Read-only mirror of official repo on openldap.org. Issues and pull requests here are ignored. Use OpenLDAP ITS for issues.
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
lmdb/libraries/liblmdb/mdb.c

8687 lines
236 KiB

/** @file mdb.c
* @brief memory-mapped database library
*
* A Btree-based database management library modeled loosely on the
* BerkeleyDB API, but much simplified.
*/
/*
* Copyright 2011-2014 Howard Chu, Symas Corp.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted only as authorized by the OpenLDAP
* Public License.
*
* A copy of this license is available in the file LICENSE in the
* top-level directory of the distribution or, alternatively, at
* <http://www.OpenLDAP.org/license.html>.
*
* This code is derived from btree.c written by Martin Hedenfalk.
*
* Copyright (c) 2009, 2010 Martin Hedenfalk <martin@bzero.se>
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#ifndef _GNU_SOURCE
#define _GNU_SOURCE 1
#endif
14 years ago
#include <sys/types.h>
#include <sys/stat.h>
#ifdef _WIN32
#include <windows.h>
/** getpid() returns int; MinGW defines pid_t but MinGW64 typedefs it
* as int64 which is wrong. MSVC doesn't define it at all, so just
* don't use it.
*/
#define MDB_PID_T int
#ifdef __GNUC__
# include <sys/param.h>
#else
# define LITTLE_ENDIAN 1234
# define BIG_ENDIAN 4321
# define BYTE_ORDER LITTLE_ENDIAN
# ifndef SSIZE_MAX
# define SSIZE_MAX INT_MAX
# endif
#endif
#else
#define MDB_PID_T pid_t
#include <sys/param.h>
14 years ago
#include <sys/uio.h>
#include <sys/mman.h>
#ifdef HAVE_SYS_FILE_H
#include <sys/file.h>
#endif
#include <fcntl.h>
#endif
14 years ago
#include <errno.h>
#include <limits.h>
14 years ago
#include <stddef.h>
#include <inttypes.h>
14 years ago
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <unistd.h>
#if !(defined(BYTE_ORDER) || defined(__BYTE_ORDER))
#include <netinet/in.h>
#include <resolv.h> /* defines BYTE_ORDER on HPUX and Solaris */
#endif
#if defined(__APPLE__) || defined (BSD)
# define MDB_USE_POSIX_SEM 1
# define MDB_FDATASYNC fsync
#elif defined(ANDROID)
# define MDB_FDATASYNC fsync
#endif
#ifndef _WIN32
#include <pthread.h>
#ifdef MDB_USE_POSIX_SEM
# define MDB_USE_HASH 1
#include <semaphore.h>
#endif
#endif
#ifdef USE_VALGRIND
#include <valgrind/memcheck.h>
#define VGMEMP_CREATE(h,r,z) VALGRIND_CREATE_MEMPOOL(h,r,z)
#define VGMEMP_ALLOC(h,a,s) VALGRIND_MEMPOOL_ALLOC(h,a,s)
#define VGMEMP_FREE(h,a) VALGRIND_MEMPOOL_FREE(h,a)
#define VGMEMP_DESTROY(h) VALGRIND_DESTROY_MEMPOOL(h)
#define VGMEMP_DEFINED(a,s) VALGRIND_MAKE_MEM_DEFINED(a,s)
#else
#define VGMEMP_CREATE(h,r,z)
#define VGMEMP_ALLOC(h,a,s)
#define VGMEMP_FREE(h,a)
#define VGMEMP_DESTROY(h)
#define VGMEMP_DEFINED(a,s)
#endif
#ifndef BYTE_ORDER
# if (defined(_LITTLE_ENDIAN) || defined(_BIG_ENDIAN)) && !(defined(_LITTLE_ENDIAN) && defined(_BIG_ENDIAN))
/* Solaris just defines one or the other */
# define LITTLE_ENDIAN 1234
# define BIG_ENDIAN 4321
# ifdef _LITTLE_ENDIAN
# define BYTE_ORDER LITTLE_ENDIAN
# else
# define BYTE_ORDER BIG_ENDIAN
# endif
# else
# define BYTE_ORDER __BYTE_ORDER
# endif
#endif
#ifndef LITTLE_ENDIAN
#define LITTLE_ENDIAN __LITTLE_ENDIAN
#endif
#ifndef BIG_ENDIAN
#define BIG_ENDIAN __BIG_ENDIAN
#endif
#if defined(__i386) || defined(__x86_64) || defined(_M_IX86)
#define MISALIGNED_OK 1
#endif
#include "lmdb.h"
#include "midl.h"
#if (BYTE_ORDER == LITTLE_ENDIAN) == (BYTE_ORDER == BIG_ENDIAN)
# error "Unknown or unsupported endianness (BYTE_ORDER)"
#elif (-6 & 5) || CHAR_BIT != 8 || UINT_MAX < 0xffffffff || ULONG_MAX % 0xFFFF
# error "Two's complement, reasonably sized integer types, please"
#endif
/** @defgroup internal MDB Internals
* @{
*/
/** @defgroup compat Compatibility Macros
13 years ago
* A bunch of macros to minimize the amount of platform-specific ifdefs
* needed throughout the rest of the code. When the features this library
* needs are similar enough to POSIX to be hidden in a one-or-two line
* replacement, this macro approach is used.
* @{
*/
/** Wrapper around __func__, which is a C99 feature */
#if __STDC_VERSION__ >= 199901L
# define mdb_func_ __func__
#elif __GNUC__ >= 2 || _MSC_VER >= 1300
# define mdb_func_ __FUNCTION__
#else
/* If a debug message says <mdb_unknown>(), update the #if statements above */
# define mdb_func_ "<mdb_unknown>"
#endif
#ifdef _WIN32
#define MDB_USE_HASH 1
#define MDB_PIDLOCK 0
#define pthread_t DWORD
#define pthread_mutex_t HANDLE
#define pthread_key_t DWORD
#define pthread_self() GetCurrentThreadId()
#define pthread_key_create(x,y) \
((*(x) = TlsAlloc()) == TLS_OUT_OF_INDEXES ? ErrCode() : 0)
#define pthread_key_delete(x) TlsFree(x)
#define pthread_getspecific(x) TlsGetValue(x)
#define pthread_setspecific(x,y) (TlsSetValue(x,y) ? 0 : ErrCode())
#define pthread_mutex_unlock(x) ReleaseMutex(x)
#define pthread_mutex_lock(x) WaitForSingleObject(x, INFINITE)
#define LOCK_MUTEX_R(env) pthread_mutex_lock((env)->me_rmutex)
#define UNLOCK_MUTEX_R(env) pthread_mutex_unlock((env)->me_rmutex)
#define LOCK_MUTEX_W(env) pthread_mutex_lock((env)->me_wmutex)
#define UNLOCK_MUTEX_W(env) pthread_mutex_unlock((env)->me_wmutex)
#define getpid() GetCurrentProcessId()
#define MDB_FDATASYNC(fd) (!FlushFileBuffers(fd))
#define MDB_MSYNC(addr,len,flags) (!FlushViewOfFile(addr,len))
#define ErrCode() GetLastError()
#define GET_PAGESIZE(x) {SYSTEM_INFO si; GetSystemInfo(&si); (x) = si.dwPageSize;}
#define close(fd) (CloseHandle(fd) ? 0 : -1)
#define munmap(ptr,len) UnmapViewOfFile(ptr)
#ifdef PROCESS_QUERY_LIMITED_INFORMATION
#define MDB_PROCESS_QUERY_LIMITED_INFORMATION PROCESS_QUERY_LIMITED_INFORMATION
#else
#define MDB_PROCESS_QUERY_LIMITED_INFORMATION 0x1000
#endif
#define Z "I"
#else
#define Z "z" /**< printf format modifier for size_t */
/** For MDB_LOCK_FORMAT: True if readers take a pid lock in the lockfile */
#define MDB_PIDLOCK 1
#ifdef MDB_USE_POSIX_SEM
#define LOCK_MUTEX_R(env) mdb_sem_wait((env)->me_rmutex)
#define UNLOCK_MUTEX_R(env) sem_post((env)->me_rmutex)
#define LOCK_MUTEX_W(env) mdb_sem_wait((env)->me_wmutex)
#define UNLOCK_MUTEX_W(env) sem_post((env)->me_wmutex)
static int
mdb_sem_wait(sem_t *sem)
{
int rc;
while ((rc = sem_wait(sem)) && (rc = errno) == EINTR) ;
return rc;
}
#else
13 years ago
/** Lock the reader mutex.
*/
#define LOCK_MUTEX_R(env) pthread_mutex_lock(&(env)->me_txns->mti_mutex)
13 years ago
/** Unlock the reader mutex.
*/
#define UNLOCK_MUTEX_R(env) pthread_mutex_unlock(&(env)->me_txns->mti_mutex)
13 years ago
/** Lock the writer mutex.
* Only a single write transaction is allowed at a time. Other writers
* will block waiting for this mutex.
*/
#define LOCK_MUTEX_W(env) pthread_mutex_lock(&(env)->me_txns->mti_wmutex)
13 years ago
/** Unlock the writer mutex.
*/
#define UNLOCK_MUTEX_W(env) pthread_mutex_unlock(&(env)->me_txns->mti_wmutex)
#endif /* MDB_USE_POSIX_SEM */
13 years ago
/** Get the error code for the last failed system function.
*/
#define ErrCode() errno
13 years ago
/** An abstraction for a file handle.
* On POSIX systems file handles are small integers. On Windows
* they're opaque pointers.
*/
#define HANDLE int
13 years ago
/** A value for an invalid file handle.
* Mainly used to initialize file variables and signify that they are
* unused.
*/
#define INVALID_HANDLE_VALUE (-1)
13 years ago
/** Get the size of a memory page for the system.
* This is the basic size that the platform's memory manager uses, and is
* fundamental to the use of memory-mapped files.
*/
#define GET_PAGESIZE(x) ((x) = sysconf(_SC_PAGE_SIZE))
#endif
#if defined(_WIN32) || defined(MDB_USE_POSIX_SEM)
#define MNAME_LEN 32
#else
#define MNAME_LEN (sizeof(pthread_mutex_t))
#endif
/** @} */
14 years ago
#ifndef _WIN32
13 years ago
/** A flag for opening a file and requesting synchronous data writes.
* This is only used when writing a meta page. It's not strictly needed;
* we could just do a normal write and then immediately perform a flush.
* But if this flag is available it saves us an extra system call.
*
* @note If O_DSYNC is undefined but exists in /usr/include,
* preferably set some compiler flag to get the definition.
* Otherwise compile with the less efficient -DMDB_DSYNC=O_SYNC.
*/
#ifndef MDB_DSYNC
# define MDB_DSYNC O_DSYNC
#endif
#endif
/** Function for flushing the data of a file. Define this to fsync
* if fdatasync() is not supported.
*/
#ifndef MDB_FDATASYNC
# define MDB_FDATASYNC fdatasync
#endif
#ifndef MDB_MSYNC
# define MDB_MSYNC(addr,len,flags) msync(addr,len,flags)
#endif
#ifndef MS_SYNC
#define MS_SYNC 1
#endif
#ifndef MS_ASYNC
#define MS_ASYNC 0
#endif
13 years ago
/** A page number in the database.
* Note that 64 bit page numbers are overkill, since pages themselves
* already represent 12-13 bits of addressable memory, and the OS will
* always limit applications to a maximum of 63 bits of address space.
*
* @note In the #MDB_node structure, we only store 48 bits of this value,
* which thus limits us to only 60 bits of addressable data.
*/
typedef MDB_ID pgno_t;
/** A transaction ID.
* See struct MDB_txn.mt_txnid for details.
*/
typedef MDB_ID txnid_t;
13 years ago
/** @defgroup debug Debug Macros
* @{
*/
#ifndef MDB_DEBUG
/** Enable debug output. Needs variable argument macros (a C99 feature).
13 years ago
* Set this to 1 for copious tracing. Set to 2 to add dumps of all IDLs
* read from and written to the database (used for free space management).
*/
#define MDB_DEBUG 0
#endif
14 years ago
#if MDB_DEBUG
static int mdb_debug;
static txnid_t mdb_debug_start;
/** Print a debug message with printf formatting.
* Requires double parenthesis around 2 or more args.
*/
# define DPRINTF(args) ((void) ((mdb_debug) && DPRINTF0 args))
# define DPRINTF0(fmt, ...) \
fprintf(stderr, "%s:%d " fmt "\n", mdb_func_, __LINE__, __VA_ARGS__)
14 years ago
#else
# define DPRINTF(args) ((void) 0)
14 years ago
#endif
13 years ago
/** Print a debug string.
* The string is printed literally, with no format processing.
*/
#define DPUTS(arg) DPRINTF(("%s", arg))
/** Debuging output value of a cursor DBI: Negative in a sub-cursor. */
#define DDBI(mc) \
(((mc)->mc_flags & C_SUB) ? -(int)(mc)->mc_dbi : (int)(mc)->mc_dbi)
13 years ago
/** @} */
14 years ago
/** @brief The maximum size of a database page.
*
11 years ago
* This is 32k, since it must fit in #MDB_page.%mp_upper.
*
* LMDB will use database pages < OS pages if needed.
* That causes more I/O in write transactions: The OS must
* know (read) the whole page before writing a partial page.
13 years ago
*
* Note that we don't currently support Huge pages. On Linux,
* regular data files cannot use Huge pages, and in general
* Huge pages aren't actually pageable. We rely on the OS
* demand-pager to read our data and page it out when memory
* pressure from other processes is high. So until OSs have
* actual paging support for Huge pages, they're not viable.
*/
#define MAX_PAGESIZE 0x8000
13 years ago
/** The minimum number of keys required in a database page.
* Setting this to a larger value will place a smaller bound on the
* maximum size of a data item. Data items larger than this size will
* be pushed into overflow pages instead of being stored directly in
* the B-tree node. This value used to default to 4. With a page size
* of 4096 bytes that meant that any item larger than 1024 bytes would
* go into an overflow page. That also meant that on average 2-3KB of
* each overflow page was wasted space. The value cannot be lower than
* 2 because then there would no longer be a tree structure. With this
* value, items larger than 2KB will go into overflow pages, and on
* average only 1KB will be wasted.
*/
#define MDB_MINKEYS 2
13 years ago
/** A stamp that identifies a file as an MDB file.
* There's nothing special about this value other than that it is easily
* recognizable, and it will reflect any byte order mismatches.
*/
14 years ago
#define MDB_MAGIC 0xBEEFC0DE
13 years ago
/** The version number for a database's datafile format. */
#define MDB_DATA_VERSION 1
/** The version number for a database's lockfile format. */
#define MDB_LOCK_VERSION 1
13 years ago
/** @brief The max size of a key we can write, or 0 for dynamic max.
*
* Define this as 0 to compute the max from the page size. 511
* is default for backwards compat: liblmdb <= 0.9.10 can break
* when modifying a DB with keys/dupsort data bigger than its max.
*
* Data items in an #MDB_DUPSORT database are also limited to
* this size, since they're actually keys of a sub-DB. Keys and
* #MDB_DUPSORT data items must fit on a node in a regular page.
13 years ago
*/
#ifndef MDB_MAXKEYSIZE
#define MDB_MAXKEYSIZE 511
#endif
/** The maximum size of a key we can write to the environment. */
#if MDB_MAXKEYSIZE
#define ENV_MAXKEY(env) (MDB_MAXKEYSIZE)
#else
#define ENV_MAXKEY(env) ((env)->me_maxkey)
#endif
13 years ago
/** @brief The maximum size of a data item.
*
* We only store a 32 bit value for node sizes.
*/
#define MAXDATASIZE 0xffffffffUL
#if MDB_DEBUG
/** Key size which fits in a #DKBUF.
* @ingroup debug
*/
#define DKBUF_MAXKEYSIZE ((MDB_MAXKEYSIZE) > 0 ? (MDB_MAXKEYSIZE) : 511)
13 years ago
/** A key buffer.
* @ingroup debug
* This is used for printing a hex dump of a key's contents.
*/
#define DKBUF char kbuf[DKBUF_MAXKEYSIZE*2+1]
13 years ago
/** Display a key in hex.
* @ingroup debug
* Invoke a function to display a key in hex.
*/
#define DKEY(x) mdb_dkey(x, kbuf)
#else
11 years ago
#define DKBUF
#define DKEY(x) 0
#endif
14 years ago
13 years ago
/** An invalid page number.
* Mainly used to denote an empty tree.
*/
#define P_INVALID (~(pgno_t)0)
14 years ago
/** Test if the flags \b f are set in a flag word \b w. */
14 years ago
#define F_ISSET(w, f) (((w) & (f)) == (f))
/** Round \b n up to an even number. */
#define EVEN(n) (((n) + 1U) & -2) /* sign-extending -2 to match n+1U */
13 years ago
/** Used for offsets within a single page.
* Since memory pages are typically 4 or 8KB in size, 12-13 bits,
* this is plenty.
*/
14 years ago
typedef uint16_t indx_t;
13 years ago
/** Default size of memory map.
* This is certainly too small for any actual applications. Apps should always set
* the size explicitly using #mdb_env_set_mapsize().
*/
#define DEFAULT_MAPSIZE 1048576
13 years ago
/** @defgroup readers Reader Lock Table
* Readers don't acquire any locks for their data access. Instead, they
* simply record their transaction ID in the reader table. The reader
* mutex is needed just to find an empty slot in the reader table. The
* slot's address is saved in thread-specific data so that subsequent read
* transactions started by the same thread need no further locking to proceed.
*
* If #MDB_NOTLS is set, the slot address is not saved in thread-specific data.
*
* No reader table is used if the database is on a read-only filesystem, or
* if #MDB_NOLOCK is set.
*
13 years ago
* Since the database uses multi-version concurrency control, readers don't
* actually need any locking. This table is used to keep track of which
* readers are using data from which old transactions, so that we'll know
* when a particular old transaction is no longer in use. Old transactions
* that have discarded any data pages can then have those pages reclaimed
13 years ago
* for use by a later write transaction.
*
* The lock table is constructed such that reader slots are aligned with the
* processor's cache line size. Any slot is only ever used by one thread.
* This alignment guarantees that there will be no contention or cache
* thrashing as threads update their own slot info, and also eliminates
* any need for locking when accessing a slot.
*
* A writer thread will scan every slot in the table to determine the oldest
* outstanding reader transaction. Any freed pages older than this will be
* reclaimed by the writer. The writer doesn't use any locks when scanning
* this table. This means that there's no guarantee that the writer will
* see the most up-to-date reader info, but that's not required for correct
* operation - all we need is to know the upper bound on the oldest reader,
* we don't care at all about the newest reader. So the only consequence of
* reading stale information here is that old pages might hang around a
* while longer before being reclaimed. That's actually good anyway, because
* the longer we delay reclaiming old pages, the more likely it is that a
* string of contiguous pages can be found after coalescing old pages from
* many old transactions together.
* @{
*/
/** Number of slots in the reader table.
* This value was chosen somewhat arbitrarily. 126 readers plus a
* couple mutexes fit exactly into 8KB on my development machine.
* Applications should set the table size using #mdb_env_set_maxreaders().
*/
#define DEFAULT_READERS 126
/** The size of a CPU cache line in bytes. We want our lock structures
* aligned to this size to avoid false cache line sharing in the
* lock table.
* This value works for most CPUs. For Itanium this should be 128.
*/
#ifndef CACHELINE
13 years ago
#define CACHELINE 64
#endif
13 years ago
/** The information we store in a single slot of the reader table.
* In addition to a transaction ID, we also record the process and
* thread ID that owns a slot, so that we can detect stale information,
* e.g. threads or processes that went away without cleaning up.
* @note We currently don't check for stale records. We simply re-init
* the table when we know that we're the only process opening the
* lock file.
*/
typedef struct MDB_rxbody {
/** Current Transaction ID when this transaction began, or (txnid_t)-1.
13 years ago
* Multiple readers that start at the same time will probably have the
* same ID here. Again, it's not important to exclude them from
* anything; all we need to know is which version of the DB they
* started from so we can avoid overwriting any data used in that
* particular version.
*/
txnid_t mrb_txnid;
13 years ago
/** The process ID of the process owning this reader txn. */
MDB_PID_T mrb_pid;
13 years ago
/** The thread ID of the thread owning this txn. */
pthread_t mrb_tid;
} MDB_rxbody;
13 years ago
/** The actual reader record, with cacheline padding. */
typedef struct MDB_reader {
union {
MDB_rxbody mrx;
13 years ago
/** shorthand for mrb_txnid */
#define mr_txnid mru.mrx.mrb_txnid
#define mr_pid mru.mrx.mrb_pid
#define mr_tid mru.mrx.mrb_tid
13 years ago
/** cache line alignment */
char pad[(sizeof(MDB_rxbody)+CACHELINE-1) & ~(CACHELINE-1)];
} mru;
} MDB_reader;
13 years ago
/** The header for the reader table.
* The table resides in a memory-mapped file. (This is a different file
* than is used for the main database.)
*
* For POSIX the actual mutexes reside in the shared memory of this
* mapped file. On Windows, mutexes are named objects allocated by the
* kernel; we store the mutex names in this mapped file so that other
* processes can grab them. This same approach is also used on
13 years ago
* MacOSX/Darwin (using named semaphores) since MacOSX doesn't support
* process-shared POSIX mutexes. For these cases where a named object
* is used, the object name is derived from a 64 bit FNV hash of the
* environment pathname. As such, naming collisions are extremely
* unlikely. If a collision occurs, the results are unpredictable.
13 years ago
*/
typedef struct MDB_txbody {
/** Stamp identifying this as an MDB file. It must be set
13 years ago
* to #MDB_MAGIC. */
uint32_t mtb_magic;
/** Format of this lock file. Must be set to #MDB_LOCK_FORMAT. */
uint32_t mtb_format;
#if defined(_WIN32) || defined(MDB_USE_POSIX_SEM)
char mtb_rmname[MNAME_LEN];
#else
13 years ago
/** Mutex protecting access to this table.
* This is the reader lock that #LOCK_MUTEX_R acquires.
*/
pthread_mutex_t mtb_mutex;
#endif
13 years ago
/** The ID of the last transaction committed to the database.
* This is recorded here only for convenience; the value can always
* be determined by reading the main database meta pages.
*/
txnid_t mtb_txnid;
13 years ago
/** The number of slots that have been used in the reader table.
* This always records the maximum count, it is not decremented
* when readers release their slots.
*/
unsigned mtb_numreaders;
} MDB_txbody;
13 years ago
/** The actual reader table definition. */
typedef struct MDB_txninfo {
union {
MDB_txbody mtb;
#define mti_magic mt1.mtb.mtb_magic
#define mti_format mt1.mtb.mtb_format
#define mti_mutex mt1.mtb.mtb_mutex
#define mti_rmname mt1.mtb.mtb_rmname
#define mti_txnid mt1.mtb.mtb_txnid
#define mti_numreaders mt1.mtb.mtb_numreaders
char pad[(sizeof(MDB_txbody)+CACHELINE-1) & ~(CACHELINE-1)];
} mt1;
union {
#if defined(_WIN32) || defined(MDB_USE_POSIX_SEM)
char mt2_wmname[MNAME_LEN];
#define mti_wmname mt2.mt2_wmname
#else
pthread_mutex_t mt2_wmutex;
#define mti_wmutex mt2.mt2_wmutex
#endif
char pad[(MNAME_LEN+CACHELINE-1) & ~(CACHELINE-1)];
} mt2;
MDB_reader mti_readers[1];
} MDB_txninfo;
/** Lockfile format signature: version, features and field layout */
#define MDB_LOCK_FORMAT \
((uint32_t) \
((MDB_LOCK_VERSION) \
/* Flags which describe functionality */ \
+ (((MDB_PIDLOCK) != 0) << 16)))
13 years ago
/** @} */
13 years ago
/** Common header for all page types.
13 years ago
* Overflow records occupy a number of contiguous pages with no
14 years ago
* headers on any page after the first.
*/
13 years ago
typedef struct MDB_page {
#define mp_pgno mp_p.p_pgno
#define mp_next mp_p.p_next
13 years ago
union {
pgno_t p_pgno; /**< page number */
void * p_next; /**< for in-memory list of freed structs */
} mp_p;
uint16_t mp_pad;
13 years ago
/** @defgroup mdb_page Page Flags
* @ingroup internal
* Flags for the page headers.
* @{
*/
13 years ago
#define P_BRANCH 0x01 /**< branch page */
#define P_LEAF 0x02 /**< leaf page */
#define P_OVERFLOW 0x04 /**< overflow page */
#define P_META 0x08 /**< meta page */
#define P_DIRTY 0x10 /**< dirty page, also set for #P_SUBP pages */
13 years ago
#define P_LEAF2 0x20 /**< for #MDB_DUPFIXED records */
#define P_SUBP 0x40 /**< for #MDB_DUPSORT sub-pages */
#define P_LOOSE 0x4000 /**< page was dirtied then freed, can be reused */
#define P_KEEP 0x8000 /**< leave this page alone during spill */
13 years ago
/** @} */
uint16_t mp_flags; /**< @ref mdb_page */
#define mp_lower mp_pb.pb.pb_lower
#define mp_upper mp_pb.pb.pb_upper
#define mp_pages mp_pb.pb_pages
13 years ago
union {
14 years ago
struct {
indx_t pb_lower; /**< lower bound of free space */
indx_t pb_upper; /**< upper bound of free space */
} pb;
uint32_t pb_pages; /**< number of overflow pages */
} mp_pb;
13 years ago
indx_t mp_ptrs[1]; /**< dynamic size */
14 years ago
} MDB_page;
13 years ago
/** Size of the page header, excluding dynamic data at the end */
#define PAGEHDRSZ ((unsigned) offsetof(MDB_page, mp_ptrs))
14 years ago
13 years ago
/** Address of first usable data byte in a page, after the header */
#define METADATA(p) ((void *)((char *)(p) + PAGEHDRSZ))
/** Number of nodes on a page */
14 years ago
#define NUMKEYS(p) (((p)->mp_lower - PAGEHDRSZ) >> 1)
13 years ago
/** The amount of space remaining in the page */
14 years ago
#define SIZELEFT(p) (indx_t)((p)->mp_upper - (p)->mp_lower)
13 years ago
/** The percentage of space used in the page, in tenths of a percent. */
13 years ago
#define PAGEFILL(env, p) (1000L * ((env)->me_psize - PAGEHDRSZ - SIZELEFT(p)) / \
((env)->me_psize - PAGEHDRSZ))
13 years ago
/** The minimum page fill factor, in tenths of a percent.
