(varname, &u, MVT_U8, sizeof(u));
}
void LLTemplateMessageBuilder::addS16(const char *varname, S16 i)
{
addData(varname, &i, MVT_S16, sizeof(i));
}
void LLTemplateMessageBuilder::addU16(const char *varname, U16 i)
{
addData(varname, &i, MVT_U16, sizeof(i));
}
void LLTemplateMessageBuilder::addF32(const char *varname, F32 f)
{
addData(varname, &f, MVT_F32, sizeof(f));
}
void LLTemplateMessageBuilder::addS32(const char *varname, S32 s)
{
addData(varname, &s, MVT_S32, sizeof(s));
}
void LLTemplateMessageBuilder::addU32(const char *varname, U32 u)
{
addData(varname, &u, MVT_U32, sizeof(u));
}
void LLTemplateMessageBuilder::addU64(const char *varname, U64 lu)
{
addData(varname, &lu, MVT_U64, sizeof(lu));
}
void LLTemplateMessageBuilder::addF64(const char *varname, F64 d)
{
addData(varname, &d, MVT_F64, sizeof(d));
}
void LLTemplateMessageBuilder::addIPAddr(const char *varname, U32 u)
{
addData(varname, &u, MVT_IP_ADDR, sizeof(u));
}
void LLTemplateMessageBuilder::addIPPort(const char *varname, U16 u)
{
u = htons(u);
addData(varname, &u, MVT_IP_PORT, sizeof(u));
}
void LLTemplateMessageBuilder::addBOOL(const char* varname, BOOL b)
{
// Can't just cast a BOOL (actually a U32) to a U8.
// In some cases the low order bits will be zero.
U8 temp = (b != 0);
addData(varname, &temp, MVT_BOOL, sizeof(temp));
}
void LLTemplateMessageBuilder::addString(const char* varname, const char* s)
{
if (s)
addData( varname, (void *)s, MVT_VARIABLE, (S32)strlen(s) + 1); /* Flawfinder: ignore */
else
addData( varname, NULL, MVT_VARIABLE, 0);
}
void LLTemplateMessageBuilder::addString(const char* varname, const std::string& s)
{
if (s.size())
addData( varname, (void *)s.c_str(), MVT_VARIABLE, (S32)(s.size()) + 1);
else
addData( varname, NULL, MVT_VARIABLE, 0);
}
void LLTemplateMessageBuilder::addVector3(const char *varname, const LLVector3& vec)
{
addData(varname, vec.mV, MVT_LLVector3, sizeof(vec.mV));
}
void LLTemplateMessageBuilder::addVector4(const char *varname, const LLVector4& vec)
{
addData(varname, vec.mV, MVT_LLVector4, sizeof(vec.mV));
}
void LLTemplateMessageBuilder::addVector3d(const char *varname, const LLVector3d& vec)
{
addData(varname, vec.mdV, MVT_LLVector3d, sizeof(vec.mdV));
}
void LLTemplateMessageBuilder::addQuat(const char *varname, const LLQuaternion& quat)
{
addData(varname, quat.packToVector3().mV, MVT_LLQuaternion, sizeof(LLVector3));
}
void LLTemplateMessageBuilder::addUUID(const char *varname, const LLUUID& uuid)
{
addData(varname, uuid.mData, MVT_LLUUID, sizeof(uuid.mData));
}
static S32 zero_code(U8 **data, U32 *data_size)
{
// Encoded send buffer needs to be slightly larger since the zero
// coding can potentially increase the size of the send data.
static U8 encodedSendBuffer[2 * MAX_BUFFER_SIZE];
S32 count = *data_size;
S32 net_gain = 0;
U8 num_zeroes = 0;
U8 *inptr = (U8 *)*data;
U8 *outptr = (U8 *)encodedSendBuffer;
// skip the packet id field
for (U32 ii = 0; ii < LL_PACKET_ID_SIZE ; ++ii)
{
count--;
*outptr++ = *inptr++;
}
// build encoded packet, keeping track of net size gain
// sequential zero bytes are encoded as 0 [U8 count]
// with 0 0 [count] representing wrap (>256 zeroes)
while (count--)
{
if (!(*inptr)) // in a zero count
{
if (num_zeroes)
{
if (++num_zeroes > 254)
{
*outptr++ = num_zeroes;
num_zeroes = 0;
}
net_gain--; // subseqent zeroes save one
}
else
{
*outptr++ = 0;
net_gain++; // starting a zero count adds one
num_zeroes = 1;
}
inptr++;
}
else
{
if (num_zeroes)
{
*outptr++ = num_zeroes;
num_zeroes = 0;
}
*outptr++ = *inptr++;
}
}
if (num_zeroes)
{
*outptr++ = num_zeroes;
}
if (net_gain < 0)
{
// TODO: babbage: reinstate stat collecting...
