/usr/include/kchashdb.h is in libkyotocabinet-dev 1.2.76-4.2+b1.
This file is owned by root:root, with mode 0o644.
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* File hash database
* Copyright (C) 2009-2012 FAL Labs
* This file is part of Kyoto Cabinet.
* 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, either version
* 3 of the License, or any later version.
* 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, see <http://www.gnu.org/licenses/>.
*************************************************************************************************/
#ifndef _KCHASHDB_H // duplication check
#define _KCHASHDB_H
#include <kccommon.h>
#include <kcutil.h>
#include <kcthread.h>
#include <kcfile.h>
#include <kccompress.h>
#include <kccompare.h>
#include <kcmap.h>
#include <kcregex.h>
#include <kcdb.h>
#include <kcplantdb.h>
#define KCHDBMAGICDATA "KC\n" ///< magic data of the file
#define KCHDBCHKSUMSEED "__kyotocabinet__" ///< seed of the module checksum
#define KCHDBTMPPATHEXT "tmpkch" ///< extension of the temporary file
namespace kyotocabinet { // common namespace
/**
* File hash database.
* @note This class is a concrete class to operate a hash database on a file. This class can be
* inherited but overwriting methods is forbidden. Before every database operation, it is
* necessary to call the HashDB::open method in order to open a database file and connect the
* database object to it. To avoid data missing or corruption, it is important to close every
* database file by the HashDB::close method when the database is no longer in use. It is
* forbidden for multible database objects in a process to open the same database at the same
* time. It is forbidden to share a database object with child processes.
*/
class HashDB : public BasicDB {
friend class PlantDB<HashDB, BasicDB::TYPETREE>;
public:
class Cursor;
private:
struct Record;
struct FreeBlock;
struct FreeBlockComparator;
class Repeater;
class ScopedVisitor;
/** An alias of set of free blocks. */
typedef std::set<FreeBlock> FBP;
/** An alias of list of cursors. */
typedef std::list<Cursor*> CursorList;
/** The offset of the library version. */
static const int64_t MOFFLIBVER = 4;
/** The offset of the library revision. */
static const int64_t MOFFLIBREV = 5;
/** The offset of the format revision. */
static const int64_t MOFFFMTVER = 6;
/** The offset of the module checksum. */
static const int64_t MOFFCHKSUM = 7;
/** The offset of the database type. */
static const int64_t MOFFTYPE = 8;
/** The offset of the alignment power. */
static const int64_t MOFFAPOW = 9;
/** The offset of the free block pool power. */
static const int64_t MOFFFPOW = 10;
/** The offset of the options. */
static const int64_t MOFFOPTS = 11;
/** The offset of the bucket number. */
static const int64_t MOFFBNUM = 16;
/** The offset of the status flags. */
static const int64_t MOFFFLAGS = 24;
/** The offset of the record number. */
static const int64_t MOFFCOUNT = 32;
/** The offset of the file size. */
static const int64_t MOFFSIZE = 40;
/** The offset of the opaque data. */
static const int64_t MOFFOPAQUE = 48;
/** The size of the header. */
static const int64_t HEADSIZ = 64;
/** The width of the free block. */
static const int32_t FBPWIDTH = 6;
/** The large width of the record address. */
static const int32_t WIDTHLARGE = 6;
/** The small width of the record address. */
static const int32_t WIDTHSMALL = 4;
/** The size of the record buffer. */
static const size_t RECBUFSIZ = 48;
/** The size of the IO buffer. */
static const size_t IOBUFSIZ = 1024;
/** The number of slots of the record lock. */
static const int32_t RLOCKSLOT = 1024;
/** The default alignment power. */
static const uint8_t DEFAPOW = 3;
/** The maximum alignment power. */
static const uint8_t MAXAPOW = 15;
/** The default free block pool power. */
static const uint8_t DEFFPOW = 10;
/** The maximum free block pool power. */
static const uint8_t MAXFPOW = 20;
/** The default bucket number. */
static const int64_t DEFBNUM = 1048583LL;
/** The default size of the memory-mapped region. */
static const int64_t DEFMSIZ = 64LL << 20;
/** The magic data for record. */
static const uint8_t RECMAGIC = 0xcc;
/** The magic data for padding. */
static const uint8_t PADMAGIC = 0xee;
/** The magic data for free block. */
static const uint8_t FBMAGIC = 0xdd;
/** The maximum unit of auto defragmentation. */
static const int32_t DFRGMAX = 512;
/** The coefficient of auto defragmentation. */
static const int32_t DFRGCEF = 2;
/** The checking width for record salvage. */
static const int64_t SLVGWIDTH = 1LL << 20;
/** The threshold of busy loop and sleep for locking. */
static const uint32_t LOCKBUSYLOOP = 8192;
public:
/**
* Cursor to indicate a record.
*/
class Cursor : public BasicDB::Cursor {
friend class HashDB;
public:
/**
* Constructor.
* @param db the container database object.
*/
explicit Cursor(HashDB* db) : db_(db), off_(0), end_(0) {
_assert_(db);
ScopedRWLock lock(&db_->mlock_, true);
db_->curs_.push_back(this);
}
/**
* Destructor.
*/
virtual ~Cursor() {
_assert_(true);
if (!db_) return;
ScopedRWLock lock(&db_->mlock_, true);
db_->curs_.remove(this);
}
/**
* Accept a visitor to the current record.
* @param visitor a visitor object.
* @param writable true for writable operation, or false for read-only operation.
* @param step true to move the cursor to the next record, or false for no move.
* @return true on success, or false on failure.
* @note The operation for each record is performed atomically and other threads accessing
* the same record are blocked. To avoid deadlock, any explicit database operation must not
* be performed in this function.
*/
bool accept(Visitor* visitor, bool writable = true, bool step = false) {
_assert_(visitor);
ScopedRWLock lock(&db_->mlock_, true);
if (db_->omode_ == 0) {
db_->set_error(_KCCODELINE_, Error::INVALID, "not opened");
return false;
}
if (writable) {
if (!db_->writer_) {
db_->set_error(_KCCODELINE_, Error::NOPERM, "permission denied");
return false;
}
if (!(db_->flags_ & FOPEN) && !db_->autotran_ && !db_->tran_ &&
!db_->set_flag(FOPEN, true)) {
return false;
}
}
if (off_ < 1) {
db_->set_error(_KCCODELINE_, Error::NOREC, "no record");
return false;
}
Record rec;
char rbuf[RECBUFSIZ];
if (!step_impl(&rec, rbuf, 0)) return false;
if (!rec.vbuf && !db_->read_record_body(&rec)) {
delete[] rec.bbuf;
return false;
}
const char* vbuf = rec.vbuf;
size_t vsiz = rec.vsiz;
char* zbuf = NULL;
size_t zsiz = 0;
if (db_->comp_) {
zbuf = db_->comp_->decompress(vbuf, vsiz, &zsiz);
if (!zbuf) {
db_->set_error(_KCCODELINE_, Error::SYSTEM, "data decompression failed");
delete[] rec.bbuf;
return false;
}
vbuf = zbuf;
vsiz = zsiz;
}
vbuf = visitor->visit_full(rec.kbuf, rec.ksiz, vbuf, vsiz, &vsiz);
delete[] zbuf;
if (vbuf == Visitor::REMOVE) {
uint64_t hash = db_->hash_record(rec.kbuf, rec.ksiz);
uint32_t pivot = db_->fold_hash(hash);
int64_t bidx = hash % db_->bnum_;
Repeater repeater(Visitor::REMOVE, 0);
if (!db_->accept_impl(rec.kbuf, rec.ksiz, &repeater, bidx, pivot, true)) {
delete[] rec.bbuf;
return false;
}
delete[] rec.bbuf;
} else if (vbuf == Visitor::NOP) {
delete[] rec.bbuf;
if (step) {
if (step_impl(&rec, rbuf, 1)) {
delete[] rec.bbuf;
} else if (db_->error().code() != Error::NOREC) {
return false;
}
}
} else {
zbuf = NULL;
zsiz = 0;
if (db_->comp_) {
zbuf = db_->comp_->compress(vbuf, vsiz, &zsiz);
if (!zbuf) {
db_->set_error(_KCCODELINE_, Error::SYSTEM, "data compression failed");
delete[] rec.bbuf;
return false;
}
vbuf = zbuf;
vsiz = zsiz;
}
size_t rsiz = db_->calc_record_size(rec.ksiz, vsiz);
if (rsiz <= rec.rsiz) {
rec.psiz = rec.rsiz - rsiz;
rec.vsiz = vsiz;
rec.vbuf = vbuf;
if (!db_->adjust_record(&rec) || !db_->write_record(&rec, true)) {
delete[] zbuf;
delete[] rec.bbuf;
return false;
}
delete[] zbuf;
delete[] rec.bbuf;
if (step) {
if (step_impl(&rec, rbuf, 1)) {
delete[] rec.bbuf;
} else if (db_->error().code() != Error::NOREC) {
return false;
}
}
} else {
uint64_t hash = db_->hash_record(rec.kbuf, rec.ksiz);
uint32_t pivot = db_->fold_hash(hash);
int64_t bidx = hash % db_->bnum_;
Repeater repeater(vbuf, vsiz);
if (!db_->accept_impl(rec.kbuf, rec.ksiz, &repeater, bidx, pivot, true)) {
delete[] zbuf;
delete[] rec.bbuf;
return false;
}
delete[] zbuf;
delete[] rec.bbuf;
}
}
if (db_->dfunit_ > 0 && db_->frgcnt_ >= db_->dfunit_) {
if (!db_->defrag_impl(db_->dfunit_ * DFRGCEF)) return false;
db_->frgcnt_ -= db_->dfunit_;
}
return true;
}
/**
* Jump the cursor to the first record for forward scan.
* @return true on success, or false on failure.
*/
bool jump() {
_assert_(true);
ScopedRWLock lock(&db_->mlock_, true);
if (db_->omode_ == 0) {
db_->set_error(_KCCODELINE_, Error::INVALID, "not opened");
return false;
}
off_ = 0;
if (db_->lsiz_ <= db_->roff_) {
db_->set_error(_KCCODELINE_, Error::NOREC, "no record");
return false;
}
off_ = db_->roff_;
end_ = db_->lsiz_;
return true;
}
/**
* Jump the cursor to a record for forward scan.
* @param kbuf the pointer to the key region.
* @param ksiz the size of the key region.
* @return true on success, or false on failure.
*/
bool jump(const char* kbuf, size_t ksiz) {
_assert_(kbuf && ksiz <= MEMMAXSIZ);
ScopedRWLock lock(&db_->mlock_, true);
if (db_->omode_ == 0) {
db_->set_error(_KCCODELINE_, Error::INVALID, "not opened");
return false;
}
off_ = 0;
uint64_t hash = db_->hash_record(kbuf, ksiz);
uint32_t pivot = db_->fold_hash(hash);
int64_t bidx = hash % db_->bnum_;
int64_t off = db_->get_bucket(bidx);
if (off < 0) return false;
Record rec;
char rbuf[RECBUFSIZ];
while (off > 0) {
rec.off = off;
if (!db_->read_record(&rec, rbuf)) return false;
if (rec.psiz == UINT16MAX) {
db_->set_error(_KCCODELINE_, Error::BROKEN, "free block in the chain");
db_->report(_KCCODELINE_, Logger::WARN, "psiz=%lld off=%lld fsiz=%lld",
(long long)db_->psiz_, (long long)rec.off, (long long)db_->file_.size());
return false;
}
uint32_t tpivot = db_->linear_ ? pivot :
db_->fold_hash(db_->hash_record(rec.kbuf, rec.ksiz));
if (pivot > tpivot) {
delete[] rec.bbuf;
off = rec.left;
} else if (pivot < tpivot) {
delete[] rec.bbuf;
off = rec.right;
} else {
int32_t kcmp = db_->compare_keys(kbuf, ksiz, rec.kbuf, rec.ksiz);
if (db_->linear_ && kcmp != 0) kcmp = 1;
if (kcmp > 0) {
delete[] rec.bbuf;
off = rec.left;
} else if (kcmp < 0) {
delete[] rec.bbuf;
off = rec.right;
} else {
delete[] rec.bbuf;
off_ = off;
end_ = db_->lsiz_;
return true;
}
}
}
db_->set_error(_KCCODELINE_, Error::NOREC, "no record");
return false;
}
/**
* Jump the cursor to a record for forward scan.
* @note Equal to the original Cursor::jump method except that the parameter is std::string.
*/
bool jump(const std::string& key) {
_assert_(true);
return jump(key.c_str(), key.size());
}
/**
* Jump the cursor to the last record for backward scan.
* @note This is a dummy implementation for compatibility.
*/
bool jump_back() {
_assert_(true);
ScopedRWLock lock(&db_->mlock_, true);
if (db_->omode_ == 0) {
db_->set_error(_KCCODELINE_, Error::INVALID, "not opened");
return false;
}
db_->set_error(_KCCODELINE_, Error::NOIMPL, "not implemented");
return false;
}
/**
* Jump the cursor to a record for backward scan.
* @note This is a dummy implementation for compatibility.
*/
bool jump_back(const char* kbuf, size_t ksiz) {
_assert_(kbuf && ksiz <= MEMMAXSIZ);
ScopedRWLock lock(&db_->mlock_, true);
if (db_->omode_ == 0) {
db_->set_error(_KCCODELINE_, Error::INVALID, "not opened");
return false;
}
db_->set_error(_KCCODELINE_, Error::NOIMPL, "not implemented");
return false;
}
/**
* Jump the cursor to a record for backward scan.
* @note This is a dummy implementation for compatibility.
*/
bool jump_back(const std::string& key) {
_assert_(true);
ScopedRWLock lock(&db_->mlock_, true);
if (db_->omode_ == 0) {
db_->set_error(_KCCODELINE_, Error::INVALID, "not opened");
return false;
}
db_->set_error(_KCCODELINE_, Error::NOIMPL, "not implemented");
return false;
}
/**
* Step the cursor to the next record.
* @return true on success, or false on failure.
*/
bool step() {
_assert_(true);
ScopedRWLock lock(&db_->mlock_, true);
if (db_->omode_ == 0) {
db_->set_error(_KCCODELINE_, Error::INVALID, "not opened");
return false;
}
if (off_ < 1) {
db_->set_error(_KCCODELINE_, Error::NOREC, "no record");
return false;
}
bool err = false;
Record rec;
char rbuf[RECBUFSIZ];
if (step_impl(&rec, rbuf, 1)) {
delete[] rec.bbuf;
} else {
err = true;
}
return !err;
}
/**
* Step the cursor to the previous record.
* @note This is a dummy implementation for compatibility.
*/
bool step_back() {
_assert_(true);
ScopedRWLock lock(&db_->mlock_, true);
if (db_->omode_ == 0) {
db_->set_error(_KCCODELINE_, Error::INVALID, "not opened");
return false;
}
db_->set_error(_KCCODELINE_, Error::NOIMPL, "not implemented");
return false;
}
/**
* Get the database object.
* @return the database object.
*/
HashDB* db() {
_assert_(true);
return db_;
}
private:
/**
* Step the cursor to the next record.
* @param rec the record structure.
* @param rbuf the working buffer.
* @param skip the number of skipping blocks.
* @return true on success, or false on failure.