* Pages emptier than this are candidates for merging.
*/
#define FILL_THRESHOLD 250
/** Test if a page is a leaf page */
14 years ago
#define IS_LEAF(p) F_ISSET((p)->mp_flags, P_LEAF)
13 years ago
/** Test if a page is a LEAF2 page */
#define IS_LEAF2(p) F_ISSET((p)->mp_flags, P_LEAF2)
13 years ago
/** Test if a page is a branch page */
14 years ago
#define IS_BRANCH(p) F_ISSET((p)->mp_flags, P_BRANCH)
13 years ago
/** Test if a page is an overflow page */
14 years ago
#define IS_OVERFLOW(p) F_ISSET((p)->mp_flags, P_OVERFLOW)
/** Test if a page is a sub page */
#define IS_SUBP(p) F_ISSET((p)->mp_flags, P_SUBP)
14 years ago
13 years ago
/** The number of overflow pages needed to store the given size. */
#define OVPAGES(size, psize) ((PAGEHDRSZ-1 + (size)) / (psize) + 1)
14 years ago
13 years ago
/** Header for a single key/data pair within a page.
* Used in pages of type #P_BRANCH and #P_LEAF without #P_LEAF2.
* We guarantee 2-byte alignment for 'MDB_node's.
13 years ago
*/
typedef struct MDB_node {
/** lo and hi are used for data size on leaf nodes and for
* child pgno on branch nodes. On 64 bit platforms, flags
* is also used for pgno. (Branch nodes have no flags).
13 years ago
* They are in host byte order in case that lets some
* accesses be optimized into a 32-bit word access.
13 years ago
*/
#if BYTE_ORDER == LITTLE_ENDIAN
unsigned short mn_lo, mn_hi; /**< part of data size or pgno */
#else
unsigned short mn_hi, mn_lo;
#endif
13 years ago
/** @defgroup mdb_node Node Flags
* @ingroup internal
* Flags for node headers.
* @{
*/
13 years ago
#define F_BIGDATA 0x01 /**< data put on overflow page */
#define F_SUBDATA 0x02 /**< data is a sub-database */
#define F_DUPDATA 0x04 /**< data has duplicates */
/** valid flags for #mdb_node_add() */
#define NODE_ADD_FLAGS (F_DUPDATA|F_SUBDATA|MDB_RESERVE|MDB_APPEND)
13 years ago
/** @} */
unsigned short mn_flags; /**< @ref mdb_node */
13 years ago
unsigned short mn_ksize; /**< key size */
char mn_data[1]; /**< key and data are appended here */
} MDB_node;
/** Size of the node header, excluding dynamic data at the end */
#define NODESIZE offsetof(MDB_node, mn_data)
/** Bit position of top word in page number, for shifting mn_flags */
#define PGNO_TOPWORD ((pgno_t)-1 > 0xffffffffu ? 32 : 0)
13 years ago
/** Size of a node in a branch page with a given key.
13 years ago
* This is just the node header plus the key, there is no data.
*/
#define INDXSIZE(k) (NODESIZE + ((k) == NULL ? 0 : (k)->mv_size))
13 years ago
/** Size of a node in a leaf page with a given key and data.
13 years ago
* This is node header plus key plus data size.
*/
#define LEAFSIZE(k, d) (NODESIZE + (k)->mv_size + (d)->mv_size)
13 years ago
/** Address of node \b i in page \b p */
13 years ago
#define NODEPTR(p, i) ((MDB_node *)((char *)(p) + (p)->mp_ptrs[i]))
/** Address of the key for the node */
#define NODEKEY(node) (void *)((node)->mn_data)
/** Address of the data for a node */
#define NODEDATA(node) (void *)((char *)(node)->mn_data + (node)->mn_ksize)
/** Get the page number pointed to by a branch node */
#define NODEPGNO(node) \
((node)->mn_lo | ((pgno_t) (node)->mn_hi << 16) | \
(PGNO_TOPWORD ? ((pgno_t) (node)->mn_flags << PGNO_TOPWORD) : 0))
13 years ago
/** Set the page number in a branch node */
#define SETPGNO(node,pgno) do { \
(node)->mn_lo = (pgno) & 0xffff; (node)->mn_hi = (pgno) >> 16; \
if (PGNO_TOPWORD) (node)->mn_flags = (pgno) >> PGNO_TOPWORD; } while(0)
13 years ago
/** Get the size of the data in a leaf node */
#define NODEDSZ(node) ((node)->mn_lo | ((unsigned)(node)->mn_hi << 16))
/** Set the size of the data for a leaf node */
#define SETDSZ(node,size) do { \
(node)->mn_lo = (size) & 0xffff; (node)->mn_hi = (size) >> 16;} while(0)
/** The size of a key in a node */
#define NODEKSZ(node) ((node)->mn_ksize)
/** Copy a page number from src to dst */
#ifdef MISALIGNED_OK
#define COPY_PGNO(dst,src) dst = src
#else
#if SIZE_MAX > 4294967295UL
#define COPY_PGNO(dst,src) do { \
unsigned short *s, *d; \
s = (unsigned short *)&(src); \
d = (unsigned short *)&(dst); \
*d++ = *s++; \
*d++ = *s++; \
*d++ = *s++; \
*d = *s; \
} while (0)
#else
#define COPY_PGNO(dst,src) do { \
unsigned short *s, *d; \
s = (unsigned short *)&(src); \
d = (unsigned short *)&(dst); \
*d++ = *s++; \
*d = *s; \
} while (0)
#endif
#endif
13 years ago
/** The address of a key in a LEAF2 page.
* LEAF2 pages are used for #MDB_DUPFIXED sorted-duplicate sub-DBs.
* There are no node headers, keys are stored contiguously.
*/
#define LEAF2KEY(p, i, ks) ((char *)(p) + PAGEHDRSZ + ((i)*(ks)))
11 years ago
/** Set the \b node's key into \b keyptr, if requested. */
#define MDB_GET_KEY(node, keyptr) { if ((keyptr) != NULL) { \
(keyptr)->mv_size = NODEKSZ(node); (keyptr)->mv_data = NODEKEY(node); } }
/** Set the \b node's key into \b key. */
#define MDB_GET_KEY2(node, key) { key.mv_size = NODEKSZ(node); key.mv_data = NODEKEY(node); }
13 years ago
/** Information about a single database in the environment. */
13 years ago
typedef struct MDB_db {
13 years ago
uint32_t md_pad; /**< also ksize for LEAF2 pages */
uint16_t md_flags; /**< @ref mdb_dbi_open */
13 years ago
uint16_t md_depth; /**< depth of this tree */
pgno_t md_branch_pages; /**< number of internal pages */
pgno_t md_leaf_pages; /**< number of leaf pages */
pgno_t md_overflow_pages; /**< number of overflow pages */
size_t md_entries; /**< number of data items */
13 years ago
pgno_t md_root; /**< the root page of this tree */
13 years ago
} MDB_db;
/** mdb_dbi_open flags */
#define MDB_VALID 0x8000 /**< DB handle is valid, for me_dbflags */
#define PERSISTENT_FLAGS (0xffff & ~(MDB_VALID))
#define VALID_FLAGS (MDB_REVERSEKEY|MDB_DUPSORT|MDB_INTEGERKEY|MDB_DUPFIXED|\
MDB_INTEGERDUP|MDB_REVERSEDUP|MDB_CREATE)
13 years ago
/** Handle for the DB used to track free pages. */
13 years ago
#define FREE_DBI 0
13 years ago
/** Handle for the default DB. */
13 years ago
#define MAIN_DBI 1
/** Meta page content.
* A meta page is the start point for accessing a database snapshot.
* Pages 0-1 are meta pages. Transaction N writes meta page #(N % 2).
*/
13 years ago
typedef struct MDB_meta {
/** Stamp identifying this as an MDB file. It must be set
13 years ago
* to #MDB_MAGIC. */
uint32_t mm_magic;
/** Version number of this lock file. Must be set to #MDB_DATA_VERSION. */
uint32_t mm_version;
13 years ago
void *mm_address; /**< address for fixed mapping */
size_t mm_mapsize; /**< size of mmap region */
MDB_db mm_dbs[2]; /**< first is free space, 2nd is main db */
/** The size of pages used in this DB */
13 years ago
#define mm_psize mm_dbs[0].md_pad
13 years ago
/** Any persistent environment flags. @ref mdb_env */
13 years ago
#define mm_flags mm_dbs[0].md_flags
13 years ago
pgno_t mm_last_pg; /**< last used page in file */
txnid_t mm_txnid; /**< txnid that committed this page */
14 years ago
} MDB_meta;
/** Buffer for a stack-allocated meta page.
* The members define size and alignment, and silence type
* aliasing warnings. They are not used directly; that could
* mean incorrectly using several union members in parallel.
*/
typedef union MDB_metabuf {
MDB_page mb_page;
struct {
char mm_pad[PAGEHDRSZ];
MDB_meta mm_meta;
} mb_metabuf;
} MDB_metabuf;
13 years ago
/** Auxiliary DB info.
* The information here is mostly static/read-only. There is
* only a single copy of this record in the environment.
*/
typedef struct MDB_dbx {
MDB_val md_name; /**< name of the database */
MDB_cmp_func *md_cmp; /**< function for comparing keys */
MDB_cmp_func *md_dcmp; /**< function for comparing data items */
MDB_rel_func *md_rel; /**< user relocate function */
void *md_relctx; /**< user-provided context for md_rel */
13 years ago
} MDB_dbx;
14 years ago
13 years ago
/** A database transaction.
* Every operation requires a transaction handle.
*/
struct MDB_txn {
MDB_txn *mt_parent; /**< parent of a nested txn */
MDB_txn *mt_child; /**< nested txn under this txn */
13 years ago
pgno_t mt_next_pgno; /**< next unallocated page */
/** The ID of this transaction. IDs are integers incrementing from 1.
* Only committed write transactions increment the ID. If a transaction
* aborts, the ID may be re-used by the next writer.
*/
txnid_t mt_txnid;
13 years ago
MDB_env *mt_env; /**< the DB environment */
/** The list of pages that became unused during this transaction.
*/
MDB_IDL mt_free_pgs;
11 years ago
/** The sorted list of dirty pages we temporarily wrote to disk
* because the dirty list was full. page numbers in here are
* shifted left by 1, deleted slots have the LSB set.
*/
MDB_IDL mt_spill_pgs;
13 years ago
union {
11 years ago
/** For write txns: Modified pages. Sorted when not MDB_WRITEMAP. */
MDB_ID2L dirty_list;
/** For read txns: This thread/txn's reader table slot, or NULL. */
MDB_reader *reader;
13 years ago
} mt_u;
/** Array of records for each DB known in the environment. */
MDB_dbx *mt_dbxs;
/** Array of MDB_db records for each known DB */
MDB_db *mt_dbs;
/** @defgroup mt_dbflag Transaction DB Flags
* @ingroup internal
* @{
*/
#define DB_DIRTY 0x01 /**< DB was modified or is DUPSORT data */
#define DB_STALE 0x02 /**< Named-DB record is older than txnID */
#define DB_NEW 0x04 /**< Named-DB handle opened in this txn */
#define DB_VALID 0x08 /**< DB handle is valid, see also #MDB_VALID */
/** @} */
/** In write txns, array of cursors for each DB */
MDB_cursor **mt_cursors;
/** Array of flags for each DB */
unsigned char *mt_dbflags;
13 years ago
/** Number of DB records in use. This number only ever increments;
* we don't decrement it when individual DB handles are closed.
*/
MDB_dbi mt_numdbs;
13 years ago
/** @defgroup mdb_txn Transaction Flags
* @ingroup internal
* @{
*/
13 years ago
#define MDB_TXN_RDONLY 0x01 /**< read-only transaction */
#define MDB_TXN_ERROR 0x02 /**< txn is unusable after an error */
#define MDB_TXN_DIRTY 0x04 /**< must write, even if dirty list is empty */
#define MDB_TXN_SPILLS 0x08 /**< txn or a parent has spilled pages */
/** @} */
unsigned int mt_flags; /**< @ref mdb_txn */
11 years ago
/** #dirty_list room: Array size - \#dirty pages visible to this txn.
* Includes ancestor txns' dirty pages not hidden by other txns'
* dirty/spilled pages. Thus commit(nested txn) has room to merge
* dirty_list into mt_parent after freeing hidden mt_parent pages.
*/
unsigned int mt_dirty_room;
13 years ago
};
14 years ago
13 years ago
/** Enough space for 2^32 nodes with minimum of 2 keys per node. I.e., plenty.
* At 4 keys per node, enough for 2^64 nodes, so there's probably no need to
* raise this on a 64 bit machine.
*/
13 years ago
#define CURSOR_STACK 32
14 years ago
struct MDB_xcursor;
/** Cursors are used for all DB operations.
* A cursor holds a path of (page pointer, key index) from the DB
* root to a position in the DB, plus other state. #MDB_DUPSORT
* cursors include an xcursor to the current data item. Write txns
* track their cursors and keep them up to date when data moves.
* Exception: An xcursor's pointer to a #P_SUBP page can be stale.
* (A node with #F_DUPDATA but no #F_SUBDATA contains a subpage).
*/
14 years ago
struct MDB_cursor {
/** Next cursor on this DB in this txn */
MDB_cursor *mc_next;
/** Backup of the original cursor if this cursor is a shadow */
MDB_cursor *mc_backup;
13 years ago
/** Context used for databases with #MDB_DUPSORT, otherwise NULL */
struct MDB_xcursor *mc_xcursor;
13 years ago
/** The transaction that owns this cursor */
14 years ago
MDB_txn *mc_txn;
13 years ago
/** The database handle this cursor operates on */
MDB_dbi mc_dbi;
/** The database record for this cursor */
MDB_db *mc_db;
/** The database auxiliary record for this cursor */
MDB_dbx *mc_dbx;
/** The @ref mt_dbflag for this database */
unsigned char *mc_dbflag;
13 years ago
unsigned short mc_snum; /**< number of pushed pages */
unsigned short mc_top; /**< index of top page, normally mc_snum-1 */
13 years ago
/** @defgroup mdb_cursor Cursor Flags
* @ingroup internal
* Cursor state flags.
* @{
*/
13 years ago
#define C_INITIALIZED 0x01 /**< cursor has been initialized and is valid */
#define C_EOF 0x02 /**< No more data */
#define C_SUB 0x04 /**< Cursor is a sub-cursor */
#define C_DEL 0x08 /**< last op was a cursor_del */
#define C_SPLITTING 0x20 /**< Cursor is in page_split */
#define C_UNTRACK 0x40 /**< Un-track cursor when closing */
13 years ago
/** @} */
unsigned int mc_flags; /**< @ref mdb_cursor */
13 years ago
MDB_page *mc_pg[CURSOR_STACK]; /**< stack of pushed pages */
indx_t mc_ki[CURSOR_STACK]; /**< stack of page indices */
14 years ago
};
13 years ago
/** Context for sorted-dup records.
* We could have gone to a fully recursive design, with arbitrarily
* deep nesting of sub-databases. But for now we only handle these
* levels - main DB, optional sub-DB, sorted-duplicate DB.
*/
typedef struct MDB_xcursor {
13 years ago
/** A sub-cursor for traversing the Dup DB */
MDB_cursor mx_cursor;
/** The database record for this Dup DB */
MDB_db mx_db;
/** The auxiliary DB record for this Dup DB */
MDB_dbx mx_dbx;
/** The @ref mt_dbflag for this Dup DB */
unsigned char mx_dbflag;
} MDB_xcursor;
/** State of FreeDB old pages, stored in the MDB_env */
typedef struct MDB_pgstate {
pgno_t *mf_pghead; /**< Reclaimed freeDB pages, or NULL before use */
txnid_t mf_pglast; /**< ID of last used record, or 0 if !mf_pghead */
MDB_page *mf_pgloose; /**< Dirty pages that can be reused */
} MDB_pgstate;
13 years ago
/** The database environment. */
14 years ago
struct MDB_env {
13 years ago
HANDLE me_fd; /**< The main data file */
HANDLE me_lfd; /**< The lock file */
HANDLE me_mfd; /**< just for writing the meta pages */
13 years ago
/** Failed to update the meta page. Probably an I/O error. */
#define MDB_FATAL_ERROR 0x80000000U
/** Some fields are initialized. */
#define MDB_ENV_ACTIVE 0x20000000U
/** me_txkey is set */
#define MDB_ENV_TXKEY 0x10000000U
13 years ago
uint32_t me_flags; /**< @ref mdb_env */
unsigned int me_psize; /**< DB page size, inited from me_os_psize */
unsigned int me_os_psize; /**< OS page size, from #GET_PAGESIZE */
13 years ago
unsigned int me_maxreaders; /**< size of the reader table */
unsigned int me_numreaders; /**< max numreaders set by this env */
MDB_dbi me_numdbs; /**< number of DBs opened */
MDB_dbi me_maxdbs; /**< size of the DB table */
MDB_PID_T me_pid; /**< process ID of this env */
13 years ago
char *me_path; /**< path to the DB files */
char *me_map; /**< the memory map of the data file */
MDB_txninfo *me_txns; /**< the memory map of the lock file or NULL */
13 years ago
MDB_meta *me_metas[2]; /**< pointers to the two meta pages */
void *me_pbuf; /**< scratch area for DUPSORT put() */
13 years ago
MDB_txn *me_txn; /**< current write transaction */
size_t me_mapsize; /**< size of the data memory map */
off_t me_size; /**< current file size */
pgno_t me_maxpg; /**< me_mapsize / me_psize */
MDB_dbx *me_dbxs; /**< array of static DB info */
uint16_t *me_dbflags; /**< array of flags from MDB_db.md_flags */
13 years ago
pthread_key_t me_txkey; /**< thread-key for readers */
MDB_pgstate me_pgstate; /**< state of old pages from freeDB */
# define me_pglast me_pgstate.mf_pglast
# define me_pghead me_pgstate.mf_pghead
# define me_pgloose me_pgstate.mf_pgloose
13 years ago
MDB_page *me_dpages; /**< list of malloc'd blocks for re-use */
/** IDL of pages that became unused in a write txn */
MDB_IDL me_free_pgs;
/** ID2L of pages written during a write txn. Length MDB_IDL_UM_SIZE. */
MDB_ID2L me_dirty_list;
/** Max number of freelist items that can fit in a single overflow page */
int me_maxfree_1pg;
/** Max size of a node on a page */
unsigned int me_nodemax;
#if !(MDB_MAXKEYSIZE)
unsigned int me_maxkey; /**< max size of a key */
#endif
int me_live_reader; /**< have liveness lock in reader table */
#ifdef _WIN32
int me_pidquery; /**< Used in OpenProcess */
HANDLE me_rmutex; /* Windows mutexes don't reside in shared mem */
HANDLE me_wmutex;
#elif defined(MDB_USE_POSIX_SEM)
sem_t *me_rmutex; /* Shared mutexes are not supported */
sem_t *me_wmutex;
#endif
void *me_userctx; /**< User-settable context */
MDB_assert_func *me_assert_func; /**< Callback for assertion failures */
14 years ago
};
/** Nested transaction */
typedef struct MDB_ntxn {
MDB_txn mnt_txn; /**< the transaction */
MDB_pgstate mnt_pgstate; /**< parent transaction's saved freestate */
} MDB_ntxn;
13 years ago
/** max number of pages to commit in one writev() call */
#define MDB_COMMIT_PAGES 64
#if defined(IOV_MAX) && IOV_MAX < MDB_COMMIT_PAGES
#undef MDB_COMMIT_PAGES
#define MDB_COMMIT_PAGES IOV_MAX
#endif
14 years ago
11 years ago
/** max bytes to write in one call */
#define MAX_WRITE (0x80000000U >> (sizeof(ssize_t) == 4))
/** Check \b txn and \b dbi arguments to a function */
#define TXN_DBI_EXIST(txn, dbi) \
((txn) && (dbi) < (txn)->mt_numdbs && ((txn)->mt_dbflags[dbi] & DB_VALID))
static int mdb_page_alloc(MDB_cursor *mc, int num, MDB_page **mp);
static int mdb_page_new(MDB_cursor *mc, uint32_t flags, int num, MDB_page **mp);
static int mdb_page_touch(MDB_cursor *mc);
14 years ago
static int mdb_page_get(MDB_txn *txn, pgno_t pgno, MDB_page **mp, int *lvl);
13 years ago
static int mdb_page_search_root(MDB_cursor *mc,
MDB_val *key, int modify);
#define MDB_PS_MODIFY 1
#define MDB_PS_ROOTONLY 2
#define MDB_PS_FIRST 4
#define MDB_PS_LAST 8
13 years ago
static int mdb_page_search(MDB_cursor *mc,
MDB_val *key, int flags);
13 years ago
static int mdb_page_merge(MDB_cursor *csrc, MDB_cursor *cdst);
#define MDB_SPLIT_REPLACE MDB_APPENDDUP /**< newkey is not new */
13 years ago
static int mdb_page_split(MDB_cursor *mc, MDB_val *newkey, MDB_val *newdata,
pgno_t newpgno, unsigned int nflags);
14 years ago
static int mdb_env_read_header(MDB_env *env, MDB_meta *meta);
static int mdb_env_pick_meta(const MDB_env *env);
static int mdb_env_write_meta(MDB_txn *txn);
#if !(defined(_WIN32) || defined(MDB_USE_POSIX_SEM)) /* Drop unused excl arg */
# define mdb_env_close0(env, excl) mdb_env_close1(env)
#endif
static void mdb_env_close0(MDB_env *env, int excl);
14 years ago
13 years ago
static MDB_node *mdb_node_search(MDB_cursor *mc, MDB_val *key, int *exactp);
static int mdb_node_add(MDB_cursor *mc, indx_t indx,
MDB_val *key, MDB_val *data, pgno_t pgno, unsigned int flags);
static void mdb_node_del(MDB_cursor *mc, int ksize);
static void mdb_node_shrink(MDB_page *mp, indx_t indx);
13 years ago
static int mdb_node_move(MDB_cursor *csrc, MDB_cursor *cdst);
13 years ago
static int mdb_node_read(MDB_txn *txn, MDB_node *leaf, MDB_val *data);
13 years ago
static size_t mdb_leaf_size(MDB_env *env, MDB_val *key, MDB_val *data);
static size_t mdb_branch_size(MDB_env *env, MDB_val *key);
static int mdb_rebalance(MDB_cursor *mc);
static int mdb_update_key(MDB_cursor *mc, MDB_val *key);
13 years ago
static void mdb_cursor_pop(MDB_cursor *mc);
static int mdb_cursor_push(MDB_cursor *mc, MDB_page *mp);
static int mdb_cursor_del0(MDB_cursor *mc);
static int mdb_del0(MDB_txn *txn, MDB_dbi dbi, MDB_val *key, MDB_val *data, unsigned flags);
13 years ago
static int mdb_cursor_sibling(MDB_cursor *mc, int move_right);
static int mdb_cursor_next(MDB_cursor *mc, MDB_val *key, MDB_val *data, MDB_cursor_op op);
static int mdb_cursor_prev(MDB_cursor *mc, MDB_val *key, MDB_val *data, MDB_cursor_op op);
static int mdb_cursor_set(MDB_cursor *mc, MDB_val *key, MDB_val *data, MDB_cursor_op op,
int *exactp);
static int mdb_cursor_first(MDB_cursor *mc, MDB_val *key, MDB_val *data);
static int mdb_cursor_last(MDB_cursor *mc, MDB_val *key, MDB_val *data);
14 years ago
static void mdb_cursor_init(MDB_cursor *mc, MDB_txn *txn, MDB_dbi dbi, MDB_xcursor *mx);
static void mdb_xcursor_init0(MDB_cursor *mc);
static void mdb_xcursor_init1(MDB_cursor *mc, MDB_node *node);
static int mdb_drop0(MDB_cursor *mc, int subs);
static void mdb_default_cmp(MDB_txn *txn, MDB_dbi dbi);
13 years ago
/** @cond */
13 years ago
static MDB_cmp_func mdb_cmp_memn, mdb_cmp_memnr, mdb_cmp_int, mdb_cmp_cint, mdb_cmp_long;
13 years ago
/** @endcond */
14 years ago
#ifdef _WIN32
static SECURITY_DESCRIPTOR mdb_null_sd;
static SECURITY_ATTRIBUTES mdb_all_sa;
static int mdb_sec_inited;
#endif
13 years ago
/** Return the library version info. */
13 years ago
char *
13 years ago
mdb_version(int *major, int *minor, int *patch)
13 years ago
{
13 years ago
if (major) *major = MDB_VERSION_MAJOR;
if (minor) *minor = MDB_VERSION_MINOR;
if (patch) *patch = MDB_VERSION_PATCH;
13 years ago
return MDB_VERSION_STRING;
}
13 years ago
/** Table of descriptions for MDB @ref errors */
static char *const mdb_errstr[] = {
"MDB_KEYEXIST: Key/data pair already exists",
"MDB_NOTFOUND: No matching key/data pair found",
"MDB_PAGE_NOTFOUND: Requested page not found",
"MDB_CORRUPTED: Located page was wrong type",
"MDB_PANIC: Update of meta page failed",
"MDB_VERSION_MISMATCH: Database environment version mismatch",
"MDB_INVALID: File is not an MDB file",
"MDB_MAP_FULL: Environment mapsize limit reached",
"MDB_DBS_FULL: Environment maxdbs limit reached",
"MDB_READERS_FULL: Environment maxreaders limit reached",
"MDB_TLS_FULL: Thread-local storage keys full - too many environments open",
"MDB_TXN_FULL: Transaction has too many dirty pages - transaction too big",
"MDB_CURSOR_FULL: Internal error - cursor stack limit reached",
"MDB_PAGE_FULL: Internal error - page has no more space",
"MDB_MAP_RESIZED: Database contents grew beyond environment mapsize",
"MDB_INCOMPATIBLE: Operation and DB incompatible, or DB flags changed",
"MDB_BAD_RSLOT: Invalid reuse of reader locktable slot",
"MDB_BAD_TXN: Transaction cannot recover - it must be aborted",
"MDB_BAD_VALSIZE: Unsupported size of key/DB name/data, or wrong DUPFIXED size",
};
char *
mdb_strerror(int err)
{
int i;
if (!err)
return ("Successful return: 0");
if (err >= MDB_KEYEXIST && err <= MDB_LAST_ERRCODE) {
i = err - MDB_KEYEXIST;
return mdb_errstr[i];
}
return strerror(err);
}
/** assert(3) variant in cursor context */
#define mdb_cassert(mc, expr) mdb_assert0((mc)->mc_txn->mt_env, expr, #expr)
/** assert(3) variant in transaction context */
#define mdb_tassert(mc, expr) mdb_assert0((txn)->mt_env, expr, #expr)
/** assert(3) variant in environment context */
#define mdb_eassert(env, expr) mdb_assert0(env, expr, #expr)
#ifndef NDEBUG
# define mdb_assert0(env, expr, expr_txt) ((expr) ? (void)0 : \
mdb_assert_fail(env, expr_txt, mdb_func_, __FILE__, __LINE__))
static void
mdb_assert_fail(MDB_env *env, const char *expr_txt,
const char *func, const char *file, int line)
{
char buf[400];
sprintf(buf, "%.100s:%d: Assertion '%.200s' failed in %.40s()",
file, line, expr_txt, func);
if (env->me_assert_func)
env->me_assert_func(env, buf);
fprintf(stderr, "%s\n", buf);
abort();
}
#else
# define mdb_assert0(env, expr, expr_txt) ((void) 0)
#endif /* NDEBUG */
#if MDB_DEBUG
/** Return the page number of \b mp which may be sub-page, for debug output */
static pgno_t
mdb_dbg_pgno(MDB_page *mp)
{
pgno_t ret;
COPY_PGNO(ret, mp->mp_pgno);
return ret;
}
13 years ago
/** Display a key in hexadecimal and return the address of the result.
