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polardbxengine/storage/ndb/memcache/include/Operation.h

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/*
Copyright (c) 2011, 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, version 2.0,
as published by the Free Software Foundation.
This program is also distributed with certain software (including
but not limited to OpenSSL) that is licensed under separate terms,
as designated in a particular file or component or in included license
documentation. The authors of MySQL hereby grant you an additional
permission to link the program and your derivative works with the
separately licensed software that they have included with MySQL.
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, version 2.0, 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 NDBMEMCACHE_OPERATION_H
#define NDBMEMCACHE_OPERATION_H
#ifndef __cplusplus
#error "This file is for C++ only"
#endif
#include <NdbApi.hpp>
#include "ndbmemcache_global.h"
#include "Record.h"
#include "QueryPlan.h"
#include "debug.h"
#include "workitem.h"
/* Use a QueryPlan to perform an operation.
A query plan owns three records: a key_record, a val_record, and a row_record.
In general, the purpose of the Operation class is to hide this fact from
the user, and to perform one of Record's method using the correct record.
*/
class Operation {
public:
/* Pointers to buffers used in operations.
These are public because the caller owns the memory they point to. */
char *buffer;
char *key_buffer;
private:
/* Private instance variables */
const QueryPlan *plan;
const int op;
const Record *record;
Uint8 row_mask[4];
Uint8 key_mask[4];
Uint8 * read_mask_ptr;
/* Private methods */
void set_default_record();
bool setFieldsInRow(int offset, const char *type, int, const char *, size_t);
public:
// Constructors
Operation(QueryPlan *p, int o = 1, char *kbuf = 0);
Operation(workitem *, Uint32 saved_row_mask = 0);
Operation(QueryPlan *p, char * buffer);
// Public Methods
void save_row_mask(Uint32 * loc);
// Select columns for reading
void readSelectedColumns();
void readAllColumns();
void readColumn(int id);
// Methods for writing to the key record
size_t requiredKeyBuffer();
void clearKeyNullBits();
bool setKey(int nparts, const char *key_str, size_t key_str_len);
bool setKeyPart(int id, const char *strval, size_t strlen);
bool setKeyPartInt(int id, int value);
void setKeyPartNull(int id);
// Methods for writing to the row
size_t requiredBuffer();
void setNullBits();
void clearNullBits();
bool setKeyFieldsInRow(int nparts, const char *key_str, size_t key_str_len);
bool setValueFieldsInRow(int nparts, const char *val_str, size_t val_str_len);
bool setColumn(int id, const char *strval, size_t strlen);
bool setColumnInt(int id, int value);
bool setColumnBigUnsigned(int id, Uint64 value);
void setColumnNull(int id);
void setColumnNotNull(int id);
// Methods for reading columns from the response
int nValues() const;
bool isNull(int id) const;
size_t getStringifiedLength() const;
void * getPointer(int id) const;
int getIntValue(int id) const;
Uint64 getBigUnsignedValue(int id) const;
bool getStringValueNoCopy(int id, char **dstptr, size_t *lenptr) const;
bool appendCRLF(int id, size_t len) const;
size_t copyValue(int id, char *dest) const;
/* NdbTransaction method wrappers */
// startTransaction
NdbTransaction *startTransaction(Ndb *) const;
// read
const NdbOperation *readTuple(NdbTransaction *tx,
NdbOperation::LockMode lmod = NdbOperation::LM_SimpleRead);
// delete
const NdbOperation *deleteTuple(NdbTransaction *tx,
NdbOperation::OperationOptions *options = 0);
const NdbOperation *deleteCurrentTuple(NdbScanOperation *, NdbTransaction *,
NdbOperation::OperationOptions *opts = 0);
// write
const NdbOperation *writeTuple(NdbTransaction *tx);
const NdbOperation *insertRow(NdbTransaction *tx);
const NdbOperation *insertTuple(NdbTransaction *tx,
NdbOperation::OperationOptions *options = 0);
const NdbOperation *updateTuple(NdbTransaction *tx,
NdbOperation::OperationOptions *options = 0);
// scan
NdbScanOperation *scanTable(NdbTransaction *tx,
NdbOperation::LockMode lmod = NdbOperation::LM_Read,
NdbScanOperation::ScanOptions *options = 0);
NdbIndexScanOperation *scanIndex(NdbTransaction *tx,
NdbIndexScanOperation::IndexBound *bound);
};
/* ================= Inline methods ================= */
inline void Operation::save_row_mask(Uint32 * loc) {
memcpy(loc, row_mask, 4);
}
/* Select columns for reading */
inline void Operation::readSelectedColumns() {
read_mask_ptr = row_mask;
}
inline void Operation::readAllColumns() {
read_mask_ptr = 0;
}
inline void Operation::readColumn(int id) {
record->maskActive(id, row_mask);
}
/* Methods for writing to the key record */
inline size_t Operation::requiredKeyBuffer() {
/* Malloc checkers complain if this +1 is not present. Not sure why.
