void Connector::assembleMessage( const util::Buffer &b ) {
int offset = 0;
int msgSize, need;
int rcvLen=b.length();
while (offset < rcvLen) {
int sLen=_msg.length();
// How many bytes need for complete message?
if (sLen > MESSAGE_HEADER) {
// Stored bytes already have header
msgSize = MSG_SIZE(_msg.buffer());
need = msgSize - sLen;
}
else if (MESSAGE_HEADER-sLen <= (rcvLen-offset)) {
// Stored bytes don't have the header, but with bytes received complete header!
_msg.append( b.buffer()+offset, MESSAGE_HEADER-sLen );
offset += MESSAGE_HEADER-sLen;
sLen = MESSAGE_HEADER;
msgSize = MSG_SIZE(_msg.buffer());
need = msgSize-MESSAGE_HEADER;
}
else {
// Can't complete the header
_msg.append( b.buffer()+offset, rcvLen-offset );
offset = rcvLen;
continue;
}
assert( need >= 0 );
// Copy bytes
int rest = (rcvLen-offset);
int copy = (rest > need) ? need : rest;
// printf( "[Connector (%p)] rcvLen=%d, sLen=%d, msgSize=%d, need=%d, rest=%d, copy=%d\n",
// this, rcvLen, sLen, msgSize, need, rest, copy );
_msg.append( b.buffer()+offset, copy );
offset += copy;
// printf( "[Connector (%p)] msgLen=%d\n", this, _msg.length() );
// Is message complete?
if (msgSize == _msg.length()) {
messageReceived(&_msg);
_msg.resize(0);
}
}
}
void parseDescriptors( const util::Buffer &info, desc::MapOfDescriptors &descriptors ) {
SIZE_T len = info.length();
BYTE *data = (BYTE *)info.buffer();
SSIZE_T offset = 0;
while (offset < len) {
BYTE dTag = RB(data,offset);
BYTE dLen = RB(data,offset);
SSIZE_T parsed = offset;
printf( "[dsmcc::module] Parse tag descriptor: tag=%x, len=%d\n", dTag, dLen );
switch (dTag) {
case MODULE_DESC_TYPE: // Type descriptor
{
std::string type( (char *)(data+parsed), dLen );
descriptors[dTag] = type;
parsed += dLen;
break;
}
case MODULE_DESC_NAME: // Name descriptor
{
std::string name( (char *)(data+parsed), dLen );
descriptors[dTag] = name;
parsed += dLen;
break;
}
case MODULE_DESC_INFO: // Info descriptor
{
module::InfoDescriptor desc;
desc.language = std::string( (char *)(data+parsed), 3 );
desc.text = std::string( (char *)(data+parsed+3), dLen-3 );
descriptors[dTag] = desc;
parsed += dLen;
break;
}
case MODULE_DESC_LINK: // Module link descriptor
{
module::LinkDescriptor desc;
desc.position = RB(data,parsed);
desc.moduleID = RW(data,parsed);
descriptors[dTag] = desc;
break;
}
case MODULE_DESC_CRC32: // CRC32 descriptor
{
DWORD crc = RDW(data,parsed);
descriptors[dTag] = crc;
break;
}
case MODULE_DESC_LOCATION: // Location descriptor
{
BYTE location = RB(data,parsed);
descriptors[dTag] = location;
break;
}
case MODULE_DESC_EST_DOWNLOAD: // Estimated download time descriptor
{
DWORD est = RDW(data,parsed);
descriptors[dTag] = est;
break;
}
case MODULE_DESC_COMPRESSION: // Compression type descriptor
case MODULE_DESC_COMPRESSED:
{
module::CompressionTypeDescriptor desc;
desc.type = RB(data,parsed);
desc.originalSize = RDW(data,parsed);
descriptors[dTag] = desc;
break;
}
};
offset += dLen;
if (offset != parsed) {
printf( "[dsmcc::module] Descriptor not parsed or parsed was incomplete: dTag=%x, len=%d, parsed=%ld\n",
dTag, dLen, parsed );
}
}
//printf( "[dsmcc::module] Descriptors parsed: %d\n", descriptors.size() );
}