* @param[in] key the key to display
* @param[in] buf the buffer to write into. Should always be #DKBUF.
* @return The key in hexadecimal form.
*/
char *
mdb_dkey(MDB_val *key, char *buf)
{
char *ptr = buf;
unsigned char *c = key->mv_data;
unsigned int i;
if (!key)
return "";
if (key->mv_size > DKBUF_MAXKEYSIZE)
return "MDB_MAXKEYSIZE";
13 years ago
/* may want to make this a dynamic check: if the key is mostly
* printable characters, print it as-is instead of converting to hex.
*/
#if 1
buf[0] = '\0';
for (i=0; i<key->mv_size; i++)
ptr += sprintf(ptr, "%02x", *c++);
#else
sprintf(buf, "%.*s", key->mv_size, key->mv_data);
#endif
return buf;
}
static const char *
mdb_leafnode_type(MDB_node *n)
{
static char *const tp[2][2] = {{"", ": DB"}, {": sub-page", ": sub-DB"}};
return F_ISSET(n->mn_flags, F_BIGDATA) ? ": overflow page" :
tp[F_ISSET(n->mn_flags, F_DUPDATA)][F_ISSET(n->mn_flags, F_SUBDATA)];
}
/** Display all the keys in the page. */
void
mdb_page_list(MDB_page *mp)
{
pgno_t pgno = mdb_dbg_pgno(mp);
const char *type, *state = (mp->mp_flags & P_DIRTY) ? ", dirty" : "";
MDB_node *node;
unsigned int i, nkeys, nsize, total = 0;
MDB_val key;
DKBUF;
switch (mp->mp_flags & (P_BRANCH|P_LEAF|P_LEAF2|P_META|P_OVERFLOW|P_SUBP)) {
case P_BRANCH: type = "Branch page"; break;
case P_LEAF: type = "Leaf page"; break;
case P_LEAF|P_SUBP: type = "Sub-page"; break;
case P_LEAF|P_LEAF2: type = "LEAF2 page"; break;
case P_LEAF|P_LEAF2|P_SUBP: type = "LEAF2 sub-page"; break;
case P_OVERFLOW:
fprintf(stderr, "Overflow page %"Z"u pages %u%s\n",
pgno, mp->mp_pages, state);
return;
case P_META:
fprintf(stderr, "Meta-page %"Z"u txnid %"Z"u\n",
pgno, ((MDB_meta *)METADATA(mp))->mm_txnid);
return;
default:
fprintf(stderr, "Bad page %"Z"u flags 0x%u\n", pgno, mp->mp_flags);
return;
}
nkeys = NUMKEYS(mp);
fprintf(stderr, "%s %"Z"u numkeys %d%s\n", type, pgno, nkeys, state);
for (i=0; i<nkeys; i++) {
if (IS_LEAF2(mp)) { /* LEAF2 pages have no mp_ptrs[] or node headers */
key.mv_size = nsize = mp->mp_pad;
key.mv_data = LEAF2KEY(mp, i, nsize);
total += nsize;
fprintf(stderr, "key %d: nsize %d, %s\n", i, nsize, DKEY(&key));
continue;
}
node = NODEPTR(mp, i);
key.mv_size = node->mn_ksize;
key.mv_data = node->mn_data;
nsize = NODESIZE + key.mv_size;
if (IS_BRANCH(mp)) {
fprintf(stderr, "key %d: page %"Z"u, %s\n", i, NODEPGNO(node),
DKEY(&key));
total += nsize;
} else {
if (F_ISSET(node->mn_flags, F_BIGDATA))
nsize += sizeof(pgno_t);
else
nsize += NODEDSZ(node);
total += nsize;
nsize += sizeof(indx_t);
fprintf(stderr, "key %d: nsize %d, %s%s\n",
i, nsize, DKEY(&key), mdb_leafnode_type(node));
}
total = EVEN(total);
}
fprintf(stderr, "Total: header %d + contents %d + unused %d\n",
IS_LEAF2(mp) ? PAGEHDRSZ : mp->mp_lower, total, SIZELEFT(mp));
}
void
mdb_cursor_chk(MDB_cursor *mc)
{
unsigned int i;
MDB_node *node;
MDB_page *mp;
if (!mc->mc_snum && !(mc->mc_flags & C_INITIALIZED)) return;
for (i=0; i<mc->mc_top; i++) {
mp = mc->mc_pg[i];
node = NODEPTR(mp, mc->mc_ki[i]);
if (NODEPGNO(node) != mc->mc_pg[i+1]->mp_pgno)
printf("oops!\n");
}
if (mc->mc_ki[i] >= NUMKEYS(mc->mc_pg[i]))
printf("ack!\n");
}
#endif
#if (MDB_DEBUG) > 2
/** Count all the pages in each DB and in the freelist
* and make sure it matches the actual number of pages
* being used.
* All named DBs must be open for a correct count.
*/
static void mdb_audit(MDB_txn *txn)
{
MDB_cursor mc;
MDB_val key, data;
MDB_ID freecount, count;
MDB_dbi i;
int rc;
freecount = 0;
mdb_cursor_init(&mc, txn, FREE_DBI, NULL);
while ((rc = mdb_cursor_get(&mc, &key, &data, MDB_NEXT)) == 0)
freecount += *(MDB_ID *)data.mv_data;
mdb_tassert(txn, rc == MDB_NOTFOUND);
count = 0;
for (i = 0; i<txn->mt_numdbs; i++) {
MDB_xcursor mx;
if (!(txn->mt_dbflags[i] & DB_VALID))
continue;
mdb_cursor_init(&mc, txn, i, &mx);
if (txn->mt_dbs[i].md_root == P_INVALID)
continue;
count += txn->mt_dbs[i].md_branch_pages +
txn->mt_dbs[i].md_leaf_pages +
txn->mt_dbs[i].md_overflow_pages;
if (txn->mt_dbs[i].md_flags & MDB_DUPSORT) {
rc = mdb_page_search(&mc, NULL, MDB_PS_FIRST);
for (; rc == MDB_SUCCESS; rc = mdb_cursor_sibling(&mc, 1)) {
unsigned j;
MDB_page *mp;
mp = mc.mc_pg[mc.mc_top];
for (j=0; j<NUMKEYS(mp); j++) {
MDB_node *leaf = NODEPTR(mp, j);
if (leaf->mn_flags & F_SUBDATA) {
MDB_db db;
memcpy(&db, NODEDATA(leaf), sizeof(db));
count += db.md_branch_pages + db.md_leaf_pages +
db.md_overflow_pages;
}
}
}
mdb_tassert(txn, rc == MDB_NOTFOUND);
}
}
if (freecount + count + 2 /* metapages */ != txn->mt_next_pgno) {
fprintf(stderr, "audit: %lu freecount: %lu count: %lu total: %lu next_pgno: %lu\n",
txn->mt_txnid, freecount, count+2, freecount+count+2, txn->mt_next_pgno);
}
}
#endif
14 years ago
int
mdb_cmp(MDB_txn *txn, MDB_dbi dbi, const MDB_val *a, const MDB_val *b)
14 years ago
{
return txn->mt_dbxs[dbi].md_cmp(a, b);
}
int
mdb_dcmp(MDB_txn *txn, MDB_dbi dbi, const MDB_val *a, const MDB_val *b)
{
return txn->mt_dbxs[dbi].md_dcmp(a, b);
14 years ago
}
11 years ago
/** Allocate memory for a page.
* Re-use old malloc'd pages first for singletons, otherwise just malloc.
*/
static MDB_page *
mdb_page_malloc(MDB_txn *txn, unsigned num)
{
MDB_env *env = txn->mt_env;
MDB_page *ret = env->me_dpages;
size_t psize = env->me_psize, sz = psize, off;
/* For ! #MDB_NOMEMINIT, psize counts how much to init.
* For a single page alloc, we init everything after the page header.
* For multi-page, we init the final page; if the caller needed that
* many pages they will be filling in at least up to the last page.
*/
if (num == 1) {
if (ret) {
VGMEMP_ALLOC(env, ret, sz);
VGMEMP_DEFINED(ret, sizeof(ret->mp_next));
env->me_dpages = ret->mp_next;
return ret;
}
psize -= off = PAGEHDRSZ;
} else {
sz *= num;
off = sz - psize;
}
if ((ret = malloc(sz)) != NULL) {
VGMEMP_ALLOC(env, ret, sz);
if (!(env->me_flags & MDB_NOMEMINIT)) {
memset((char *)ret + off, 0, psize);
ret->mp_pad = 0;
}
} else {
txn->mt_flags |= MDB_TXN_ERROR;
}
return ret;
}
12 years ago
/** Free a single page.
* Saves single pages to a list, for future reuse.
* (This is not used for multi-page overflow pages.)
*/
static void
mdb_page_free(MDB_env *env, MDB_page *mp)
{
mp->mp_next = env->me_dpages;
VGMEMP_FREE(env, mp);
env->me_dpages = mp;
}
/** Free a dirty page */
static void
mdb_dpage_free(MDB_env *env, MDB_page *dp)
{
if (!IS_OVERFLOW(dp) || dp->mp_pages == 1) {
mdb_page_free(env, dp);
} else {
/* large pages just get freed directly */
VGMEMP_FREE(env, dp);
free(dp);
}
}
/** Return all dirty pages to dpage list */
static void
mdb_dlist_free(MDB_txn *txn)
{
MDB_env *env = txn->mt_env;
MDB_ID2L dl = txn->mt_u.dirty_list;
unsigned i, n = dl[0].mid;
for (i = 1; i <= n; i++) {
mdb_dpage_free(env, dl[i].mptr);
}
dl[0].mid = 0;
}
/** Loosen a single page.
* Saves single pages to a list for future reuse
* in this same txn. It has been pulled from the freeDB
* and already resides on the dirty list, but has been
* deleted. Use these pages first before pulling again
* from the freeDB.
*/
static void
mdb_page_loose(MDB_env *env, MDB_page *mp)
{
pgno_t *pp = (pgno_t *)mp->mp_ptrs;
*pp = mp->mp_pgno;
mp->mp_next = env->me_pgloose;
env->me_pgloose = mp;
mp->mp_flags |= P_LOOSE;
}
/** Set or clear P_KEEP in dirty, non-overflow, non-sub pages watched by txn.
* @param[in] mc A cursor handle for the current operation.
* @param[in] pflags Flags of the pages to update:
* P_DIRTY to set P_KEEP, P_DIRTY|P_KEEP to clear it.
* @param[in] all No shortcuts. Needed except after a full #mdb_page_flush().
* @return 0 on success, non-zero on failure.
*/
static int
mdb_pages_xkeep(MDB_cursor *mc, unsigned pflags, int all)
{
enum { Mask = P_SUBP|P_DIRTY|P_KEEP };
MDB_txn *txn = mc->mc_txn;
MDB_cursor *m3;
MDB_xcursor *mx;
MDB_page *dp, *mp;
MDB_node *leaf;
unsigned i, j;
int rc = MDB_SUCCESS, level;
/* Mark pages seen by cursors */
if (mc->mc_flags & C_UNTRACK)
mc = NULL; /* will find mc in mt_cursors */
for (i = txn->mt_numdbs;; mc = txn->mt_cursors[--i]) {
for (; mc; mc=mc->mc_next) {
if (!(mc->mc_flags & C_INITIALIZED))
continue;
for (m3 = mc;; m3 = &mx->mx_cursor) {
mp = NULL;
for (j=0; j<m3->mc_snum; j++) {
mp = m3->mc_pg[j];
if ((mp->mp_flags & Mask) == pflags)
mp->mp_flags ^= P_KEEP;
}
mx = m3->mc_xcursor;
/* Proceed to mx if it is at a sub-database */
if (! (mx && (mx->mx_cursor.mc_flags & C_INITIALIZED)))
break;
if (! (mp && (mp->mp_flags & P_LEAF)))
break;
leaf = NODEPTR(mp, m3->mc_ki[j-1]);
if (!(leaf->mn_flags & F_SUBDATA))
break;
}
}
if (i == 0)
break;
}
/* Loose pages shouldn't be spilled */
for (dp = txn->mt_env->me_pgloose; dp; dp=dp->mp_next) {
if ((dp->mp_flags & Mask) == pflags)
dp->mp_flags ^= P_KEEP;
}
if (all) {
/* Mark dirty root pages */
for (i=0; i<txn->mt_numdbs; i++) {
if (txn->mt_dbflags[i] & DB_DIRTY) {
pgno_t pgno = txn->mt_dbs[i].md_root;
if (pgno == P_INVALID)
continue;
if ((rc = mdb_page_get(txn, pgno, &dp, &level)) != MDB_SUCCESS)
break;
if ((dp->mp_flags & Mask) == pflags && level <= 1)
dp->mp_flags ^= P_KEEP;
}
}
}
return rc;
}
static int mdb_page_flush(MDB_txn *txn, int keep);
/** Spill pages from the dirty list back to disk.
* This is intended to prevent running into #MDB_TXN_FULL situations,
* but note that they may still occur in a few cases:
* 1) our estimate of the txn size could be too small. Currently this
* seems unlikely, except with a large number of #MDB_MULTIPLE items.
* 2) child txns may run out of space if their parents dirtied a
* lot of pages and never spilled them. TODO: we probably should do
* a preemptive spill during #mdb_txn_begin() of a child txn, if
* the parent's dirty_room is below a given threshold.
*
* Otherwise, if not using nested txns, it is expected that apps will
* not run into #MDB_TXN_FULL any more. The pages are flushed to disk
* the same way as for a txn commit, e.g. their P_DIRTY flag is cleared.
* If the txn never references them again, they can be left alone.
* If the txn only reads them, they can be used without any fuss.
* If the txn writes them again, they can be dirtied immediately without
* going thru all of the work of #mdb_page_touch(). Such references are
* handled by #mdb_page_unspill().
*
* Also note, we never spill DB root pages, nor pages of active cursors,
* because we'll need these back again soon anyway. And in nested txns,
* we can't spill a page in a child txn if it was already spilled in a
* parent txn. That would alter the parent txns' data even though
* the child hasn't committed yet, and we'd have no way to undo it if
* the child aborted.
*
* @param[in] m0 cursor A cursor handle identifying the transaction and
* database for which we are checking space.
* @param[in] key For a put operation, the key being stored.
* @param[in] data For a put operation, the data being stored.
* @return 0 on success, non-zero on failure.
*/
static int
mdb_page_spill(MDB_cursor *m0, MDB_val *key, MDB_val *data)
{
MDB_txn *txn = m0->mc_txn;
MDB_page *dp;
MDB_ID2L dl = txn->mt_u.dirty_list;
unsigned int i, j, need;
int rc;
if (m0->mc_flags & C_SUB)
return MDB_SUCCESS;
/* Estimate how much space this op will take */
i = m0->mc_db->md_depth;
/* Named DBs also dirty the main DB */
if (m0->mc_dbi > MAIN_DBI)
i += txn->mt_dbs[MAIN_DBI].md_depth;
/* For puts, roughly factor in the key+data size */
if (key)
i += (LEAFSIZE(key, data) + txn->mt_env->me_psize) / txn->mt_env->me_psize;
i += i; /* double it for good measure */
need = i;
if (txn->mt_dirty_room > i)
return MDB_SUCCESS;
if (!txn->mt_spill_pgs) {
txn->mt_spill_pgs = mdb_midl_alloc(MDB_IDL_UM_MAX);
if (!txn->mt_spill_pgs)
return ENOMEM;
} else {
/* purge deleted slots */
MDB_IDL sl = txn->mt_spill_pgs;
unsigned int num = sl[0];
j=0;
for (i=1; i<=num; i++) {
if (!(sl[i] & 1))
sl[++j] = sl[i];
}
sl[0] = j;
}
/* Preserve pages which may soon be dirtied again */
if ((rc = mdb_pages_xkeep(m0, P_DIRTY, 1)) != MDB_SUCCESS)
goto done;
/* Less aggressive spill - we originally spilled the entire dirty list,
* with a few exceptions for cursor pages and DB root pages. But this
* turns out to be a lot of wasted effort because in a large txn many
* of those pages will need to be used again. So now we spill only 1/8th
* of the dirty pages. Testing revealed this to be a good tradeoff,
* better than 1/2, 1/4, or 1/10.
*/
if (need < MDB_IDL_UM_MAX / 8)
need = MDB_IDL_UM_MAX / 8;
/* Save the page IDs of all the pages we're flushing */
/* flush from the tail forward, this saves a lot of shifting later on. */
for (i=dl[0].mid; i && need; i--) {
MDB_ID pn = dl[i].mid << 1;
dp = dl[i].mptr;
if (dp->mp_flags & P_KEEP)
continue;
/* Can't spill twice, make sure it's not already in a parent's
* spill list.
*/
if (txn->mt_parent) {
MDB_txn *tx2;
for (tx2 = txn->mt_parent; tx2; tx2 = tx2->mt_parent) {
if (tx2->mt_spill_pgs) {
j = mdb_midl_search(tx2->mt_spill_pgs, pn);
if (j <= tx2->mt_spill_pgs[0] && tx2->mt_spill_pgs[j] == pn) {
dp->mp_flags |= P_KEEP;
break;
}
}
}
if (tx2)
continue;
}
if ((rc = mdb_midl_append(&txn->mt_spill_pgs, pn)))
goto done;
need--;
}
mdb_midl_sort(txn->mt_spill_pgs);
/* Flush the spilled part of dirty list */
if ((rc = mdb_page_flush(txn, i)) != MDB_SUCCESS)
goto done;
/* Reset any dirty pages we kept that page_flush didn't see */
rc = mdb_pages_xkeep(m0, P_DIRTY|P_KEEP, i);
done:
txn->mt_flags |= rc ? MDB_TXN_ERROR : MDB_TXN_SPILLS;
return rc;
}
/** Find oldest txnid still referenced. Expects txn->mt_txnid > 0. */
static txnid_t
mdb_find_oldest(MDB_txn *txn)
{
int i;
txnid_t mr, oldest = txn->mt_txnid - 1;
if (txn->mt_env->me_txns) {
MDB_reader *r = txn->mt_env->me_txns->mti_readers;
for (i = txn->mt_env->me_txns->mti_numreaders; --i >= 0; ) {
if (r[i].mr_pid) {
mr = r[i].mr_txnid;
if (oldest > mr)
oldest = mr;
}
}
}
return oldest;
}
/** Add a page to the txn's dirty list */
static void
mdb_page_dirty(MDB_txn *txn, MDB_page *mp)
{
MDB_ID2 mid;
int rc, (*insert)(MDB_ID2L, MDB_ID2 *);
if (txn->mt_env->me_flags & MDB_WRITEMAP) {
insert = mdb_mid2l_append;
} else {
insert = mdb_mid2l_insert;
}
mid.mid = mp->mp_pgno;
mid.mptr = mp;
rc = insert(txn->mt_u.dirty_list, &mid);
mdb_tassert(txn, rc == 0);
txn->mt_dirty_room--;
}
11 years ago
/** Allocate page numbers and memory for writing. Maintain me_pglast,
* me_pghead and mt_next_pgno.
*
13 years ago
* If there are free pages available from older transactions, they
11 years ago
* are re-used first. Otherwise allocate a new page at mt_next_pgno.
* Do not modify the freedB, just merge freeDB records into me_pghead[]
* and move me_pglast to say which records were consumed. Only this
* function can create me_pghead and move me_pglast/mt_next_pgno.
13 years ago
* @param[in] mc cursor A cursor handle identifying the transaction and
* database for which we are allocating.
* @param[in] num the number of pages to allocate.
* @param[out] mp Address of the allocated page(s). Requests for multiple pages
13 years ago
* will always be satisfied by a single contiguous chunk of memory.
* @return 0 on success, non-zero on failure.
13 years ago
*/
static int
mdb_page_alloc(MDB_cursor *mc, int num, MDB_page **mp)
14 years ago
{
#ifdef MDB_PARANOID /* Seems like we can ignore this now */
/* Get at most <Max_retries> more freeDB records once me_pghead
* has enough pages. If not enough, use new pages from the map.
* If <Paranoid> and mc is updating the freeDB, only get new
* records if me_pghead is empty. Then the freelist cannot play
* catch-up with itself by growing while trying to save it.
*/
enum { Paranoid = 1, Max_retries = 500 };
#else
enum { Paranoid = 0, Max_retries = INT_MAX /*infinite*/ };
#endif
int rc, retry = num * 20;
MDB_txn *txn = mc->mc_txn;
MDB_env *env = txn->mt_env;
pgno_t pgno, *mop = env->me_pghead;
unsigned i, j, k, mop_len = mop ? mop[0] : 0, n2 = num-1;
MDB_page *np;
txnid_t oldest = 0, last;
MDB_cursor_op op;
MDB_cursor m2;
14 years ago
/* If there are any loose pages, just use them */
if (num == 1 && env->me_pgloose) {
pgno_t *pp;
np = env->me_pgloose;
env->me_pgloose = np->mp_next;
pp = (pgno_t *)np->mp_ptrs;
np->mp_pgno = *pp;
*mp = np;
return MDB_SUCCESS;
}
*mp = NULL;
/* If our dirty list is already full, we can't do anything */
if (txn->mt_dirty_room == 0) {
rc = MDB_TXN_FULL;
goto fail;
}
for (op = MDB_FIRST;; op = MDB_NEXT) {
MDB_val key, data;
MDB_node *leaf;
pgno_t *idl, old_id, new_id;
/* Seek a big enough contiguous page range. Prefer
* pages at the tail, just truncating the list.
*/
if (mop_len > n2) {
i = mop_len;
do {
pgno = mop[i];
if (mop[i-n2] == pgno+n2)
goto search_done;
} while (--i > n2);
if (--retry < 0)
break;
}
if (op == MDB_FIRST) { /* 1st iteration */
/* Prepare to fetch more and coalesce */
oldest = mdb_find_oldest(txn);
last = env->me_pglast;
mdb_cursor_init(&m2, txn, FREE_DBI, NULL);
if (last) {
op = MDB_SET_RANGE;
11 years ago
key.mv_data = &last; /* will look up last+1 */
key.mv_size = sizeof(last);
}
if (Paranoid && mc->mc_dbi == FREE_DBI)
retry = -1;
14 years ago
}
if (Paranoid && retry < 0 && mop_len)
break;
last++;
/* Do not fetch more if the record will be too recent */
if (oldest <= last)
break;
rc = mdb_cursor_get(&m2, &key, NULL, op);
if (rc) {
if (rc == MDB_NOTFOUND)
break;
goto fail;
}
last = *(txnid_t*)key.mv_data;
if (oldest <= last)
break;
np = m2.mc_pg[m2.mc_top];
leaf = NODEPTR(np, m2.mc_ki[m2.mc_top]);
if ((rc = mdb_node_read(txn, leaf, &data)) != MDB_SUCCESS)
return rc;
idl = (MDB_ID *) data.mv_data;
i = idl[0];
if (!mop) {
if (!(env->me_pghead = mop = mdb_midl_alloc(i))) {
rc = ENOMEM;
goto fail;
}
} else {
if ((rc = mdb_midl_need(&env->me_pghead, i)) != 0)
goto fail;
mop = env->me_pghead;
}
env->me_pglast = last;
#if (MDB_DEBUG) > 1
DPRINTF(("IDL read txn %"Z"u root %"Z"u num %u",
last, txn->mt_dbs[FREE_DBI].md_root, i));
for (k = i; k; k--)
DPRINTF(("IDL %"Z"u", idl[k]));
#endif
/* Merge in descending sorted order */
j = mop_len;
k = mop_len += i;
mop[0] = (pgno_t)-1;
old_id = mop[j];
while (i) {
new_id = idl[i--];
for (; old_id < new_id; old_id = mop[--j])
mop[k--] = old_id;
mop[k--] = new_id;
14 years ago
}
mop[0] = mop_len;
14 years ago
}
14 years ago
/* Use new pages from the map when nothing suitable in the freeDB */
i = 0;
pgno = txn->mt_next_pgno;
if (pgno + num >= env->me_maxpg) {
DPUTS("DB size maxed out");
rc = MDB_MAP_FULL;
goto fail;
}
search_done:
if (env->me_flags & MDB_WRITEMAP) {
np = (MDB_page *)(env->me_map + env->me_psize * pgno);
} else {
if (!(np = mdb_page_malloc(txn, num))) {
rc = ENOMEM;
goto fail;
}
14 years ago
}
if (i) {
mop[0] = mop_len -= num;
/* Move any stragglers down */
for (j = i-num; j < mop_len; )
mop[++j] = mop[++i];
} else {
txn->mt_next_pgno = pgno + num;
}
np->mp_pgno = pgno;
mdb_page_dirty(txn, np);
*mp = np;
14 years ago
return MDB_SUCCESS;
fail:
txn->mt_flags |= MDB_TXN_ERROR;
return rc;
14 years ago
}
/** Copy the used portions of a non-overflow page.