//mCompressedPacketsOut++;
//mUncompressedBytesOut += *data_size;
*data = encodedSendBuffer;
*data_size += net_gain;
encodedSendBuffer[0] |= LL_ZERO_CODE_FLAG; // set the head bit to indicate zero coding
//mCompressedBytesOut += *data_size;
}
//mTotalBytesOut += *data_size;
return(net_gain);
}
void LLTemplateMessageBuilder::compressMessage(U8*& buf_ptr, U32& buffer_length)
{
if(ME_ZEROCODED == mCurrentSMessageTemplate->getEncoding())
{
zero_code(&buf_ptr, &buffer_length);
}
}
BOOL LLTemplateMessageBuilder::isMessageFull(const char* blockname) const
{
if(mCurrentSendTotal > MTUBYTES)
{
return TRUE;
}
if(!blockname)
{
return FALSE;
}
char* bnamep = (char*)blockname;
S32 max;
const LLMessageBlock* template_data = mCurrentSMessageTemplate->getBlock(bnamep);
switch(template_data->mType)
{
case MBT_SINGLE:
max = 1;
break;
case MBT_MULTIPLE:
max = template_data->mNumber;
break;
case MBT_VARIABLE:
default:
max = MAX_BLOCKS;
break;
}
if(mCurrentSMessageData->mMemberBlocks[bnamep]->mBlockNumber >= max)
{
return TRUE;
}
return FALSE;
}
static S32 buildBlock(U8* buffer, S32 buffer_size, const LLMessageBlock* template_data, LLMsgData* message_data)
{
S32 result = 0;
LLMsgData::msg_blk_data_map_t::const_iterator block_iter = message_data->mMemberBlocks.find(template_data->mName);
const LLMsgBlkData* mbci = block_iter->second;
// ok, if this is the first block of a repeating pack, set
// block_count and, if it's type MBT_VARIABLE encode a byte
// for how many there are
S32 block_count = mbci->mBlockNumber;
if (template_data->mType == MBT_VARIABLE)
{
// remember that mBlockNumber is a S32
U8 temp_block_number = (U8)mbci->mBlockNumber;
if ((S32)(result + sizeof(U8)) < MAX_BUFFER_SIZE)
{
memcpy(&buffer[result], &temp_block_number, sizeof(U8));
result += sizeof(U8);
}
else
{
// Just reporting error is likely not enough. Need
// to check how to abort or error out gracefully
// from this function. XXXTBD
llerrs << "buildBlock failed. Message excedding "
<< "sendBuffersize." << llendl;
}
}
else if (template_data->mType == MBT_MULTIPLE)
{
if (block_count != template_data->mNumber)
{
// nope! need to fill it in all the way!
llerrs << "Block " << mbci->mName
<< " is type MBT_MULTIPLE but only has data for "
<< block_count << " out of its "
<< template_data->mNumber << " blocks" << llendl;
}
}
while(block_count > 0)
{
// now loop through the variables
for (LLMsgBlkData::msg_var_data_map_t::const_iterator iter = mbci->mMemberVarData.begin();
iter != mbci->mMemberVarData.end(); iter++)
{
const LLMsgVarData& mvci = *iter;
if (mvci.getSize() == -1)
{
// oops, this variable wasn't ever set!
llerrs << "The variable " << mvci.getName() << " in block "
<< mbci->mName << " of message "
<< template_data->mName
<< " wasn't set prior to buildMessage call" << llendl;
}
else
{
S32 data_size = mvci.getDataSize();
if(data_size > 0)
{
// The type is MVT_VARIABLE, which means that we
// need to encode a size argument. Otherwise,
// there is no need.
S32 size = mvci.getSize();
U8 sizeb;
U16 sizeh;
switch(data_size)
{
case 1:
sizeb = size;
htonmemcpy(&buffer[result], &sizeb, MVT_U8, 1);
break;
case 2:
sizeh = size;
htonmemcpy(&buffer[result], &sizeh, MVT_U16, 2);
break;
case 4:
htonmemcpy(&buffer[result], &size, MVT_S32, 4);
break;
default:
llerrs << "Attempting to build variable field with unknown size of " << size << llendl;
break;
}
result += mvci.getDataSize();
}
// if there is any data to pack, pack it
if((mvci.getData() != NULL) && mvci.getSize())
{
if(result + mvci.getSize() < buffer_size)
{
memcpy(
&buffer[result],
mvci.getData(),
mvci.getSize());
result += mvci.getSize();
}
else
{
// Just reporting error is likely not
// enough. Need to check how to abort or error
// out gracefully from this function. XXXTBD
llerrs << "buildBlock failed. "
<< "Attempted to pack "
<< result + mvci.getSize()
<< " bytes into a buffer with size "
<< buffer_size << "." << llendl
}
}
}
}
--block_count;
++block_iter;
if (block_iter != message_data->mMemberBlocks.end())
{
mbci = block_iter->second;
}
}
return result;
}
// make sure that all the desired data is in place and then copy the data into MAX_BUFFER_SIZEd buffer
U32 LLTemplateMessageBuilder::buildMessage(
U8* buffer,
U32 buffer_size,
U8 offset_to_data)
{
// basic algorithm is to loop through the various pieces, building
// size and offset info if we encounter a -1 for mSize at any
// point that variable wasn't given data
// do we have a current message?