*/
bool step_impl(Record* rec, char* rbuf, int64_t skip) {
_assert_(rec && rbuf && skip >= 0);
if (off_ >= end_) {
db_->set_error(_KCCODELINE_, Error::BROKEN, "cursor after the end");
db_->report(_KCCODELINE_, Logger::WARN, "psiz=%lld off=%lld fsiz=%lld",
(long long)db_->psiz_, (long long)rec->off, (long long)db_->file_.size());
return false;
}
while (off_ < end_) {
rec->off = off_;
if (!db_->read_record(rec, rbuf)) return false;
skip--;
if (rec->psiz == UINT16MAX) {
off_ += rec->rsiz;
} else {
if (skip < 0) return true;
delete[] rec->bbuf;
off_ += rec->rsiz;
}
}
db_->set_error(_KCCODELINE_, Error::NOREC, "no record");
off_ = 0;
return false;
}
/** Dummy constructor to forbid the use. */
Cursor(const Cursor&);
/** Dummy Operator to forbid the use. */
Cursor& operator =(const Cursor&);
/** The inner database. */
HashDB* db_;
/** The current offset. */
int64_t off_;
/** The end offset. */
int64_t end_;
};
/**
* Tuning options.
*/
enum Option {
TSMALL = 1 << 0, ///< use 32-bit addressing
TLINEAR = 1 << 1, ///< use linear collision chaining
TCOMPRESS = 1 << 2 ///< compress each record
};
/**
* Status flags.
*/
enum Flag {
FOPEN = 1 << 0, ///< whether opened
FFATAL = 1 << 1 ///< whether with fatal error
};
/**
* Default constructor.
*/
explicit HashDB() :
mlock_(), rlock_(RLOCKSLOT), flock_(), atlock_(), error_(),
logger_(NULL), logkinds_(0), mtrigger_(NULL),
omode_(0), writer_(false), autotran_(false), autosync_(false),
reorg_(false), trim_(false),
file_(), fbp_(), curs_(), path_(""),
libver_(0), librev_(0), fmtver_(0), chksum_(0), type_(TYPEHASH),
apow_(DEFAPOW), fpow_(DEFFPOW), opts_(0), bnum_(DEFBNUM),
flags_(0), flagopen_(false), count_(0), lsiz_(0), psiz_(0), opaque_(),
msiz_(DEFMSIZ), dfunit_(0), embcomp_(ZLIBRAWCOMP),
align_(0), fbpnum_(0), width_(0), linear_(false),
comp_(NULL), rhsiz_(0), boff_(0), roff_(0), dfcur_(0), frgcnt_(0),
tran_(false), trhard_(false), trfbp_(), trcount_(0), trsize_(0) {
_assert_(true);
}
/**
* Destructor.
* @note If the database is not closed, it is closed implicitly.
*/
virtual ~HashDB() {
_assert_(true);
if (omode_ != 0) close();
if (!curs_.empty()) {
CursorList::const_iterator cit = curs_.begin();
CursorList::const_iterator citend = curs_.end();
while (cit != citend) {
Cursor* cur = *cit;
cur->db_ = NULL;
++cit;
}
}
}
/**
* Accept a visitor to a record.
* @param kbuf the pointer to the key region.
* @param ksiz the size of the key region.
* @param visitor a visitor object.
* @param writable true for writable operation, or false for read-only operation.
* @return true on success, or false on failure.
* @note The operation for each record is performed atomically and other threads accessing the
* same record are blocked. To avoid deadlock, any explicit database operation must not be
* performed in this function.
*/
bool accept(const char* kbuf, size_t ksiz, Visitor* visitor, bool writable = true) {
_assert_(kbuf && ksiz <= MEMMAXSIZ && visitor);
mlock_.lock_reader();
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
mlock_.unlock();
return false;
}
if (writable) {
if (!writer_) {
set_error(_KCCODELINE_, Error::NOPERM, "permission denied");
mlock_.unlock();
return false;
}
if (!(flags_ & FOPEN) && !autotran_ && !tran_ && !set_flag(FOPEN, true)) {
mlock_.unlock();
return false;
}
}
bool err = false;
uint64_t hash = hash_record(kbuf, ksiz);
uint32_t pivot = fold_hash(hash);
int64_t bidx = hash % bnum_;
size_t lidx = bidx % RLOCKSLOT;
if (writable) {
rlock_.lock_writer(lidx);
} else {
rlock_.lock_reader(lidx);
}
if (!accept_impl(kbuf, ksiz, visitor, bidx, pivot, false)) err = true;
rlock_.unlock(lidx);
mlock_.unlock();
if (!err && dfunit_ > 0 && frgcnt_ >= dfunit_ && mlock_.lock_writer_try()) {
int64_t unit = frgcnt_;
if (unit >= dfunit_) {
if (unit > DFRGMAX) unit = DFRGMAX;
if (!defrag_impl(unit * DFRGCEF)) err = true;
frgcnt_ -= unit;
}
mlock_.unlock();
}
return !err;
}
/**
* Accept a visitor to multiple records at once.
* @param keys specifies a string vector of the keys.
* @param visitor a visitor object.
* @param writable true for writable operation, or false for read-only operation.
* @return true on success, or false on failure.
* @note The operations for specified records are performed atomically and other threads
* accessing the same records are blocked. To avoid deadlock, any explicit database operation
* must not be performed in this function.
*/
bool accept_bulk(const std::vector<std::string>& keys, Visitor* visitor,
bool writable = true) {
_assert_(visitor);
mlock_.lock_reader();
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
mlock_.unlock();
return false;
}
if (writable) {
if (!writer_) {
set_error(_KCCODELINE_, Error::NOPERM, "permission denied");
mlock_.unlock();
return false;
}
if (!(flags_ & FOPEN) && !autotran_ && !tran_ && !set_flag(FOPEN, true)) {
mlock_.unlock();
return false;
}
}
visitor->visit_before();
size_t knum = keys.size();
if (knum < 1) {
visitor->visit_after();
mlock_.unlock();
return true;
}
bool err = false;
struct RecordKey {
const char* kbuf;
size_t ksiz;
uint32_t pivot;
uint64_t bidx;
};
RecordKey* rkeys = new RecordKey[knum];
std::set<size_t> lidxs;
for (size_t i = 0; i < knum; i++) {
const std::string& key = keys[i];
RecordKey* rkey = rkeys + i;
rkey->kbuf = key.data();
rkey->ksiz = key.size();
uint64_t hash = hash_record(rkey->kbuf, rkey->ksiz);
rkey->pivot = fold_hash(hash);
rkey->bidx = hash % bnum_;
lidxs.insert(rkey->bidx % RLOCKSLOT);
}
std::set<size_t>::iterator lit = lidxs.begin();
std::set<size_t>::iterator litend = lidxs.end();
while (lit != litend) {
if (writable) {
rlock_.lock_writer(*lit);
} else {
rlock_.lock_reader(*lit);
}
++lit;
}
for (size_t i = 0; i < knum; i++) {
RecordKey* rkey = rkeys + i;
if (!accept_impl(rkey->kbuf, rkey->ksiz, visitor, rkey->bidx, rkey->pivot, false)) {
err = true;
break;
}
}
lit = lidxs.begin();
litend = lidxs.end();
while (lit != litend) {
rlock_.unlock(*lit);
++lit;
}
delete[] rkeys;
visitor->visit_after();
mlock_.unlock();
if (!err && dfunit_ > 0 && frgcnt_ >= dfunit_ && mlock_.lock_writer_try()) {
int64_t unit = frgcnt_;
if (unit >= dfunit_) {
if (unit > DFRGMAX) unit = DFRGMAX;
if (!defrag_impl(unit * DFRGCEF)) err = true;
frgcnt_ -= unit;
}
mlock_.unlock();
}
return !err;
}
/**
* Iterate to accept a visitor for each record.
* @param visitor a visitor object.
* @param writable true for writable operation, or false for read-only operation.
* @param checker a progress checker object. If it is NULL, no checking is performed.
* @return true on success, or false on failure.
* @note The whole iteration is performed atomically and other threads are blocked. To avoid
* deadlock, any explicit database operation must not be performed in this function.
*/
bool iterate(Visitor *visitor, bool writable = true, ProgressChecker* checker = NULL) {
_assert_(visitor);
ScopedRWLock lock(&mlock_, true);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return false;
}
if (writable) {
if (!writer_) {
set_error(_KCCODELINE_, Error::NOPERM, "permission denied");
return false;
}
if (!(flags_ & FOPEN) && !autotran_ && !tran_ && !set_flag(FOPEN, true)) {
mlock_.unlock();
return false;
}
}
ScopedVisitor svis(visitor);
bool err = false;
if (!iterate_impl(visitor, checker)) err = true;
trigger_meta(MetaTrigger::ITERATE, "iterate");
return !err;
}
/**
* Scan each record in parallel.
* @param visitor a visitor object.
* @param thnum the number of worker threads.
* @param checker a progress checker object. If it is NULL, no checking is performed.
* @return true on success, or false on failure.
* @note This function is for reading records and not for updating ones. The return value of
* the visitor is just ignored. To avoid deadlock, any explicit database operation must not
* be performed in this function.
*/
bool scan_parallel(Visitor *visitor, size_t thnum, ProgressChecker* checker = NULL) {
_assert_(visitor && thnum <= MEMMAXSIZ);
ScopedRWLock lock(&mlock_, false);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return false;
}
if (thnum < 1) thnum = 1;
if (thnum > (size_t)INT8MAX) thnum = INT8MAX;
if ((int64_t)thnum > bnum_) thnum = bnum_;
ScopedVisitor svis(visitor);
rlock_.lock_reader_all();
bool err = false;
if (!scan_parallel_impl(visitor, thnum, checker)) err = true;
rlock_.unlock_all();
trigger_meta(MetaTrigger::ITERATE, "scan_parallel");
return !err;
}
/**
* Get the last happened error.
* @return the last happened error.
*/
Error error() const {
_assert_(true);
return error_;
}
/**
* Set the error information.
* @param file the file name of the program source code.
* @param line the line number of the program source code.
* @param func the function name of the program source code.
* @param code an error code.
* @param message a supplement message.
*/
void set_error(const char* file, int32_t line, const char* func,
Error::Code code, const char* message) {
_assert_(file && line > 0 && func && message);
error_->set(code, message);
if (code == Error::BROKEN || code == Error::SYSTEM) flags_ |= FFATAL;
if (logger_) {
Logger::Kind kind = code == Error::BROKEN || code == Error::SYSTEM ?
Logger::ERROR : Logger::INFO;
if (kind & logkinds_)
report(file, line, func, kind, "%d: %s: %s", code, Error::codename(code), message);
}
}
/**
* Open a database file.
* @param path the path of a database file.
* @param mode the connection mode. HashDB::OWRITER as a writer, HashDB::OREADER as a
* reader. The following may be added to the writer mode by bitwise-or: HashDB::OCREATE,
* which means it creates a new database if the file does not exist, HashDB::OTRUNCATE, which
* means it creates a new database regardless if the file exists, HashDB::OAUTOTRAN, which
* means each updating operation is performed in implicit transaction, HashDB::OAUTOSYNC,
* which means each updating operation is followed by implicit synchronization with the file
* system. The following may be added to both of the reader mode and the writer mode by
* bitwise-or: HashDB::ONOLOCK, which means it opens the database file without file locking,
* HashDB::OTRYLOCK, which means locking is performed without blocking, HashDB::ONOREPAIR,
* which means the database file is not repaired implicitly even if file destruction is
* detected.
* @return true on success, or false on failure.
* @note Every opened database must be closed by the HashDB::close method when it is no
* longer in use. It is not allowed for two or more database objects in the same process to
* keep their connections to the same database file at the same time.
*/
bool open(const std::string& path, uint32_t mode = OWRITER | OCREATE) {
_assert_(true);
ScopedRWLock lock(&mlock_, true);
if (omode_ != 0) {
set_error(_KCCODELINE_, Error::INVALID, "already opened");
return false;
}
report(_KCCODELINE_, Logger::DEBUG, "opening the database (path=%s)", path.c_str());
writer_ = false;
autotran_ = false;
autosync_ = false;
reorg_ = false;
trim_ = false;
uint32_t fmode = File::OREADER;
if (mode & OWRITER) {
writer_ = true;
fmode = File::OWRITER;
if (mode & OCREATE) fmode |= File::OCREATE;
if (mode & OTRUNCATE) fmode |= File::OTRUNCATE;
if (mode & OAUTOTRAN) autotran_ = true;
if (mode & OAUTOSYNC) autosync_ = true;
}
if (mode & ONOLOCK) fmode |= File::ONOLOCK;
if (mode & OTRYLOCK) fmode |= File::OTRYLOCK;
if (!file_.open(path, fmode, msiz_)) {
const char* emsg = file_.error();
Error::Code code = Error::SYSTEM;
if (std::strstr(emsg, "(permission denied)") || std::strstr(emsg, "(directory)")) {
code = Error::NOPERM;
} else if (std::strstr(emsg, "(file not found)") || std::strstr(emsg, "(invalid path)")) {
code = Error::NOREPOS;
}
set_error(_KCCODELINE_, code, emsg);
return false;
}
if (file_.recovered()) report(_KCCODELINE_, Logger::WARN, "recovered by the WAL file");
if ((mode & OWRITER) && file_.size() < 1) {
calc_meta();
libver_ = LIBVER;
librev_ = LIBREV;
fmtver_ = FMTVER;
chksum_ = calc_checksum();
lsiz_ = roff_;
if (!file_.truncate(lsiz_)) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
file_.close();
return false;
}
if (!dump_meta()) {
file_.close();
return false;
}
if (autosync_ && !File::synchronize_whole()) {
set_error(_KCCODELINE_, Error::SYSTEM, "synchronizing the file system failed");
file_.close();
return false;
}
}
if (!load_meta()) {
file_.close();
return false;
}
calc_meta();
uint8_t chksum = calc_checksum();
if (chksum != chksum_) {
set_error(_KCCODELINE_, Error::INVALID, "invalid module checksum");
report(_KCCODELINE_, Logger::WARN, "saved=%02X calculated=%02X",
(unsigned)chksum_, (unsigned)chksum);
file_.close();
return false;
}
if (((flags_ & FOPEN) || (flags_ & FFATAL)) && !(mode & ONOREPAIR) && !(mode & ONOLOCK)) {
if (!reorganize_file(path)) {
file_.close();
return false;
}
if (!file_.close()) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
return false;
}
if (!file_.open(path, fmode, msiz_)) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
return false;
}
if (!load_meta()) {
file_.close();
return false;
}
calc_meta();
reorg_ = true;
}
if (type_ == 0 || apow_ > MAXAPOW || fpow_ > MAXFPOW ||
bnum_ < 1 || count_ < 0 || lsiz_ < roff_) {
set_error(_KCCODELINE_, Error::BROKEN, "invalid meta data");
report(_KCCODELINE_, Logger::WARN, "type=0x%02X apow=%d fpow=%d bnum=%lld count=%lld"
" lsiz=%lld fsiz=%lld", (unsigned)type_, (int)apow_, (int)fpow_, (long long)bnum_,
(long long)count_, (long long)lsiz_, (long long)file_.size());
file_.close();
return false;
}
if (file_.size() < lsiz_) {
set_error(_KCCODELINE_, Error::BROKEN, "inconsistent file size");
report(_KCCODELINE_, Logger::WARN, "lsiz=%lld fsiz=%lld",
(long long)lsiz_, (long long)file_.size());
file_.close();
return false;
}
if (file_.size() != lsiz_ && !(mode & ONOREPAIR) && !(mode & ONOLOCK) && !trim_file(path)) {
file_.close();
return false;
}
if (mode & OWRITER) {
if (!(flags_ & FOPEN) && !(flags_ & FFATAL) && !load_free_blocks()) {
file_.close();
return false;
}
if (!dump_empty_free_blocks()) {
file_.close();
return false;
}
if (!autotran_ && !set_flag(FOPEN, true)) {
file_.close();
return false;
}
}
path_.append(path);
omode_ = mode;
trigger_meta(MetaTrigger::OPEN, "open");
return true;
}
/**
* Close the database file.