* @param[in] dst page to copy into
* @param[in] src page to copy from
12 years ago
* @param[in] psize size of a page
*/
static void
mdb_page_copy(MDB_page *dst, MDB_page *src, unsigned int psize)
{
enum { Align = sizeof(pgno_t) };
indx_t upper = src->mp_upper, lower = src->mp_lower, unused = upper-lower;
/* If page isn't full, just copy the used portion. Adjust
* alignment so memcpy may copy words instead of bytes.
*/
if ((unused &= -Align) && !IS_LEAF2(src)) {
upper &= -Align;
memcpy(dst, src, (lower + (Align-1)) & -Align);
memcpy((pgno_t *)((char *)dst+upper), (pgno_t *)((char *)src+upper),
psize - upper);
} else {
memcpy(dst, src, psize - unused);
}
}
/** Pull a page off the txn's spill list, if present.
* If a page being referenced was spilled to disk in this txn, bring
* it back and make it dirty/writable again.
* @param[in] txn the transaction handle.
* @param[in] mp the page being referenced. It must not be dirty.
* @param[out] ret the writable page, if any. ret is unchanged if
* mp wasn't spilled.
*/
static int
mdb_page_unspill(MDB_txn *txn, MDB_page *mp, MDB_page **ret)
{
MDB_env *env = txn->mt_env;
const MDB_txn *tx2;
unsigned x;
pgno_t pgno = mp->mp_pgno, pn = pgno << 1;
for (tx2 = txn; tx2; tx2=tx2->mt_parent) {
if (!tx2->mt_spill_pgs)
continue;
x = mdb_midl_search(tx2->mt_spill_pgs, pn);
if (x <= tx2->mt_spill_pgs[0] && tx2->mt_spill_pgs[x] == pn) {
MDB_page *np;
int num;
if (txn->mt_dirty_room == 0)
return MDB_TXN_FULL;
if (IS_OVERFLOW(mp))
num = mp->mp_pages;
else
num = 1;
if (env->me_flags & MDB_WRITEMAP) {
np = mp;
} else {
np = mdb_page_malloc(txn, num);
if (!np)
return ENOMEM;
if (num > 1)
memcpy(np, mp, num * env->me_psize);
else
mdb_page_copy(np, mp, env->me_psize);
}
if (tx2 == txn) {
/* If in current txn, this page is no longer spilled.
* If it happens to be the last page, truncate the spill list.
* Otherwise mark it as deleted by setting the LSB.
*/
if (x == txn->mt_spill_pgs[0])
txn->mt_spill_pgs[0]--;
else
txn->mt_spill_pgs[x] |= 1;
} /* otherwise, if belonging to a parent txn, the
* page remains spilled until child commits
*/
mdb_page_dirty(txn, np);
np->mp_flags |= P_DIRTY;
*ret = np;
break;
}
}
return MDB_SUCCESS;
}
13 years ago
/** Touch a page: make it dirty and re-insert into tree with updated pgno.
* @param[in] mc cursor pointing to the page to be touched
* @return 0 on success, non-zero on failure.
14 years ago
*/
static int
13 years ago
mdb_page_touch(MDB_cursor *mc)
14 years ago
{
MDB_page *mp = mc->mc_pg[mc->mc_top], *np;
MDB_txn *txn = mc->mc_txn;
MDB_cursor *m2, *m3;
14 years ago
pgno_t pgno;
int rc;
14 years ago
if (!F_ISSET(mp->mp_flags, P_DIRTY)) {
if (txn->mt_flags & MDB_TXN_SPILLS) {
np = NULL;
rc = mdb_page_unspill(txn, mp, &np);
if (rc)
goto fail;
if (np)
goto done;
}
if ((rc = mdb_midl_need(&txn->mt_free_pgs, 1)) ||
(rc = mdb_page_alloc(mc, 1, &np)))
goto fail;
pgno = np->mp_pgno;
DPRINTF(("touched db %d page %"Z"u -> %"Z"u", DDBI(mc),
mp->mp_pgno, pgno));
mdb_cassert(mc, mp->mp_pgno != pgno);
mdb_midl_xappend(txn->mt_free_pgs, mp->mp_pgno);
/* Update the parent page, if any, to point to the new page */
if (mc->mc_top) {
MDB_page *parent = mc->mc_pg[mc->mc_top-1];
MDB_node *node = NODEPTR(parent, mc->mc_ki[mc->mc_top-1]);
SETPGNO(node, pgno);
} else {
mc->mc_db->md_root = pgno;
}
} else if (txn->mt_parent && !IS_SUBP(mp)) {
MDB_ID2 mid, *dl = txn->mt_u.dirty_list;
pgno = mp->mp_pgno;
/* If txn has a parent, make sure the page is in our
* dirty list.
*/
if (dl[0].mid) {
unsigned x = mdb_mid2l_search(dl, pgno);
if (x <= dl[0].mid && dl[x].mid == pgno) {
if (mp != dl[x].mptr) { /* bad cursor? */
mc->mc_flags &= ~(C_INITIALIZED|C_EOF);
txn->mt_flags |= MDB_TXN_ERROR;
return MDB_CORRUPTED;
}
return 0;
}
}
mdb_cassert(mc, dl[0].mid < MDB_IDL_UM_MAX);
/* No - copy it */
np = mdb_page_malloc(txn, 1);
if (!np)
return ENOMEM;
mid.mid = pgno;
mid.mptr = np;
rc = mdb_mid2l_insert(dl, &mid);
mdb_cassert(mc, rc == 0);
} else {
return 0;
}
mdb_page_copy(np, mp, txn->mt_env->me_psize);
np->mp_pgno = pgno;
np->mp_flags |= P_DIRTY;
done:
/* Adjust cursors pointing to mp */
mc->mc_pg[mc->mc_top] = np;
m2 = txn->mt_cursors[mc->mc_dbi];
if (mc->mc_flags & C_SUB) {
for (; m2; m2=m2->mc_next) {
m3 = &m2->mc_xcursor->mx_cursor;
if (m3->mc_snum < mc->mc_snum) continue;
if (m3->mc_pg[mc->mc_top] == mp)
m3->mc_pg[mc->mc_top] = np;
}
} else {
for (; m2; m2=m2->mc_next) {
if (m2->mc_snum < mc->mc_snum) continue;
if (m2->mc_pg[mc->mc_top] == mp) {
m2->mc_pg[mc->mc_top] = np;
if ((mc->mc_db->md_flags & MDB_DUPSORT) &&
IS_LEAF(np) &&
m2->mc_ki[mc->mc_top] == mc->mc_ki[mc->mc_top])
{
MDB_node *leaf = NODEPTR(np, mc->mc_ki[mc->mc_top]);
if (!(leaf->mn_flags & F_SUBDATA))
m2->mc_xcursor->mx_cursor.mc_pg[0] = NODEDATA(leaf);
}
}
}
14 years ago
}
return 0;
fail:
txn->mt_flags |= MDB_TXN_ERROR;
return rc;
14 years ago
}
int
13 years ago
mdb_env_sync(MDB_env *env, int force)
14 years ago
{
int rc = 0;
13 years ago
if (force || !F_ISSET(env->me_flags, MDB_NOSYNC)) {
if (env->me_flags & MDB_WRITEMAP) {
int flags = ((env->me_flags & MDB_MAPASYNC) && !force)
? MS_ASYNC : MS_SYNC;
if (MDB_MSYNC(env->me_map, env->me_mapsize, flags))
rc = ErrCode();
#ifdef _WIN32
else if (flags == MS_SYNC && MDB_FDATASYNC(env->me_fd))
rc = ErrCode();
#endif
} else {
if (MDB_FDATASYNC(env->me_fd))
rc = ErrCode();
}
14 years ago
}
return rc;
}
/** Back up parent txn's cursors, then grab the originals for tracking */
static int
mdb_cursor_shadow(MDB_txn *src, MDB_txn *dst)
{
MDB_cursor *mc, *bk;
MDB_xcursor *mx;
size_t size;
int i;
for (i = src->mt_numdbs; --i >= 0; ) {
if ((mc = src->mt_cursors[i]) != NULL) {
size = sizeof(MDB_cursor);
if (mc->mc_xcursor)
size += sizeof(MDB_xcursor);
for (; mc; mc = bk->mc_next) {
bk = malloc(size);
if (!bk)
return ENOMEM;
*bk = *mc;
mc->mc_backup = bk;
mc->mc_db = &dst->mt_dbs[i];
/* Kill pointers into src - and dst to reduce abuse: The
* user may not use mc until dst ends. Otherwise we'd...
*/
mc->mc_txn = NULL; /* ...set this to dst */
mc->mc_dbflag = NULL; /* ...and &dst->mt_dbflags[i] */
if ((mx = mc->mc_xcursor) != NULL) {
*(MDB_xcursor *)(bk+1) = *mx;
mx->mx_cursor.mc_txn = NULL; /* ...and dst. */
}
mc->mc_next = dst->mt_cursors[i];
dst->mt_cursors[i] = mc;
}
}
}
return MDB_SUCCESS;
}
/** Close this write txn's cursors, give parent txn's cursors back to parent.
* @param[in] txn the transaction handle.
* @param[in] merge true to keep changes to parent cursors, false to revert.
* @return 0 on success, non-zero on failure.
*/
static void
mdb_cursors_close(MDB_txn *txn, unsigned merge)
{
MDB_cursor **cursors = txn->mt_cursors, *mc, *next, *bk;
MDB_xcursor *mx;
int i;
for (i = txn->mt_numdbs; --i >= 0; ) {
for (mc = cursors[i]; mc; mc = next) {
next = mc->mc_next;
if ((bk = mc->mc_backup) != NULL) {
if (merge) {
/* Commit changes to parent txn */
mc->mc_next = bk->mc_next;
mc->mc_backup = bk->mc_backup;
mc->mc_txn = bk->mc_txn;
mc->mc_db = bk->mc_db;
mc->mc_dbflag = bk->mc_dbflag;
if ((mx = mc->mc_xcursor) != NULL)
mx->mx_cursor.mc_txn = bk->mc_txn;
} else {
/* Abort nested txn */
*mc = *bk;
if ((mx = mc->mc_xcursor) != NULL)
*mx = *(MDB_xcursor *)(bk+1);
}
mc = bk;
}
11 years ago
/* Only malloced cursors are permanently tracked. */
free(mc);
}
cursors[i] = NULL;
}
}
#if !(MDB_DEBUG)
#define mdb_txn_reset0(txn, act) mdb_txn_reset0(txn)
#endif
static void
mdb_txn_reset0(MDB_txn *txn, const char *act);
#if !(MDB_PIDLOCK) /* Currently the same as defined(_WIN32) */
enum Pidlock_op {
Pidset, Pidcheck
};
#else
enum Pidlock_op {
Pidset = F_SETLK, Pidcheck = F_GETLK
};
#endif
/** Set or check a pid lock. Set returns 0 on success.
* Check returns 0 if the process is certainly dead, nonzero if it may
* be alive (the lock exists or an error happened so we do not know).
*
* On Windows Pidset is a no-op, we merely check for the existence
* of the process with the given pid. On POSIX we use a single byte
* lock on the lockfile, set at an offset equal to the pid.
*/
static int
mdb_reader_pid(MDB_env *env, enum Pidlock_op op, MDB_PID_T pid)
{
#if !(MDB_PIDLOCK) /* Currently the same as defined(_WIN32) */
int ret = 0;
HANDLE h;
if (op == Pidcheck) {
h = OpenProcess(env->me_pidquery, FALSE, pid);
/* No documented "no such process" code, but other program use this: */
if (!h)
return ErrCode() != ERROR_INVALID_PARAMETER;
/* A process exists until all handles to it close. Has it exited? */
ret = WaitForSingleObject(h, 0) != 0;
CloseHandle(h);
}
return ret;
#else
for (;;) {
int rc;
struct flock lock_info;
memset(&lock_info, 0, sizeof(lock_info));
lock_info.l_type = F_WRLCK;
lock_info.l_whence = SEEK_SET;
lock_info.l_start = pid;
lock_info.l_len = 1;
if ((rc = fcntl(env->me_lfd, op, &lock_info)) == 0) {
if (op == F_GETLK && lock_info.l_type != F_UNLCK)
rc = -1;
} else if ((rc = ErrCode()) == EINTR) {
continue;
}
return rc;
}
#endif
}
13 years ago
/** Common code for #mdb_txn_begin() and #mdb_txn_renew().
* @param[in] txn the transaction handle to initialize
* @return 0 on success, non-zero on failure.
13 years ago
*/
static int
mdb_txn_renew0(MDB_txn *txn)
14 years ago
{
MDB_env *env = txn->mt_env;
MDB_txninfo *ti = env->me_txns;
MDB_meta *meta;
unsigned int i, nr;
uint16_t x;
int rc, new_notls = 0;
/* Setup db info */
txn->mt_numdbs = env->me_numdbs;
txn->mt_dbxs = env->me_dbxs; /* mostly static anyway */
if (txn->mt_flags & MDB_TXN_RDONLY) {
if (!ti) {
meta = env->me_metas[ mdb_env_pick_meta(env) ];
txn->mt_txnid = meta->mm_txnid;
txn->mt_u.reader = NULL;
} else {
MDB_reader *r = (env->me_flags & MDB_NOTLS) ? txn->mt_u.reader :
pthread_getspecific(env->me_txkey);
if (r) {
if (r->mr_pid != env->me_pid || r->mr_txnid != (txnid_t)-1)
return MDB_BAD_RSLOT;
} else {
MDB_PID_T pid = env->me_pid;
pthread_t tid = pthread_self();
if (!env->me_live_reader) {
rc = mdb_reader_pid(env, Pidset, pid);
if (rc)
return rc;
env->me_live_reader = 1;
}
LOCK_MUTEX_R(env);
nr = ti->mti_numreaders;
for (i=0; i<nr; i++)
if (ti->mti_readers[i].mr_pid == 0)
break;
if (i == env->me_maxreaders) {
UNLOCK_MUTEX_R(env);
return MDB_READERS_FULL;
}
ti->mti_readers[i].mr_pid = pid;
ti->mti_readers[i].mr_tid = tid;
if (i == nr)
ti->mti_numreaders = ++nr;
/* Save numreaders for un-mutexed mdb_env_close() */
env->me_numreaders = nr;
UNLOCK_MUTEX_R(env);
r = &ti->mti_readers[i];
new_notls = (env->me_flags & MDB_NOTLS);
if (!new_notls && (rc=pthread_setspecific(env->me_txkey, r))) {
r->mr_pid = 0;
return rc;
}
}
txn->mt_txnid = r->mr_txnid = ti->mti_txnid;
txn->mt_u.reader = r;
meta = env->me_metas[txn->mt_txnid & 1];
14 years ago
}
} else {
if (ti) {
LOCK_MUTEX_W(env);
13 years ago
txn->mt_txnid = ti->mti_txnid;
meta = env->me_metas[txn->mt_txnid & 1];
} else {
meta = env->me_metas[ mdb_env_pick_meta(env) ];
txn->mt_txnid = meta->mm_txnid;
}
txn->mt_txnid++;
#if MDB_DEBUG
if (txn->mt_txnid == mdb_debug_start)
mdb_debug = 1;
#endif
txn->mt_dirty_room = MDB_IDL_UM_MAX;
13 years ago
txn->mt_u.dirty_list = env->me_dirty_list;
txn->mt_u.dirty_list[0].mid = 0;
txn->mt_free_pgs = env->me_free_pgs;
txn->mt_free_pgs[0] = 0;
txn->mt_spill_pgs = NULL;
14 years ago
env->me_txn = txn;
}
/* Copy the DB info and flags */
memcpy(txn->mt_dbs, meta->mm_dbs, 2 * sizeof(MDB_db));
/* Moved to here to avoid a data race in read TXNs */
txn->mt_next_pgno = meta->mm_last_pg+1;
for (i=2; i<txn->mt_numdbs; i++) {
x = env->me_dbflags[i];
txn->mt_dbs[i].md_flags = x & PERSISTENT_FLAGS;
txn->mt_dbflags[i] = (x & MDB_VALID) ? DB_VALID|DB_STALE : 0;
}
txn->mt_dbflags[0] = txn->mt_dbflags[1] = DB_VALID;
if (env->me_maxpg < txn->mt_next_pgno) {
mdb_txn_reset0(txn, "renew0-mapfail");
if (new_notls) {
txn->mt_u.reader->mr_pid = 0;
txn->mt_u.reader = NULL;
}
return MDB_MAP_RESIZED;
}
14 years ago
return MDB_SUCCESS;
}
int
mdb_txn_renew(MDB_txn *txn)
14 years ago
{
int rc;
14 years ago
if (!txn || txn->mt_dbxs) /* A reset txn has mt_dbxs==NULL */
return EINVAL;
14 years ago
if (txn->mt_env->me_flags & MDB_FATAL_ERROR) {
DPUTS("environment had fatal error, must shutdown!");
return MDB_PANIC;
}
rc = mdb_txn_renew0(txn);
if (rc == MDB_SUCCESS) {
DPRINTF(("renew txn %"Z"u%c %p on mdbenv %p, root page %"Z"u",
txn->mt_txnid, (txn->mt_flags & MDB_TXN_RDONLY) ? 'r' : 'w',
(void *)txn, (void *)txn->mt_env, txn->mt_dbs[MAIN_DBI].md_root));
}
return rc;
}
int
mdb_txn_begin(MDB_env *env, MDB_txn *parent, unsigned int flags, MDB_txn **ret)
{
MDB_txn *txn;
MDB_ntxn *ntxn;
int rc, size, tsize = sizeof(MDB_txn);
if (env->me_flags & MDB_FATAL_ERROR) {
DPUTS("environment had fatal error, must shutdown!");
return MDB_PANIC;
}
if ((env->me_flags & MDB_RDONLY) && !(flags & MDB_RDONLY))
return EACCES;
if (parent) {
/* Nested transactions: Max 1 child, write txns only, no writemap */
if (parent->mt_child ||
(flags & MDB_RDONLY) ||
(parent->mt_flags & (MDB_TXN_RDONLY|MDB_TXN_ERROR)) ||
(env->me_flags & MDB_WRITEMAP))
{
return (parent->mt_flags & MDB_TXN_RDONLY) ? EINVAL : MDB_BAD_TXN;
}
tsize = sizeof(MDB_ntxn);
}
size = tsize + env->me_maxdbs * (sizeof(MDB_db)+1);
if (!(flags & MDB_RDONLY))
size += env->me_maxdbs * sizeof(MDB_cursor *);
if ((txn = calloc(1, size)) == NULL) {
DPRINTF(("calloc: %s", strerror(ErrCode())));
return ENOMEM;
}
txn->mt_dbs = (MDB_db *) ((char *)txn + tsize);
if (flags & MDB_RDONLY) {
txn->mt_flags |= MDB_TXN_RDONLY;
txn->mt_dbflags = (unsigned char *)(txn->mt_dbs + env->me_maxdbs);
} else {
txn->mt_cursors = (MDB_cursor **)(txn->mt_dbs + env->me_maxdbs);
txn->mt_dbflags = (unsigned char *)(txn->mt_cursors + env->me_maxdbs);
}
txn->mt_env = env;
if (parent) {
unsigned int i;
txn->mt_u.dirty_list = malloc(sizeof(MDB_ID2)*MDB_IDL_UM_SIZE);
if (!txn->mt_u.dirty_list ||
!(txn->mt_free_pgs = mdb_midl_alloc(MDB_IDL_UM_MAX)))
{
free(txn->mt_u.dirty_list);
free(txn);
return ENOMEM;
}
txn->mt_txnid = parent->mt_txnid;
txn->mt_dirty_room = parent->mt_dirty_room;
txn->mt_u.dirty_list[0].mid = 0;
txn->mt_spill_pgs = NULL;
txn->mt_next_pgno = parent->mt_next_pgno;
parent->mt_child = txn;
txn->mt_parent = parent;
txn->mt_numdbs = parent->mt_numdbs;
txn->mt_flags = parent->mt_flags;
txn->mt_dbxs = parent->mt_dbxs;
memcpy(txn->mt_dbs, parent->mt_dbs, txn->mt_numdbs * sizeof(MDB_db));
/* Copy parent's mt_dbflags, but clear DB_NEW */
for (i=0; i<txn->mt_numdbs; i++)
txn->mt_dbflags[i] = parent->mt_dbflags[i] & ~DB_NEW;
rc = 0;
ntxn = (MDB_ntxn *)txn;
ntxn->mnt_pgstate = env->me_pgstate; /* save parent me_pghead & co */
if (env->me_pghead) {
size = MDB_IDL_SIZEOF(env->me_pghead);
env->me_pghead = mdb_midl_alloc(env->me_pghead[0]);
if (env->me_pghead)
memcpy(env->me_pghead, ntxn->mnt_pgstate.mf_pghead, size);
else
rc = ENOMEM;
}
if (!rc)
rc = mdb_cursor_shadow(parent, txn);
if (rc)
mdb_txn_reset0(txn, "beginchild-fail");
} else {
rc = mdb_txn_renew0(txn);
}
if (rc)
free(txn);
else {
*ret = txn;
DPRINTF(("begin txn %"Z"u%c %p on mdbenv %p, root page %"Z"u",
txn->mt_txnid, (txn->mt_flags & MDB_TXN_RDONLY) ? 'r' : 'w',
(void *) txn, (void *) env, txn->mt_dbs[MAIN_DBI].md_root));
}
return rc;
}
14 years ago
MDB_env *
mdb_txn_env(MDB_txn *txn)
{
if(!txn) return NULL;
return txn->mt_env;
}
/** Export or close DBI handles opened in this txn. */
static void
mdb_dbis_update(MDB_txn *txn, int keep)
{
int i;
MDB_dbi n = txn->mt_numdbs;
MDB_env *env = txn->mt_env;
unsigned char *tdbflags = txn->mt_dbflags;
for (i = n; --i >= 2;) {
if (tdbflags[i] & DB_NEW) {
if (keep) {
env->me_dbflags[i] = txn->mt_dbs[i].md_flags | MDB_VALID;
} else {
char *ptr = env->me_dbxs[i].md_name.mv_data;
env->me_dbxs[i].md_name.mv_data = NULL;
env->me_dbxs[i].md_name.mv_size = 0;
env->me_dbflags[i] = 0;
free(ptr);
}
}
}
if (keep && env->me_numdbs < n)
env->me_numdbs = n;
}
13 years ago
/** Common code for #mdb_txn_reset() and #mdb_txn_abort().
* May be called twice for readonly txns: First reset it, then abort.
13 years ago
* @param[in] txn the transaction handle to reset
11 years ago
* @param[in] act why the transaction is being reset
13 years ago
*/
static void
mdb_txn_reset0(MDB_txn *txn, const char *act)
{
MDB_env *env = txn->mt_env;
/* Close any DBI handles opened in this txn */
mdb_dbis_update(txn, 0);
DPRINTF(("%s txn %"Z"u%c %p on mdbenv %p, root page %"Z"u",
act, txn->mt_txnid, (txn->mt_flags & MDB_TXN_RDONLY) ? 'r' : 'w',
(void *) txn, (void *)env, txn->mt_dbs[MAIN_DBI].md_root));
if (F_ISSET(txn->mt_flags, MDB_TXN_RDONLY)) {
if (txn->mt_u.reader) {
txn->mt_u.reader->mr_txnid = (txnid_t)-1;
if (!(env->me_flags & MDB_NOTLS))
txn->mt_u.reader = NULL; /* txn does not own reader */
}
txn->mt_numdbs = 0; /* close nothing if called again */
txn->mt_dbxs = NULL; /* mark txn as reset */
} else {
mdb_cursors_close(txn, 0);
if (!(env->me_flags & MDB_WRITEMAP)) {
mdb_dlist_free(txn);
}
mdb_midl_free(env->me_pghead);
if (txn->mt_parent) {
txn->mt_parent->mt_child = NULL;
env->me_pgstate = ((MDB_ntxn *)txn)->mnt_pgstate;
mdb_midl_free(txn->mt_free_pgs);
mdb_midl_free(txn->mt_spill_pgs);
free(txn->mt_u.dirty_list);
return;
}
if (mdb_midl_shrink(&txn->mt_free_pgs))
env->me_free_pgs = txn->mt_free_pgs;
env->me_pghead = NULL;
env->me_pglast = 0;
env->me_txn = NULL;
13 years ago
/* The writer mutex was locked in mdb_txn_begin. */
if (env->me_txns)
UNLOCK_MUTEX_W(env);
14 years ago
}
}
14 years ago
void
mdb_txn_reset(MDB_txn *txn)
{
if (txn == NULL)
return;
/* This call is only valid for read-only txns */
if (!(txn->mt_flags & MDB_TXN_RDONLY))
return;
mdb_txn_reset0(txn, "reset");
}
void
mdb_txn_abort(MDB_txn *txn)
{
if (txn == NULL)
return;
if (txn->mt_child)
mdb_txn_abort(txn->mt_child);
mdb_txn_reset0(txn, "abort");
/* Free reader slot tied to this txn (if MDB_NOTLS && writable FS) */
if ((txn->mt_flags & MDB_TXN_RDONLY) && txn->mt_u.reader)
txn->mt_u.reader->mr_pid = 0;
14 years ago
free(txn);
}
/** Save the freelist as of this transaction to the freeDB.