if (!mCurrentSMessageTemplate)
{
llerrs << "newMessage not called prior to buildMessage" << llendl;
return 0;
}
// leave room for flags, packet sequence #, and data offset
// information.
buffer[PHL_OFFSET] = offset_to_data;
U32 result = LL_PACKET_ID_SIZE;
// encode message number and adjust total_offset
if (mCurrentSMessageTemplate->mFrequency == MFT_HIGH)
{
// old, endian-dependant way
// memcpy(&buffer[result], &mCurrentMessageTemplate->mMessageNumber, sizeof(U8));
// new, independant way
buffer[result] = (U8)mCurrentSMessageTemplate->mMessageNumber;
result += sizeof(U8);
}
else if (mCurrentSMessageTemplate->mFrequency == MFT_MEDIUM)
{
U8 temp = 255;
memcpy(&buffer[result], &temp, sizeof(U8)); /*Flawfinder: ignore*/
result += sizeof(U8);
// mask off unsightly bits
temp = mCurrentSMessageTemplate->mMessageNumber & 255;
memcpy(&buffer[result], &temp, sizeof(U8)); /*Flawfinder: ignore*/
result += sizeof(U8);
}
else if (mCurrentSMessageTemplate->mFrequency == MFT_LOW)
{
U8 temp = 255;
U16 message_num;
memcpy(&buffer[result], &temp, sizeof(U8)); /*Flawfinder: ignore*/
result += sizeof(U8);
memcpy(&buffer[result], &temp, sizeof(U8)); /*Flawfinder: ignore*/
result += sizeof(U8);
// mask off unsightly bits
message_num = mCurrentSMessageTemplate->mMessageNumber & 0xFFFF;
// convert to network byte order
message_num = htons(message_num);
memcpy(&buffer[result], &message_num, sizeof(U16)); /*Flawfinder: ignore*/
result += sizeof(U16);
}
else
{
llerrs << "unexpected message frequency in buildMessage" << llendl;
return 0;
}
// fast forward through the offset and build the message
result += offset_to_data;
for(LLMessageTemplate::message_block_map_t::const_iterator
iter = mCurrentSMessageTemplate->mMemberBlocks.begin(),
end = mCurrentSMessageTemplate->mMemberBlocks.end();
iter != end;
++iter)
{
result += buildBlock(buffer + result, buffer_size - result, *iter, mCurrentSMessageData);
}
mbSBuilt = TRUE;
return result;
}
void LLTemplateMessageBuilder::copyFromMessageData(const LLMsgData& data)
{
// copy the blocks
// counting variables used to encode multiple block info
S32 block_count = 0;
char *block_name = NULL;
// loop through msg blocks to loop through variables, totalling up size
// data and filling the new (send) message
LLMsgData::msg_blk_data_map_t::const_iterator iter =
data.mMemberBlocks.begin();
LLMsgData::msg_blk_data_map_t::const_iterator end =
data.mMemberBlocks.end();
for(; iter != end; ++iter)
{
const LLMsgBlkData* mbci = iter->second;
if(!mbci) continue;
// do we need to encode a block code?
if (block_count == 0)
{
block_count = mbci->mBlockNumber;
block_name = (char *)mbci->mName;
}
// counting down mutliple blocks
block_count--;
nextBlock(block_name);
// now loop through the variables
LLMsgBlkData::msg_var_data_map_t::const_iterator dit = mbci->mMemberVarData.begin();
LLMsgBlkData::msg_var_data_map_t::const_iterator dend = mbci->mMemberVarData.end();
for(; dit != dend; ++dit)
{
const LLMsgVarData& mvci = *dit;
addData(mvci.getName(), mvci.getData(), mvci.getType(), mvci.getSize());
}
}
}
//virtual
void LLTemplateMessageBuilder::copyFromLLSD(const LLSD&)
{
// TODO
}
//virtual
void LLTemplateMessageBuilder::setBuilt(BOOL b) { mbSBuilt = b; }
//virtual
BOOL LLTemplateMessageBuilder::isBuilt() const {return mbSBuilt;}
//virtual
BOOL LLTemplateMessageBuilder::isClear() const {return mbSClear;}
//virtual
S32 LLTemplateMessageBuilder::getMessageSize() {return mCurrentSendTotal;}
//virtual
const char* LLTemplateMessageBuilder::getMessageName() const
{
return mCurrentSMessageName;
}
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