* @return true on success, or false on failure.
*/
bool close() {
_assert_(true);
ScopedRWLock lock(&mlock_, true);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return false;
}
report(_KCCODELINE_, Logger::DEBUG, "closing the database (path=%s)", path_.c_str());
bool err = false;
if (tran_ && !abort_transaction()) err = true;
disable_cursors();
if (writer_) {
if (!dump_free_blocks()) err = true;
if (!dump_meta()) err = true;
}
if (!file_.close()) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
err = true;
}
fbp_.clear();
omode_ = 0;
path_.clear();
trigger_meta(MetaTrigger::CLOSE, "close");
return !err;
}
/**
* Synchronize updated contents with the file and the device.
* @param hard true for physical synchronization with the device, or false for logical
* synchronization with the file system.
* @param proc a postprocessor object. If it is NULL, no postprocessing is performed.
* @param checker a progress checker object. If it is NULL, no checking is performed.
* @return true on success, or false on failure.
* @note The operation of the postprocessor is performed atomically and other threads accessing
* the same record are blocked. To avoid deadlock, any explicit database operation must not
* be performed in this function.
*/
bool synchronize(bool hard = false, FileProcessor* proc = NULL,
ProgressChecker* checker = NULL) {
_assert_(true);
ScopedRWLock lock(&mlock_, false);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return false;
}
rlock_.lock_reader_all();
bool err = false;
if (!synchronize_impl(hard, proc, checker)) err = true;
trigger_meta(MetaTrigger::SYNCHRONIZE, "synchronize");
rlock_.unlock_all();
return !err;
}
/**
* Occupy database by locking and do something meanwhile.
* @param writable true to use writer lock, or false to use reader lock.
* @param proc a processor object. If it is NULL, no processing is performed.
* @return true on success, or false on failure.
* @note The operation of the processor is performed atomically and other threads accessing
* the same record are blocked. To avoid deadlock, any explicit database operation must not
* be performed in this function.
*/
bool occupy(bool writable = true, FileProcessor* proc = NULL) {
_assert_(true);
ScopedRWLock lock(&mlock_, writable);
bool err = false;
if (proc && !proc->process(path_, count_, lsiz_)) {
set_error(_KCCODELINE_, Error::LOGIC, "processing failed");
err = true;
}
trigger_meta(MetaTrigger::OCCUPY, "occupy");
return !err;
}
/**
* Begin transaction.
* @param hard true for physical synchronization with the device, or false for logical
* synchronization with the file system.
* @return true on success, or false on failure.
*/
bool begin_transaction(bool hard = false) {
_assert_(true);
uint32_t wcnt = 0;
while (true) {
mlock_.lock_writer();
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
mlock_.unlock();
return false;
}
if (!writer_) {
set_error(_KCCODELINE_, Error::NOPERM, "permission denied");
mlock_.unlock();
return false;
}
if (!tran_) break;
mlock_.unlock();
if (wcnt >= LOCKBUSYLOOP) {
Thread::chill();
} else {
Thread::yield();
wcnt++;
}
}
trhard_ = hard;
if (!begin_transaction_impl()) {
mlock_.unlock();
return false;
}
tran_ = true;
trigger_meta(MetaTrigger::BEGINTRAN, "begin_transaction");
mlock_.unlock();
return true;
}
/**
* Try to begin transaction.
* @param hard true for physical synchronization with the device, or false for logical
* synchronization with the file system.
* @return true on success, or false on failure.
*/
bool begin_transaction_try(bool hard = false) {
_assert_(true);
mlock_.lock_writer();
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
mlock_.unlock();
return false;
}
if (!writer_) {
set_error(_KCCODELINE_, Error::NOPERM, "permission denied");
mlock_.unlock();
return false;
}
if (tran_) {
set_error(_KCCODELINE_, Error::LOGIC, "competition avoided");
mlock_.unlock();
return false;
}
trhard_ = hard;
if (!begin_transaction_impl()) {
mlock_.unlock();
return false;
}
tran_ = true;
trigger_meta(MetaTrigger::BEGINTRAN, "begin_transaction_try");
mlock_.unlock();
return true;
}
/**
* End transaction.
* @param commit true to commit the transaction, or false to abort the transaction.
* @return true on success, or false on failure.
*/
bool end_transaction(bool commit = true) {
_assert_(true);
ScopedRWLock lock(&mlock_, true);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return false;
}
if (!tran_) {
set_error(_KCCODELINE_, Error::INVALID, "not in transaction");
return false;
}
bool err = false;
if (commit) {
if (!commit_transaction()) err = true;
} else {
if (!abort_transaction()) err = true;
}
tran_ = false;
trigger_meta(commit ? MetaTrigger::COMMITTRAN : MetaTrigger::ABORTTRAN, "end_transaction");
return !err;
}
/**
* Remove all records.
* @return true on success, or false on failure.
*/
bool clear() {
_assert_(true);
ScopedRWLock lock(&mlock_, true);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return false;
}
if (!writer_) {
set_error(_KCCODELINE_, Error::NOPERM, "permission denied");
return false;
}
disable_cursors();
if (!file_.truncate(HEADSIZ)) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
return false;
}
fbp_.clear();
bool err = false;
reorg_ = false;
trim_ = false;
flags_ = 0;
flagopen_ = false;
count_ = 0;
lsiz_ = roff_;
psiz_ = lsiz_;
dfcur_ = roff_;
std::memset(opaque_, 0, sizeof(opaque_));
if (!file_.truncate(lsiz_)) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
err = true;
}
if (!dump_meta()) err = true;
if (!autotran_ && !set_flag(FOPEN, true)) err = true;
trigger_meta(MetaTrigger::CLEAR, "clear");
return true;
}
/**
* Get the number of records.
* @return the number of records, or -1 on failure.
*/
int64_t count() {
_assert_(true);
ScopedRWLock lock(&mlock_, false);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return -1;
}
return count_;
}
/**
* Get the size of the database file.
* @return the size of the database file in bytes, or -1 on failure.
*/
int64_t size() {
_assert_(true);
ScopedRWLock lock(&mlock_, false);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return -1;
}
return lsiz_;
}
/**
* Get the path of the database file.
* @return the path of the database file, or an empty string on failure.
*/
std::string path() {
_assert_(true);
ScopedRWLock lock(&mlock_, false);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return "";
}
return path_;
}
/**
* Get the miscellaneous status information.
* @param strmap a string map to contain the result.
* @return true on success, or false on failure.
*/
bool status(std::map<std::string, std::string>* strmap) {
_assert_(strmap);
ScopedRWLock lock(&mlock_, true);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return false;
}
(*strmap)["type"] = strprintf("%u", (unsigned)TYPEHASH);
(*strmap)["realtype"] = strprintf("%u", (unsigned)type_);
(*strmap)["path"] = path_;
(*strmap)["libver"] = strprintf("%u", libver_);
(*strmap)["librev"] = strprintf("%u", librev_);
(*strmap)["fmtver"] = strprintf("%u", fmtver_);
(*strmap)["chksum"] = strprintf("%u", chksum_);
(*strmap)["flags"] = strprintf("%u", flags_);
(*strmap)["apow"] = strprintf("%u", apow_);
(*strmap)["fpow"] = strprintf("%u", fpow_);
(*strmap)["opts"] = strprintf("%u", opts_);
(*strmap)["bnum"] = strprintf("%lld", (long long)bnum_);
(*strmap)["msiz"] = strprintf("%lld", (long long)msiz_);
(*strmap)["dfunit"] = strprintf("%lld", (long long)dfunit_);
(*strmap)["frgcnt"] = strprintf("%lld", (long long)(frgcnt_ > 0 ? (int64_t)frgcnt_ : 0));
(*strmap)["realsize"] = strprintf("%lld", (long long)file_.size());
(*strmap)["recovered"] = strprintf("%d", file_.recovered());
(*strmap)["reorganized"] = strprintf("%d", reorg_);
(*strmap)["trimmed"] = strprintf("%d", trim_);
if (strmap->count("opaque") > 0)
(*strmap)["opaque"] = std::string(opaque_, sizeof(opaque_));
if (strmap->count("fbpnum_used") > 0) {
if (writer_) {
(*strmap)["fbpnum_used"] = strprintf("%lld", (long long)fbp_.size());
} else {
if (!load_free_blocks()) return false;
(*strmap)["fbpnum_used"] = strprintf("%lld", (long long)fbp_.size());
fbp_.clear();
}
}
if (strmap->count("bnum_used") > 0) {
int64_t cnt = 0;
for (int64_t i = 0; i < bnum_; i++) {
if (get_bucket(i) > 0) cnt++;
}
(*strmap)["bnum_used"] = strprintf("%lld", (long long)cnt);
}
(*strmap)["count"] = strprintf("%lld", (long long)count_);
(*strmap)["size"] = strprintf("%lld", (long long)lsiz_);
return true;
}
/**
* Create a cursor object.
* @return the return value is the created cursor object.
* @note Because the object of the return value is allocated by the constructor, it should be
* released with the delete operator when it is no longer in use.
*/
Cursor* cursor() {
_assert_(true);
return new Cursor(this);
}
/**
* Write a log message.
* @param file the file name of the program source code.
* @param line the line number of the program source code.
* @param func the function name of the program source code.
* @param kind the kind of the event. Logger::DEBUG for debugging, Logger::INFO for normal
* information, Logger::WARN for warning, and Logger::ERROR for fatal error.
* @param message the supplement message.
*/
void log(const char* file, int32_t line, const char* func, Logger::Kind kind,
const char* message) {
_assert_(file && line > 0 && func && message);
ScopedRWLock lock(&mlock_, false);
if (!logger_) return;
logger_->log(file, line, func, kind, message);
}
/**
* Set the internal logger.
* @param logger the logger object.
* @param kinds kinds of logged messages by bitwise-or: Logger::DEBUG for debugging,
* Logger::INFO for normal information, Logger::WARN for warning, and Logger::ERROR for fatal
* error.
* @return true on success, or false on failure.
*/
bool tune_logger(Logger* logger, uint32_t kinds = Logger::WARN | Logger::ERROR) {
_assert_(logger);
ScopedRWLock lock(&mlock_, true);
if (omode_ != 0) {
set_error(_KCCODELINE_, Error::INVALID, "already opened");
return false;
}
logger_ = logger;
logkinds_ = kinds;
return true;
}
/**
* Set the internal meta operation trigger.
* @param trigger the trigger object.
* @return true on success, or false on failure.
*/
bool tune_meta_trigger(MetaTrigger* trigger) {
_assert_(trigger);
ScopedRWLock lock(&mlock_, true);
if (omode_ != 0) {
set_error(_KCCODELINE_, Error::INVALID, "already opened");
return false;
}
mtrigger_ = trigger;
return true;
}
/**
* Set the power of the alignment of record size.
* @param apow the power of the alignment of record size.
* @return true on success, or false on failure.
*/
bool tune_alignment(int8_t apow) {
_assert_(true);
ScopedRWLock lock(&mlock_, true);
if (omode_ != 0) {
set_error(_KCCODELINE_, Error::INVALID, "already opened");
return false;
}
apow_ = apow >= 0 ? apow : DEFAPOW;
if (apow_ > MAXAPOW) apow_ = MAXAPOW;
return true;
}
/**
* Set the power of the capacity of the free block pool.
* @param fpow the power of the capacity of the free block pool.
* @return true on success, or false on failure.
*/
bool tune_fbp(int8_t fpow) {
_assert_(true);
ScopedRWLock lock(&mlock_, true);
if (omode_ != 0) {
set_error(_KCCODELINE_, Error::INVALID, "already opened");
return false;
}
fpow_ = fpow >= 0 ? fpow : DEFFPOW;
if (fpow_ > MAXFPOW) fpow_ = MAXFPOW;
return true;
}
/**
* Set the optional features.
* @param opts the optional features by bitwise-or: HashDB::TSMALL to use 32-bit addressing,
* HashDB::TLINEAR to use linear collision chaining, HashDB::TCOMPRESS to compress each record.
* @return true on success, or false on failure.
*/
bool tune_options(int8_t opts) {
_assert_(true);
ScopedRWLock lock(&mlock_, true);
if (omode_ != 0) {
set_error(_KCCODELINE_, Error::INVALID, "already opened");
return false;
}
opts_ = opts;
return true;
}
/**
* Set the number of buckets of the hash table.
* @param bnum the number of buckets of the hash table.
* @return true on success, or false on failure.
*/
bool tune_buckets(int64_t bnum) {
_assert_(true);
ScopedRWLock lock(&mlock_, true);
if (omode_ != 0) {
set_error(_KCCODELINE_, Error::INVALID, "already opened");
return false;
}
bnum_ = bnum > 0 ? bnum : DEFBNUM;
if (bnum_ > INT16MAX) bnum_ = nearbyprime(bnum_);
return true;
}
/**
* Set the size of the internal memory-mapped region.
* @param msiz the size of the internal memory-mapped region.
* @return true on success, or false on failure.
*/
bool tune_map(int64_t msiz) {
_assert_(true);
ScopedRWLock lock(&mlock_, true);
if (omode_ != 0) {
set_error(_KCCODELINE_, Error::INVALID, "already opened");
return false;
}
msiz_ = msiz >= 0 ? msiz : DEFMSIZ;
return true;
}
/**
* Set the unit step number of auto defragmentation.
* @param dfunit the unit step number of auto defragmentation.
* @return true on success, or false on failure.
*/
bool tune_defrag(int64_t dfunit) {
_assert_(true);
ScopedRWLock lock(&mlock_, true);
if (omode_ != 0) {
set_error(_KCCODELINE_, Error::INVALID, "already opened");
return false;
}
dfunit_ = dfunit > 0 ? dfunit : 0;
return true;
}
/**
* Set the data compressor.
* @param comp the data compressor object.
* @return true on success, or false on failure.
*/
bool tune_compressor(Compressor* comp) {
_assert_(comp);
ScopedRWLock lock(&mlock_, true);
if (omode_ != 0) {
set_error(_KCCODELINE_, Error::INVALID, "already opened");
return false;
}
embcomp_ = comp;
return true;
}
/**
* Get the opaque data.
* @return the pointer to the opaque data region, whose size is 16 bytes.
*/
char* opaque() {
_assert_(true);
ScopedRWLock lock(&mlock_, false);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return NULL;
}
return opaque_;
}
/**
* Synchronize the opaque data.
* @return true on success, or false on failure.