* This changes the freelist. Keep trying until it stabilizes.
*/
static int
mdb_freelist_save(MDB_txn *txn)
{
/* env->me_pghead[] can grow and shrink during this call.
* env->me_pglast and txn->mt_free_pgs[] can only grow.
* Page numbers cannot disappear from txn->mt_free_pgs[].
*/
MDB_cursor mc;
MDB_env *env = txn->mt_env;
int rc, maxfree_1pg = env->me_maxfree_1pg, more = 1;
txnid_t pglast = 0, head_id = 0;
pgno_t freecnt = 0, *free_pgs, *mop;
ssize_t head_room = 0, total_room = 0, mop_len, clean_limit;
mdb_cursor_init(&mc, txn, FREE_DBI, NULL);
if (env->me_pghead) {
/* Make sure first page of freeDB is touched and on freelist */
rc = mdb_page_search(&mc, NULL, MDB_PS_FIRST|MDB_PS_MODIFY);
if (rc && rc != MDB_NOTFOUND)
return rc;
}
/* Dispose of loose pages. Usually they will have all
* been used up by the time we get here.
*/
if (env->me_pgloose) {
MDB_page *mp = env->me_pgloose;
pgno_t *pp;
/* Just return them to freeDB */
if (env->me_pghead) {
int i, j;
mop = env->me_pghead;
while(mp) {
pgno_t pg;
pp = (pgno_t *)mp->mp_ptrs;
pg = *pp;
j = mop[0] + 1;
for (i = mop[0]; i && mop[i] < pg; i--)
mop[j--] = mop[i];
mop[j] = pg;
mop[0] += 1;
mp = mp->mp_next;
}
} else {
/* Oh well, they were wasted. Put on freelist */
while(mp) {
pp = (pgno_t *)mp->mp_ptrs;
mdb_midl_append(&txn->mt_free_pgs, *pp);
mp = mp->mp_next;
}
}
env->me_pgloose = NULL;
}
/* MDB_RESERVE cancels meminit in ovpage malloc (when no WRITEMAP) */
clean_limit = (env->me_flags & (MDB_NOMEMINIT|MDB_WRITEMAP))
? SSIZE_MAX : maxfree_1pg;
for (;;) {
/* Come back here after each Put() in case freelist changed */
MDB_val key, data;
pgno_t *pgs;
ssize_t j;
/* If using records from freeDB which we have not yet
* deleted, delete them and any we reserved for me_pghead.
*/
while (pglast < env->me_pglast) {
rc = mdb_cursor_first(&mc, &key, NULL);
if (rc)
return rc;
pglast = head_id = *(txnid_t *)key.mv_data;
total_room = head_room = 0;
mdb_tassert(txn, pglast <= env->me_pglast);
rc = mdb_cursor_del(&mc, 0);
if (rc)
return rc;
}
/* Save the IDL of pages freed by this txn, to a single record */
if (freecnt < txn->mt_free_pgs[0]) {
if (!freecnt) {
/* Make sure last page of freeDB is touched and on freelist */
rc = mdb_page_search(&mc, NULL, MDB_PS_LAST|MDB_PS_MODIFY);
if (rc && rc != MDB_NOTFOUND)
return rc;
}
free_pgs = txn->mt_free_pgs;
/* Write to last page of freeDB */
key.mv_size = sizeof(txn->mt_txnid);
key.mv_data = &txn->mt_txnid;
do {
freecnt = free_pgs[0];
data.mv_size = MDB_IDL_SIZEOF(free_pgs);
rc = mdb_cursor_put(&mc, &key, &data, MDB_RESERVE);
if (rc)
return rc;
/* Retry if mt_free_pgs[] grew during the Put() */
free_pgs = txn->mt_free_pgs;
} while (freecnt < free_pgs[0]);
mdb_midl_sort(free_pgs);
memcpy(data.mv_data, free_pgs, data.mv_size);
#if (MDB_DEBUG) > 1
{
unsigned int i = free_pgs[0];
DPRINTF(("IDL write txn %"Z"u root %"Z"u num %u",
txn->mt_txnid, txn->mt_dbs[FREE_DBI].md_root, i));
for (; i; i--)
DPRINTF(("IDL %"Z"u", free_pgs[i]));
}
#endif
continue;
}
mop = env->me_pghead;
mop_len = mop ? mop[0] : 0;
/* Reserve records for me_pghead[]. Split it if multi-page,
* to avoid searching freeDB for a page range. Use keys in
* range [1,me_pglast]: Smaller than txnid of oldest reader.
*/
if (total_room >= mop_len) {
if (total_room == mop_len || --more < 0)
break;
} else if (head_room >= maxfree_1pg && head_id > 1) {
/* Keep current record (overflow page), add a new one */
head_id--;
head_room = 0;
}
/* (Re)write {key = head_id, IDL length = head_room} */
total_room -= head_room;
head_room = mop_len - total_room;
if (head_room > maxfree_1pg && head_id > 1) {
/* Overflow multi-page for part of me_pghead */
head_room /= head_id; /* amortize page sizes */
head_room += maxfree_1pg - head_room % (maxfree_1pg + 1);
} else if (head_room < 0) {
/* Rare case, not bothering to delete this record */
head_room = 0;
}
key.mv_size = sizeof(head_id);
key.mv_data = &head_id;
data.mv_size = (head_room + 1) * sizeof(pgno_t);
rc = mdb_cursor_put(&mc, &key, &data, MDB_RESERVE);
if (rc)
return rc;
/* IDL is initially empty, zero out at least the length */
pgs = (pgno_t *)data.mv_data;
j = head_room > clean_limit ? head_room : 0;
do {
pgs[j] = 0;
} while (--j >= 0);
total_room += head_room;
}
/* Fill in the reserved me_pghead records */
rc = MDB_SUCCESS;
if (mop_len) {
MDB_val key, data;
mop += mop_len;
rc = mdb_cursor_first(&mc, &key, &data);
for (; !rc; rc = mdb_cursor_next(&mc, &key, &data, MDB_NEXT)) {
txnid_t id = *(txnid_t *)key.mv_data;
ssize_t len = (ssize_t)(data.mv_size / sizeof(MDB_ID)) - 1;
MDB_ID save;
mdb_tassert(txn, len >= 0 && id <= env->me_pglast);
key.mv_data = &id;
if (len > mop_len) {
len = mop_len;
data.mv_size = (len + 1) * sizeof(MDB_ID);
}
data.mv_data = mop -= len;
save = mop[0];
mop[0] = len;
rc = mdb_cursor_put(&mc, &key, &data, MDB_CURRENT);
mop[0] = save;
if (rc || !(mop_len -= len))
break;
}
}
return rc;
}
/** Flush (some) dirty pages to the map, after clearing their dirty flag.
* @param[in] txn the transaction that's being committed
* @param[in] keep number of initial pages in dirty_list to keep dirty.
* @return 0 on success, non-zero on failure.
*/
static int
mdb_page_flush(MDB_txn *txn, int keep)
{
MDB_env *env = txn->mt_env;
MDB_ID2L dl = txn->mt_u.dirty_list;
unsigned psize = env->me_psize, j;
int i, pagecount = dl[0].mid, rc;
size_t size = 0, pos = 0;
pgno_t pgno = 0;
MDB_page *dp = NULL;
#ifdef _WIN32
OVERLAPPED ov;
#else
struct iovec iov[MDB_COMMIT_PAGES];
ssize_t wpos = 0, wsize = 0, wres;
size_t next_pos = 1; /* impossible pos, so pos != next_pos */
int n = 0;
#endif
j = i = keep;
if (env->me_flags & MDB_WRITEMAP) {
/* Clear dirty flags */
while (++i <= pagecount) {
dp = dl[i].mptr;
/* Don't flush this page yet */
if (dp->mp_flags & P_KEEP) {
dp->mp_flags ^= P_KEEP;
dl[++j] = dl[i];
continue;
}
dp->mp_flags &= ~P_DIRTY;
}
goto done;
}
/* Write the pages */
for (;;) {
if (++i <= pagecount) {
dp = dl[i].mptr;
/* Don't flush this page yet */
if (dp->mp_flags & P_KEEP) {
dp->mp_flags ^= P_KEEP;
dl[i].mid = 0;
continue;
}
pgno = dl[i].mid;
/* clear dirty flag */
dp->mp_flags &= ~P_DIRTY;
pos = pgno * psize;
size = psize;
if (IS_OVERFLOW(dp)) size *= dp->mp_pages;
}
#ifdef _WIN32
else break;
/* Windows actually supports scatter/gather I/O, but only on
* unbuffered file handles. Since we're relying on the OS page
* cache for all our data, that's self-defeating. So we just
* write pages one at a time. We use the ov structure to set
* the write offset, to at least save the overhead of a Seek
* system call.
*/
DPRINTF(("committing page %"Z"u", pgno));
memset(&ov, 0, sizeof(ov));
ov.Offset = pos & 0xffffffff;
ov.OffsetHigh = pos >> 16 >> 16;
if (!WriteFile(env->me_fd, dp, size, NULL, &ov)) {
rc = ErrCode();
DPRINTF(("WriteFile: %d", rc));
return rc;
}
#else
/* Write up to MDB_COMMIT_PAGES dirty pages at a time. */
if (pos!=next_pos || n==MDB_COMMIT_PAGES || wsize+size>MAX_WRITE) {
if (n) {
/* Write previous page(s) */
#ifdef MDB_USE_PWRITEV
wres = pwritev(env->me_fd, iov, n, wpos);
#else
if (n == 1) {
wres = pwrite(env->me_fd, iov[0].iov_base, wsize, wpos);
} else {
if (lseek(env->me_fd, wpos, SEEK_SET) == -1) {
rc = ErrCode();
DPRINTF(("lseek: %s", strerror(rc)));
return rc;
}
wres = writev(env->me_fd, iov, n);
}
#endif
if (wres != wsize) {
if (wres < 0) {
rc = ErrCode();
DPRINTF(("Write error: %s", strerror(rc)));
} else {
rc = EIO; /* TODO: Use which error code? */
DPUTS("short write, filesystem full?");
}
return rc;
}
n = 0;
}
if (i > pagecount)
break;
wpos = pos;
wsize = 0;
}
DPRINTF(("committing page %"Z"u", pgno));
next_pos = pos + size;
iov[n].iov_len = size;
iov[n].iov_base = (char *)dp;
wsize += size;
n++;
#endif /* _WIN32 */
}
for (i = keep; ++i <= pagecount; ) {
dp = dl[i].mptr;
/* This is a page we skipped above */
if (!dl[i].mid) {
dl[++j] = dl[i];
dl[j].mid = dp->mp_pgno;
continue;
}
mdb_dpage_free(env, dp);
}
done:
i--;
txn->mt_dirty_room += i - j;
dl[0].mid = j;
return MDB_SUCCESS;
}
14 years ago
int
mdb_txn_commit(MDB_txn *txn)
{
int rc;
13 years ago
unsigned int i;
14 years ago
MDB_env *env;
if (txn == NULL || txn->mt_env == NULL)
return EINVAL;
14 years ago
if (txn->mt_child) {
rc = mdb_txn_commit(txn->mt_child);
txn->mt_child = NULL;
if (rc)
goto fail;
}
14 years ago
env = txn->mt_env;
if (F_ISSET(txn->mt_flags, MDB_TXN_RDONLY)) {
mdb_dbis_update(txn, 1);
txn->mt_numdbs = 2; /* so txn_abort() doesn't close any new handles */
14 years ago
mdb_txn_abort(txn);
return MDB_SUCCESS;
14 years ago
}
if (F_ISSET(txn->mt_flags, MDB_TXN_ERROR)) {
DPUTS("error flag is set, can't commit");
if (txn->mt_parent)
txn->mt_parent->mt_flags |= MDB_TXN_ERROR;
rc = MDB_BAD_TXN;
goto fail;
14 years ago
}
if (txn->mt_parent) {
MDB_txn *parent = txn->mt_parent;
MDB_ID2L dst, src;
MDB_IDL pspill;
unsigned x, y, len, ps_len;
/* Append our free list to parent's */
rc = mdb_midl_append_list(&parent->mt_free_pgs, txn->mt_free_pgs);
if (rc)
goto fail;
mdb_midl_free(txn->mt_free_pgs);
/* Failures after this must either undo the changes
* to the parent or set MDB_TXN_ERROR in the parent.
*/
parent->mt_next_pgno = txn->mt_next_pgno;
parent->mt_flags = txn->mt_flags;
/* Merge our cursors into parent's and close them */
mdb_cursors_close(txn, 1);
12 years ago
/* Update parent's DB table. */
memcpy(parent->mt_dbs, txn->mt_dbs, txn->mt_numdbs * sizeof(MDB_db));
12 years ago
parent->mt_numdbs = txn->mt_numdbs;
parent->mt_dbflags[0] = txn->mt_dbflags[0];
parent->mt_dbflags[1] = txn->mt_dbflags[1];
for (i=2; i<txn->mt_numdbs; i++) {
/* preserve parent's DB_NEW status */
12 years ago
x = parent->mt_dbflags[i] & DB_NEW;
parent->mt_dbflags[i] = txn->mt_dbflags[i] | x;
}
12 years ago
dst = parent->mt_u.dirty_list;
src = txn->mt_u.dirty_list;
/* Remove anything in our dirty list from parent's spill list */
if ((pspill = parent->mt_spill_pgs) && (ps_len = pspill[0])) {
x = y = ps_len;
pspill[0] = (pgno_t)-1;
/* Mark our dirty pages as deleted in parent spill list */
for (i=0, len=src[0].mid; ++i <= len; ) {
MDB_ID pn = src[i].mid << 1;
while (pn > pspill[x])
x--;
if (pn == pspill[x]) {
pspill[x] = 1;
y = --x;
}
}
/* Squash deleted pagenums if we deleted any */
for (x=y; ++x <= ps_len; )
if (!(pspill[x] & 1))
pspill[++y] = pspill[x];
pspill[0] = y;
}
/* Find len = length of merging our dirty list with parent's */
x = dst[0].mid;
dst[0].mid = 0; /* simplify loops */
if (parent->mt_parent) {
len = x + src[0].mid;
y = mdb_mid2l_search(src, dst[x].mid + 1) - 1;
for (i = x; y && i; y--) {
pgno_t yp = src[y].mid;
while (yp < dst[i].mid)
i--;
if (yp == dst[i].mid) {
i--;
len--;
}
}
} else { /* Simplify the above for single-ancestor case */
len = MDB_IDL_UM_MAX - txn->mt_dirty_room;
}
/* Merge our dirty list with parent's */
y = src[0].mid;
for (i = len; y; dst[i--] = src[y--]) {
pgno_t yp = src[y].mid;
while (yp < dst[x].mid)
dst[i--] = dst[x--];
if (yp == dst[x].mid)
free(dst[x--].mptr);
}
mdb_tassert(txn, i == x);
dst[0].mid = len;
free(txn->mt_u.dirty_list);
parent->mt_dirty_room = txn->mt_dirty_room;
if (txn->mt_spill_pgs) {
if (parent->mt_spill_pgs) {
/* TODO: Prevent failure here, so parent does not fail */
rc = mdb_midl_append_list(&parent->mt_spill_pgs, txn->mt_spill_pgs);
if (rc)
parent->mt_flags |= MDB_TXN_ERROR;
mdb_midl_free(txn->mt_spill_pgs);
mdb_midl_sort(parent->mt_spill_pgs);
} else {
parent->mt_spill_pgs = txn->mt_spill_pgs;
}
}
12 years ago
parent->mt_child = NULL;
mdb_midl_free(((MDB_ntxn *)txn)->mnt_pgstate.mf_pghead);
free(txn);
return rc;
}
if (txn != env->me_txn) {
DPUTS("attempt to commit unknown transaction");
rc = EINVAL;
goto fail;
14 years ago
}
mdb_cursors_close(txn, 0);
if (!txn->mt_u.dirty_list[0].mid &&
!(txn->mt_flags & (MDB_TXN_DIRTY|MDB_TXN_SPILLS)))
14 years ago
goto done;
DPRINTF(("committing txn %"Z"u %p on mdbenv %p, root page %"Z"u",
txn->mt_txnid, (void*)txn, (void*)env, txn->mt_dbs[MAIN_DBI].md_root));
13 years ago
/* Update DB root pointers */
12 years ago
if (txn->mt_numdbs > 2) {
MDB_cursor mc;
MDB_dbi i;
MDB_val data;
data.mv_size = sizeof(MDB_db);
mdb_cursor_init(&mc, txn, MAIN_DBI, NULL);
for (i = 2; i < txn->mt_numdbs; i++) {
if (txn->mt_dbflags[i] & DB_DIRTY) {
data.mv_data = &txn->mt_dbs[i];
rc = mdb_cursor_put(&mc, &txn->mt_dbxs[i].md_name, &data, 0);
if (rc)
goto fail;
}
}
}
rc = mdb_freelist_save(txn);
if (rc)
goto fail;
mdb_midl_free(env->me_pghead);
env->me_pghead = NULL;
if (mdb_midl_shrink(&txn->mt_free_pgs))
env->me_free_pgs = txn->mt_free_pgs;
#if (MDB_DEBUG) > 2
mdb_audit(txn);
#endif
14 years ago
if ((rc = mdb_page_flush(txn, 0)) ||
(rc = mdb_env_sync(env, 0)) ||
(rc = mdb_env_write_meta(txn)))
goto fail;
14 years ago
done:
env->me_pglast = 0;
env->me_txn = NULL;
mdb_dbis_update(txn, 1);
if (env->me_txns)
UNLOCK_MUTEX_W(env);
free(txn);
14 years ago
return MDB_SUCCESS;
fail:
mdb_txn_abort(txn);
return rc;
14 years ago
}
13 years ago
/** Read the environment parameters of a DB environment before
* mapping it into memory.
* @param[in] env the environment handle
* @param[out] meta address of where to store the meta information
* @return 0 on success, non-zero on failure.
*/
14 years ago
static int
mdb_env_read_header(MDB_env *env, MDB_meta *meta)
14 years ago
{
MDB_metabuf pbuf;
14 years ago
MDB_page *p;
MDB_meta *m;
int i, rc, off;
enum { Size = sizeof(pbuf) };
14 years ago
/* We don't know the page size yet, so use a minimum value.
* Read both meta pages so we can use the latest one.
14 years ago
*/
for (i=off=0; i<2; i++, off = meta->mm_psize) {
#ifdef _WIN32
DWORD len;
OVERLAPPED ov;
memset(&ov, 0, sizeof(ov));
ov.Offset = off;
rc = ReadFile(env->me_fd, &pbuf, Size, &len, &ov) ? (int)len : -1;
if (rc == -1 && ErrCode() == ERROR_HANDLE_EOF)
rc = 0;
#else
rc = pread(env->me_fd, &pbuf, Size, off);
#endif
if (rc != Size) {
if (rc == 0 && off == 0)
return ENOENT;
rc = rc < 0 ? (int) ErrCode() : MDB_INVALID;
DPRINTF(("read: %s", mdb_strerror(rc)));
return rc;
}
14 years ago
p = (MDB_page *)&pbuf;
14 years ago
if (!F_ISSET(p->mp_flags, P_META)) {
DPRINTF(("page %"Z"u not a meta page", p->mp_pgno));
return MDB_INVALID;
}
14 years ago
m = METADATA(p);
if (m->mm_magic != MDB_MAGIC) {
DPUTS("meta has invalid magic");
return MDB_INVALID;
}
14 years ago
if (m->mm_version != MDB_DATA_VERSION) {
DPRINTF(("database is version %u, expected version %u",
m->mm_version, MDB_DATA_VERSION));
return MDB_VERSION_MISMATCH;
}
14 years ago
if (off == 0 || m->mm_txnid > meta->mm_txnid)
*meta = *m;
}
14 years ago
return 0;
}
13 years ago
/** Write the environment parameters of a freshly created DB environment.
* @param[in] env the environment handle
* @param[out] meta address of where to store the meta information
* @return 0 on success, non-zero on failure.
*/
14 years ago
static int
mdb_env_init_meta(MDB_env *env, MDB_meta *meta)
14 years ago
{
MDB_page *p, *q;
int rc;
unsigned int psize;
#ifdef _WIN32
DWORD len;
OVERLAPPED ov;
memset(&ov, 0, sizeof(ov));
#define DO_PWRITE(rc, fd, ptr, size, len, pos) do { \
ov.Offset = pos; \
rc = WriteFile(fd, ptr, size, &len, &ov); } while(0)
#else
int len;
#define DO_PWRITE(rc, fd, ptr, size, len, pos) do { \
len = pwrite(fd, ptr, size, pos); \
rc = (len >= 0); } while(0)
#endif
14 years ago
DPUTS("writing new meta page");
psize = env->me_psize;
13 years ago
meta->mm_magic = MDB_MAGIC;
meta->mm_version = MDB_DATA_VERSION;
meta->mm_mapsize = env->me_mapsize;
13 years ago
meta->mm_psize = psize;
meta->mm_last_pg = 1;
meta->mm_flags = env->me_flags & 0xffff;
meta->mm_flags |= MDB_INTEGERKEY;
13 years ago
meta->mm_dbs[0].md_root = P_INVALID;
meta->mm_dbs[1].md_root = P_INVALID;
p = calloc(2, psize);
p->mp_pgno = 0;
p->mp_flags = P_META;
*(MDB_meta *)METADATA(p) = *meta;
14 years ago
q = (MDB_page *)((char *)p + psize);
q->mp_pgno = 1;
q->mp_flags = P_META;
*(MDB_meta *)METADATA(q) = *meta;
14 years ago
DO_PWRITE(rc, env->me_fd, p, psize * 2, len, 0);
if (!rc)
rc = ErrCode();
11 years ago
else if ((unsigned) len == psize * 2)
rc = MDB_SUCCESS;
else
rc = ENOSPC;
free(p);
return rc;
}
13 years ago
/** Update the environment info to commit a transaction.
* @param[in] txn the transaction that's being committed
* @return 0 on success, non-zero on failure.
*/
static int
mdb_env_write_meta(MDB_txn *txn)
{
MDB_env *env;
MDB_meta meta, metab, *mp;
off_t off;
int rc, len, toggle;
char *ptr;
HANDLE mfd;
#ifdef _WIN32
OVERLAPPED ov;
#else
int r2;
#endif
14 years ago
toggle = txn->mt_txnid & 1;
DPRINTF(("writing meta page %d for root page %"Z"u",
toggle, txn->mt_dbs[MAIN_DBI].md_root));
env = txn->mt_env;
mp = env->me_metas[toggle];
if (env->me_flags & MDB_WRITEMAP) {
/* Persist any increases of mapsize config */
if (env->me_mapsize > mp->mm_mapsize)
mp->mm_mapsize = env->me_mapsize;
mp->mm_dbs[0] = txn->mt_dbs[0];
mp->mm_dbs[1] = txn->mt_dbs[1];
mp->mm_last_pg = txn->mt_next_pgno - 1;
mp->mm_txnid = txn->mt_txnid;
if (!(env->me_flags & (MDB_NOMETASYNC|MDB_NOSYNC))) {
unsigned meta_size = env->me_psize;
rc = (env->me_flags & MDB_MAPASYNC) ? MS_ASYNC : MS_SYNC;
ptr = env->me_map;
if (toggle) {
#ifndef _WIN32 /* POSIX msync() requires ptr = start of OS page */
if (meta_size < env->me_os_psize)
meta_size += meta_size;
else
#endif
ptr += meta_size;
}
if (MDB_MSYNC(ptr, meta_size, rc)) {
rc = ErrCode();
goto fail;
}
}
goto done;
}
metab.mm_txnid = env->me_metas[toggle]->mm_txnid;
metab.mm_last_pg = env->me_metas[toggle]->mm_last_pg;
ptr = (char *)&meta;
if (env->me_mapsize > mp->mm_mapsize) {
/* Persist any increases of mapsize config */
meta.mm_mapsize = env->me_mapsize;
off = offsetof(MDB_meta, mm_mapsize);
} else {
off = offsetof(MDB_meta, mm_dbs[0].md_depth);
}
len = sizeof(MDB_meta) - off;
ptr += off;
13 years ago
meta.mm_dbs[0] = txn->mt_dbs[0];
meta.mm_dbs[1] = txn->mt_dbs[1];
meta.mm_last_pg = txn->mt_next_pgno - 1;
meta.mm_txnid = txn->mt_txnid;
if (toggle)
13 years ago
off += env->me_psize;
off += PAGEHDRSZ;
/* Write to the SYNC fd */
mfd = env->me_flags & (MDB_NOSYNC|MDB_NOMETASYNC) ?
env->me_fd : env->me_mfd;
#ifdef _WIN32
{
memset(&ov, 0, sizeof(ov));
ov.Offset = off;
if (!WriteFile(mfd, ptr, len, (DWORD *)&rc, &ov))
rc = -1;
}
#else
rc = pwrite(mfd, ptr, len, off);
#endif
if (rc != len) {
rc = rc < 0 ? ErrCode() : EIO;
DPUTS("write failed, disk error?");
/* On a failure, the pagecache still contains the new data.
* Write some old data back, to prevent it from being used.
* Use the non-SYNC fd; we know it will fail anyway.
*/
meta.mm_last_pg = metab.mm_last_pg;
meta.mm_txnid = metab.mm_txnid;
#ifdef _WIN32
memset(&ov, 0, sizeof(ov));
ov.Offset = off;
WriteFile(env->me_fd, ptr, len, NULL, &ov);
#else
r2 = pwrite(env->me_fd, ptr, len, off);
11 years ago
(void)r2; /* Silence warnings. We don't care about pwrite's return value */
#endif
fail:
env->me_flags |= MDB_FATAL_ERROR;
return rc;
14 years ago
}
done:
/* Memory ordering issues are irrelevant; since the entire writer
* is wrapped by wmutex, all of these changes will become visible
* after the wmutex is unlocked. Since the DB is multi-version,
* readers will get consistent data regardless of how fresh or
* how stale their view of these values is.
