/* Copyright (c) 2003-2005 MySQL AB This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA */ #include bool printTCKEYREQ(FILE * output, const Uint32 * theData, Uint32 len, Uint16 receiverBlockNo){ const TcKeyReq * const sig = (TcKeyReq *) theData; UintR requestInfo = sig->requestInfo; fprintf(output, " apiConnectPtr: H\'%.8x, apiOperationPtr: H\'%.8x\n", sig->apiConnectPtr, sig->apiOperationPtr); fprintf(output, " Operation: %s, Flags: ", sig->getOperationType(requestInfo) == ZREAD ? "Read" : sig->getOperationType(requestInfo) == ZREAD_EX ? "Read-Ex" : sig->getOperationType(requestInfo) == ZUPDATE ? "Update" : sig->getOperationType(requestInfo) == ZINSERT ? "Insert" : sig->getOperationType(requestInfo) == ZDELETE ? "Delete" : sig->getOperationType(requestInfo) == ZWRITE ? "Write" : "Unknown"); { if(sig->getDirtyFlag(requestInfo)){ fprintf(output, "Dirty "); } if(sig->getStartFlag(requestInfo)){ fprintf(output, "Start "); } if(sig->getExecuteFlag(requestInfo)){ fprintf(output, "Execute "); } if(sig->getCommitFlag(requestInfo)){ fprintf(output, "Commit "); } if (sig->getExecutingTrigger(requestInfo)) { fprintf(output, "Trigger "); } if (sig->getNoDiskFlag(requestInfo)) { fprintf(output, "NoDisk "); } UintR TcommitType = sig->getAbortOption(requestInfo); if (TcommitType == TcKeyReq::AbortOnError) { fprintf(output, "AbortOnError "); } else if (TcommitType == TcKeyReq::IgnoreError) { fprintf(output, "IgnoreError "); }//if if(sig->getSimpleFlag(requestInfo)){ fprintf(output, "Simple "); } if(sig->getScanIndFlag(requestInfo)){ fprintf(output, "ScanInd "); } if(sig->getInterpretedFlag(requestInfo)){ fprintf(output, "Interpreted "); } if(sig->getDistributionKeyFlag(sig->requestInfo)){ fprintf(output, " d-key"); } fprintf(output, "\n"); } const int keyLen = sig->getKeyLength(requestInfo); const int attrInThis = sig->getAIInTcKeyReq(requestInfo); const int attrLen = sig->getAttrinfoLen(sig->attrLen); const int apiVer = sig->getAPIVersion(sig->attrLen); fprintf(output, " keyLen: %d, attrLen: %d, AI in this: %d, tableId: %d, " "tableSchemaVer: %d, API Ver: %d\n", keyLen, attrLen, attrInThis, sig->tableId, sig->tableSchemaVersion, apiVer); fprintf(output, " transId(1, 2): (H\'%.8x, H\'%.8x)\n -- Variable Data --\n", sig->transId1, sig->transId2); if (len >= TcKeyReq::StaticLength) { Uint32 restLen = (len - TcKeyReq::StaticLength); const Uint32 * rest = &sig->scanInfo; while(restLen >= 7){ fprintf(output, " H\'%.8x H\'%.8x H\'%.8x H\'%.8x H\'%.8x H\'%.8x H\'%.8x\n", rest[0], rest[1], rest[2], rest[3], rest[4], rest[5], rest[6]); restLen -= 7; rest += 7; } if(restLen > 0){ for(Uint32 i = 0; i