*/
bool synchronize_opaque() {
_assert_(true);
ScopedRWLock lock(&mlock_, true);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return false;
}
if (!writer_) {
set_error(_KCCODELINE_, Error::NOPERM, "permission denied");
return false;
}
bool err = false;
if (!dump_opaque()) err = true;
return !err;
}
/**
* Perform defragmentation of the file.
* @param step the number of steps. If it is not more than 0, the whole region is defraged.
* @return true on success, or false on failure.
*/
bool defrag(int64_t step = 0) {
_assert_(true);
ScopedRWLock lock(&mlock_, true);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return false;
}
if (!writer_) {
set_error(_KCCODELINE_, Error::NOPERM, "permission denied");
return false;
}
bool err = false;
if (step > 0) {
if (!defrag_impl(step)) err = true;
} else {
dfcur_ = roff_;
if (!defrag_impl(INT64MAX)) err = true;
}
frgcnt_ = 0;
return !err;
}
/**
* Get the status flags.
* @return the status flags, or 0 on failure.
*/
uint8_t flags() {
_assert_(true);
ScopedRWLock lock(&mlock_, false);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return 0;
}
return flags_;
}
protected:
/**
* Report a message for debugging.
* @param file the file name of the program source code.
* @param line the line number of the program source code.
* @param func the function name of the program source code.
* @param kind the kind of the event. Logger::DEBUG for debugging, Logger::INFO for normal
* information, Logger::WARN for warning, and Logger::ERROR for fatal error.
* @param format the printf-like format string.
* @param ... used according to the format string.
*/
void report(const char* file, int32_t line, const char* func, Logger::Kind kind,
const char* format, ...) {
_assert_(file && line > 0 && func && format);
if (!logger_ || !(kind & logkinds_)) return;
std::string message;
strprintf(&message, "%s: ", path_.empty() ? "-" : path_.c_str());
va_list ap;
va_start(ap, format);
vstrprintf(&message, format, ap);
va_end(ap);
logger_->log(file, line, func, kind, message.c_str());
}
/**
* Report a message for debugging with variable number of arguments.
* @param file the file name of the program source code.
* @param line the line number of the program source code.
* @param func the function name of the program source code.
* @param kind the kind of the event. Logger::DEBUG for debugging, Logger::INFO for normal
* information, Logger::WARN for warning, and Logger::ERROR for fatal error.
* @param format the printf-like format string.
* @param ap used according to the format string.
*/
void report_valist(const char* file, int32_t line, const char* func, Logger::Kind kind,
const char* format, va_list ap) {
_assert_(file && line > 0 && func && format);
if (!logger_ || !(kind & logkinds_)) return;
std::string message;
strprintf(&message, "%s: ", path_.empty() ? "-" : path_.c_str());
vstrprintf(&message, format, ap);
logger_->log(file, line, func, kind, message.c_str());
}
/**
* Report the content of a binary buffer for debugging.
* @param file the file name of the epicenter.
* @param line the line number of the epicenter.
* @param func the function name of the program source code.
* @param kind the kind of the event. Logger::DEBUG for debugging, Logger::INFO for normal
* information, Logger::WARN for warning, and Logger::ERROR for fatal error.
* @param name the name of the information.
* @param buf the binary buffer.
* @param size the size of the binary buffer
*/
void report_binary(const char* file, int32_t line, const char* func, Logger::Kind kind,
const char* name, const char* buf, size_t size) {
_assert_(file && line > 0 && func && name && buf && size <= MEMMAXSIZ);
if (!logger_) return;
char* hex = hexencode(buf, size);
report(file, line, func, kind, "%s=%s", name, hex);
delete[] hex;
}
/**
* Trigger a meta database operation.
* @param kind the kind of the event. MetaTrigger::OPEN for opening, MetaTrigger::CLOSE for
* closing, MetaTrigger::CLEAR for clearing, MetaTrigger::ITERATE for iteration,
* MetaTrigger::SYNCHRONIZE for synchronization, MetaTrigger::BEGINTRAN for beginning
* transaction, MetaTrigger::COMMITTRAN for committing transaction, MetaTrigger::ABORTTRAN
* for aborting transaction, and MetaTrigger::MISC for miscellaneous operations.
* @param message the supplement message.
*/
void trigger_meta(MetaTrigger::Kind kind, const char* message) {
_assert_(message);
if (mtrigger_) mtrigger_->trigger(kind, message);
}
/**
* Set the database type.
* @param type the database type.
* @return true on success, or false on failure.
*/
bool tune_type(int8_t type) {
_assert_(true);
ScopedRWLock lock(&mlock_, true);
if (omode_ != 0) {
set_error(_KCCODELINE_, Error::INVALID, "already opened");
return false;
}
type_ = type;
return true;
}
/**
* Get the library version.
* @return the library version, or 0 on failure.
*/
uint8_t libver() {
_assert_(true);
ScopedRWLock lock(&mlock_, false);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return 0;
}
return libver_;
}
/**
* Get the library revision.
* @return the library revision, or 0 on failure.
*/
uint8_t librev() {
_assert_(true);
ScopedRWLock lock(&mlock_, false);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return 0;
}
return librev_;
}
/**
* Get the format version.
* @return the format version, or 0 on failure.
*/
uint8_t fmtver() {
_assert_(true);
ScopedRWLock lock(&mlock_, false);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return 0;
}
return fmtver_;
}
/**
* Get the module checksum.
* @return the module checksum, or 0 on failure.
*/
uint8_t chksum() {
_assert_(true);
ScopedRWLock lock(&mlock_, false);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return 0;
}
return chksum_;
}
/**
* Get the database type.
* @return the database type, or 0 on failure.
*/
uint8_t type() {
_assert_(true);
ScopedRWLock lock(&mlock_, false);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return 0;
}
return type_;
}
/**
* Get the alignment power.
* @return the alignment power, or 0 on failure.
*/
uint8_t apow() {
_assert_(true);
ScopedRWLock lock(&mlock_, false);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return 0;
}
return apow_;
}
/**
* Get the free block pool power.
* @return the free block pool power, or 0 on failure.
*/
uint8_t fpow() {
_assert_(true);
ScopedRWLock lock(&mlock_, false);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return 0;
}
return fpow_;
}
/**
* Get the options.
* @return the options, or 0 on failure.
*/
uint8_t opts() {
_assert_(true);
ScopedRWLock lock(&mlock_, false);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return 0;
}
return opts_;
}
/**
* Get the bucket number.
* @return the bucket number, or 0 on failure.
*/
int64_t bnum() {
_assert_(true);
ScopedRWLock lock(&mlock_, false);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return 0;
}
return bnum_;
}
/**
* Get the size of the internal memory-mapped region.
* @return the size of the internal memory-mapped region, or 0 on failure.
*/
int64_t msiz() {
_assert_(true);
ScopedRWLock lock(&mlock_, false);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return 0;
}
return msiz_;
}
/**
* Get the unit step number of auto defragmentation.
* @return the unit step number of auto defragmentation, or 0 on failure.
*/
int64_t dfunit() {
_assert_(true);
ScopedRWLock lock(&mlock_, false);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return 0;
}
return dfunit_;
}
/**
* Get the data compressor.
* @return the data compressor, or NULL on failure.
*/
Compressor* comp() {
_assert_(true);
ScopedRWLock lock(&mlock_, false);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return NULL;
}
return comp_;
}
/**
* Check whether the database was recovered or not.
* @return true if recovered, or false if not.
*/
bool recovered() {
_assert_(true);
ScopedRWLock lock(&mlock_, false);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return false;
}
return file_.recovered();
}
/**
* Check whether the database was reorganized or not.
* @return true if reorganized, or false if not.
*/
bool reorganized() {
_assert_(true);
ScopedRWLock lock(&mlock_, false);
if (omode_ == 0) {
set_error(_KCCODELINE_, Error::INVALID, "not opened");
return false;
}
return reorg_;
}
private:
/**
* Record data.
*/
struct Record {
int64_t off; ///< offset
size_t rsiz; ///< whole size
size_t psiz; ///< size of the padding
size_t ksiz; ///< size of the key
size_t vsiz; ///< size of the value
int64_t left; ///< address of the left child record
int64_t right; ///< address of the right child record
const char* kbuf; ///< pointer to the key
const char* vbuf; ///< pointer to the value
int64_t boff; ///< offset of the body
char* bbuf; ///< buffer of the body
};
/**
* Free block data.
*/
struct FreeBlock {
int64_t off; ///< offset
size_t rsiz; ///< record size
/** comparing operator */
bool operator <(const FreeBlock& obj) const {
_assert_(true);
if (rsiz < obj.rsiz) return true;
if (rsiz == obj.rsiz && off > obj.off) return true;
return false;
}
};
/**
* Comparator for free blocks.
*/
struct FreeBlockComparator {
/** comparing operator */
bool operator ()(const FreeBlock& a, const FreeBlock& b) const {
_assert_(true);
return a.off < b.off;
}
};
/**
* Repeating visitor.
*/
class Repeater : public Visitor {
public:
/** constructor */
explicit Repeater(const char* vbuf, size_t vsiz) : vbuf_(vbuf), vsiz_(vsiz) {
_assert_(vbuf);
}
private:
/** visit a record */
const char* visit_full(const char* kbuf, size_t ksiz,
const char* vbuf, size_t vsiz, size_t* sp) {
_assert_(kbuf && ksiz <= MEMMAXSIZ && vbuf && vsiz <= MEMMAXSIZ && sp);
*sp = vsiz_;
return vbuf_;
}
const char* vbuf_;
size_t vsiz_;
};
/**
* Scoped visitor.
*/
class ScopedVisitor {
public:
/** constructor */
explicit ScopedVisitor(Visitor* visitor) : visitor_(visitor) {
_assert_(visitor);
visitor_->visit_before();
}
/** destructor */
~ScopedVisitor() {
_assert_(true);
visitor_->visit_after();
}
private:
Visitor* visitor_; ///< visitor
};
/**
* Accept a visitor to a record.
* @param kbuf the pointer to the key region.
* @param ksiz the size of the key region.
* @param visitor a visitor object.
* @param bidx the bucket index.
* @param pivot the second hash value.
@ @param isiter true for iterator use, or false for direct use.
* @return true on success, or false on failure.
*/
bool accept_impl(const char* kbuf, size_t ksiz, Visitor* visitor,
int64_t bidx, uint32_t pivot, bool isiter) {
_assert_(kbuf && ksiz <= MEMMAXSIZ && visitor && bidx >= 0);
int64_t top = get_bucket(bidx);
int64_t off = top;
if (off < 0) return false;
enum { DIREMPTY, DIRLEFT, DIRRIGHT, DIRMIXED } entdir = DIREMPTY;
int64_t entoff = 0;
Record rec;
char rbuf[RECBUFSIZ];
while (off > 0) {
rec.off = off;
if (!read_record(&rec, rbuf)) return false;
if (rec.psiz == UINT16MAX) {
set_error(_KCCODELINE_, Error::BROKEN, "free block in the chain");
report(_KCCODELINE_, Logger::WARN, "psiz=%lld off=%lld fsiz=%lld",
(long long)psiz_, (long long)rec.off, (long long)file_.size());
return false;
}
uint32_t tpivot = linear_ ? pivot : fold_hash(hash_record(rec.kbuf, rec.ksiz));
if (pivot > tpivot) {
delete[] rec.bbuf;
off = rec.left;
switch (entdir) {
case DIREMPTY: entdir = DIRLEFT; break;
case DIRRIGHT: entdir = DIRMIXED; break;
default: break;
}
entoff = rec.off + sizeof(uint16_t);
} else if (pivot < tpivot) {
delete[] rec.bbuf;
off = rec.right;
switch (entdir) {
case DIREMPTY: entdir = DIRRIGHT; break;
case DIRLEFT: entdir = DIRMIXED; break;
default: break;
}
entoff = rec.off + sizeof(uint16_t) + width_;
} else {
int32_t kcmp = compare_keys(kbuf, ksiz, rec.kbuf, rec.ksiz);
if (linear_ && kcmp != 0) kcmp = 1;
if (kcmp > 0) {
delete[] rec.bbuf;
off = rec.left;
switch (entdir) {
case DIREMPTY: entdir = DIRLEFT; break;
case DIRRIGHT: entdir = DIRMIXED; break;
default: break;
}
entoff = rec.off + sizeof(uint16_t);
} else if (kcmp < 0) {
delete[] rec.bbuf;
off = rec.right;
switch (entdir) {
case DIREMPTY: entdir = DIRRIGHT; break;
case DIRLEFT: entdir = DIRMIXED; break;
default: break;
}
entoff = rec.off + sizeof(uint16_t) + width_;
} else {
if (!rec.vbuf && !read_record_body(&rec)) {
delete[] rec.bbuf;
return false;
}
const char* vbuf = rec.vbuf;
size_t vsiz = rec.vsiz;
char* zbuf = NULL;
size_t zsiz = 0;
if (comp_) {
zbuf = comp_->decompress(vbuf, vsiz, &zsiz);
if (!zbuf) {
set_error(_KCCODELINE_, Error::SYSTEM, "data decompression failed");
delete[] rec.bbuf;
return false;
}
vbuf = zbuf;
vsiz = zsiz;
}
vbuf = visitor->visit_full(kbuf, ksiz, vbuf, vsiz, &vsiz);
delete[] zbuf;
if (vbuf == Visitor::REMOVE) {
bool atran = false;
if (autotran_ && !tran_) {
if (!begin_auto_transaction()) {
delete[] rec.bbuf;
return false;
}
atran = true;
}
if (!write_free_block(rec.off, rec.rsiz, rbuf)) {
if (atran) abort_auto_transaction();
delete[] rec.bbuf;
return false;
}
insert_free_block(rec.off, rec.rsiz);
frgcnt_ += 1;
delete[] rec.bbuf;
if (!cut_chain(&rec, rbuf, bidx, entoff)) {
if (atran) abort_auto_transaction();
return false;
}
count_ -= 1;
if (atran) {
if (!commit_auto_transaction()) return false;
} else if (autosync_) {
if (!synchronize_meta()) return false;
}
} else if (vbuf == Visitor::NOP) {
delete[] rec.bbuf;
} else {
zbuf = NULL;
zsiz = 0;
if (comp_ && !isiter) {
zbuf = comp_->compress(vbuf, vsiz, &zsiz);
if (!zbuf) {
set_error(_KCCODELINE_, Error::SYSTEM, "data compression failed");
delete[] rec.bbuf;
return false;
}
vbuf = zbuf;
vsiz = zsiz;
}
bool atran = false;
if (autotran_ && !tran_) {
if (!begin_auto_transaction()) {
delete[] zbuf;
delete[] rec.bbuf;
return false;
}
atran = true;
}
size_t rsiz = calc_record_size(rec.ksiz, vsiz);
if (rsiz <= rec.rsiz) {
rec.psiz = rec.rsiz - rsiz;
rec.vsiz = vsiz;
rec.vbuf = vbuf;
if (!adjust_record(&rec) || !write_record(&rec, true)) {
if (atran) abort_auto_transaction();
delete[] zbuf;
delete[] rec.bbuf;
return false;
}
delete[] zbuf;
delete[] rec.bbuf;
} else {
if (!write_free_block(rec.off, rec.rsiz, rbuf)) {
if (atran) abort_auto_transaction();
delete[] zbuf;
delete[] rec.bbuf;
return false;
}
insert_free_block(rec.off, rec.rsiz);
frgcnt_ += 1;
size_t psiz = calc_record_padding(rsiz);
rec.rsiz = rsiz + psiz;
rec.psiz = psiz;
rec.vsiz = vsiz;
rec.vbuf = vbuf;
bool over = false;
FreeBlock fb;
if (!isiter && fetch_free_block(rec.rsiz, &fb)) {
rec.off = fb.off;
rec.rsiz = fb.rsiz;
rec.psiz = rec.rsiz - rsiz;
over = true;
if (!adjust_record(&rec)) {
if (atran) abort_auto_transaction();
delete[] zbuf;
delete[] rec.bbuf;
return false;
}
} else {
rec.off = lsiz_.add(rec.rsiz);
}
if (!write_record(&rec, over)) {
if (atran) abort_auto_transaction();
delete[] zbuf;
delete[] rec.bbuf;
return false;
}
if (!over) psiz_.secure_least(rec.off + rec.rsiz);
delete[] zbuf;
delete[] rec.bbuf;
if (entoff > 0) {
if (!set_chain(entoff, rec.off)) {
if (atran) abort_auto_transaction();
return false;
}
} else {
if (!set_bucket(bidx, rec.off)) {
if (atran) abort_auto_transaction();
return false;
}
}
}
if (atran) {
if (!commit_auto_transaction()) return false;
} else if (autosync_) {
if (!synchronize_meta()) return false;
}
}
return true;
}
}
}
size_t vsiz;
const char* vbuf = visitor->visit_empty(kbuf, ksiz, &vsiz);
if (vbuf != Visitor::NOP && vbuf != Visitor::REMOVE) {
char* zbuf = NULL;
size_t zsiz = 0;
if (comp_) {
zbuf = comp_->compress(vbuf, vsiz, &zsiz);
if (!zbuf) {
set_error(_KCCODELINE_, Error::SYSTEM, "data compression failed");
return false;
}
vbuf = zbuf;
vsiz = zsiz;
}
bool atran = false;
if (autotran_ && !tran_) {
if (!begin_auto_transaction()) {
delete[] zbuf;
return false;
}
atran = true;
}
size_t rsiz = calc_record_size(ksiz, vsiz);
size_t psiz = calc_record_padding(rsiz);
rec.rsiz = rsiz + psiz;
rec.psiz = psiz;
rec.ksiz = ksiz;
rec.vsiz = vsiz;
switch (entdir) {
default: {
rec.left = 0;
rec.right = 0;
break;
}
case DIRLEFT: {
if (linear_) {
rec.left = top;
rec.right = 0;
} else {
rec.left = 0;
rec.right = top;
}
break;
}
case DIRRIGHT: {
rec.left = top;
rec.right = 0;
break;
}
}
rec.kbuf = kbuf;
rec.vbuf = vbuf;
bool over = false;
FreeBlock fb;
if (fetch_free_block(rec.rsiz, &fb)) {
rec.off = fb.off;
rec.rsiz = fb.rsiz;
rec.psiz = rec.rsiz - rsiz;
over = true;
if (!adjust_record(&rec)) {
if (atran) abort_auto_transaction();
delete[] zbuf;
return false;
}
} else {
rec.off = lsiz_.add(rec.rsiz);
}
if (!write_record(&rec, over)) {
if (atran) abort_auto_transaction();
delete[] zbuf;
return false;
}
if (!over) psiz_.secure_least(rec.off + rec.rsiz);
delete[] zbuf;
if (entoff < 1 || entdir == DIRLEFT || entdir == DIRRIGHT) {
if (!set_bucket(bidx, rec.off)) {
if (atran) abort_auto_transaction();
return false;
}
} else {
if (!set_chain(entoff, rec.off)) {
if (atran) abort_auto_transaction();
return false;
}
}
count_ += 1;
if (atran) {
if (!commit_auto_transaction()) return false;
} else if (autosync_) {
if (!synchronize_meta()) return false;
}
}
return true;
}
/**
* Iterate to accept a visitor for each record.
