/* Copyright (c) 2003, 2015, Oracle and/or its affiliates. All rights reserved. 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 St, Fifth Floor, Boston, MA 02110-1301 USA */ #ifndef SCAN_FRAG_HPP #define SCAN_FRAG_HPP #include "SignalData.hpp" #include "ndb_limits.h" #define JAM_FILE_ID 134 class ScanFragReq { /** * Sender(s) */ friend class Dbtc; friend class Backup; friend class Suma; /** * Reciver(s) */ friend class Dblqh; friend class Dbspj; public: STATIC_CONST( SignalLength = 12 ); STATIC_CONST( AttrInfoSectionNum = 0 ); STATIC_CONST( KeyInfoSectionNum = 1 ); friend bool printSCAN_FRAGREQ(FILE *, const Uint32*, Uint32, Uint16); friend bool printSCAN_FRAGCONF(FILE *, const Uint32*, Uint32, Uint16); public: enum ReorgFlag { REORG_ALL = 0 ,REORG_NOT_MOVED = 1 // Only return not moved rows ,REORG_MOVED = 2 // Only return moved rows }; Uint32 senderData; Uint32 resultRef; // Where to send the result Uint32 savePointId; Uint32 requestInfo; Uint32 tableId; Uint32 fragmentNoKeyLen; Uint32 schemaVersion; Uint32 transId1; Uint32 transId2; union { Uint32 clientOpPtr; Uint32 resultData; }; Uint32 batch_size_rows; Uint32 batch_size_bytes; Uint32 variableData[1]; static Uint32 getLockMode(const Uint32 & requestInfo); static Uint32 getHoldLockFlag(const Uint32 & requestInfo); static Uint32 getKeyinfoFlag(const Uint32 & requestInfo); static Uint32 getReadCommittedFlag(const Uint32 & requestInfo); static Uint32 getRangeScanFlag(const Uint32 & requestInfo); static Uint32 getDescendingFlag(const Uint32 & requestInfo); static Uint32 getTupScanFlag(const Uint32 & requestInfo); static Uint32 getAttrLen(const Uint32 & requestInfo); static Uint32 getScanPrio(const Uint32 & requestInfo); static Uint32 getNoDiskFlag(const Uint32 & requestInfo); static Uint32 getLcpScanFlag(const Uint32 & requestInfo); static Uint32 getStatScanFlag(const Uint32 & requestInfo); static Uint32 getPrioAFlag(const Uint32 & requestInfo); /** * To ensure backwards compatibility we set the flag when NOT using * interpreted mode, previously scans always used interpreted mode. Now * it is possible to perform scans (especially LCP scans and Backup * scans) without using the interpreted programs. This way the code will * interact nicely with old code that always set this flag to 0 and want * to use interpreted execution based on that. */ static Uint32 getNotInterpretedFlag(const Uint32 & requestInfo); static void setLockMode(Uint32 & requestInfo, Uint32 lockMode); static void setHoldLockFlag(Uint32 & requestInfo, Uint32 holdLock); static void setKeyinfoFlag(Uint32 & requestInfo, Uint32 keyinfo); static void setReadCommittedFlag(Uint32 & requestInfo, Uint32 readCommitted); static void setRangeScanFlag(Uint32 & requestInfo, Uint32 rangeScan); static void setDescendingFlag(Uint32 & requestInfo, Uint32 descending); static void setTupScanFlag(Uint32 & requestInfo, Uint32 tupScan); static void setAttrLen(Uint32 & requestInfo, Uint32 attrLen); static void clearAttrLen(Uint32 & requestInfo); static void setScanPrio(Uint32& requestInfo, Uint32 prio); static void setNoDiskFlag(Uint32& requestInfo, Uint32 val); static void setLcpScanFlag(Uint32 & requestInfo, Uint32 val); static void setStatScanFlag(Uint32 & requestInfo, Uint32 val); static void setPrioAFlag(Uint32 & requestInfo, Uint32 val); static void setNotInterpretedFlag(Uint32 & requestInfo, Uint32 val); static void setReorgFlag(Uint32 & requestInfo, Uint32 val); static Uint32 getReorgFlag(const Uint32 & requestInfo); static void setCorrFactorFlag(Uint32 & requestInfo, Uint32 val); static Uint32 getCorrFactorFlag(const Uint32 & requestInfo); }; /* The KEYINFO20 signal is sent from LQH to API for each row in a scan when the ScanTabReq::getKeyinfoFlag() is set in requestInfo in the SCAN_TABREQ signal. The '20' in the signal name refers to the number of keyInfo data words in the signal, which is actually a bit misleading since now it is sent as a single long signal if the keyinfo has more than 20 words. The information in this signal is used in the NDB API to request the take over of a lock from the scan with a TCKEYREQ, using the primary key info sent as data and the scanInfo_Node word to identify the lock. */ class KeyInfo20 { /** * Sender(s) */ friend class Dblqh; /** * Reciver(s) */ friend class Backup; friend class NdbOperation; friend class NdbScanReceiver; public: STATIC_CONST( HeaderLength = 5); STATIC_CONST( DataLength = 20 ); static Uint32 setScanInfo(Uint32 noOfOps, Uint32 scanNo); static Uint32 getScanNo(Uint32 scanInfo); static Uint32 getScanOp(Uint32 scanInfo); public: Uint32 clientOpPtr; Uint32 keyLen; /* The scanInfo_Node word contains the information needed to identify the row and lock to take over in the TCKEYREQ signal. It has two parts: 1. ScanInfo Lower 20 bits 2. ScanFragment Upper 14 bits */ Uint32 scanInfo_Node; Uint32 transId1; Uint32 transId2; Uint32 keyData[DataLength]; /* Note that if the key info data does not fit within the maximum of 20 in-signal words, the entire key info is instead sent in long signal section 0. The data here is a word string suitable for sending as KEYINFO in the TCKEYREQ signal. */ }; class ScanFragConf { /** * Sender(s) */ friend class Dblqh; /** * Reciver(s) */ friend class Dbtc; friend class Backup; friend class Suma; public: STATIC_CONST( SignalLength = 6 ); public: Uint32 senderData; Uint32 completedOps; Uint32 fragmentCompleted; Uint32 transId1; Uint32 transId2; Uint32 total_len; // Total #Uint32 returned as TRANSID_AI }; class ScanFragRef { /** * Sender(s) */ friend class Dblqh; /** * Reciver(s) */ friend class Dbtc; friend class Backup; friend class Suma; public: STATIC_CONST( SignalLength = 4 ); public: enum ErrorCode { ZNO_FREE_TC_CONREC_ERROR = 484, ZTOO_FEW_CONCURRENT_OPERATIONS = 485, ZTOO_MANY_CONCURRENT_OPERATIONS = 486, ZSCAN_NO_FRAGMENT_ERROR = 