Theory: because the terminating null of a C-string may be written there. */
return plan->key_record->rec_size + 1;
}
inline void Operation::clearKeyNullBits() {
plan->key_record->clearNullBits(key_buffer);
}
inline bool Operation::setKeyPart(int id, const char *strval, size_t str_len) {
int s = plan->key_record->encode(id, strval, str_len, key_buffer, key_mask);
return (s > 0);
}
inline bool Operation::setKeyPartInt(int id, int value) {
return plan->key_record->setIntValue(id, value, key_buffer, key_mask);
}
inline void Operation::setKeyPartNull(int id) {
plan->key_record->setNull(id, key_buffer, key_mask);
}
/* Methods for writing to the row */
inline size_t Operation::requiredBuffer() {
return record->rec_size + 1;
}
inline void Operation::setNullBits() {
record->setNullBits(buffer);
}
inline void Operation::clearNullBits() {
record->clearNullBits(buffer);
}
inline bool Operation::setColumn(int id, const char *strval, size_t strlen) {
int s = record->encode(id, strval, strlen, buffer, row_mask);
return (s > 0);
}
inline bool Operation::setColumnInt(int id, int value) {
return record->setIntValue(id, value, buffer, row_mask);
}
inline bool Operation::setColumnBigUnsigned(int id, Uint64 value) {
return record->setUint64Value(id, value, buffer, row_mask);
}
inline void Operation::setColumnNull(int id) {
record->setNull(id, buffer, row_mask);
}
inline void Operation::setColumnNotNull(int id) {
record->setNotNull(id, buffer, row_mask);
}
inline bool Operation::setKeyFieldsInRow(int nparts, const char *dbkey, size_t key_len) {
return setFieldsInRow(COL_STORE_KEY, "key", nparts, dbkey, key_len);
}
inline bool Operation::setValueFieldsInRow(int nparts, const char *dbval, size_t val_len) {
return setFieldsInRow(COL_STORE_VALUE, "value", nparts, dbval, val_len);
}
/* Methods for reading columns from the response */
inline int Operation::nValues() const {
return record->nvalues;
}
inline bool Operation::isNull(int id) const {
return record->isNull(id, buffer);
}
inline size_t Operation::getStringifiedLength() const {
return record->getStringifiedLength(buffer);
}
inline void * Operation::getPointer(int id) const {
return record->getPointer(id, buffer);
}
inline int Operation::getIntValue(int id) const {
return record->getIntValue(id, buffer);
}
inline Uint64 Operation::getBigUnsignedValue(int id) const {
return record->getUint64Value(id, buffer);
}
inline bool Operation::appendCRLF(int id, size_t len) const {
return record->appendCRLF(id, len, buffer);
}
/* NdbTransaction method wrappers */
inline const NdbOperation *
Operation::readTuple(NdbTransaction *tx, NdbOperation::LockMode lmode) {
return tx->readTuple(plan->key_record->ndb_record, key_buffer,
record->ndb_record, buffer, lmode,
read_mask_ptr);
}
inline const NdbOperation *
Operation::deleteTuple(NdbTransaction *tx,
NdbOperation::OperationOptions * options) {
return tx->deleteTuple(plan->key_record->ndb_record, key_buffer,
plan->val_record->ndb_record, 0, 0, options);
}
inline const NdbOperation * Operation::writeTuple(NdbTransaction *tx) {
return tx->writeTuple(plan->key_record->ndb_record, key_buffer,
plan->row_record->ndb_record, buffer, row_mask);
}
inline const NdbOperation * Operation::insertRow(NdbTransaction *tx) {
return tx->insertTuple(plan->row_record->ndb_record, buffer, row_mask);
}
inline const NdbOperation *
Operation::insertTuple(NdbTransaction *tx,
NdbOperation::OperationOptions * options) {
return tx->insertTuple(plan->key_record->ndb_record, key_buffer,
plan->row_record->ndb_record, buffer,
row_mask, options);
}
inline const NdbOperation *
Operation::updateTuple(NdbTransaction *tx,
NdbOperation::OperationOptions * options) {
return tx->updateTuple(plan->key_record->ndb_record, key_buffer,
plan->row_record->ndb_record, buffer,
row_mask, options);
}
inline NdbScanOperation *
Operation::scanTable(NdbTransaction *tx, NdbOperation::LockMode lmode,
NdbScanOperation::ScanOptions *opts) {
return tx->scanTable(record->ndb_record, lmode,
read_mask_ptr, opts, 0);
}
inline const NdbOperation *
Operation::deleteCurrentTuple(NdbScanOperation *scanop,
NdbTransaction *tx,
NdbOperation::OperationOptions *opts) {
return scanop->deleteCurrentTuple(tx, record->ndb_record, buffer,
read_mask_ptr, opts);
}
#endif
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