* @param visitor a visitor object.
* @param checker a progress checker object.
* @return true on success, or false on failure.
*/
bool iterate_impl(Visitor* visitor, ProgressChecker* checker) {
_assert_(visitor);
int64_t allcnt = count_;
if (checker && !checker->check("iterate", "beginning", 0, allcnt)) {
set_error(_KCCODELINE_, Error::LOGIC, "checker failed");
return false;
}
int64_t off = roff_;
int64_t end = lsiz_;
Record rec;
char rbuf[RECBUFSIZ];
int64_t curcnt = 0;
while (off > 0 && off < end) {
rec.off = off;
if (!read_record(&rec, rbuf)) return false;
if (rec.psiz == UINT16MAX) {
off += rec.rsiz;
} else {
if (!rec.vbuf && !read_record_body(&rec)) {
delete[] rec.bbuf;
return false;
}
const char* vbuf = rec.vbuf;
size_t vsiz = rec.vsiz;
char* zbuf = NULL;
size_t zsiz = 0;
if (comp_) {
zbuf = comp_->decompress(vbuf, vsiz, &zsiz);
if (!zbuf) {
set_error(_KCCODELINE_, Error::SYSTEM, "data decompression failed");
delete[] rec.bbuf;
return false;
}
vbuf = zbuf;
vsiz = zsiz;
}
vbuf = visitor->visit_full(rec.kbuf, rec.ksiz, vbuf, vsiz, &vsiz);
delete[] zbuf;
if (vbuf == Visitor::REMOVE) {
uint64_t hash = hash_record(rec.kbuf, rec.ksiz);
uint32_t pivot = fold_hash(hash);
int64_t bidx = hash % bnum_;
Repeater repeater(Visitor::REMOVE, 0);
if (!accept_impl(rec.kbuf, rec.ksiz, &repeater, bidx, pivot, true)) {
delete[] rec.bbuf;
return false;
}
delete[] rec.bbuf;
} else if (vbuf == Visitor::NOP) {
delete[] rec.bbuf;
} else {
zbuf = NULL;
zsiz = 0;
if (comp_) {
zbuf = comp_->compress(vbuf, vsiz, &zsiz);
if (!zbuf) {
set_error(_KCCODELINE_, Error::SYSTEM, "data compression failed");
delete[] rec.bbuf;
return false;
}
vbuf = zbuf;
vsiz = zsiz;
}
size_t rsiz = calc_record_size(rec.ksiz, vsiz);
if (rsiz <= rec.rsiz) {
rec.psiz = rec.rsiz - rsiz;
rec.vsiz = vsiz;
rec.vbuf = vbuf;
if (!adjust_record(&rec) || !write_record(&rec, true)) {
delete[] zbuf;
delete[] rec.bbuf;
return false;
}
delete[] zbuf;
delete[] rec.bbuf;
} else {
uint64_t hash = hash_record(rec.kbuf, rec.ksiz);
uint32_t pivot = fold_hash(hash);
int64_t bidx = hash % bnum_;
Repeater repeater(vbuf, vsiz);
if (!accept_impl(rec.kbuf, rec.ksiz, &repeater, bidx, pivot, true)) {
delete[] zbuf;
delete[] rec.bbuf;
return false;
}
delete[] zbuf;
delete[] rec.bbuf;
}
}
off += rec.rsiz;
curcnt++;
if (checker && !checker->check("iterate", "processing", curcnt, allcnt)) {
set_error(_KCCODELINE_, Error::LOGIC, "checker failed");
return false;
}
}
}
if (checker && !checker->check("iterate", "ending", -1, allcnt)) {
set_error(_KCCODELINE_, Error::LOGIC, "checker failed");
return false;
}
return true;
}
/**
* Scan each record in parallel.
* @param visitor a visitor object.
* @param thnum the number of worker threads.
* @param checker a progress checker object.
* @return true on success, or false on failure.
*/
bool scan_parallel_impl(Visitor *visitor, size_t thnum, ProgressChecker* checker) {
_assert_(visitor && thnum <= MEMMAXSIZ);
int64_t allcnt = count_;
if (checker && !checker->check("scan_parallel", "beginning", -1, allcnt)) {
set_error(_KCCODELINE_, Error::LOGIC, "checker failed");
return false;
}
bool err = false;
std::vector<int64_t> offs;
int64_t bnum = bnum_;
size_t cap = (thnum + 1) * INT8MAX;
for (int64_t bidx = 0; bidx < bnum; bidx++) {
int64_t off = get_bucket(bidx);
if (off > 0) {
offs.push_back(off);
if (offs.size() >= cap) break;
}
}
if (!offs.empty()) {
std::sort(offs.begin(), offs.end());
if (thnum > offs.size()) thnum = offs.size();
class ThreadImpl : public Thread {
public:
explicit ThreadImpl() :
db_(NULL), visitor_(NULL), checker_(NULL), allcnt_(0),
begoff_(0), endoff_(0), error_() {}
void init(HashDB* db, Visitor* visitor, ProgressChecker* checker, int64_t allcnt,
int64_t begoff, int64_t endoff) {
db_ = db;
visitor_ = visitor;
checker_ = checker;
allcnt_ = allcnt;
begoff_ = begoff;
endoff_ = endoff;
}
const Error& error() {
return error_;
}
private:
void run() {
HashDB* db = db_;
Visitor* visitor = visitor_;
ProgressChecker* checker = checker_;
int64_t off = begoff_;
int64_t end = endoff_;
int64_t allcnt = allcnt_;
Compressor* comp = db->comp_;
Record rec;
char rbuf[RECBUFSIZ];
while (off > 0 && off < end) {
rec.off = off;
if (!db->read_record(&rec, rbuf)) {
error_ = db->error();
break;
}
if (rec.psiz == UINT16MAX) {
off += rec.rsiz;
} else {
if (!rec.vbuf && !db->read_record_body(&rec)) {
delete[] rec.bbuf;
error_ = db->error();
break;
}
const char* vbuf = rec.vbuf;
size_t vsiz = rec.vsiz;
char* zbuf = NULL;
size_t zsiz = 0;
if (comp) {
zbuf = comp->decompress(vbuf, vsiz, &zsiz);
if (!zbuf) {
db->set_error(_KCCODELINE_, Error::SYSTEM, "data decompression failed");
delete[] rec.bbuf;
error_ = db->error();
break;
}
vbuf = zbuf;
vsiz = zsiz;
}
visitor->visit_full(rec.kbuf, rec.ksiz, vbuf, vsiz, &vsiz);
delete[] zbuf;
delete[] rec.bbuf;
off += rec.rsiz;
if (checker && !checker->check("scan_parallel", "processing", -1, allcnt)) {
db->set_error(_KCCODELINE_, Error::LOGIC, "checker failed");
error_ = db->error();
break;
}
}
}
}
HashDB* db_;
Visitor* visitor_;
ProgressChecker* checker_;
int64_t allcnt_;
int64_t begoff_;
int64_t endoff_;
Error error_;
};
ThreadImpl* threads = new ThreadImpl[thnum];
double range = (double)offs.size() / thnum;
for (size_t i = 0; i < thnum; i++) {
int64_t cidx = i * range;
int64_t nidx = (i + 1) * range;
int64_t begoff = i < 1 ? roff_ : offs[cidx];
int64_t endoff = i < thnum - 1 ? offs[nidx] : (int64_t)lsiz_;
ThreadImpl* thread = threads + i;
thread->init(this, visitor, checker, allcnt, begoff, endoff);
thread->start();
}
for (size_t i = 0; i < thnum; i++) {
ThreadImpl* thread = threads + i;
thread->join();
if (thread->error() != Error::SUCCESS) {
*error_ = thread->error();
err = true;
}
}
delete[] threads;
}
if (checker && !checker->check("scan_parallel", "ending", -1, allcnt)) {
set_error(_KCCODELINE_, Error::LOGIC, "checker failed");
err = true;
}
return !err;
}
/**
* Synchronize updated contents with the file and the device.
* @param hard true for physical synchronization with the device, or false for logical
* synchronization with the file system.
* @param proc a postprocessor object.
* @param checker a progress checker object.
* @return true on success, or false on failure.
*/
bool synchronize_impl(bool hard, FileProcessor* proc, ProgressChecker* checker) {
_assert_(true);
bool err = false;
if (writer_) {
if (checker && !checker->check("synchronize", "dumping the free blocks", -1, -1)) {
set_error(_KCCODELINE_, Error::LOGIC, "checker failed");
return false;
}
if (hard && !dump_free_blocks()) err = true;
if (checker && !checker->check("synchronize", "dumping the meta data", -1, -1)) {
set_error(_KCCODELINE_, Error::LOGIC, "checker failed");
return false;
}
if (!dump_meta()) err = true;
if (checker && !checker->check("synchronize", "synchronizing the file", -1, -1)) {
set_error(_KCCODELINE_, Error::LOGIC, "checker failed");
return false;
}
if (!file_.synchronize(hard)) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
err = true;
}
}
if (proc) {
if (checker && !checker->check("synchronize", "running the post processor", -1, -1)) {
set_error(_KCCODELINE_, Error::LOGIC, "checker failed");
return false;
}
if (!proc->process(path_, count_, lsiz_)) {
set_error(_KCCODELINE_, Error::LOGIC, "postprocessing failed");
err = true;
}
}
if (writer_ && !autotran_ && !set_flag(FOPEN, true)) err = true;
return !err;
}
/**
* Synchronize meta data with the file and the device.
* @return true on success, or false on failure.
*/
bool synchronize_meta() {
_assert_(true);
ScopedMutex lock(&flock_);
bool err = false;
if (!dump_meta()) err = true;
if (!file_.synchronize(true)) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
err = true;
}
return !err;
}
/**
* Perform defragmentation.
* @param step the number of steps.
* @return true on success, or false on failure.
*/
bool defrag_impl(int64_t step) {
_assert_(step >= 0);
int64_t end = lsiz_;
Record rec;
char rbuf[RECBUFSIZ];
while (true) {
if (dfcur_ >= end) {
dfcur_ = roff_;
return true;
}
if (step-- < 1) return true;
rec.off = dfcur_;
if (!read_record(&rec, rbuf)) return false;
if (rec.psiz == UINT16MAX) break;
delete[] rec.bbuf;
dfcur_ += rec.rsiz;
}
bool atran = false;
if (autotran_ && !tran_) {
if (!begin_auto_transaction()) return false;
atran = true;
}
int64_t base = dfcur_;
int64_t dest = base;
dfcur_ += rec.rsiz;
step++;
while (step-- > 0 && dfcur_ < end) {
rec.off = dfcur_;
if (!read_record(&rec, rbuf)) {
if (atran) abort_auto_transaction();
return false;
}
escape_cursors(rec.off, dest);
dfcur_ += rec.rsiz;
if (rec.psiz != UINT16MAX) {
if (!rec.vbuf && !read_record_body(&rec)) {
if (atran) abort_auto_transaction();
delete[] rec.bbuf;
return false;
}
if (rec.psiz >= align_) {
size_t diff = rec.psiz - rec.psiz % align_;
rec.psiz -= diff;
rec.rsiz -= diff;
}
if (!shift_record(&rec, dest)) {
if (atran) abort_auto_transaction();
delete[] rec.bbuf;
return false;
}
delete[] rec.bbuf;
dest += rec.rsiz;
}
}
trim_free_blocks(base, dfcur_);
if (dfcur_ >= end) {
lsiz_ = dest;
psiz_ = lsiz_;
if (!file_.truncate(lsiz_)) {
if (atran) abort_auto_transaction();
return false;
}
trim_cursors();
dfcur_ = roff_;
} else {
size_t rsiz = dfcur_ - dest;
if (!write_free_block(dest, rsiz, rbuf)) {
if (atran) abort_auto_transaction();
return false;
}
insert_free_block(dest, rsiz);
dfcur_ = dest;
}
if (atran) {
if (!commit_auto_transaction()) return false;
} else if (autosync_) {
if (!synchronize_meta()) return false;
}
return true;
}
/**
* Calculate meta data with saved ones.