487, ZTOO_MANY_ACTIVE_SCAN_ERROR = 488, ZNO_FREE_SCANREC_ERROR = 489, TABLE_NOT_DEFINED_ERROR = 723, DROP_TABLE_IN_PROGRESS_ERROR = 1226, /* Reported on LCP scans */ ZWRONG_BATCH_SIZE = 1230, ZSTANDBY_SCAN_ERROR = 1209, NO_TC_CONNECT_ERROR = 1217, ZSCAN_BOOK_ACC_OP_ERROR = 1219, ZUNKNOWN_TRANS_ERROR = 1227 }; Uint32 senderData; Uint32 transId1; Uint32 transId2; Uint32 errorCode; }; /** * This is part of Scan Fragment protocol * * Not to be confused with ScanNextReq in Scan Table protocol */ class ScanFragNextReq { /** * Sender(s) */ friend class Dbtc; friend class Backup; friend class Suma; /** * Reciver(s) */ friend class Dblqh; friend bool printSCANFRAGNEXTREQ(FILE * output, const Uint32 * theData, Uint32 len, Uint16 receiverBlockNo); public: STATIC_CONST( SignalLength = 6 ); public: Uint32 senderData; Uint32 requestInfo; Uint32 transId1; Uint32 transId2; Uint32 batch_size_rows; Uint32 batch_size_bytes; Uint32 variableData[1]; static Uint32 getCloseFlag(const Uint32&); static void setCloseFlag(Uint32&, Uint32); static Uint32 getPrioAFlag(const Uint32&); static void setPrioAFlag(Uint32&, Uint32); static Uint32 getCorrFactorFlag(const Uint32&); static void setCorrFactorFlag(Uint32&); }; /** * Request Info (SCANFRAGREQ) * * a = Length of attrinfo - 16 Bits (16-31) (Short only) * c = LCP scan - 1 Bit 3 * d = No disk - 1 Bit 4 * l = Lock Mode - 1 Bit 5 * h = Hold lock - 1 Bit 7 * k = Keyinfo - 1 Bit 8 * r = read committed - 1 Bit 9 * x = range scan - 1 Bit 6 * z = descending - 1 Bit 10 * t = tup scan - 1 Bit 11 (implies x=z=0) * p = Scan prio - 4 Bits (12-15) -> max 15 * r = Reorg flag - 2 Bits (1-2) * C = corr value flag - 1 Bit (16) * s = Stat scan - 1 Bit 17 * a = Prio A scan - 1 Bit 18 * i = Not interpreted flag - 1 Bit 19 * * 1111111111222222222233 * 01234567890123456789012345678901 * rrcdlxhkrztppppaaaaaaaaaaaaaaaa Short variant ( < 6.4.0) * rrcdlxhkrztppppCs Long variant (6.4.0 +) */ #define SF_LOCK_MODE_SHIFT (5) #define SF_LOCK_MODE_MASK (1) #define SF_NO_DISK_SHIFT (4) #define SF_HOLD_LOCK_SHIFT (7) #define SF_KEYINFO_SHIFT (8) #define SF_READ_COMMITTED_SHIFT (9) #define SF_RANGE_SCAN_SHIFT (6) #define SF_DESCENDING_SHIFT (10) #define SF_TUP_SCAN_SHIFT (11) #define SF_LCP_SCAN_SHIFT (3) #define SF_ATTR_LEN_SHIFT (16) #define SF_ATTR_LEN_MASK (65535) #define SF_PRIO_SHIFT 12 #define SF_PRIO_MASK 15 #define SF_REORG_SHIFT (1) #define SF_REORG_MASK (3) #define SF_CORR_FACTOR_SHIFT (16) #define SF_STAT_SCAN_SHIFT (17) #define SF_PRIO_A_SHIFT (18) #define SF_NOT_INTERPRETED_SHIFT (19) inline Uint32 ScanFragReq::getLockMode(const Uint32 & requestInfo){ return (requestInfo >> SF_LOCK_MODE_SHIFT) & SF_LOCK_MODE_MASK; } inline Uint32 ScanFragReq::getHoldLockFlag(const Uint32 & requestInfo){ return (requestInfo >> SF_HOLD_LOCK_SHIFT) & 1; } inline Uint32 ScanFragReq::getKeyinfoFlag(const Uint32 & requestInfo){ return (requestInfo >> SF_KEYINFO_SHIFT) & 1; } inline Uint32 