*/
if (env->me_txns)
env->me_txns->mti_txnid = txn->mt_txnid;
14 years ago
return MDB_SUCCESS;
}
13 years ago
/** Check both meta pages to see which one is newer.
* @param[in] env the environment handle
* @return meta toggle (0 or 1).
13 years ago
*/
14 years ago
static int
mdb_env_pick_meta(const MDB_env *env)
14 years ago
{
return (env->me_metas[0]->mm_txnid < env->me_metas[1]->mm_txnid);
14 years ago
}
int
mdb_env_create(MDB_env **env)
14 years ago
{
MDB_env *e;
e = calloc(1, sizeof(MDB_env));
if (!e)
return ENOMEM;
14 years ago
e->me_maxreaders = DEFAULT_READERS;
e->me_maxdbs = e->me_numdbs = 2;
e->me_fd = INVALID_HANDLE_VALUE;
e->me_lfd = INVALID_HANDLE_VALUE;
e->me_mfd = INVALID_HANDLE_VALUE;
#ifdef MDB_USE_POSIX_SEM
e->me_rmutex = SEM_FAILED;
e->me_wmutex = SEM_FAILED;
#endif
e->me_pid = getpid();
GET_PAGESIZE(e->me_os_psize);
VGMEMP_CREATE(e,0,0);
14 years ago
*env = e;
return MDB_SUCCESS;
}
static int
mdb_env_map(MDB_env *env, void *addr, int newsize)
{
MDB_page *p;
unsigned int flags = env->me_flags;
#ifdef _WIN32
int rc;
HANDLE mh;
LONG sizelo, sizehi;
sizelo = env->me_mapsize & 0xffffffff;
sizehi = env->me_mapsize >> 16 >> 16; /* only needed on Win64 */
/* Windows won't create mappings for zero length files.
* Just allocate the maxsize right now.
*/
if (newsize) {
if (SetFilePointer(env->me_fd, sizelo, &sizehi, 0) != (DWORD)sizelo
|| !SetEndOfFile(env->me_fd)
|| SetFilePointer(env->me_fd, 0, NULL, 0) != 0)
return ErrCode();
}
mh = CreateFileMapping(env->me_fd, NULL, flags & MDB_WRITEMAP ?
PAGE_READWRITE : PAGE_READONLY,
sizehi, sizelo, NULL);
if (!mh)
return ErrCode();
env->me_map = MapViewOfFileEx(mh, flags & MDB_WRITEMAP ?
FILE_MAP_WRITE : FILE_MAP_READ,
0, 0, env->me_mapsize, addr);
rc = env->me_map ? 0 : ErrCode();
CloseHandle(mh);
if (rc)
return rc;
#else
int prot = PROT_READ;
if (flags & MDB_WRITEMAP) {
prot |= PROT_WRITE;
if (ftruncate(env->me_fd, env->me_mapsize) < 0)
return ErrCode();
}
env->me_map = mmap(addr, env->me_mapsize, prot, MAP_SHARED,
env->me_fd, 0);
if (env->me_map == MAP_FAILED) {
env->me_map = NULL;
return ErrCode();
}
if (flags & MDB_NORDAHEAD) {
/* Turn off readahead. It's harmful when the DB is larger than RAM. */
#ifdef MADV_RANDOM
madvise(env->me_map, env->me_mapsize, MADV_RANDOM);
#else
#ifdef POSIX_MADV_RANDOM
posix_madvise(env->me_map, env->me_mapsize, POSIX_MADV_RANDOM);
#endif /* POSIX_MADV_RANDOM */
#endif /* MADV_RANDOM */
}
#endif /* _WIN32 */
/* Can happen because the address argument to mmap() is just a
* hint. mmap() can pick another, e.g. if the range is in use.
* The MAP_FIXED flag would prevent that, but then mmap could
* instead unmap existing pages to make room for the new map.
*/
if (addr && env->me_map != addr)
return EBUSY; /* TODO: Make a new MDB_* error code? */
p = (MDB_page *)env->me_map;
env->me_metas[0] = METADATA(p);
env->me_metas[1] = (MDB_meta *)((char *)env->me_metas[0] + env->me_psize);
return MDB_SUCCESS;
}
int
mdb_env_set_mapsize(MDB_env *env, size_t size)
{
/* If env is already open, caller is responsible for making
* sure there are no active txns.
*/
if (env->me_map) {
int rc;
void *old;
if (env->me_txn)
return EINVAL;
if (!size)
size = env->me_metas[mdb_env_pick_meta(env)]->mm_mapsize;
else if (size < env->me_mapsize) {
/* If the configured size is smaller, make sure it's
* still big enough. Silently round up to minimum if not.
*/
size_t minsize = (env->me_metas[mdb_env_pick_meta(env)]->mm_last_pg + 1) * env->me_psize;
if (size < minsize)
size = minsize;
}
munmap(env->me_map, env->me_mapsize);
env->me_mapsize = size;
old = (env->me_flags & MDB_FIXEDMAP) ? env->me_map : NULL;
rc = mdb_env_map(env, old, 1);
if (rc)
return rc;
}
13 years ago
env->me_mapsize = size;
if (env->me_psize)
env->me_maxpg = env->me_mapsize / env->me_psize;
13 years ago
return MDB_SUCCESS;
}
int
mdb_env_set_maxdbs(MDB_env *env, MDB_dbi dbs)
13 years ago
{
if (env->me_map)
return EINVAL;
env->me_maxdbs = dbs + 2; /* Named databases + main and free DB */
return MDB_SUCCESS;
}
int
mdb_env_set_maxreaders(MDB_env *env, unsigned int readers)
{
if (env->me_map || readers < 1)
return EINVAL;
env->me_maxreaders = readers;
return MDB_SUCCESS;
}
int
mdb_env_get_maxreaders(MDB_env *env, unsigned int *readers)
{
if (!env || !readers)
return EINVAL;
*readers = env->me_maxreaders;
return MDB_SUCCESS;
}
13 years ago
/** Further setup required for opening an MDB environment
*/
static int
mdb_env_open2(MDB_env *env)
14 years ago
{
unsigned int flags = env->me_flags;
int i, newenv = 0, rc;
13 years ago
MDB_meta meta;
#ifdef _WIN32
/* See if we should use QueryLimited */
rc = GetVersion();
if ((rc & 0xff) > 5)
env->me_pidquery = MDB_PROCESS_QUERY_LIMITED_INFORMATION;
else
env->me_pidquery = PROCESS_QUERY_INFORMATION;
#endif /* _WIN32 */
14 years ago
13 years ago
memset(&meta, 0, sizeof(meta));
if ((i = mdb_env_read_header(env, &meta)) != 0) {
14 years ago
if (i != ENOENT)
return i;
DPUTS("new mdbenv");
14 years ago
newenv = 1;
env->me_psize = env->me_os_psize;
if (env->me_psize > MAX_PAGESIZE)
env->me_psize = MAX_PAGESIZE;
} else {
env->me_psize = meta.mm_psize;
14 years ago
}
/* Was a mapsize configured? */
if (!env->me_mapsize) {
/* If this is a new environment, take the default,
* else use the size recorded in the existing env.
*/
env->me_mapsize = newenv ? DEFAULT_MAPSIZE : meta.mm_mapsize;
} else if (env->me_mapsize < meta.mm_mapsize) {
/* If the configured size is smaller, make sure it's
* still big enough. Silently round up to minimum if not.
*/
size_t minsize = (meta.mm_last_pg + 1) * meta.mm_psize;
if (env->me_mapsize < minsize)
env->me_mapsize = minsize;
}
rc = mdb_env_map(env, meta.mm_address, newenv || env->me_mapsize != meta.mm_mapsize);
if (rc)
return rc;
14 years ago
if (newenv) {
if (flags & MDB_FIXEDMAP)
13 years ago
meta.mm_address = env->me_map;
i = mdb_env_init_meta(env, &meta);
if (i != MDB_SUCCESS) {
return i;
}
14 years ago
}
env->me_maxfree_1pg = (env->me_psize - PAGEHDRSZ) / sizeof(pgno_t) - 1;
env->me_nodemax = (((env->me_psize - PAGEHDRSZ) / MDB_MINKEYS) & -2)
- sizeof(indx_t);
#if !(MDB_MAXKEYSIZE)
env->me_maxkey = env->me_nodemax - (NODESIZE + sizeof(MDB_db));
#endif
env->me_maxpg = env->me_mapsize / env->me_psize;
#if MDB_DEBUG
{
int toggle = mdb_env_pick_meta(env);
MDB_db *db = &env->me_metas[toggle]->mm_dbs[MAIN_DBI];
DPRINTF(("opened database version %u, pagesize %u",
env->me_metas[0]->mm_version, env->me_psize));
DPRINTF(("using meta page %d", toggle));
DPRINTF(("depth: %u", db->md_depth));
DPRINTF(("entries: %"Z"u", db->md_entries));
DPRINTF(("branch pages: %"Z"u", db->md_branch_pages));
DPRINTF(("leaf pages: %"Z"u", db->md_leaf_pages));
DPRINTF(("overflow pages: %"Z"u", db->md_overflow_pages));
DPRINTF(("root: %"Z"u", db->md_root));
}
#endif
14 years ago
return MDB_SUCCESS;
}
13 years ago
/** Release a reader thread's slot in the reader lock table.
* This function is called automatically when a thread exits.
* @param[in] ptr This points to the slot in the reader lock table.
*/
static void
mdb_env_reader_dest(void *ptr)
{
MDB_reader *reader = ptr;
reader->mr_pid = 0;
}
#ifdef _WIN32
/** Junk for arranging thread-specific callbacks on Windows. This is
* necessarily platform and compiler-specific. Windows supports up
* to 1088 keys. Let's assume nobody opens more than 64 environments
* in a single process, for now. They can override this if needed.
*/
#ifndef MAX_TLS_KEYS
#define MAX_TLS_KEYS 64
#endif
static pthread_key_t mdb_tls_keys[MAX_TLS_KEYS];
static int mdb_tls_nkeys;
static void NTAPI mdb_tls_callback(PVOID module, DWORD reason, PVOID ptr)
{
int i;
switch(reason) {
case DLL_PROCESS_ATTACH: break;
case DLL_THREAD_ATTACH: break;
case DLL_THREAD_DETACH:
for (i=0; i<mdb_tls_nkeys; i++) {
MDB_reader *r = pthread_getspecific(mdb_tls_keys[i]);
if (r) {
mdb_env_reader_dest(r);
}
}
break;
case DLL_PROCESS_DETACH: break;
}
}
#ifdef __GNUC__
#ifdef _WIN64
const PIMAGE_TLS_CALLBACK mdb_tls_cbp __attribute__((section (".CRT$XLB"))) = mdb_tls_callback;
#else
PIMAGE_TLS_CALLBACK mdb_tls_cbp __attribute__((section (".CRT$XLB"))) = mdb_tls_callback;
#endif
#else
#ifdef _WIN64
/* Force some symbol references.
* _tls_used forces the linker to create the TLS directory if not already done
* mdb_tls_cbp prevents whole-program-optimizer from dropping the symbol.
*/
#pragma comment(linker, "/INCLUDE:_tls_used")
#pragma comment(linker, "/INCLUDE:mdb_tls_cbp")
#pragma const_seg(".CRT$XLB")
extern const PIMAGE_TLS_CALLBACK mdb_tls_cbp;
const PIMAGE_TLS_CALLBACK mdb_tls_cbp = mdb_tls_callback;
#pragma const_seg()
#else /* WIN32 */
#pragma comment(linker, "/INCLUDE:__tls_used")
#pragma comment(linker, "/INCLUDE:_mdb_tls_cbp")
#pragma data_seg(".CRT$XLB")
PIMAGE_TLS_CALLBACK mdb_tls_cbp = mdb_tls_callback;
#pragma data_seg()
#endif /* WIN 32/64 */
#endif /* !__GNUC__ */
#endif
13 years ago
/** Downgrade the exclusive lock on the region back to shared */
static int
mdb_env_share_locks(MDB_env *env, int *excl)
14 years ago
{
int rc = 0, toggle = mdb_env_pick_meta(env);
env->me_txns->mti_txnid = env->me_metas[toggle]->mm_txnid;
#ifdef _WIN32
{
OVERLAPPED ov;
/* First acquire a shared lock. The Unlock will
* then release the existing exclusive lock.
*/
memset(&ov, 0, sizeof(ov));
if (!LockFileEx(env->me_lfd, 0, 0, 1, 0, &ov)) {
rc = ErrCode();
} else {
UnlockFile(env->me_lfd, 0, 0, 1, 0);
*excl = 0;
}
}
#else
{
struct flock lock_info;
/* The shared lock replaces the existing lock */
memset((void *)&lock_info, 0, sizeof(lock_info));
lock_info.l_type = F_RDLCK;
lock_info.l_whence = SEEK_SET;
lock_info.l_start = 0;
lock_info.l_len = 1;
while ((rc = fcntl(env->me_lfd, F_SETLK, &lock_info)) &&
(rc = ErrCode()) == EINTR) ;
*excl = rc ? -1 : 0; /* error may mean we lost the lock */
}
#endif
return rc;
}
/** Try to get exlusive lock, otherwise shared.
* Maintain *excl = -1: no/unknown lock, 0: shared, 1: exclusive.
*/
static int
mdb_env_excl_lock(MDB_env *env, int *excl)
{
int rc = 0;
#ifdef _WIN32
if (LockFile(env->me_lfd, 0, 0, 1, 0)) {
*excl = 1;
} else {
OVERLAPPED ov;
memset(&ov, 0, sizeof(ov));
if (LockFileEx(env->me_lfd, 0, 0, 1, 0, &ov)) {
*excl = 0;
} else {
rc = ErrCode();
}
}
#else
struct flock lock_info;
memset((void *)&lock_info, 0, sizeof(lock_info));
lock_info.l_type = F_WRLCK;
lock_info.l_whence = SEEK_SET;
lock_info.l_start = 0;
lock_info.l_len = 1;
while ((rc = fcntl(env->me_lfd, F_SETLK, &lock_info)) &&
(rc = ErrCode()) == EINTR) ;
if (!rc) {
*excl = 1;
} else
# ifdef MDB_USE_POSIX_SEM
if (*excl < 0) /* always true when !MDB_USE_POSIX_SEM */
# endif
{
lock_info.l_type = F_RDLCK;
while ((rc = fcntl(env->me_lfd, F_SETLKW, &lock_info)) &&
(rc = ErrCode()) == EINTR) ;
if (rc == 0)
*excl = 0;
}
#endif
return rc;
}
#ifdef MDB_USE_HASH
/*
* hash_64 - 64 bit Fowler/Noll/Vo-0 FNV-1a hash code
*
* @(#) $Revision: 5.1 $
* @(#) $Id: hash_64a.c,v 5.1 2009/06/30 09:01:38 chongo Exp $
* @(#) $Source: /usr/local/src/cmd/fnv/RCS/hash_64a.c,v $
*
* http://www.isthe.com/chongo/tech/comp/fnv/index.html
*
***
*
* Please do not copyright this code. This code is in the public domain.
*
* LANDON CURT NOLL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO
* EVENT SHALL LANDON CURT NOLL BE LIABLE FOR ANY SPECIAL, INDIRECT OR
* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF
* USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR
* OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
* PERFORMANCE OF THIS SOFTWARE.
*
* By:
* chongo <Landon Curt Noll> /\oo/\
* http://www.isthe.com/chongo/
*
* Share and Enjoy! :-)
*/
typedef unsigned long long mdb_hash_t;
#define MDB_HASH_INIT ((mdb_hash_t)0xcbf29ce484222325ULL)
/** perform a 64 bit Fowler/Noll/Vo FNV-1a hash on a buffer
11 years ago
* @param[in] val value to hash
* @param[in] hval initial value for hash
* @return 64 bit hash
*
* NOTE: To use the recommended 64 bit FNV-1a hash, use MDB_HASH_INIT as the
* hval arg on the first call.
*/
static mdb_hash_t
mdb_hash_val(MDB_val *val, mdb_hash_t hval)
{
unsigned char *s = (unsigned char *)val->mv_data; /* unsigned string */
unsigned char *end = s + val->mv_size;
/*
* FNV-1a hash each octet of the string
*/
while (s < end) {
/* xor the bottom with the current octet */
hval ^= (mdb_hash_t)*s++;
/* multiply by the 64 bit FNV magic prime mod 2^64 */
hval += (hval << 1) + (hval << 4) + (hval << 5) +
(hval << 7) + (hval << 8) + (hval << 40);
}
/* return our new hash value */
return hval;
}
/** Hash the string and output the encoded hash.
* This uses modified RFC1924 Ascii85 encoding to accommodate systems with
* very short name limits. We don't care about the encoding being reversible,
* we just want to preserve as many bits of the input as possible in a
* small printable string.
* @param[in] str string to hash
* @param[out] encbuf an array of 11 chars to hold the hash
*/
11 years ago
static const char mdb_a85[]= "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz!#$%&()*+-;<=>?@^_`{|}~";
static void
mdb_pack85(unsigned long l, char *out)
{
int i;
for (i=0; i<5; i++) {
*out++ = mdb_a85[l % 85];
l /= 85;
}
}
static void
mdb_hash_enc(MDB_val *val, char *encbuf)
{
mdb_hash_t h = mdb_hash_val(val, MDB_HASH_INIT);
mdb_pack85(h, encbuf);
mdb_pack85(h>>32, encbuf+5);
encbuf[10] = '\0';
}
#endif
13 years ago
/** Open and/or initialize the lock region for the environment.
* @param[in] env The MDB environment.
* @param[in] lpath The pathname of the file used for the lock region.
* @param[in] mode The Unix permissions for the file, if we create it.
* @param[out] excl Resulting file lock type: -1 none, 0 shared, 1 exclusive
* @param[in,out] excl In -1, out lock type: -1 none, 0 shared, 1 exclusive
13 years ago
* @return 0 on success, non-zero on failure.
*/
static int
mdb_env_setup_locks(MDB_env *env, char *lpath, int mode, int *excl)
{
#ifdef _WIN32
# define MDB_ERRCODE_ROFS ERROR_WRITE_PROTECT
#else
# define MDB_ERRCODE_ROFS EROFS
#ifdef O_CLOEXEC /* Linux: Open file and set FD_CLOEXEC atomically */
# define MDB_CLOEXEC O_CLOEXEC
#else
int fdflags;
# define MDB_CLOEXEC 0
#endif
#endif
int rc;
off_t size, rsize;
#ifdef _WIN32
env->me_lfd = CreateFile(lpath, GENERIC_READ|GENERIC_WRITE,
FILE_SHARE_READ|FILE_SHARE_WRITE, NULL, OPEN_ALWAYS,
FILE_ATTRIBUTE_NORMAL, NULL);
#else
env->me_lfd = open(lpath, O_RDWR|O_CREAT|MDB_CLOEXEC, mode);
#endif
if (env->me_lfd == INVALID_HANDLE_VALUE) {
rc = ErrCode();
if (rc == MDB_ERRCODE_ROFS && (env->me_flags & MDB_RDONLY)) {
return MDB_SUCCESS;
}
goto fail_errno;
}
#if ! ((MDB_CLOEXEC) || defined(_WIN32))
/* Lose record locks when exec*() */
if ((fdflags = fcntl(env->me_lfd, F_GETFD) | FD_CLOEXEC) >= 0)
fcntl(env->me_lfd, F_SETFD, fdflags);
#endif
if (!(env->me_flags & MDB_NOTLS)) {
rc = pthread_key_create(&env->me_txkey, mdb_env_reader_dest);
if (rc)
goto fail;
env->me_flags |= MDB_ENV_TXKEY;
#ifdef _WIN32
/* Windows TLS callbacks need help finding their TLS info. */
if (mdb_tls_nkeys >= MAX_TLS_KEYS) {
rc = MDB_TLS_FULL;
goto fail;
}
mdb_tls_keys[mdb_tls_nkeys++] = env->me_txkey;
#endif
}
/* Try to get exclusive lock. If we succeed, then
* nobody is using the lock region and we should initialize it.
*/
if ((rc = mdb_env_excl_lock(env, excl))) goto fail;
#ifdef _WIN32
size = GetFileSize(env->me_lfd, NULL);
#else
size = lseek(env->me_lfd, 0, SEEK_END);
if (size == -1) goto fail_errno;
#endif
rsize = (env->me_maxreaders-1) * sizeof(MDB_reader) + sizeof(MDB_txninfo);
if (size < rsize && *excl > 0) {
#ifdef _WIN32
if (SetFilePointer(env->me_lfd, rsize, NULL, FILE_BEGIN) != (DWORD)rsize
|| !SetEndOfFile(env->me_lfd))
goto fail_errno;
#else
if (ftruncate(env->me_lfd, rsize) != 0) goto fail_errno;
#endif
} else {
rsize = size;
size = rsize - sizeof(MDB_txninfo);
env->me_maxreaders = size/sizeof(MDB_reader) + 1;
}
{
#ifdef _WIN32
HANDLE mh;
mh = CreateFileMapping(env->me_lfd, NULL, PAGE_READWRITE,
0, 0, NULL);
if (!mh) goto fail_errno;
env->me_txns = MapViewOfFileEx(mh, FILE_MAP_WRITE, 0, 0, rsize, NULL);
CloseHandle(mh);
if (!env->me_txns) goto fail_errno;
#else
void *m = mmap(NULL, rsize, PROT_READ|PROT_WRITE, MAP_SHARED,
env->me_lfd, 0);
if (m == MAP_FAILED) goto fail_errno;
env->me_txns = m;
#endif
}
if (*excl > 0) {
#ifdef _WIN32
BY_HANDLE_FILE_INFORMATION stbuf;
struct {
DWORD volume;
DWORD nhigh;
DWORD nlow;
} idbuf;
MDB_val val;
char encbuf[11];
if (!mdb_sec_inited) {
InitializeSecurityDescriptor(&mdb_null_sd,
SECURITY_DESCRIPTOR_REVISION);
SetSecurityDescriptorDacl(&mdb_null_sd, TRUE, 0, FALSE);
mdb_all_sa.nLength = sizeof(SECURITY_ATTRIBUTES);
mdb_all_sa.bInheritHandle = FALSE;
mdb_all_sa.lpSecurityDescriptor = &mdb_null_sd;
mdb_sec_inited = 1;
}
if (!GetFileInformationByHandle(env->me_lfd, &stbuf)) goto fail_errno;
idbuf.volume = stbuf.dwVolumeSerialNumber;
idbuf.nhigh = stbuf.nFileIndexHigh;
idbuf.nlow = stbuf.nFileIndexLow;
val.mv_data = &idbuf;
val.mv_size = sizeof(idbuf);
mdb_hash_enc(&val, encbuf);
sprintf(env->me_txns->mti_rmname, "Global\\MDBr%s", encbuf);
sprintf(env->me_txns->mti_wmname, "Global\\MDBw%s", encbuf);
env->me_rmutex = CreateMutex(&mdb_all_sa, FALSE, env->me_txns->mti_rmname);
if (!env->me_rmutex) goto fail_errno;
env->me_wmutex = CreateMutex(&mdb_all_sa, FALSE, env->me_txns->mti_wmname);
if (!env->me_wmutex) goto fail_errno;
#elif defined(MDB_USE_POSIX_SEM)
struct stat stbuf;
struct {
dev_t dev;
ino_t ino;
} idbuf;
MDB_val val;
char encbuf[11];
#if defined(__NetBSD__)
#define MDB_SHORT_SEMNAMES 1 /* limited to 14 chars */
#endif
if (fstat(env->me_lfd, &stbuf)) goto fail_errno;
idbuf.dev = stbuf.st_dev;
idbuf.ino = stbuf.st_ino;
val.mv_data = &idbuf;
val.mv_size = sizeof(idbuf);
mdb_hash_enc(&val, encbuf);
#ifdef MDB_SHORT_SEMNAMES
encbuf[9] = '\0'; /* drop name from 15 chars to 14 chars */
#endif
sprintf(env->me_txns->mti_rmname, "/MDBr%s", encbuf);
sprintf(env->me_txns->mti_wmname, "/MDBw%s", encbuf);
/* Clean up after a previous run, if needed: Try to
* remove both semaphores before doing anything else.
*/
sem_unlink(env->me_txns->mti_rmname);
sem_unlink(env->me_txns->mti_wmname);
env->me_rmutex = sem_open(env->me_txns->mti_rmname,
O_CREAT|O_EXCL, mode, 1);
if (env->me_rmutex == SEM_FAILED) goto fail_errno;
env->me_wmutex = sem_open(env->me_txns->mti_wmname,
O_CREAT|O_EXCL, mode, 1);
if (env->me_wmutex == SEM_FAILED) goto fail_errno;
#else /* MDB_USE_POSIX_SEM */
pthread_mutexattr_t mattr;
if ((rc = pthread_mutexattr_init(&mattr))
|| (rc = pthread_mutexattr_setpshared(&mattr, PTHREAD_PROCESS_SHARED))
|| (rc = pthread_mutex_init(&env->me_txns->mti_mutex, &mattr))
|| (rc = pthread_mutex_init(&env->me_txns->mti_wmutex, &mattr)))
goto fail;
pthread_mutexattr_destroy(&mattr);
#endif /* _WIN32 || MDB_USE_POSIX_SEM */
env->me_txns->mti_magic = MDB_MAGIC;
env->me_txns->mti_format = MDB_LOCK_FORMAT;
env->me_txns->mti_txnid = 0;
env->me_txns->mti_numreaders = 0;
} else {
if (env->me_txns->mti_magic != MDB_MAGIC) {
DPUTS("lock region has invalid magic");
rc = MDB_INVALID;
goto fail;
}
if (env->me_txns->mti_format != MDB_LOCK_FORMAT) {
DPRINTF(("lock region has format+version 0x%x, expected 0x%x",
env->me_txns->mti_format, MDB_LOCK_FORMAT));
rc = MDB_VERSION_MISMATCH;
goto fail;
}
rc = ErrCode();
if (rc && rc != EACCES && rc != EAGAIN) {
goto fail;
}
#ifdef _WIN32
env->me_rmutex = OpenMutex(SYNCHRONIZE, FALSE, env->me_txns->mti_rmname);
if (!env->me_rmutex) goto fail_errno;
env->me_wmutex = OpenMutex(SYNCHRONIZE, FALSE, env->me_txns->mti_wmname);
if (!env->me_wmutex) goto fail_errno;
#elif defined(MDB_USE_POSIX_SEM)
env->me_rmutex = sem_open(env->me_txns->mti_rmname, 0);
if (env->me_rmutex == SEM_FAILED) goto fail_errno;
env->me_wmutex = sem_open(env->me_txns->mti_wmname, 0);
if (env->me_wmutex == SEM_FAILED) goto fail_errno;
#endif
}
return MDB_SUCCESS;
fail_errno:
rc = ErrCode();
fail:
return rc;
}
13 years ago
/** The name of the lock file in the DB environment */
#define LOCKNAME "/lock.mdb"
13 years ago
/** The name of the data file in the DB environment */
#define DATANAME "/data.mdb"
/** The suffix of the lock file when no subdir is used */
#define LOCKSUFF "-lock"
/** Only a subset of the @ref mdb_env flags can be changed
* at runtime. Changing other flags requires closing the
* environment and re-opening it with the new flags.