*/
void calc_meta() {
_assert_(true);
align_ = 1 << apow_;
fbpnum_ = fpow_ > 0 ? 1 << fpow_ : 0;
width_ = (opts_ & TSMALL) ? sizeof(uint32_t) : sizeof(uint32_t) + 2;
linear_ = (opts_ & TLINEAR) ? true : false;
comp_ = (opts_ & TCOMPRESS) ? embcomp_ : NULL;
rhsiz_ = sizeof(uint16_t) + sizeof(uint8_t) * 2;
rhsiz_ += linear_ ? width_ : width_ * 2;
boff_ = HEADSIZ + FBPWIDTH * fbpnum_;
if (fbpnum_ > 0) boff_ += width_ * 2 + sizeof(uint8_t) * 2;
roff_ = boff_ + width_ * bnum_;
int64_t rem = roff_ % align_;
if (rem > 0) roff_ += align_ - rem;
dfcur_ = roff_;
frgcnt_ = 0;
tran_ = false;
}
/**
* Calculate the module checksum.
* @return the module checksum.
*/
uint8_t calc_checksum() {
_assert_(true);
const char* kbuf = KCHDBCHKSUMSEED;
size_t ksiz = sizeof(KCHDBCHKSUMSEED) - 1;
char* zbuf = NULL;
size_t zsiz = 0;
if (comp_) {
zbuf = comp_->compress(kbuf, ksiz, &zsiz);
if (!zbuf) return 0;
kbuf = zbuf;
ksiz = zsiz;
}
uint32_t hash = fold_hash(hash_record(kbuf, ksiz));
delete[] zbuf;
return (hash >> 24) ^ (hash >> 16) ^ (hash >> 8) ^ (hash >> 0);
}
/**
* Dump the meta data into the file.
* @return true on success, or false on failure.
*/
bool dump_meta() {
_assert_(true);
char head[HEADSIZ];
std::memset(head, 0, sizeof(head));
std::memcpy(head, KCHDBMAGICDATA, sizeof(KCHDBMAGICDATA));
std::memcpy(head + MOFFLIBVER, &libver_, sizeof(libver_));
std::memcpy(head + MOFFLIBREV, &librev_, sizeof(librev_));
std::memcpy(head + MOFFFMTVER, &fmtver_, sizeof(fmtver_));
std::memcpy(head + MOFFCHKSUM, &chksum_, sizeof(chksum_));
std::memcpy(head + MOFFTYPE, &type_, sizeof(type_));
std::memcpy(head + MOFFAPOW, &apow_, sizeof(apow_));
std::memcpy(head + MOFFFPOW, &fpow_, sizeof(fpow_));
std::memcpy(head + MOFFOPTS, &opts_, sizeof(opts_));
uint64_t num = hton64(bnum_);
std::memcpy(head + MOFFBNUM, &num, sizeof(num));
if (!flagopen_) flags_ &= ~FOPEN;
std::memcpy(head + MOFFFLAGS, &flags_, sizeof(flags_));
num = hton64(count_);
std::memcpy(head + MOFFCOUNT, &num, sizeof(num));
num = hton64(lsiz_);
std::memcpy(head + MOFFSIZE, &num, sizeof(num));
std::memcpy(head + MOFFOPAQUE, opaque_, sizeof(opaque_));
if (!file_.write(0, head, sizeof(head))) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
return false;
}
trcount_ = count_;
trsize_ = lsiz_;
return true;
}
/**
* Dump the meta data into the file.
* @return true on success, or false on failure.
*/
bool dump_auto_meta() {
_assert_(true);
const int64_t hsiz = MOFFOPAQUE - MOFFCOUNT;
char head[hsiz];
std::memset(head, 0, hsiz);
uint64_t num = hton64(count_);
std::memcpy(head, &num, sizeof(num));
num = hton64(lsiz_);
std::memcpy(head + MOFFSIZE - MOFFCOUNT, &num, sizeof(num));
if (!file_.write_fast(MOFFCOUNT, head, sizeof(head))) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
return false;
}
trcount_ = count_;
trsize_ = lsiz_;
return true;
}
/**
* Dump the opaque data into the file.
* @return true on success, or false on failure.
*/
bool dump_opaque() {
_assert_(true);
if (!file_.write_fast(MOFFOPAQUE, opaque_, sizeof(opaque_))) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
return false;
}
return true;
}
/**
* Load the meta data from the file.
* @return true on success, or false on failure.
*/
bool load_meta() {
_assert_(true);
char head[HEADSIZ];
if (file_.size() < (int64_t)sizeof(head)) {
set_error(_KCCODELINE_, Error::INVALID, "missing magic data of the file");
return false;
}
if (!file_.read(0, head, sizeof(head))) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
report(_KCCODELINE_, Logger::WARN, "psiz=%lld off=%lld fsiz=%lld",
(long long)psiz_, (long long)0, (long long)file_.size());
return false;
}
if (std::memcmp(head, KCHDBMAGICDATA, sizeof(KCHDBMAGICDATA))) {
set_error(_KCCODELINE_, Error::INVALID, "invalid magic data of the file");
return false;
}
std::memcpy(&libver_, head + MOFFLIBVER, sizeof(libver_));
std::memcpy(&librev_, head + MOFFLIBREV, sizeof(librev_));
std::memcpy(&fmtver_, head + MOFFFMTVER, sizeof(fmtver_));
std::memcpy(&chksum_, head + MOFFCHKSUM, sizeof(chksum_));
std::memcpy(&type_, head + MOFFTYPE, sizeof(type_));
std::memcpy(&apow_, head + MOFFAPOW, sizeof(apow_));
std::memcpy(&fpow_, head + MOFFFPOW, sizeof(fpow_));
std::memcpy(&opts_, head + MOFFOPTS, sizeof(opts_));
uint64_t num;
std::memcpy(&num, head + MOFFBNUM, sizeof(num));
bnum_ = ntoh64(num);
std::memcpy(&flags_, head + MOFFFLAGS, sizeof(flags_));
flagopen_ = flags_ & FOPEN;
std::memcpy(&num, head + MOFFCOUNT, sizeof(num));
count_ = ntoh64(num);
std::memcpy(&num, head + MOFFSIZE, sizeof(num));
lsiz_ = ntoh64(num);
psiz_ = lsiz_;
std::memcpy(opaque_, head + MOFFOPAQUE, sizeof(opaque_));
trcount_ = count_;
trsize_ = lsiz_;
return true;
}
/**
* Set a status flag.
* @param flag the flag kind.
* @param sign whether to set or unset.
* @return true on success, or false on failure.
*/
bool set_flag(uint8_t flag, bool sign) {
_assert_(true);
uint8_t flags;
if (!file_.read(MOFFFLAGS, &flags, sizeof(flags))) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
report(_KCCODELINE_, Logger::WARN, "psiz=%lld off=%lld fsiz=%lld",
(long long)psiz_, (long long)MOFFFLAGS, (long long)file_.size());
return false;
}
if (sign) {
flags |= flag;
} else {
flags &= ~flag;
}
if (!file_.write(MOFFFLAGS, &flags, sizeof(flags))) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
return false;
}
flags_ = flags;
return true;
}
/**
* Reorganize the whole file.
* @param path the path of the database file.
* @return true on success, or false on failure.
*/
bool reorganize_file(const std::string& path) {
_assert_(true);
bool err = false;
HashDB db;
db.tune_type(type_);
db.tune_alignment(apow_);
db.tune_fbp(fpow_);
db.tune_options(opts_);
db.tune_buckets(bnum_);
db.tune_map(msiz_);
if (embcomp_) db.tune_compressor(embcomp_);
const std::string& npath = path + File::EXTCHR + KCHDBTMPPATHEXT;
if (db.open(npath, OWRITER | OCREATE | OTRUNCATE)) {
report(_KCCODELINE_, Logger::WARN, "reorganizing the database");
lsiz_ = file_.size();
psiz_ = lsiz_;
if (copy_records(&db)) {
if (db.close()) {
if (!File::rename(npath, path)) {
set_error(_KCCODELINE_, Error::SYSTEM, "renaming the destination failed");
err = true;
}
} else {
set_error(_KCCODELINE_, db.error().code(), "closing the destination failed");
err = true;
}
} else {
set_error(_KCCODELINE_, db.error().code(), "record copying failed");
err = true;
}
File::remove(npath);
} else {
set_error(_KCCODELINE_, db.error().code(), "opening the destination failed");
err = true;
}
return !err;
}
/**
* Copy all records to another database.
* @param dest the destination database.
* @return true on success, or false on failure.
*/
bool copy_records(HashDB* dest) {
_assert_(dest);
Logger* logger = logger_;
logger_ = NULL;
int64_t off = roff_;
int64_t end = psiz_;
Record rec, nrec;
char rbuf[RECBUFSIZ], nbuf[RECBUFSIZ];
while (off > 0 && off < end) {
rec.off = off;
if (!read_record(&rec, rbuf)) {
int64_t checkend = off + SLVGWIDTH;
if (checkend > end - (int64_t)rhsiz_) checkend = end - rhsiz_;
bool hit = false;
for (off += rhsiz_; off < checkend; off++) {
rec.off = off;
if (!read_record(&rec, rbuf)) continue;
if ((int64_t)rec.rsiz > SLVGWIDTH || rec.off + (int64_t)rec.rsiz >= checkend) {
delete[] rec.bbuf;
continue;
}
if (rec.psiz != UINT16MAX && !rec.vbuf && !read_record_body(&rec)) {
delete[] rec.bbuf;
continue;
}
delete[] rec.bbuf;
nrec.off = off + rec.rsiz;
if (!read_record(&nrec, nbuf)) continue;
if ((int64_t)nrec.rsiz > SLVGWIDTH || nrec.off + (int64_t)nrec.rsiz >= checkend) {
delete[] nrec.bbuf;
continue;
}
if (nrec.psiz != UINT16MAX && !nrec.vbuf && !read_record_body(&nrec)) {
delete[] nrec.bbuf;
continue;
}
delete[] nrec.bbuf;
hit = true;
break;
}
if (!hit || !read_record(&rec, rbuf)) break;
}
if (rec.psiz == UINT16MAX) {
off += rec.rsiz;
continue;
}
if (!rec.vbuf && !read_record_body(&rec)) {
delete[] rec.bbuf;
bool hit = false;
if (rec.rsiz <= MEMMAXSIZ && off + (int64_t)rec.rsiz < end) {
nrec.off = off + rec.rsiz;
if (read_record(&nrec, nbuf)) {
if (nrec.rsiz > MEMMAXSIZ || nrec.off + (int64_t)nrec.rsiz >= end) {
delete[] nrec.bbuf;
} else if (nrec.psiz != UINT16MAX && !nrec.vbuf && !read_record_body(&nrec)) {
delete[] nrec.bbuf;
} else {
delete[] nrec.bbuf;
hit = true;
}
}
}
if (hit) {
off += rec.rsiz;
continue;
} else {
break;
}
}
const char* vbuf = rec.vbuf;
size_t vsiz = rec.vsiz;
char* zbuf = NULL;
size_t zsiz = 0;
if (comp_) {
zbuf = comp_->decompress(vbuf, vsiz, &zsiz);
if (!zbuf) {
delete[] rec.bbuf;
off += rec.rsiz;
continue;
}
vbuf = zbuf;
vsiz = zsiz;
}
if (!dest->set(rec.kbuf, rec.ksiz, vbuf, vsiz)) {
delete[] zbuf;
delete[] rec.bbuf;
break;
}
delete[] zbuf;
delete[] rec.bbuf;
off += rec.rsiz;
}
logger_ = logger;
return true;
}
/**
* Trim the file size.
* @param path the path of the database file.
* @return true on success, or false on failure.
*/
bool trim_file(const std::string& path) {
_assert_(true);
bool err = false;
report(_KCCODELINE_, Logger::WARN, "trimming the database");
File* dest = writer_ ? &file_ : new File();
if (dest == &file_ || dest->open(path, File::OWRITER | File::ONOLOCK, 0)) {
if (!dest->truncate(lsiz_)) {
set_error(_KCCODELINE_, Error::SYSTEM, dest->error());
err = true;
}
if (dest != &file_) {
if (!dest->close()) {
set_error(_KCCODELINE_, Error::SYSTEM, dest->error());
err = true;
}
if (!file_.refresh()) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
err = true;
}
}
trim_ = true;
} else {
set_error(_KCCODELINE_, Error::SYSTEM, dest->error());
err = true;
}
if (dest != &file_) delete dest;
return !err;
}
/**
* Get the hash value of a record.
* @param kbuf the pointer to the key region.
* @param ksiz the size of the key region.
* @return the hash value.
*/
uint64_t hash_record(const char* kbuf, size_t ksiz) {
_assert_(kbuf && ksiz <= MEMMAXSIZ);
return hashmurmur(kbuf, ksiz);
}
/**
* Fold a hash value into a small number.
* @param hash the hash number.
* @return the result number.
*/
uint32_t fold_hash(uint64_t hash) {
_assert_(true);
return (((hash & 0xffff000000000000ULL) >> 48) | ((hash & 0x0000ffff00000000ULL) >> 16)) ^
(((hash & 0x000000000000ffffULL) << 16) | ((hash & 0x00000000ffff0000ULL) >> 16));
}
/**
* Compare two keys in lexical order.
* @param abuf one key.
* @param asiz the size of the one key.
* @param bbuf the other key.
* @param bsiz the size of the other key.
* @return positive if the former is big, or negative if the latter is big, or 0 if both are
* equivalent.
*/
int32_t compare_keys(const char* abuf, size_t asiz, const char* bbuf, size_t bsiz) {
_assert_(abuf && bbuf);
if (asiz != bsiz) return (int32_t)asiz - (int32_t)bsiz;
return std::memcmp(abuf, bbuf, asiz);
}
/**
* Set an address into a bucket.
* @param bidx the index of the bucket.
* @param off the address.
* @return true on success, or false on failure.
*/
bool set_bucket(int64_t bidx, int64_t off) {
_assert_(bidx >= 0 && off >= 0);
char buf[sizeof(uint64_t)];
writefixnum(buf, off >> apow_, width_);
if (!file_.write_fast(boff_ + bidx * width_, buf, width_)) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
return false;
}
return true;
}
/**
* Get an address from a bucket.
* @param bidx the index of the bucket.
* @return the address, or -1 on failure.
*/
int64_t get_bucket(int64_t bidx) {
_assert_(bidx >= 0);
char buf[sizeof(uint64_t)];
if (!file_.read_fast(boff_ + bidx * width_, buf, width_)) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
report(_KCCODELINE_, Logger::WARN, "psiz=%lld off=%lld fsiz=%lld",
(long long)psiz_, (long long)boff_ + bidx * width_, (long long)file_.size());
return -1;
}
return readfixnum(buf, width_) << apow_;
}
/**
* Set an address into a chain slot.
