bool RedistributeWorkerThread::checkDataTransferAck(SBS& sbs, size_t size)
{
if (sbs->length() == 0)
{
ostringstream oss;
oss << "Zero byte read, Network error.";
fErrorMsg = oss.str();
logMessage(fErrorMsg, __LINE__);
fErrorCode = RED_EC_NETWORK_FAIL;
}
else if (sbs->length() < (sizeof(RedistributeMsgHeader) + 1))
{
ostringstream oss;
oss << "Short message, length=" << sbs->length();
fErrorMsg = oss.str();
logMessage(fErrorMsg, __LINE__);
fErrorCode = RED_EC_WKR_MSG_SHORT;
}
else
{
// Need check header info
ByteStream::byte wesMsgId;
*sbs >> wesMsgId;
//const RedistributeMsgHeader* h = (const RedistributeMsgHeader*) sbs->buf();
sbs->advance(sizeof(RedistributeMsgHeader));
size_t ack;
*sbs >> ack;
if (ack != size)
{
ostringstream oss;
oss << "Acked size does not match request: " << ack << "/" << size;
fErrorMsg = oss.str();
logMessage(fErrorMsg, __LINE__);
fErrorCode = RED_EC_SIZE_NACK;
}
}
sbs.reset();
return (fErrorCode == RED_EC_OK);
}
void RedistributeWorkerThread::handleDataStart(SBS& sbs, size_t& size)
{
char fileName[WriteEngine::FILE_NAME_SIZE];
try
{
// extract the control data for the segment file
RedistributeDataControl dc;
if (sbs->length() >= sizeof(RedistributeDataControl))
{
memcpy(&dc, sbs->buf(), sizeof(RedistributeDataControl));
sbs->advance(sizeof(RedistributeDataControl));
size = dc.size;
}
else
{
ostringstream oss;
oss << "Short message, length=" << sbs->length();
fErrorMsg = oss.str();
fErrorCode = RED_EC_WKR_MSG_SHORT;
logMessage(fErrorMsg, __LINE__);
throw runtime_error(fErrorMsg);
}
// create and open the file for writing.
WriteEngine::FileOp fileOp; // just to get filename, not for file operations
int rc = fileOp.oid2FileName(dc.oid, fileName, true, dc.dbroot, dc.partition, dc.segment);
if (rc == WriteEngine::NO_ERROR)
{
ostringstream oss;
oss << "=>redistributing: " << fileName << ", oid=" << dc.oid << ", db=" << dc.dbroot
<< ", part=" << dc.partition << ", seg=" << dc.segment << " from db="
<< fMsgHeader.destination; // fMsgHeader has swapped source and destination.
logMessage(oss.str(), __LINE__);
}
else
{
fErrorCode = RED_EC_OID_TO_FILENAME;
ostringstream oss;
oss << "Failed to get file name: oid=" << dc.oid << ", dbroot=" << dc.dbroot
<< ", partition=" << dc.partition << ", segment=" << dc.segment;
fErrorMsg = oss.str();
logMessage(fErrorMsg, __LINE__);
throw runtime_error(fErrorMsg);
}
if (fNewFilePtr != NULL)
closeFile(fNewFilePtr);
errno = 0;
fNewFilePtr = fopen(fileName, "wb");
if (fNewFilePtr != NULL)
{
ostringstream oss;
oss << "open " << fileName << ", oid=" << dc.oid << ", dbroot="
<< dc.dbroot << ", partition=" << dc.partition << ", segment=" << dc.segment
<< ". " << fNewFilePtr;
logMessage(oss.str(), __LINE__);
}
else
{
int e = errno;
fErrorCode = RED_EC_OPEN_FILE_FAIL;
ostringstream oss;
oss << "Failed to open " << fileName << ", oid=" << dc.oid << ", dbroot="
<< dc.dbroot << ", partition=" << dc.partition << ", segment=" << dc.segment
<< ". " << strerror(e) << " (" << e << ")";
fErrorMsg = oss.str();
logMessage(fErrorMsg, __LINE__);
throw runtime_error(fErrorMsg);
}
// set output buffering
errno = 0;
if (setvbuf(fNewFilePtr, fWriteBuffer.get(), _IOFBF, CHUNK_SIZE))
{
int e = errno;
ostringstream oss;
oss << "Failed to set i/o buffer: " << strerror(e) << " (" << e << ")";
fErrorMsg = oss.str();
logMessage(fErrorMsg, __LINE__);
// not throwing an exception now.
}
// add to set for remove after abort
addToDirSet(fileName, false);
// do a fseek will show the right size, but will not actually allocate the continuous block.
// do write 4k block till file size.
char buf[PRE_ALLOC_SIZE] = {1};
size_t nmemb = size / PRE_ALLOC_SIZE;
while (nmemb-- > 0)
{
errno = 0;
size_t n = fwrite(buf, PRE_ALLOC_SIZE, 1, fNewFilePtr);
if (n != 1)
{
int e = errno;
ostringstream oss;
oss << "Fail to preallocate file: " << strerror(e) << " (" << e << ")";
fErrorMsg = oss.str();
fErrorCode = RED_EC_FWRITE_FAIL;
logMessage(fErrorMsg, __LINE__);
throw runtime_error(fErrorMsg);
}
}
// move back to beging to write real data
fflush(fNewFilePtr);
rewind(fNewFilePtr);
}
catch (const std::exception& ex)
{
// NACK
size = -1;
logMessage(ex.what(), __LINE__);
}
catch (...)
{
// NACK
size = -1;
}
// ack file size
fMsgHeader.messageId = RED_DATA_ACK;
fBs.restart();
fBs << (ByteStream::byte) WriteEngine::WE_SVR_REDISTRIBUTE; // dummy, keep for now.
fBs.append((const ByteStream::byte*) &fMsgHeader, sizeof(fMsgHeader));
fBs << size;
fIOSocket.write(fBs);
// reset to count the data received
size = 0;
sbs.reset();
}
void RedistributeWorkerThread::handleData()
{
bool done = false;
bool noExcept = true;
SBS sbs;
size_t size = 0;
try
{
do
{
switch (fMsgHeader.messageId)
{
case RED_DATA_INIT:
handleDataInit();
break;
case RED_DATA_START:
handleDataStart(sbs, size);
break;
case RED_DATA_CONT:
handleDataCont(sbs, size);
break;
case RED_DATA_FINISH:
handleDataFinish(sbs, size);
break;
case RED_DATA_COMMIT:
handleDataCommit(sbs, size);
done = true;
break;
case RED_DATA_ABORT:
handleDataAbort(sbs, size);
done = true;
break;
default:
handleUnknowDataMsg();
done = true;
break;
}
if (!done)
{
// get next message
sbs = fIOSocket.read();
ByteStream::byte wesMsgId;
*sbs >> wesMsgId;
memcpy(&fMsgHeader, sbs->buf(), sizeof(RedistributeMsgHeader));
sbs->advance(sizeof(RedistributeMsgHeader));
}
}
while (!done); // will break after commit/abort or catch an exception
}
catch (const std::exception& ex)
{
noExcept = false;
logMessage(ex.what(), __LINE__);
}
catch (...)
{
noExcept = false;
}
if (noExcept == false)
{
// send NACK to peer
fBs.restart();
fBs << (ByteStream::byte) WriteEngine::WE_SVR_REDISTRIBUTE; // dummy, keep for now.
fBs.append((const ByteStream::byte*) &fMsgHeader, sizeof(fMsgHeader));
fBs << ((size_t) -1);
fIOSocket.write(fBs);
}
fBs.reset();
fIOSocket.close();
}