*/
#define CHANGEABLE (MDB_NOSYNC|MDB_NOMETASYNC|MDB_MAPASYNC|MDB_NOMEMINIT)
#define CHANGELESS (MDB_FIXEDMAP|MDB_NOSUBDIR|MDB_RDONLY|MDB_WRITEMAP| \
MDB_NOTLS|MDB_NOLOCK|MDB_NORDAHEAD)
#if VALID_FLAGS & PERSISTENT_FLAGS & (CHANGEABLE|CHANGELESS)
# error "Persistent DB flags & env flags overlap, but both go in mm_flags"
#endif
int
mdb_env_open(MDB_env *env, const char *path, unsigned int flags, mdb_mode_t mode)
{
int oflags, rc, len, excl = -1;
char *lpath, *dpath;
if (env->me_fd!=INVALID_HANDLE_VALUE || (flags & ~(CHANGEABLE|CHANGELESS)))
return EINVAL;
len = strlen(path);
if (flags & MDB_NOSUBDIR) {
rc = len + sizeof(LOCKSUFF) + len + 1;
} else {
rc = len + sizeof(LOCKNAME) + len + sizeof(DATANAME);
}
lpath = malloc(rc);
if (!lpath)
return ENOMEM;
if (flags & MDB_NOSUBDIR) {
dpath = lpath + len + sizeof(LOCKSUFF);
sprintf(lpath, "%s" LOCKSUFF, path);
strcpy(dpath, path);
} else {
dpath = lpath + len + sizeof(LOCKNAME);
sprintf(lpath, "%s" LOCKNAME, path);
sprintf(dpath, "%s" DATANAME, path);
}
rc = MDB_SUCCESS;
flags |= env->me_flags;
if (flags & MDB_RDONLY) {
/* silently ignore WRITEMAP when we're only getting read access */
flags &= ~MDB_WRITEMAP;
} else {
if (!((env->me_free_pgs = mdb_midl_alloc(MDB_IDL_UM_MAX)) &&
(env->me_dirty_list = calloc(MDB_IDL_UM_SIZE, sizeof(MDB_ID2)))))
rc = ENOMEM;
}
env->me_flags = flags |= MDB_ENV_ACTIVE;
if (rc)
goto leave;
env->me_path = strdup(path);
env->me_dbxs = calloc(env->me_maxdbs, sizeof(MDB_dbx));
env->me_dbflags = calloc(env->me_maxdbs, sizeof(uint16_t));
if (!(env->me_dbxs && env->me_path && env->me_dbflags)) {
rc = ENOMEM;
goto leave;
}
/* For RDONLY, get lockfile after we know datafile exists */
if (!(flags & (MDB_RDONLY|MDB_NOLOCK))) {
rc = mdb_env_setup_locks(env, lpath, mode, &excl);
if (rc)
goto leave;
}
#ifdef _WIN32
if (F_ISSET(flags, MDB_RDONLY)) {
oflags = GENERIC_READ;
len = OPEN_EXISTING;
} else {
oflags = GENERIC_READ|GENERIC_WRITE;
len = OPEN_ALWAYS;
}
mode = FILE_ATTRIBUTE_NORMAL;
env->me_fd = CreateFile(dpath, oflags, FILE_SHARE_READ|FILE_SHARE_WRITE,
NULL, len, mode, NULL);
#else
if (F_ISSET(flags, MDB_RDONLY))
oflags = O_RDONLY;
else
oflags = O_RDWR | O_CREAT;
env->me_fd = open(dpath, oflags, mode);
#endif
if (env->me_fd == INVALID_HANDLE_VALUE) {
rc = ErrCode();
goto leave;
}
if ((flags & (MDB_RDONLY|MDB_NOLOCK)) == MDB_RDONLY) {
rc = mdb_env_setup_locks(env, lpath, mode, &excl);
if (rc)
goto leave;
}
if ((rc = mdb_env_open2(env)) == MDB_SUCCESS) {
if (flags & (MDB_RDONLY|MDB_WRITEMAP)) {
env->me_mfd = env->me_fd;
} else {
/* Synchronous fd for meta writes. Needed even with
* MDB_NOSYNC/MDB_NOMETASYNC, in case these get reset.
*/
#ifdef _WIN32
len = OPEN_EXISTING;
env->me_mfd = CreateFile(dpath, oflags,
FILE_SHARE_READ|FILE_SHARE_WRITE, NULL, len,
mode | FILE_FLAG_WRITE_THROUGH, NULL);
#else
oflags &= ~O_CREAT;
env->me_mfd = open(dpath, oflags | MDB_DSYNC, mode);
#endif
if (env->me_mfd == INVALID_HANDLE_VALUE) {
rc = ErrCode();
goto leave;
}
}
DPRINTF(("opened dbenv %p", (void *) env));
if (excl > 0) {
rc = mdb_env_share_locks(env, &excl);
if (rc)
goto leave;
}
if (!((flags & MDB_RDONLY) ||
(env->me_pbuf = calloc(1, env->me_psize))))
rc = ENOMEM;
14 years ago
}
leave:
if (rc) {
mdb_env_close0(env, excl);
}
free(lpath);
14 years ago
return rc;
}
/** Destroy resources from mdb_env_open(), clear our readers & DBIs */
static void
mdb_env_close0(MDB_env *env, int excl)
14 years ago
{
int i;
if (!(env->me_flags & MDB_ENV_ACTIVE))
14 years ago
return;
/* Doing this here since me_dbxs may not exist during mdb_env_close */
for (i = env->me_maxdbs; --i > MAIN_DBI; )
free(env->me_dbxs[i].md_name.mv_data);
free(env->me_pbuf);
free(env->me_dbflags);
free(env->me_dbxs);
14 years ago
free(env->me_path);
free(env->me_dirty_list);
mdb_midl_free(env->me_free_pgs);
14 years ago
if (env->me_flags & MDB_ENV_TXKEY) {
pthread_key_delete(env->me_txkey);
#ifdef _WIN32
/* Delete our key from the global list */
for (i=0; i<mdb_tls_nkeys; i++)
if (mdb_tls_keys[i] == env->me_txkey) {
mdb_tls_keys[i] = mdb_tls_keys[mdb_tls_nkeys-1];
mdb_tls_nkeys--;
break;
}
#endif
}
14 years ago
if (env->me_map) {
munmap(env->me_map, env->me_mapsize);
}
if (env->me_mfd != env->me_fd && env->me_mfd != INVALID_HANDLE_VALUE)
(void) close(env->me_mfd);
if (env->me_fd != INVALID_HANDLE_VALUE)
(void) close(env->me_fd);
if (env->me_txns) {
MDB_PID_T pid = env->me_pid;
/* Clearing readers is done in this function because
* me_txkey with its destructor must be disabled first.
*/
for (i = env->me_numreaders; --i >= 0; )
if (env->me_txns->mti_readers[i].mr_pid == pid)
env->me_txns->mti_readers[i].mr_pid = 0;
#ifdef _WIN32
if (env->me_rmutex) {
CloseHandle(env->me_rmutex);
if (env->me_wmutex) CloseHandle(env->me_wmutex);
}
/* Windows automatically destroys the mutexes when
* the last handle closes.
*/
#elif defined(MDB_USE_POSIX_SEM)
if (env->me_rmutex != SEM_FAILED) {
sem_close(env->me_rmutex);
if (env->me_wmutex != SEM_FAILED)
sem_close(env->me_wmutex);
/* If we have the filelock: If we are the
* only remaining user, clean up semaphores.
*/
if (excl == 0)
mdb_env_excl_lock(env, &excl);
if (excl > 0) {
sem_unlink(env->me_txns->mti_rmname);
sem_unlink(env->me_txns->mti_wmname);
}
}
#endif
munmap((void *)env->me_txns, (env->me_maxreaders-1)*sizeof(MDB_reader)+sizeof(MDB_txninfo));
}
if (env->me_lfd != INVALID_HANDLE_VALUE) {
#ifdef _WIN32
if (excl >= 0) {
/* Unlock the lockfile. Windows would have unlocked it
* after closing anyway, but not necessarily at once.
*/
UnlockFile(env->me_lfd, 0, 0, 1, 0);
}
#endif
(void) close(env->me_lfd);
}
env->me_flags &= ~(MDB_ENV_ACTIVE|MDB_ENV_TXKEY);
}
int
mdb_env_copyfd(MDB_env *env, HANDLE fd)
{
MDB_txn *txn = NULL;
int rc;
size_t wsize;
char *ptr;
#ifdef _WIN32
DWORD len, w2;
#define DO_WRITE(rc, fd, ptr, w2, len) rc = WriteFile(fd, ptr, w2, &len, NULL)
#else
ssize_t len;
size_t w2;
#define DO_WRITE(rc, fd, ptr, w2, len) len = write(fd, ptr, w2); rc = (len >= 0)
#endif
/* Do the lock/unlock of the reader mutex before starting the
* write txn. Otherwise other read txns could block writers.
*/
rc = mdb_txn_begin(env, NULL, MDB_RDONLY, &txn);
if (rc)
return rc;
if (env->me_txns) {
/* We must start the actual read txn after blocking writers */
mdb_txn_reset0(txn, "reset-stage1");
/* Temporarily block writers until we snapshot the meta pages */
LOCK_MUTEX_W(env);
rc = mdb_txn_renew0(txn);
if (rc) {
UNLOCK_MUTEX_W(env);
goto leave;
}
}
wsize = env->me_psize * 2;
ptr = env->me_map;
w2 = wsize;
while (w2 > 0) {
DO_WRITE(rc, fd, ptr, w2, len);
if (!rc) {
rc = ErrCode();
break;
} else if (len > 0) {
rc = MDB_SUCCESS;
ptr += len;
w2 -= len;
continue;
} else {
/* Non-blocking or async handles are not supported */
rc = EIO;
break;
}
}
if (env->me_txns)
UNLOCK_MUTEX_W(env);
if (rc)
goto leave;
wsize = txn->mt_next_pgno * env->me_psize - wsize;
while (wsize > 0) {
if (wsize > MAX_WRITE)
w2 = MAX_WRITE;
else
w2 = wsize;
DO_WRITE(rc, fd, ptr, w2, len);
if (!rc) {
rc = ErrCode();
break;
} else if (len > 0) {
rc = MDB_SUCCESS;
ptr += len;
wsize -= len;
continue;
} else {
rc = EIO;
break;
}
}
leave:
mdb_txn_abort(txn);
return rc;
}
int
mdb_env_copy(MDB_env *env, const char *path)
{
int rc, len;
char *lpath;
HANDLE newfd = INVALID_HANDLE_VALUE;
if (env->me_flags & MDB_NOSUBDIR) {
lpath = (char *)path;
} else {
len = strlen(path);
len += sizeof(DATANAME);
lpath = malloc(len);
if (!lpath)
return ENOMEM;
sprintf(lpath, "%s" DATANAME, path);
}
/* The destination path must exist, but the destination file must not.
* We don't want the OS to cache the writes, since the source data is
* already in the OS cache.
*/
#ifdef _WIN32
newfd = CreateFile(lpath, GENERIC_WRITE, 0, NULL, CREATE_NEW,
FILE_FLAG_NO_BUFFERING|FILE_FLAG_WRITE_THROUGH, NULL);
#else
newfd = open(lpath, O_WRONLY|O_CREAT|O_EXCL, 0666);
#endif
if (newfd == INVALID_HANDLE_VALUE) {
rc = ErrCode();
goto leave;
}
#ifdef O_DIRECT
/* Set O_DIRECT if the file system supports it */
if ((rc = fcntl(newfd, F_GETFL)) != -1)
(void) fcntl(newfd, F_SETFL, rc | O_DIRECT);
#endif
#ifdef F_NOCACHE /* __APPLE__ */
rc = fcntl(newfd, F_NOCACHE, 1);
if (rc) {
rc = ErrCode();
goto leave;
}
#endif
rc = mdb_env_copyfd(env, newfd);
leave:
if (!(env->me_flags & MDB_NOSUBDIR))
free(lpath);
if (newfd != INVALID_HANDLE_VALUE)
if (close(newfd) < 0 && rc == MDB_SUCCESS)
rc = ErrCode();
return rc;
}
void
mdb_env_close(MDB_env *env)
{
MDB_page *dp;
if (env == NULL)
return;
VGMEMP_DESTROY(env);
while ((dp = env->me_dpages) != NULL) {
VGMEMP_DEFINED(&dp->mp_next, sizeof(dp->mp_next));
env->me_dpages = dp->mp_next;
free(dp);
}
mdb_env_close0(env, 0);
free(env);
14 years ago
}
13 years ago
/** Compare two items pointing at aligned size_t's */
static int
13 years ago
mdb_cmp_long(const MDB_val *a, const MDB_val *b)
{
return (*(size_t *)a->mv_data < *(size_t *)b->mv_data) ? -1 :
*(size_t *)a->mv_data > *(size_t *)b->mv_data;
}
/** Compare two items pointing at aligned unsigned int's */
static int
13 years ago
mdb_cmp_int(const MDB_val *a, const MDB_val *b)
{
return (*(unsigned int *)a->mv_data < *(unsigned int *)b->mv_data) ? -1 :
*(unsigned int *)a->mv_data > *(unsigned int *)b->mv_data;
}
/** Compare two items pointing at unsigned ints of unknown alignment.
13 years ago
* Nodes and keys are guaranteed to be 2-byte aligned.
*/
static int
13 years ago
mdb_cmp_cint(const MDB_val *a, const MDB_val *b)
{
#if BYTE_ORDER == LITTLE_ENDIAN
unsigned short *u, *c;
int x;
u = (unsigned short *) ((char *) a->mv_data + a->mv_size);
c = (unsigned short *) ((char *) b->mv_data + a->mv_size);
do {
x = *--u - *--c;
} while(!x && u > (unsigned short *)a->mv_data);
return x;
#else
return memcmp(a->mv_data, b->mv_data, a->mv_size);
#endif
}
/** Compare two items pointing at size_t's of unknown alignment. */
#ifdef MISALIGNED_OK
# define mdb_cmp_clong mdb_cmp_long
#else
# define mdb_cmp_clong mdb_cmp_cint
#endif
13 years ago
/** Compare two items lexically */
static int
13 years ago
mdb_cmp_memn(const MDB_val *a, const MDB_val *b)
{
int diff;
ssize_t len_diff;
unsigned int len;
len = a->mv_size;
len_diff = (ssize_t) a->mv_size - (ssize_t) b->mv_size;
if (len_diff > 0) {
len = b->mv_size;
len_diff = 1;
}
diff = memcmp(a->mv_data, b->mv_data, len);
return diff ? diff : len_diff<0 ? -1 : len_diff;
}
13 years ago
/** Compare two items in reverse byte order */
static int
13 years ago
mdb_cmp_memnr(const MDB_val *a, const MDB_val *b)
{
const unsigned char *p1, *p2, *p1_lim;
ssize_t len_diff;
int diff;
p1_lim = (const unsigned char *)a->mv_data;
p1 = (const unsigned char *)a->mv_data + a->mv_size;
p2 = (const unsigned char *)b->mv_data + b->mv_size;
len_diff = (ssize_t) a->mv_size - (ssize_t) b->mv_size;
if (len_diff > 0) {
p1_lim += len_diff;
len_diff = 1;
}
while (p1 > p1_lim) {
diff = *--p1 - *--p2;
if (diff)
return diff;
}
return len_diff<0 ? -1 : len_diff;
}
13 years ago
/** Search for key within a page, using binary search.
14 years ago
* Returns the smallest entry larger or equal to the key.
* If exactp is non-null, stores whether the found entry was an exact match
* in *exactp (1 or 0).
13 years ago
* Updates the cursor index with the index of the found entry.
14 years ago
* If no entry larger or equal to the key is found, returns NULL.
*/
static MDB_node *
13 years ago
mdb_node_search(MDB_cursor *mc, MDB_val *key, int *exactp)
14 years ago
{
unsigned int i = 0, nkeys;
14 years ago
int low, high;
int rc = 0;
MDB_page *mp = mc->mc_pg[mc->mc_top];
MDB_node *node = NULL;
14 years ago
MDB_val nodekey;
MDB_cmp_func *cmp;
DKBUF;
14 years ago
nkeys = NUMKEYS(mp);
DPRINTF(("searching %u keys in %s %spage %"Z"u",
nkeys, IS_LEAF(mp) ? "leaf" : "branch", IS_SUBP(mp) ? "sub-" : "",
mdb_dbg_pgno(mp)));
14 years ago
low = IS_LEAF(mp) ? 0 : 1;
high = nkeys - 1;
cmp = mc->mc_dbx->md_cmp;
/* Branch pages have no data, so if using integer keys,
13 years ago
* alignment is guaranteed. Use faster mdb_cmp_int.
*/
13 years ago
if (cmp == mdb_cmp_cint && IS_BRANCH(mp)) {
if (NODEPTR(mp, 1)->mn_ksize == sizeof(size_t))
13 years ago
cmp = mdb_cmp_long;
else
13 years ago
cmp = mdb_cmp_int;
}
if (IS_LEAF2(mp)) {
nodekey.mv_size = mc->mc_db->md_pad;
node = NODEPTR(mp, 0); /* fake */
while (low <= high) {
i = (low + high) >> 1;
nodekey.mv_data = LEAF2KEY(mp, i, nodekey.mv_size);
rc = cmp(key, &nodekey);
DPRINTF(("found leaf index %u [%s], rc = %i",
i, DKEY(&nodekey), rc));
if (rc == 0)
break;
if (rc > 0)
low = i + 1;
else
high = i - 1;
}
} else {
while (low <= high) {
i = (low + high) >> 1;
14 years ago
node = NODEPTR(mp, i);
nodekey.mv_size = NODEKSZ(node);
nodekey.mv_data = NODEKEY(node);
14 years ago
rc = cmp(key, &nodekey);
#if MDB_DEBUG
if (IS_LEAF(mp))
DPRINTF(("found leaf index %u [%s], rc = %i",
i, DKEY(&nodekey), rc));
else
DPRINTF(("found branch index %u [%s -> %"Z"u], rc = %i",
i, DKEY(&nodekey), NODEPGNO(node), rc));
#endif
if (rc == 0)
break;
if (rc > 0)
low = i + 1;
else
high = i - 1;
}
14 years ago
}
if (rc > 0) { /* Found entry is less than the key. */
i++; /* Skip to get the smallest entry larger than key. */
if (!IS_LEAF2(mp))
node = NODEPTR(mp, i);
14 years ago
}
if (exactp)
*exactp = (rc == 0 && nkeys > 0);
/* store the key index */
mc->mc_ki[mc->mc_top] = i;
if (i >= nkeys)
/* There is no entry larger or equal to the key. */
return NULL;
14 years ago
/* nodeptr is fake for LEAF2 */
return node;
14 years ago
}
#if 0
static void
mdb_cursor_adjust(MDB_cursor *mc, func)
{
MDB_cursor *m2;
for (m2 = mc->mc_txn->mt_cursors[mc->mc_dbi]; m2; m2=m2->mc_next) {
if (m2->mc_pg[m2->mc_top] == mc->mc_pg[mc->mc_top]) {
func(mc, m2);
}
}
}
#endif
13 years ago
/** Pop a page off the top of the cursor's stack. */
14 years ago
static void
13 years ago
mdb_cursor_pop(MDB_cursor *mc)
14 years ago
{
if (mc->mc_snum) {
#if MDB_DEBUG
MDB_page *top = mc->mc_pg[mc->mc_top];
#endif
mc->mc_snum--;
if (mc->mc_snum)
mc->mc_top--;
DPRINTF(("popped page %"Z"u off db %d cursor %p", top->mp_pgno,
DDBI(mc), (void *) mc));
}
14 years ago
}
13 years ago
/** Push a page onto the top of the cursor's stack. */
static int
13 years ago
mdb_cursor_push(MDB_cursor *mc, MDB_page *mp)
14 years ago
{
DPRINTF(("pushing page %"Z"u on db %d cursor %p", mp->mp_pgno,
DDBI(mc), (void *) mc));
if (mc->mc_snum >= CURSOR_STACK) {
mc->mc_txn->mt_flags |= MDB_TXN_ERROR;
return MDB_CURSOR_FULL;
}
14 years ago
mc->mc_top = mc->mc_snum++;
mc->mc_pg[mc->mc_top] = mp;
mc->mc_ki[mc->mc_top] = 0;
13 years ago
return MDB_SUCCESS;
14 years ago
}
13 years ago
/** Find the address of the page corresponding to a given page number.
* @param[in] txn the transaction for this access.
* @param[in] pgno the page number for the page to retrieve.
* @param[out] ret address of a pointer where the page's address will be stored.
* @param[out] lvl dirty_list inheritance level of found page. 1=current txn, 0=mapped page.
13 years ago
* @return 0 on success, non-zero on failure.
*/
13 years ago
static int
mdb_page_get(MDB_txn *txn, pgno_t pgno, MDB_page **ret, int *lvl)
14 years ago
{
MDB_env *env = txn->mt_env;
14 years ago
MDB_page *p = NULL;
int level;
14 years ago
if (!((txn->mt_flags & MDB_TXN_RDONLY) | (env->me_flags & MDB_WRITEMAP))) {
MDB_txn *tx2 = txn;
level = 1;
do {
MDB_ID2L dl = tx2->mt_u.dirty_list;
unsigned x;
/* Spilled pages were dirtied in this txn and flushed
* because the dirty list got full. Bring this page
* back in from the map (but don't unspill it here,
* leave that unless page_touch happens again).
*/
if (tx2->mt_spill_pgs) {
MDB_ID pn = pgno << 1;
x = mdb_midl_search(tx2->mt_spill_pgs, pn);
if (x <= tx2->mt_spill_pgs[0] && tx2->mt_spill_pgs[x] == pn) {
p = (MDB_page *)(env->me_map + env->me_psize * pgno);
goto done;
}
}
if (dl[0].mid) {
unsigned x = mdb_mid2l_search(dl, pgno);
if (x <= dl[0].mid && dl[x].mid == pgno) {
p = dl[x].mptr;
goto done;
}
}
level++;
} while ((tx2 = tx2->mt_parent) != NULL);
13 years ago
}
if (pgno < txn->mt_next_pgno) {
level = 0;
p = (MDB_page *)(env->me_map + env->me_psize * pgno);
} else {
DPRINTF(("page %"Z"u not found", pgno));
txn->mt_flags |= MDB_TXN_ERROR;
return MDB_PAGE_NOTFOUND;
14 years ago
}
done:
*ret = p;
if (lvl)
*lvl = level;
return MDB_SUCCESS;
14 years ago
}
/** Finish #mdb_page_search() / #mdb_page_search_lowest().
* The cursor is at the root page, set up the rest of it.
13 years ago
*/
14 years ago
static int
mdb_page_search_root(MDB_cursor *mc, MDB_val *key, int flags)
14 years ago
{
MDB_page *mp = mc->mc_pg[mc->mc_top];
14 years ago
int rc;
11 years ago
DKBUF;
14 years ago
while (IS_BRANCH(mp)) {
MDB_node *node;
indx_t i;
14 years ago
DPRINTF(("branch page %"Z"u has %u keys", mp->mp_pgno, NUMKEYS(mp)));
mdb_cassert(mc, NUMKEYS(mp) > 1);
DPRINTF(("found index 0 to page %"Z"u", NODEPGNO(NODEPTR(mp, 0))));
14 years ago
if (flags & (MDB_PS_FIRST|MDB_PS_LAST)) {
i = 0;
if (flags & MDB_PS_LAST)
i = NUMKEYS(mp) - 1;
} else {
14 years ago
int exact;
13 years ago
node = mdb_node_search(mc, key, &exact);
14 years ago
if (node == NULL)
i = NUMKEYS(mp) - 1;
else {
i = mc->mc_ki[mc->mc_top];
if (!exact) {
mdb_cassert(mc, i > 0);
i--;
}
14 years ago
}
DPRINTF(("following index %u for key [%s]", i, DKEY(key)));
14 years ago
}
mdb_cassert(mc, i < NUMKEYS(mp));
node = NODEPTR(mp, i);
14 years ago
if ((rc = mdb_page_get(mc->mc_txn, NODEPGNO(node), &mp, NULL)) != 0)
13 years ago
return rc;
14 years ago
mc->mc_ki[mc->mc_top] = i;
13 years ago
if ((rc = mdb_cursor_push(mc, mp)))
return rc;
14 years ago
if (flags & MDB_PS_MODIFY) {
13 years ago
if ((rc = mdb_page_touch(mc)) != 0)
return rc;
mp = mc->mc_pg[mc->mc_top];
}
14 years ago
}
if (!IS_LEAF(mp)) {
DPRINTF(("internal error, index points to a %02X page!?",
mp->mp_flags));
mc->mc_txn->mt_flags |= MDB_TXN_ERROR;
return MDB_CORRUPTED;
14 years ago
}
DPRINTF(("found leaf page %"Z"u for key [%s]", mp->mp_pgno,
key ? DKEY(key) : "null"));
mc->mc_flags |= C_INITIALIZED;
mc->mc_flags &= ~C_EOF;
14 years ago
return MDB_SUCCESS;
}
/** Search for the lowest key under the current branch page.