* @param entoff the address of the chain slot.
* @param off the destination address.
* @return true on success, or false on failure.
*/
bool set_chain(int64_t entoff, int64_t off) {
_assert_(entoff >= 0 && off >= 0);
char buf[sizeof(uint64_t)];
writefixnum(buf, off >> apow_, width_);
if (!file_.write_fast(entoff, buf, width_)) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
return false;
}
return true;
}
/**
* Read a record from the file.
* @param rec the record structure.
* @param rbuf the working buffer.
* @return true on success, or false on failure.
*/
bool read_record(Record* rec, char* rbuf) {
_assert_(rec && rbuf);
if (rec->off < roff_) {
set_error(_KCCODELINE_, Error::BROKEN, "invalid record offset");
report(_KCCODELINE_, Logger::WARN, "psiz=%lld off=%lld fsiz=%lld",
(long long)psiz_, (long long)rec->off, (long long)file_.size());
return false;
}
size_t rsiz = psiz_ - rec->off;
if (rsiz > RECBUFSIZ) {
rsiz = RECBUFSIZ;
} else {
if (rsiz < rhsiz_) {
set_error(_KCCODELINE_, Error::BROKEN, "too short record region");
report(_KCCODELINE_, Logger::WARN, "psiz=%lld off=%lld rsiz=%lld fsiz=%lld",
(long long)psiz_, (long long)rec->off, (long long)rsiz, (long long)file_.size());
return false;
}
rsiz = rhsiz_;
}
if (!file_.read_fast(rec->off, rbuf, rsiz)) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
report(_KCCODELINE_, Logger::WARN, "psiz=%lld off=%lld rsiz=%lld fsiz=%lld",
(long long)psiz_, (long long)rec->off, (long long)rsiz, (long long)file_.size());
return false;
}
const char* rp = rbuf;
uint16_t snum;
if (*(uint8_t*)rp == RECMAGIC) {
((uint8_t*)&snum)[0] = 0;
((uint8_t*)&snum)[1] = *(uint8_t*)(rp + 1);
} else if (*(uint8_t*)rp >= 0x80) {
if (*(uint8_t*)(rp++) != FBMAGIC || *(uint8_t*)(rp++) != FBMAGIC) {
set_error(_KCCODELINE_, Error::BROKEN, "invalid magic data of a free block");
report(_KCCODELINE_, Logger::WARN, "psiz=%lld off=%lld rsiz=%lld fsiz=%lld",
(long long)psiz_, (long long)rec->off, (long long)rsiz, (long long)file_.size());
report_binary(_KCCODELINE_, Logger::WARN, "rbuf", rbuf, rsiz);
return false;
}
rec->rsiz = readfixnum(rp, width_) << apow_;
rp += width_;
if (*(uint8_t*)(rp++) != PADMAGIC || *(uint8_t*)(rp++) != PADMAGIC) {
set_error(_KCCODELINE_, Error::BROKEN, "invalid magic data of a free block");
report(_KCCODELINE_, Logger::WARN, "psiz=%lld off=%lld rsiz=%lld fsiz=%lld",
(long long)psiz_, (long long)rec->off, (long long)rsiz, (long long)file_.size());
report_binary(_KCCODELINE_, Logger::WARN, "rbuf", rbuf, rsiz);
return false;
}
if (rec->rsiz < rhsiz_) {
set_error(_KCCODELINE_, Error::BROKEN, "invalid size of a free block");
report(_KCCODELINE_, Logger::WARN, "psiz=%lld off=%lld rsiz=%lld fsiz=%lld",
(long long)psiz_, (long long)rec->off, (long long)rsiz, (long long)file_.size());
report_binary(_KCCODELINE_, Logger::WARN, "rbuf", rbuf, rsiz);
return false;
}
rec->psiz = UINT16MAX;
rec->ksiz = 0;
rec->vsiz = 0;
rec->left = 0;
rec->right = 0;
rec->kbuf = NULL;
rec->vbuf = NULL;
rec->boff = 0;
rec->bbuf = NULL;
return true;
} else if (*rp == 0) {
set_error(_KCCODELINE_, Error::BROKEN, "nullified region");
report(_KCCODELINE_, Logger::WARN, "psiz=%lld off=%lld rsiz=%lld fsiz=%lld",
(long long)psiz_, (long long)rec->off, (long long)rsiz, (long long)file_.size());
report_binary(_KCCODELINE_, Logger::WARN, "rbuf", rbuf, rsiz);
return false;
} else {
std::memcpy(&snum, rp, sizeof(snum));
}
rp += sizeof(snum);
rsiz -= sizeof(snum);
rec->psiz = ntoh16(snum);
rec->left = readfixnum(rp, width_) << apow_;
rp += width_;
rsiz -= width_;
if (linear_) {
rec->right = 0;
} else {
rec->right = readfixnum(rp, width_) << apow_;
rp += width_;
rsiz -= width_;
}
uint64_t num;
size_t step = readvarnum(rp, rsiz, &num);
if (step < 1) {
set_error(_KCCODELINE_, Error::BROKEN, "invalid key length");
report(_KCCODELINE_, Logger::WARN, "psiz=%lld off=%lld rsiz=%lld fsiz=%lld snum=%04X",
(long long)psiz_, (long long)rec->off, (long long)rsiz,
(long long)file_.size(), snum);
report_binary(_KCCODELINE_, Logger::WARN, "rbuf", rbuf, rsiz);
return false;
}
rec->ksiz = num;
rp += step;
rsiz -= step;
step = readvarnum(rp, rsiz, &num);
if (step < 1) {
set_error(_KCCODELINE_, Error::BROKEN, "invalid value length");
report(_KCCODELINE_, Logger::WARN, "psiz=%lld off=%lld rsiz=%lld fsiz=%lld snum=%04X",
(long long)psiz_, (long long)rec->off, (long long)rsiz,
(long long)file_.size(), snum);
report_binary(_KCCODELINE_, Logger::WARN, "rbuf", rbuf, rsiz);
return false;
}
rec->vsiz = num;
rp += step;
rsiz -= step;
size_t hsiz = rp - rbuf;
rec->rsiz = hsiz + rec->ksiz + rec->vsiz + rec->psiz;
rec->kbuf = NULL;
rec->vbuf = NULL;
rec->boff = rec->off + hsiz;
rec->bbuf = NULL;
if (rsiz >= rec->ksiz) {
rec->kbuf = rp;
rp += rec->ksiz;
rsiz -= rec->ksiz;
if (rsiz >= rec->vsiz) {
rec->vbuf = rp;
if (rec->psiz > 0) {
rp += rec->vsiz;
rsiz -= rec->vsiz;
if (rsiz > 0 && *(uint8_t*)rp != PADMAGIC) {
set_error(_KCCODELINE_, Error::BROKEN, "invalid magic data of a record");
report(_KCCODELINE_, Logger::WARN, "psiz=%lld off=%lld rsiz=%lld fsiz=%lld"
" snum=%04X", (long long)psiz_, (long long)rec->off, (long long)rsiz,
(long long)file_.size(), snum);
report_binary(_KCCODELINE_, Logger::WARN, "rbuf", rbuf, rsiz);
return false;
}
}
}
} else {
if (rec->off + (int64_t)rec->rsiz > psiz_) {
set_error(_KCCODELINE_, Error::BROKEN, "invalid length of a record");
report(_KCCODELINE_, Logger::WARN, "psiz=%lld off=%lld rsiz=%lld fsiz=%lld"
" snum=%04X", (long long)psiz_, (long long)rec->off, (long long)rec->rsiz,
(long long)file_.size(), snum);
return false;
}
if (!read_record_body(rec)) return false;
}
return true;
}
/**
* Read the body of a record from the file.
* @param rec the record structure.
* @return true on success, or false on failure.
*/
bool read_record_body(Record* rec) {
_assert_(rec);
size_t bsiz = rec->ksiz + rec->vsiz;
if (rec->psiz > 0) bsiz++;
char* bbuf = new char[bsiz];
if (!file_.read_fast(rec->boff, bbuf, bsiz)) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
report(_KCCODELINE_, Logger::WARN, "psiz=%lld off=%lld fsiz=%lld",
(long long)psiz_, (long long)rec->boff, (long long)file_.size());
delete[] bbuf;
return false;
}
if (rec->psiz > 0 && ((uint8_t*)bbuf)[bsiz-1] != PADMAGIC) {
set_error(_KCCODELINE_, Error::BROKEN, "invalid magic data of a record");
report_binary(_KCCODELINE_, Logger::WARN, "bbuf", bbuf, bsiz);
delete[] bbuf;
return false;
}
rec->bbuf = bbuf;
rec->kbuf = rec->bbuf;
rec->vbuf = rec->bbuf + rec->ksiz;
return true;
}
/**
* Write a record into the file.
* @param rec the record structure.
* @param over true for overwriting, or false for new record.
* @return true on success, or false on failure.
*/
bool write_record(Record* rec, bool over) {
_assert_(rec);
char stack[IOBUFSIZ];
char* rbuf = rec->rsiz > sizeof(stack) ? new char[rec->rsiz] : stack;
char* wp = rbuf;
uint16_t snum = hton16(rec->psiz);
std::memcpy(wp, &snum, sizeof(snum));
if (rec->psiz < 0x100) *wp = RECMAGIC;
wp += sizeof(snum);
writefixnum(wp, rec->left >> apow_, width_);
wp += width_;
if (!linear_) {
writefixnum(wp, rec->right >> apow_, width_);
wp += width_;
}
wp += writevarnum(wp, rec->ksiz);
wp += writevarnum(wp, rec->vsiz);
std::memcpy(wp, rec->kbuf, rec->ksiz);
wp += rec->ksiz;
std::memcpy(wp, rec->vbuf, rec->vsiz);
wp += rec->vsiz;
if (rec->psiz > 0) {
std::memset(wp, 0, rec->psiz);
*wp = PADMAGIC;
wp += rec->psiz;
}
bool err = false;
if (over) {
if (!file_.write_fast(rec->off, rbuf, rec->rsiz)) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
err = true;
}
} else {
if (!file_.write(rec->off, rbuf, rec->rsiz)) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
err = true;
}
}
if (rbuf != stack) delete[] rbuf;
return !err;
}
/**
* Adjust the padding of a record.
* @param rec the record structure.
* @return true on success, or false on failure.
*/
bool adjust_record(Record* rec) {
_assert_(rec);
if (rec->psiz > (size_t)INT16MAX || rec->psiz > rec->rsiz / 2) {
size_t nsiz = (rec->psiz >> apow_) << apow_;
if (nsiz < rhsiz_) return true;
rec->rsiz -= nsiz;
rec->psiz -= nsiz;
int64_t noff = rec->off + rec->rsiz;
char nbuf[RECBUFSIZ];
if (!write_free_block(noff, nsiz, nbuf)) return false;
insert_free_block(noff, nsiz);
}
return true;
}
/**
* Calculate the size of a record.
* @param ksiz the size of the key.
* @param vsiz the size of the value.
* @return the size of the record.
*/
size_t calc_record_size(size_t ksiz, size_t vsiz) {
_assert_(true);
size_t rsiz = sizeof(uint16_t) + width_;
if (!linear_) rsiz += width_;
if (ksiz < (1ULL << 7)) {
rsiz += 1;
} else if (ksiz < (1ULL << 14)) {
rsiz += 2;
} else if (ksiz < (1ULL << 21)) {
rsiz += 3;
} else if (ksiz < (1ULL << 28)) {
rsiz += 4;
} else {
rsiz += 5;
}
if (vsiz < (1ULL << 7)) {
rsiz += 1;
} else if (vsiz < (1ULL << 14)) {
rsiz += 2;
} else if (vsiz < (1ULL << 21)) {
rsiz += 3;
} else if (vsiz < (1ULL << 28)) {
rsiz += 4;
} else {
rsiz += 5;
}
rsiz += ksiz;
rsiz += vsiz;
return rsiz;
}
/**
* Calculate the padding size of a record.
* @param rsiz the size of the record.
* @return the size of the padding.
*/
size_t calc_record_padding(size_t rsiz) {
_assert_(true);
size_t diff = rsiz & (align_ - 1);
return diff > 0 ? align_ - diff : 0;
}
/**
* Shift a record to another place.
* @param orec the original record structure.
* @param dest the destination offset.
* @return true on success, or false on failure.
*/
bool shift_record(Record* orec, int64_t dest) {
_assert_(orec && dest >= 0);
uint64_t hash = hash_record(orec->kbuf, orec->ksiz);
uint32_t pivot = fold_hash(hash);
int64_t bidx = hash % bnum_;
int64_t off = get_bucket(bidx);
if (off < 0) return false;
if (off == orec->off) {
orec->off = dest;
if (!write_record(orec, true)) return false;
if (!set_bucket(bidx, dest)) return false;
return true;
}
int64_t entoff = 0;
Record rec;
char rbuf[RECBUFSIZ];
while (off > 0) {
rec.off = off;
if (!read_record(&rec, rbuf)) return false;
if (rec.psiz == UINT16MAX) {
set_error(_KCCODELINE_, Error::BROKEN, "free block in the chain");
report(_KCCODELINE_, Logger::WARN, "psiz=%lld off=%lld fsiz=%lld",
(long long)psiz_, (long long)rec.off, (long long)file_.size());
return false;
}
uint32_t tpivot = linear_ ? pivot : fold_hash(hash_record(rec.kbuf, rec.ksiz));
if (pivot > tpivot) {
delete[] rec.bbuf;
off = rec.left;
entoff = rec.off + sizeof(uint16_t);
} else if (pivot < tpivot) {
delete[] rec.bbuf;
off = rec.right;
entoff = rec.off + sizeof(uint16_t) + width_;
} else {
int32_t kcmp = compare_keys(orec->kbuf, orec->ksiz, rec.kbuf, rec.ksiz);
if (linear_ && kcmp != 0) kcmp = 1;
if (kcmp > 0) {
delete[] rec.bbuf;
off = rec.left;
entoff = rec.off + sizeof(uint16_t);
} else if (kcmp < 0) {
delete[] rec.bbuf;
off = rec.right;
entoff = rec.off + sizeof(uint16_t) + width_;
} else {
delete[] rec.bbuf;
orec->off = dest;
if (!write_record(orec, true)) return false;
if (entoff > 0) {
if (!set_chain(entoff, dest)) return false;
} else {
if (!set_bucket(bidx, dest)) return false;
}
return true;
}
}
}
set_error(_KCCODELINE_, Error::BROKEN, "no record to shift");
report(_KCCODELINE_, Logger::WARN, "psiz=%lld fsiz=%lld",
(long long)psiz_, (long long)file_.size());
return false;
}
/**
* Write a free block into the file.
* @param off the offset of the free block.
* @param rsiz the size of the free block.
* @param rbuf the working buffer.
* @return true on success, or false on failure.
*/
bool write_free_block(int64_t off, size_t rsiz, char* rbuf) {
_assert_(off >= 0 && rbuf);
char* wp = rbuf;
*(wp++) = FBMAGIC;
*(wp++) = FBMAGIC;
writefixnum(wp, rsiz >> apow_, width_);
wp += width_;
*(wp++) = PADMAGIC;
*(wp++) = PADMAGIC;
if (!file_.write_fast(off, rbuf, wp - rbuf)) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
return false;
}
return true;
}
/**
* Insert a free block to the free block pool.