ScanFragReq::getRangeScanFlag(const Uint32 & requestInfo){ return (requestInfo >> SF_RANGE_SCAN_SHIFT) & 1; } inline Uint32 ScanFragReq::getDescendingFlag(const Uint32 & requestInfo){ return (requestInfo >> SF_DESCENDING_SHIFT) & 1; } inline Uint32 ScanFragReq::getTupScanFlag(const Uint32 & requestInfo){ return (requestInfo >> SF_TUP_SCAN_SHIFT) & 1; } inline Uint32 ScanFragReq::getReadCommittedFlag(const Uint32 & requestInfo){ return (requestInfo >> SF_READ_COMMITTED_SHIFT) & 1; } inline Uint32 ScanFragReq::getAttrLen(const Uint32 & requestInfo){ return (requestInfo >> SF_ATTR_LEN_SHIFT) & SF_ATTR_LEN_MASK; } inline Uint32 ScanFragReq::getScanPrio(const Uint32 & requestInfo){ return (requestInfo >> SF_PRIO_SHIFT) & SF_PRIO_MASK; } inline void ScanFragReq::setScanPrio(UintR & requestInfo, UintR val){ ASSERT_MAX(val, SF_PRIO_MASK, "ScanFragReq::setScanPrio"); requestInfo |= (val << SF_PRIO_SHIFT); } inline void ScanFragReq::setLockMode(UintR & requestInfo, UintR val){ ASSERT_MAX(val, SF_LOCK_MODE_MASK, "ScanFragReq::setLockMode"); requestInfo |= (val << SF_LOCK_MODE_SHIFT); } inline void ScanFragReq::setHoldLockFlag(UintR & requestInfo, UintR val){ ASSERT_BOOL(val, "ScanFragReq::setHoldLockFlag"); requestInfo |= (val << SF_HOLD_LOCK_SHIFT); } inline void ScanFragReq::setKeyinfoFlag(UintR & requestInfo, UintR val){ ASSERT_BOOL(val, "ScanFragReq::setKeyinfoFlag"); requestInfo |= (val << SF_KEYINFO_SHIFT); } inline void ScanFragReq::setReadCommittedFlag(UintR & requestInfo, UintR val){ ASSERT_BOOL(val, "ScanFragReq::setReadCommittedFlag"); requestInfo |= (val << SF_READ_COMMITTED_SHIFT); } inline void ScanFragReq::setRangeScanFlag(UintR & requestInfo, UintR val){ ASSERT_BOOL(val, "ScanFragReq::setRangeScanFlag"); requestInfo |= (val << SF_RANGE_SCAN_SHIFT); } inline void ScanFragReq::setDescendingFlag(UintR & requestInfo, UintR val){ ASSERT_BOOL(val, "ScanFragReq::setDescendingFlag"); requestInfo |= (val << SF_DESCENDING_SHIFT); } inline void ScanFragReq::setTupScanFlag(UintR & requestInfo, UintR val){ ASSERT_BOOL(val, "ScanFragReq::setTupScanFlag"); requestInfo |= (val << SF_TUP_SCAN_SHIFT); } inline void ScanFragReq::setAttrLen(UintR & requestInfo, UintR val){ ASSERT_MAX(val, SF_ATTR_LEN_MASK, "ScanFragReq::setAttrLen"); requestInfo |= (val << SF_ATTR_LEN_SHIFT); } inline void ScanFragReq::clearAttrLen(Uint32 & requestInfo) { requestInfo &= ~((Uint32)SF_ATTR_LEN_MASK << SF_ATTR_LEN_SHIFT); } inline Uint32 ScanFragReq::getNoDiskFlag(const Uint32 & requestInfo){ return (requestInfo >> SF_NO_DISK_SHIFT) & 1; } inline void ScanFragReq::setNoDiskFlag(UintR & requestInfo, UintR val){ ASSERT_BOOL(val, "ScanFragReq::setNoDiskFlag"); requestInfo |= (val << SF_NO_DISK_SHIFT); } inline Uint32 ScanFragReq::getLcpScanFlag(const Uint32 & requestInfo){ return (requestInfo >> SF_LCP_SCAN_SHIFT) & 1; } inline void ScanFragReq::setLcpScanFlag(UintR & requestInfo, UintR val){ ASSERT_BOOL(val, "ScanFragReq::setLcpScanFlag"); requestInfo |= (val << SF_LCP_SCAN_SHIFT); } inline Uint32 KeyInfo20::setScanInfo(Uint32 opNo, Uint32 scanNo){ ASSERT_MAX(opNo, 1023, "KeyInfo20::setScanInfo"); ASSERT_MAX(scanNo, 255, "KeyInfo20::setScanInfo"); return (opNo << 8) + scanNo; } inline Uint32 KeyInfo20::getScanNo(Uint32 scanInfo){ return scanInfo & 0xFF; } inline Uint32 KeyInfo20::getScanOp(Uint32 scanInfo){ return (scanInfo >> 8) & 0x3FF; } inline Uint32 ScanFragReq::getReorgFlag(const Uint32 & requestInfo){ return (requestInfo >> SF_REORG_SHIFT) & SF_REORG_MASK; } inline void ScanFragReq::setReorgFlag(UintR & requestInfo, UintR val){ ASSERT_MAX(val, SF_REORG_MASK, "ScanFragReq::setLcpScanFlag"); requestInfo |= (val << SF_REORG_SHIFT); } inline Uint32 ScanFragReq::getCorrFactorFlag(const Uint32 & requestInfo){ return (requestInfo >> SF_CORR_FACTOR_SHIFT) & 1; } inline void ScanFragReq::setCorrFactorFlag(UintR & requestInfo, UintR val){ ASSERT_BOOL(val, "ScanFragReq::setCorrFactorFlag"); requestInfo |= (val << SF_CORR_FACTOR_SHIFT); } inline Uint32 ScanFragReq::getStatScanFlag(const Uint32 & requestInfo){ return (requestInfo >> SF_STAT_SCAN_SHIFT) & 1; } inline void ScanFragReq::setStatScanFlag(UintR & requestInfo, UintR val){ ASSERT_BOOL(val, "ScanFragReq::setStatScanFlag"); requestInfo |= (val << SF_STAT_SCAN_SHIFT); } inline Uint32 ScanFragReq::getPrioAFlag(const Uint32 & requestInfo){ return (requestInfo >> SF_PRIO_A_SHIFT) & 1; } inline void ScanFragReq::setPrioAFlag(UintR & requestInfo, UintR val){ ASSERT_BOOL(val, "ScanFragReq::setPrioAFlag"); requestInfo |= (val << SF_PRIO_A_SHIFT); } inline Uint32 ScanFragReq::getNotInterpretedFlag(const Uint32 & requestInfo) { return (requestInfo >> SF_NOT_INTERPRETED_SHIFT) & 1; } inline void ScanFragReq::setNotInterpretedFlag(UintR & requestInfo, UintR val) { ASSERT_BOOL(val, "ScanFragReq::setStatScanFlag"); requestInfo |= (val << SF_NOT_INTERPRETED_SHIFT); } /** * Request Info (SCAN_NEXTREQ) * * c = close - 1 Bit 0 * C = corr value flag - 1 Bit 1 * * 1111111111222222222233 * 01234567890123456789012345678901 * cC */ #define SFN_CLOSE_SHIFT 0 #define SFN_CORR_SHIFT 1 #define SFN_PRIO_A_SHIFT 2 inline Uint32 ScanFragNextReq::getCorrFactorFlag(const Uint32 & ri) { return (ri >> SFN_CORR_SHIFT) & 1; } inline void ScanFragNextReq::setCorrFactorFlag(Uint32 & ri) { ri |= (1 << SFN_CORR_SHIFT); } inline Uint32 ScanFragNextReq::getCloseFlag(const Uint32 & requestInfo){ return requestInfo & 1; } inline void ScanFragNextReq::setCloseFlag(UintR & requestInfo, UintR val){ ASSERT_BOOL(val, "ScanFragReq::setCloseFlag"); requestInfo |= val; } inline Uint32 ScanFragNextReq::getPrioAFlag(const Uint32 & requestInfo){ return (requestInfo >> SFN_PRIO_A_SHIFT) & 1; } inline void ScanFragNextReq::setPrioAFlag(UintR & requestInfo, UintR val){ ASSERT_BOOL(val, "ScanFragReq::setPrioAFlag"); requestInfo |= (val << SFN_PRIO_A_SHIFT); } #undef JAM_FILE_ID #endif