* @param off the offset of the free block.
* @param rsiz the size of the free block.
*/
void insert_free_block(int64_t off, size_t rsiz) {
_assert_(off >= 0);
ScopedMutex lock(&flock_);
escape_cursors(off, off + rsiz);
if (fbpnum_ < 1) return;
if (fbp_.size() >= (size_t)fbpnum_) {
FBP::const_iterator it = fbp_.begin();
if (rsiz <= it->rsiz) return;
fbp_.erase(it);
}
FreeBlock fb = { off, rsiz };
fbp_.insert(fb);
}
/**
* Fetch the free block pool from a decent sized block.
* @param rsiz the minimum size of the block.
* @param res the structure for the result.
* @return true on success, or false on failure.
*/
bool fetch_free_block(size_t rsiz, FreeBlock* res) {
_assert_(res);
if (fbpnum_ < 1) return false;
ScopedMutex lock(&flock_);
FreeBlock fb = { INT64MAX, rsiz };
FBP::const_iterator it = fbp_.upper_bound(fb);
if (it == fbp_.end()) return false;
res->off = it->off;
res->rsiz = it->rsiz;
fbp_.erase(it);
escape_cursors(res->off, res->off + res->rsiz);
return true;
}
/**
* Trim invalid free blocks.
* @param begin the beginning offset.
* @param end the end offset.
*/
void trim_free_blocks(int64_t begin, int64_t end) {
_assert_(begin >= 0 && end >= 0);
FBP::const_iterator it = fbp_.begin();
FBP::const_iterator itend = fbp_.end();
while (it != itend) {
if (it->off >= begin && it->off < end) {
fbp_.erase(it++);
} else {
++it;
}
}
}
/**
* Dump all free blocks into the file.
* @return true on success, or false on failure.
*/
bool dump_free_blocks() {
_assert_(true);
if (fbpnum_ < 1) return true;
size_t size = boff_ - HEADSIZ;
char* rbuf = new char[size];
char* wp = rbuf;
char* end = rbuf + size - width_ * 2 - sizeof(uint8_t) * 2;
size_t num = fbp_.size();
if (num > 0) {
FreeBlock* blocks = new FreeBlock[num];
size_t cnt = 0;
FBP::const_iterator it = fbp_.begin();
FBP::const_iterator itend = fbp_.end();
while (it != itend) {
blocks[cnt++] = *it;
++it;
}
std::sort(blocks, blocks + num, FreeBlockComparator());
for (size_t i = num - 1; i > 0; i--) {
blocks[i].off -= blocks[i-1].off;
}
for (size_t i = 0; wp < end && i < num; i++) {
wp += writevarnum(wp, blocks[i].off >> apow_);
wp += writevarnum(wp, blocks[i].rsiz >> apow_);
}
delete[] blocks;
}
*(wp++) = 0;
*(wp++) = 0;
bool err = false;
if (!file_.write(HEADSIZ, rbuf, wp - rbuf)) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
err = true;
}
delete[] rbuf;
return !err;
}
/**
* Dump an empty set of free blocks into the file.
* @return true on success, or false on failure.
*/
bool dump_empty_free_blocks() {
_assert_(true);
if (fbpnum_ < 1) return true;
char rbuf[2];
char* wp = rbuf;
*(wp++) = 0;
*(wp++) = 0;
bool err = false;
if (!file_.write(HEADSIZ, rbuf, wp - rbuf)) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
err = true;
}
return !err;
}
/**
* Load all free blocks from from the file.
* @return true on success, or false on failure.
*/
bool load_free_blocks() {
_assert_(true);
if (fbpnum_ < 1) return true;
size_t size = boff_ - HEADSIZ;
char* rbuf = new char[size];
if (!file_.read(HEADSIZ, rbuf, size)) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
report(_KCCODELINE_, Logger::WARN, "psiz=%lld off=%lld fsiz=%lld",
(long long)psiz_, (long long)HEADSIZ, (long long)file_.size());
delete[] rbuf;
return false;
}
const char* rp = rbuf;
FreeBlock* blocks = new FreeBlock[fbpnum_];
int32_t num = 0;
while (num < fbpnum_ && size > 1 && *rp != '\0') {
uint64_t off;
size_t step = readvarnum(rp, size, &off);
if (step < 1 || off < 1) {
set_error(_KCCODELINE_, Error::BROKEN, "invalid free block offset");
report(_KCCODELINE_, Logger::WARN, "psiz=%lld off=%lld fsiz=%lld",
(long long)psiz_, (long long)off, (long long)file_.size());
delete[] rbuf;
delete[] blocks;
return false;
}
rp += step;
size -= step;
uint64_t rsiz;
step = readvarnum(rp, size, &rsiz);
if (step < 1 || rsiz < 1) {
set_error(_KCCODELINE_, Error::BROKEN, "invalid free block size");
report(_KCCODELINE_, Logger::WARN, "psiz=%lld off=%lld rsiz=%lld fsiz=%lld",
(long long)psiz_, (long long)off, (long long)rsiz, (long long)file_.size());
delete[] rbuf;
delete[] blocks;
return false;
}
rp += step;
size -= step;
blocks[num].off = off << apow_;
blocks[num].rsiz = rsiz << apow_;
num++;
}
for (int32_t i = 1; i < num; i++) {
blocks[i].off += blocks[i-1].off;
}
for (int32_t i = 0; i < num; i++) {
FreeBlock fb = { blocks[i].off, blocks[i].rsiz };
fbp_.insert(fb);
}
delete[] blocks;
delete[] rbuf;
return true;
}
/**
* Disable all cursors.
*/
void disable_cursors() {
_assert_(true);
if (curs_.empty()) return;
CursorList::const_iterator cit = curs_.begin();
CursorList::const_iterator citend = curs_.end();
while (cit != citend) {
Cursor* cur = *cit;
cur->off_ = 0;
++cit;
}
}
/**
* Escape cursors on a free block.
* @param off the offset of the free block.
* @param dest the destination offset.
*/
void escape_cursors(int64_t off, int64_t dest) {
_assert_(off >= 0 && dest >= 0);
if (curs_.empty()) return;
CursorList::const_iterator cit = curs_.begin();
CursorList::const_iterator citend = curs_.end();
while (cit != citend) {
Cursor* cur = *cit;
if (cur->end_ == off) {
cur->end_ = dest;
if (cur->off_ >= cur->end_) cur->off_ = 0;
}
if (cur->off_ == off) {
cur->off_ = dest;
if (cur->off_ >= cur->end_) cur->off_ = 0;
}
++cit;
}
}
/**
* Trim invalid cursors.
*/
void trim_cursors() {
_assert_(true);
if (curs_.empty()) return;
int64_t end = lsiz_;
CursorList::const_iterator cit = curs_.begin();
CursorList::const_iterator citend = curs_.end();
while (cit != citend) {
Cursor* cur = *cit;
if (cur->off_ >= end) {
cur->off_ = 0;
} else if (cur->end_ > end) {
cur->end_ = end;
}
++cit;
}
}
/**
* Remove a record from a bucket chain.
* @param rec the record structure.
* @param rbuf the working buffer.
* @param bidx the bucket index.
* @param entoff the offset of the entry pointer.
* @return true on success, or false on failure.
*/
bool cut_chain(Record* rec, char* rbuf, int64_t bidx, int64_t entoff) {
_assert_(rec && rbuf && bidx >= 0 && entoff >= 0);
int64_t child;
if (rec->left > 0 && rec->right < 1) {
child = rec->left;
} else if (rec->left < 1 && rec->right > 0) {
child = rec->right;
} else if (rec->left < 1) {
child = 0;
} else {
Record prec;
prec.off = rec->left;
if (!read_record(&prec, rbuf)) return false;
if (prec.psiz == UINT16MAX) {
set_error(_KCCODELINE_, Error::BROKEN, "free block in the chain");
report(_KCCODELINE_, Logger::WARN, "psiz=%lld off=%lld fsiz=%lld",
(long long)psiz_, (long long)prec.off, (long long)file_.size());
report_binary(_KCCODELINE_, Logger::WARN, "rbuf", rbuf, rhsiz_);
return false;
}
delete[] prec.bbuf;
if (prec.right > 0) {
int64_t off = prec.right;
int64_t pentoff = prec.off + sizeof(uint16_t) + width_;
while (true) {
prec.off = off;
if (!read_record(&prec, rbuf)) return false;
if (prec.psiz == UINT16MAX) {
set_error(_KCCODELINE_, Error::BROKEN, "free block in the chain");
report(_KCCODELINE_, Logger::WARN, "psiz=%lld off=%lld fsiz=%lld",
(long long)psiz_, (long long)prec.off, (long long)file_.size());
report_binary(_KCCODELINE_, Logger::WARN, "rbuf", rbuf, rhsiz_);
return false;
}
delete[] prec.bbuf;
if (prec.right < 1) break;
off = prec.right;
pentoff = prec.off + sizeof(uint16_t) + width_;
}
child = off;
if (!set_chain(pentoff, prec.left)) return false;
if (!set_chain(off + sizeof(uint16_t), rec->left)) return false;
if (!set_chain(off + sizeof(uint16_t) + width_, rec->right)) return false;
} else {
child = prec.off;
if (!set_chain(prec.off + sizeof(uint16_t) + width_, rec->right)) return false;
}
}
if (entoff > 0) {
if (!set_chain(entoff, child)) return false;
} else {
if (!set_bucket(bidx, child)) return false;
}
return true;
}
/**
* Begin transaction.
* @return true on success, or false on failure.
*/
bool begin_transaction_impl() {
_assert_(true);
if ((count_ != trcount_ || lsiz_ != trsize_) && !dump_meta()) return false;
if (!file_.begin_transaction(trhard_, boff_)) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
return false;
}
if (!file_.write_transaction(MOFFBNUM, HEADSIZ - MOFFBNUM)) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
file_.end_transaction(false);
return false;
}
if (fbpnum_ > 0) {
FBP::const_iterator it = fbp_.end();
FBP::const_iterator itbeg = fbp_.begin();
for (int32_t cnt = fpow_ * 2 + 1; cnt > 0; cnt--) {
if (it == itbeg) break;
--it;
trfbp_.insert(*it);
}
}
return true;
}
/**
* Begin auto transaction.
* @return true on success, or false on failure.
*/
bool begin_auto_transaction() {
_assert_(true);
atlock_.lock();
if (!file_.begin_transaction(autosync_, boff_)) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
atlock_.unlock();
return false;
}
if (!file_.write_transaction(MOFFCOUNT, MOFFOPAQUE - MOFFCOUNT)) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
file_.end_transaction(false);
atlock_.unlock();
return false;
}
return true;
}
/**
* Commit transaction.
* @return true on success, or false on failure.
*/
bool commit_transaction() {
_assert_(true);
bool err = false;
if ((count_ != trcount_ || lsiz_ != trsize_) && !dump_auto_meta()) err = true;
if (!file_.end_transaction(true)) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
err = true;
}
trfbp_.clear();
return !err;
}
/**
* Commit auto transaction.
* @return true on success, or false on failure.
*/
bool commit_auto_transaction() {
_assert_(true);
bool err = false;
if ((count_ != trcount_ || lsiz_ != trsize_) && !dump_auto_meta()) err = true;
if (!file_.end_transaction(true)) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
err = true;
}
atlock_.unlock();
return !err;
}
/**
* Abort transaction.
* @return true on success, or false on failure.
*/
bool abort_transaction() {
_assert_(true);
bool err = false;
if (!file_.end_transaction(false)) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
err = true;
}
bool flagopen = flagopen_;
if (!load_meta()) err = true;
flagopen_ = flagopen;
calc_meta();
disable_cursors();
fbp_.swap(trfbp_);
trfbp_.clear();
return !err;
}
/**
* Abort auto transaction.
* @return true on success, or false on failure.
*/
bool abort_auto_transaction() {
_assert_(true);
bool err = false;
if (!file_.end_transaction(false)) {
set_error(_KCCODELINE_, Error::SYSTEM, file_.error());
err = true;
}
if (!load_meta()) err = true;
calc_meta();
disable_cursors();
fbp_.clear();
atlock_.unlock();
return !err;
}
/** Dummy constructor to forbid the use. */
HashDB(const HashDB&);
/** Dummy Operator to forbid the use. */
HashDB& operator =(const HashDB&);
/** The method lock. */
RWLock mlock_;
/** The record locks. */
SlottedRWLock rlock_;
/** The file lock. */
Mutex flock_;
/** The auto transaction lock. */
Mutex atlock_;
/** The last happened error. */
TSD<Error> error_;
/** The internal logger. */
Logger* logger_;
/** The kinds of logged messages. */
uint32_t logkinds_;
/** The internal meta operation trigger. */
MetaTrigger* mtrigger_;
/** The open mode. */
uint32_t omode_;
/** The flag for writer. */
bool writer_;
/** The flag for auto transaction. */
bool autotran_;
/** The flag for auto synchronization. */
bool autosync_;
/** The flag for reorganized. */
bool reorg_;
/** The flag for trimmed. */
bool trim_;
/** The file for data. */
File file_;
/** The free block pool. */
FBP fbp_;
/** The cursor objects. */
CursorList curs_;
/** The path of the database file. */
std::string path_;
/** The library version. */
uint8_t libver_;
/** The library revision. */
uint8_t librev_;
/** The format revision. */
uint8_t fmtver_;
/** The module checksum. */
uint8_t chksum_;
/** The database type. */
uint8_t type_;
/** The alignment power. */
uint8_t apow_;
/** The free block pool power. */
uint8_t fpow_;
/** The options. */
uint8_t opts_;
/** The bucket number. */
int64_t bnum_;
/** The status flags. */
uint8_t flags_;
/** The flag for open. */
bool flagopen_;
/** The record number. */
AtomicInt64 count_;
/** The logical size of the file. */
AtomicInt64 lsiz_;
/** The physical size of the file. */
AtomicInt64 psiz_;
/** The opaque data. */
char opaque_[HEADSIZ-MOFFOPAQUE];
/** The size of the internal memory-mapped region. */
int64_t msiz_;
/** The unit step number of auto defragmentation. */
int64_t dfunit_;
/** The embedded data compressor. */
Compressor* embcomp_;
/** The alignment of records. */
size_t align_;
/** The number of elements of the free block pool. */
int32_t fbpnum_;
/** The width of record addressing. */
int32_t width_;
/** The flag for linear collision chaining. */
bool linear_;
/** The data compressor. */
Compressor* comp_;
/** The header size of a record. */
size_t rhsiz_;
/** The offset of the buckets section. */
int64_t boff_;
/** The offset of the record section. */
int64_t roff_;
/** The defrag cursor. */
int64_t dfcur_;
/** The count of fragmentation. */
AtomicInt64 frgcnt_;
/** The flag whether in transaction. */
bool tran_;
/** The flag whether hard transaction. */
bool trhard_;
/** The escaped free block pool for transaction. */
FBP trfbp_;
/** The count history for transaction. */
int64_t trcount_;
/** The size history for transaction. */
int64_t trsize_;
};
/** An alias of the file tree database. */
typedef PlantDB<HashDB, BasicDB::TYPETREE> TreeDB;
} // common namespace
#endif // duplication check
// END OF FILE
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