* This just bypasses a NUMKEYS check in the current page
* before calling mdb_page_search_root(), because the callers
* are all in situations where the current page is known to
* be underfilled.
*/
static int
mdb_page_search_lowest(MDB_cursor *mc)
{
MDB_page *mp = mc->mc_pg[mc->mc_top];
MDB_node *node = NODEPTR(mp, 0);
int rc;
if ((rc = mdb_page_get(mc->mc_txn, NODEPGNO(node), &mp, NULL)) != 0)
return rc;
mc->mc_ki[mc->mc_top] = 0;
if ((rc = mdb_cursor_push(mc, mp)))
return rc;
return mdb_page_search_root(mc, NULL, MDB_PS_FIRST);
}
13 years ago
/** Search for the page a given key should be in.
* Push it and its parent pages on the cursor stack.
13 years ago
* @param[in,out] mc the cursor for this operation.
* @param[in] key the key to search for, or NULL for first/last page.
* @param[in] flags If MDB_PS_MODIFY is set, visited pages in the DB
* are touched (updated with new page numbers).
* If MDB_PS_FIRST or MDB_PS_LAST is set, find first or last leaf.
* This is used by #mdb_cursor_first() and #mdb_cursor_last().
12 years ago
* If MDB_PS_ROOTONLY set, just fetch root node, no further lookups.
13 years ago
* @return 0 on success, non-zero on failure.
14 years ago
*/
static int
mdb_page_search(MDB_cursor *mc, MDB_val *key, int flags)
14 years ago
{
int rc;
pgno_t root;
/* Make sure the txn is still viable, then find the root from
* the txn's db table and set it as the root of the cursor's stack.
14 years ago
*/
if (F_ISSET(mc->mc_txn->mt_flags, MDB_TXN_ERROR)) {
DPUTS("transaction has failed, must abort");
return MDB_BAD_TXN;
} else {
/* Make sure we're using an up-to-date root */
if (*mc->mc_dbflag & DB_STALE) {
MDB_cursor mc2;
mdb_cursor_init(&mc2, mc->mc_txn, MAIN_DBI, NULL);
rc = mdb_page_search(&mc2, &mc->mc_dbx->md_name, 0);
if (rc)
return rc;
{
MDB_val data;
int exact = 0;
uint16_t flags;
MDB_node *leaf = mdb_node_search(&mc2,
&mc->mc_dbx->md_name, &exact);
if (!exact)
return MDB_NOTFOUND;
rc = mdb_node_read(mc->mc_txn, leaf, &data);
if (rc)
return rc;
memcpy(&flags, ((char *) data.mv_data + offsetof(MDB_db, md_flags)),
sizeof(uint16_t));
/* The txn may not know this DBI, or another process may
* have dropped and recreated the DB with other flags.
*/
if ((mc->mc_db->md_flags & PERSISTENT_FLAGS) != flags)
return MDB_INCOMPATIBLE;
memcpy(mc->mc_db, data.mv_data, sizeof(MDB_db));
}
*mc->mc_dbflag &= ~DB_STALE;
}
root = mc->mc_db->md_root;
14 years ago
if (root == P_INVALID) { /* Tree is empty. */
DPUTS("tree is empty");
return MDB_NOTFOUND;
}
14 years ago
}
mdb_cassert(mc, root > 1);
if (!mc->mc_pg[0] || mc->mc_pg[0]->mp_pgno != root)
if ((rc = mdb_page_get(mc->mc_txn, root, &mc->mc_pg[0], NULL)) != 0)
return rc;
14 years ago
mc->mc_snum = 1;
mc->mc_top = 0;
DPRINTF(("db %d root page %"Z"u has flags 0x%X",
DDBI(mc), root, mc->mc_pg[0]->mp_flags));
14 years ago
if (flags & MDB_PS_MODIFY) {
if ((rc = mdb_page_touch(mc)))
return rc;
14 years ago
}
if (flags & MDB_PS_ROOTONLY)
return MDB_SUCCESS;
return mdb_page_search_root(mc, key, flags);
14 years ago
}
static int
mdb_ovpage_free(MDB_cursor *mc, MDB_page *mp)
{
MDB_txn *txn = mc->mc_txn;
pgno_t pg = mp->mp_pgno;
unsigned x = 0, ovpages = mp->mp_pages;
MDB_env *env = txn->mt_env;
MDB_IDL sl = txn->mt_spill_pgs;
MDB_ID pn = pg << 1;
int rc;
DPRINTF(("free ov page %"Z"u (%d)", pg, ovpages));
/* If the page is dirty or on the spill list we just acquired it,
* so we should give it back to our current free list, if any.
* Otherwise put it onto the list of pages we freed in this txn.
*
* Won't create me_pghead: me_pglast must be inited along with it.
* Unsupported in nested txns: They would need to hide the page
* range in ancestor txns' dirty and spilled lists.
*/
if (env->me_pghead &&
!txn->mt_parent &&
((mp->mp_flags & P_DIRTY) ||
(sl && (x = mdb_midl_search(sl, pn)) <= sl[0] && sl[x] == pn)))
{
unsigned i, j;
pgno_t *mop;
MDB_ID2 *dl, ix, iy;
rc = mdb_midl_need(&env->me_pghead, ovpages);
if (rc)
return rc;
if (!(mp->mp_flags & P_DIRTY)) {
/* This page is no longer spilled */
if (x == sl[0])
sl[0]--;
else
sl[x] |= 1;
goto release;
}
/* Remove from dirty list */
dl = txn->mt_u.dirty_list;
x = dl[0].mid--;
for (ix = dl[x]; ix.mptr != mp; ix = iy) {
if (x > 1) {
x--;
iy = dl[x];
dl[x] = ix;
} else {
mdb_cassert(mc, x > 1);
j = ++(dl[0].mid);
dl[j] = ix; /* Unsorted. OK when MDB_TXN_ERROR. */
txn->mt_flags |= MDB_TXN_ERROR;
return MDB_CORRUPTED;
}
}
if (!(env->me_flags & MDB_WRITEMAP))
mdb_dpage_free(env, mp);
release:
/* Insert in me_pghead */
mop = env->me_pghead;
j = mop[0] + ovpages;
for (i = mop[0]; i && mop[i] < pg; i--)
mop[j--] = mop[i];
while (j>i)
mop[j--] = pg++;
mop[0] += ovpages;
} else {
rc = mdb_midl_append_range(&txn->mt_free_pgs, pg, ovpages);
if (rc)
return rc;
}
mc->mc_db->md_overflow_pages -= ovpages;
return 0;
}
13 years ago
/** Return the data associated with a given node.
* @param[in] txn The transaction for this operation.
* @param[in] leaf The node being read.
* @param[out] data Updated to point to the node's data.
* @return 0 on success, non-zero on failure.
*/
14 years ago
static int
13 years ago
mdb_node_read(MDB_txn *txn, MDB_node *leaf, MDB_val *data)
14 years ago
{
13 years ago
MDB_page *omp; /* overflow page */
14 years ago
pgno_t pgno;
13 years ago
int rc;
14 years ago
if (!F_ISSET(leaf->mn_flags, F_BIGDATA)) {
data->mv_size = NODEDSZ(leaf);
14 years ago
data->mv_data = NODEDATA(leaf);
return MDB_SUCCESS;
}
/* Read overflow data.
*/
data->mv_size = NODEDSZ(leaf);
memcpy(&pgno, NODEDATA(leaf), sizeof(pgno));
if ((rc = mdb_page_get(txn, pgno, &omp, NULL)) != 0) {
DPRINTF(("read overflow page %"Z"u failed", pgno));
13 years ago
return rc;
14 years ago
}
data->mv_data = METADATA(omp);
14 years ago
return MDB_SUCCESS;
}
int
mdb_get(MDB_txn *txn, MDB_dbi dbi,
14 years ago
MDB_val *key, MDB_val *data)
{
MDB_cursor mc;
MDB_xcursor mx;
int exact = 0;
DKBUF;
14 years ago
DPRINTF(("===> get db %u key [%s]", dbi, DKEY(key)));
14 years ago
if (!key || !data || dbi == FREE_DBI || !TXN_DBI_EXIST(txn, dbi))
13 years ago
return EINVAL;
if (txn->mt_flags & MDB_TXN_ERROR)
return MDB_BAD_TXN;
mdb_cursor_init(&mc, txn, dbi, &mx);
return mdb_cursor_set(&mc, key, data, MDB_SET, &exact);
14 years ago
}
13 years ago
/** Find a sibling for a page.
* Replaces the page at the top of the cursor's stack with the
* specified sibling, if one exists.
* @param[in] mc The cursor for this operation.
* @param[in] move_right Non-zero if the right sibling is requested,
* otherwise the left sibling.
* @return 0 on success, non-zero on failure.
*/
14 years ago
static int
13 years ago
mdb_cursor_sibling(MDB_cursor *mc, int move_right)
14 years ago
{
int rc;
MDB_node *indx;
MDB_page *mp;
if (mc->mc_snum < 2) {
return MDB_NOTFOUND; /* root has no siblings */
14 years ago
}
13 years ago
mdb_cursor_pop(mc);
DPRINTF(("parent page is page %"Z"u, index %u",
mc->mc_pg[mc->mc_top]->mp_pgno, mc->mc_ki[mc->mc_top]));
14 years ago
if (move_right ? (mc->mc_ki[mc->mc_top] + 1u >= NUMKEYS(mc->mc_pg[mc->mc_top]))
: (mc->mc_ki[mc->mc_top] == 0)) {
DPRINTF(("no more keys left, moving to %s sibling",
move_right ? "right" : "left"));
if ((rc = mdb_cursor_sibling(mc, move_right)) != MDB_SUCCESS) {
/* undo cursor_pop before returning */
mc->mc_top++;
mc->mc_snum++;
14 years ago
return rc;
}
14 years ago
} else {
if (move_right)
mc->mc_ki[mc->mc_top]++;
14 years ago
else
mc->mc_ki[mc->mc_top]--;
DPRINTF(("just moving to %s index key %u",
move_right ? "right" : "left", mc->mc_ki[mc->mc_top]));
14 years ago
}
mdb_cassert(mc, IS_BRANCH(mc->mc_pg[mc->mc_top]));
14 years ago
indx = NODEPTR(mc->mc_pg[mc->mc_top], mc->mc_ki[mc->mc_top]);
if ((rc = mdb_page_get(mc->mc_txn, NODEPGNO(indx), &mp, NULL)) != 0) {
/* mc will be inconsistent if caller does mc_snum++ as above */
mc->mc_flags &= ~(C_INITIALIZED|C_EOF);
12 years ago
return rc;
}
14 years ago
13 years ago
mdb_cursor_push(mc, mp);
if (!move_right)
mc->mc_ki[mc->mc_top] = NUMKEYS(mp)-1;
14 years ago
return MDB_SUCCESS;
}
13 years ago
/** Move the cursor to the next data item. */
14 years ago
static int
mdb_cursor_next(MDB_cursor *mc, MDB_val *key, MDB_val *data, MDB_cursor_op op)
14 years ago
{
MDB_page *mp;
MDB_node *leaf;
int rc;
14 years ago
if (mc->mc_flags & C_EOF) {
return MDB_NOTFOUND;
14 years ago
}
mdb_cassert(mc, mc->mc_flags & C_INITIALIZED);
14 years ago
mp = mc->mc_pg[mc->mc_top];
if (mc->mc_db->md_flags & MDB_DUPSORT) {
leaf = NODEPTR(mp, mc->mc_ki[mc->mc_top]);
if (F_ISSET(leaf->mn_flags, F_DUPDATA)) {
if (op == MDB_NEXT || op == MDB_NEXT_DUP) {
rc = mdb_cursor_next(&mc->mc_xcursor->mx_cursor, data, NULL, MDB_NEXT);
if (op != MDB_NEXT || rc != MDB_NOTFOUND) {
if (rc == MDB_SUCCESS)
MDB_GET_KEY(leaf, key);
return rc;
}
}
} else {
mc->mc_xcursor->mx_cursor.mc_flags &= ~(C_INITIALIZED|C_EOF);
if (op == MDB_NEXT_DUP)
return MDB_NOTFOUND;
}
}
DPRINTF(("cursor_next: top page is %"Z"u in cursor %p",
mdb_dbg_pgno(mp), (void *) mc));
if (mc->mc_flags & C_DEL)
goto skip;
14 years ago
if (mc->mc_ki[mc->mc_top] + 1u >= NUMKEYS(mp)) {
DPUTS("=====> move to next sibling page");
if ((rc = mdb_cursor_sibling(mc, 1)) != MDB_SUCCESS) {
mc->mc_flags |= C_EOF;
return rc;
14 years ago
}
mp = mc->mc_pg[mc->mc_top];
DPRINTF(("next page is %"Z"u, key index %u", mp->mp_pgno, mc->mc_ki[mc->mc_top]));
14 years ago
} else
mc->mc_ki[mc->mc_top]++;
14 years ago
skip:
DPRINTF(("==> cursor points to page %"Z"u with %u keys, key index %u",
mdb_dbg_pgno(mp), NUMKEYS(mp), mc->mc_ki[mc->mc_top]));
14 years ago
if (IS_LEAF2(mp)) {
key->mv_size = mc->mc_db->md_pad;
key->mv_data = LEAF2KEY(mp, mc->mc_ki[mc->mc_top], key->mv_size);
return MDB_SUCCESS;
}
mdb_cassert(mc, IS_LEAF(mp));
leaf = NODEPTR(mp, mc->mc_ki[mc->mc_top]);
14 years ago
if (F_ISSET(leaf->mn_flags, F_DUPDATA)) {
mdb_xcursor_init1(mc, leaf);
}
if (data) {
if ((rc = mdb_node_read(mc->mc_txn, leaf, data)) != MDB_SUCCESS)
return rc;
if (F_ISSET(leaf->mn_flags, F_DUPDATA)) {
rc = mdb_cursor_first(&mc->mc_xcursor->mx_cursor, data, NULL);
if (rc != MDB_SUCCESS)
return rc;
}
}
14 years ago
MDB_GET_KEY(leaf, key);
return MDB_SUCCESS;
14 years ago
}
13 years ago
/** Move the cursor to the previous data item. */
13 years ago
static int
mdb_cursor_prev(MDB_cursor *mc, MDB_val *key, MDB_val *data, MDB_cursor_op op)
13 years ago
{
MDB_page *mp;
MDB_node *leaf;
int rc;
13 years ago
mdb_cassert(mc, mc->mc_flags & C_INITIALIZED);
13 years ago
mp = mc->mc_pg[mc->mc_top];
if (mc->mc_db->md_flags & MDB_DUPSORT) {
leaf = NODEPTR(mp, mc->mc_ki[mc->mc_top]);
if (F_ISSET(leaf->mn_flags, F_DUPDATA)) {
if (op == MDB_PREV || op == MDB_PREV_DUP) {
rc = mdb_cursor_prev(&mc->mc_xcursor->mx_cursor, data, NULL, MDB_PREV);
if (op != MDB_PREV || rc != MDB_NOTFOUND) {
if (rc == MDB_SUCCESS)
MDB_GET_KEY(leaf, key);
return rc;
}
} else {
mc->mc_xcursor->mx_cursor.mc_flags &= ~(C_INITIALIZED|C_EOF);
if (op == MDB_PREV_DUP)
return MDB_NOTFOUND;
}
}
}
DPRINTF(("cursor_prev: top page is %"Z"u in cursor %p",
mdb_dbg_pgno(mp), (void *) mc));
13 years ago
if (mc->mc_ki[mc->mc_top] == 0) {
DPUTS("=====> move to prev sibling page");
if ((rc = mdb_cursor_sibling(mc, 0)) != MDB_SUCCESS) {
return rc;
13 years ago
}
mp = mc->mc_pg[mc->mc_top];
mc->mc_ki[mc->mc_top] = NUMKEYS(mp) - 1;
DPRINTF(("prev page is %"Z"u, key index %u", mp->mp_pgno, mc->mc_ki[mc->mc_top]));
13 years ago
} else
mc->mc_ki[mc->mc_top]--;
13 years ago
mc->mc_flags &= ~C_EOF;
13 years ago
DPRINTF(("==> cursor points to page %"Z"u with %u keys, key index %u",
mdb_dbg_pgno(mp), NUMKEYS(mp), mc->mc_ki[mc->mc_top]));
13 years ago
if (IS_LEAF2(mp)) {
key->mv_size = mc->mc_db->md_pad;
key->mv_data = LEAF2KEY(mp, mc->mc_ki[mc->mc_top], key->mv_size);
return MDB_SUCCESS;
}
mdb_cassert(mc, IS_LEAF(mp));
leaf = NODEPTR(mp, mc->mc_ki[mc->mc_top]);
13 years ago
if (F_ISSET(leaf->mn_flags, F_DUPDATA)) {
mdb_xcursor_init1(mc, leaf);
}
if (data) {
if ((rc = mdb_node_read(mc->mc_txn, leaf, data)) != MDB_SUCCESS)
return rc;
if (F_ISSET(leaf->mn_flags, F_DUPDATA)) {
rc = mdb_cursor_last(&mc->mc_xcursor->mx_cursor, data, NULL);
if (rc != MDB_SUCCESS)
return rc;
}
}
13 years ago
MDB_GET_KEY(leaf, key);
return MDB_SUCCESS;
13 years ago
}
13 years ago
/** Set the cursor on a specific data item. */
14 years ago
static int
mdb_cursor_set(MDB_cursor *mc, MDB_val *key, MDB_val *data,
MDB_cursor_op op, int *exactp)
14 years ago
{
int rc;
MDB_page *mp;
12 years ago
MDB_node *leaf = NULL;
DKBUF;
14 years ago
if (key->mv_size == 0)
return MDB_BAD_VALSIZE;
14 years ago
if (mc->mc_xcursor)
mc->mc_xcursor->mx_cursor.mc_flags &= ~(C_INITIALIZED|C_EOF);
/* See if we're already on the right page */
if (mc->mc_flags & C_INITIALIZED) {
MDB_val nodekey;
mp = mc->mc_pg[mc->mc_top];
if (!NUMKEYS(mp)) {
mc->mc_ki[mc->mc_top] = 0;
return MDB_NOTFOUND;
}
if (mp->mp_flags & P_LEAF2) {
nodekey.mv_size = mc->mc_db->md_pad;
nodekey.mv_data = LEAF2KEY(mp, 0, nodekey.mv_size);
} else {
leaf = NODEPTR(mp, 0);
11 years ago
MDB_GET_KEY2(leaf, nodekey);
}
rc = mc->mc_dbx->md_cmp(key, &nodekey);
if (rc == 0) {
13 years ago
/* Probably happens rarely, but first node on the page
* was the one we wanted.
*/
mc->mc_ki[mc->mc_top] = 0;
13 years ago
if (exactp)
*exactp = 1;
goto set1;
}
if (rc > 0) {
unsigned int i;
unsigned int nkeys = NUMKEYS(mp);
if (nkeys > 1) {
if (mp->mp_flags & P_LEAF2) {
nodekey.mv_data = LEAF2KEY(mp,
nkeys-1, nodekey.mv_size);
} else {
leaf = NODEPTR(mp, nkeys-1);
11 years ago
MDB_GET_KEY2(leaf, nodekey);
}
rc = mc->mc_dbx->md_cmp(key, &nodekey);
13 years ago
if (rc == 0) {
/* last node was the one we wanted */
mc->mc_ki[mc->mc_top] = nkeys-1;
if (exactp)
*exactp = 1;
13 years ago
goto set1;
}
if (rc < 0) {
if (mc->mc_ki[mc->mc_top] < NUMKEYS(mp)) {
/* This is definitely the right page, skip search_page */
if (mp->mp_flags & P_LEAF2) {
nodekey.mv_data = LEAF2KEY(mp,
mc->mc_ki[mc->mc_top], nodekey.mv_size);
} else {
leaf = NODEPTR(mp, mc->mc_ki[mc->mc_top]);
11 years ago
MDB_GET_KEY2(leaf, nodekey);
}
rc = mc->mc_dbx->md_cmp(key, &nodekey);
if (rc == 0) {
/* current node was the one we wanted */
if (exactp)
*exactp = 1;
goto set1;
}
}
13 years ago
rc = 0;
goto set2;
}
}
/* If any parents have right-sibs, search.
* Otherwise, there's nothing further.
*/
for (i=0; i<mc->mc_top; i++)
if (mc->mc_ki[i] <
NUMKEYS(mc->mc_pg[i])-1)
break;
if (i == mc->mc_top) {
/* There are no other pages */
mc->mc_ki[mc->mc_top] = nkeys;
13 years ago
return MDB_NOTFOUND;
}
}
if (!mc->mc_top) {
/* There are no other pages */
mc->mc_ki[mc->mc_top] = 0;
if (op == MDB_SET_RANGE && !exactp) {
rc = 0;
goto set1;
} else
return MDB_NOTFOUND;
}
}
13 years ago
rc = mdb_page_search(mc, key, 0);
14 years ago
if (rc != MDB_SUCCESS)
return rc;
mp = mc->mc_pg[mc->mc_top];
mdb_cassert(mc, IS_LEAF(mp));
14 years ago
set2:
13 years ago
leaf = mdb_node_search(mc, key, exactp);
14 years ago
if (exactp != NULL && !*exactp) {
/* MDB_SET specified and not an exact match. */
return MDB_NOTFOUND;
14 years ago
}
if (leaf == NULL) {
DPUTS("===> inexact leaf not found, goto sibling");
13 years ago
if ((rc = mdb_cursor_sibling(mc, 1)) != MDB_SUCCESS)
14 years ago
return rc; /* no entries matched */
mp = mc->mc_pg[mc->mc_top];
mdb_cassert(mc, IS_LEAF(mp));
leaf = NODEPTR(mp, 0);
14 years ago
}
set1:
mc->mc_flags |= C_INITIALIZED;
mc->mc_flags &= ~C_EOF;
14 years ago
if (IS_LEAF2(mp)) {
if (op == MDB_SET_RANGE || op == MDB_SET_KEY) {
key->mv_size = mc->mc_db->md_pad;
key->mv_data = LEAF2KEY(mp, mc->mc_ki[mc->mc_top], key->mv_size);
}
return MDB_SUCCESS;
}
if (F_ISSET(leaf->mn_flags, F_DUPDATA)) {
mdb_xcursor_init1(mc, leaf);
}
if (data) {
if (F_ISSET(leaf->mn_flags, F_DUPDATA)) {
if (op == MDB_SET || op == MDB_SET_KEY || op == MDB_SET_RANGE) {
rc = mdb_cursor_first(&mc->mc_xcursor->mx_cursor, data, NULL);
} else {
int ex2, *ex2p;
if (op == MDB_GET_BOTH) {
ex2p = &ex2;
ex2 = 0;
} else {
ex2p = NULL;
}
rc = mdb_cursor_set(&mc->mc_xcursor->mx_cursor, data, NULL, MDB_SET_RANGE, ex2p);
if (rc != MDB_SUCCESS)
return rc;
}
} else if (op == MDB_GET_BOTH || op == MDB_GET_BOTH_RANGE) {
MDB_val d2;
13 years ago
if ((rc = mdb_node_read(mc->mc_txn, leaf, &d2)) != MDB_SUCCESS)
return rc;
rc = mc->mc_dbx->md_dcmp(data, &d2);
if (rc) {
if (op == MDB_GET_BOTH || rc > 0)
return MDB_NOTFOUND;
rc = 0;
*data = d2;
}
13 years ago
} else {
if (mc->mc_xcursor)
mc->mc_xcursor->mx_cursor.mc_flags &= ~(C_INITIALIZED|C_EOF);
13 years ago
if ((rc = mdb_node_read(mc->mc_txn, leaf, data)) != MDB_SUCCESS)
return rc;
}
}
14 years ago
/* The key already matches in all other cases */
if (op == MDB_SET_RANGE || op == MDB_SET_KEY)
MDB_GET_KEY(leaf, key);
DPRINTF(("==> cursor placed on key [%s]", DKEY(key)));
14 years ago
return rc;
}
13 years ago
/** Move the cursor to the first item in the database. */
14 years ago
static int
mdb_cursor_first(MDB_cursor *mc, MDB_val *key, MDB_val *data)
14 years ago
{
int rc;
MDB_node *leaf;
if (mc->mc_xcursor)
mc->mc_xcursor->mx_cursor.mc_flags &= ~(C_INITIALIZED|C_EOF);
if (!(mc->mc_flags & C_INITIALIZED) || mc->mc_top) {
rc = mdb_page_search(mc, NULL, MDB_PS_FIRST);
if (rc != MDB_SUCCESS)
return rc;
}
mdb_cassert(mc, IS_LEAF(mc->mc_pg[mc->mc_top]));
14 years ago
leaf = NODEPTR(mc->mc_pg[mc->mc_top], 0);
mc->mc_flags |= C_INITIALIZED;
mc->mc_flags &= ~C_EOF;
14 years ago
mc->mc_ki[mc->mc_top] = 0;
if (IS_LEAF2(mc->mc_pg[mc->mc_top])) {
key->mv_size = mc->mc_db->md_pad;
key->mv_data = LEAF2KEY(mc->mc_pg[mc->mc_top], 0, key->mv_size);
return MDB_SUCCESS;
}
if (data) {
if (F_ISSET(leaf->mn_flags, F_DUPDATA)) {
mdb_xcursor_init1(mc, leaf);
rc = mdb_cursor_first(&mc->mc_xcursor->mx_cursor, data, NULL);
if (rc)
return rc;
} else {
13 years ago
if ((rc = mdb_node_read(mc->mc_txn, leaf, data)) != MDB_SUCCESS)
return rc;
}
}
MDB_GET_KEY(leaf, key);
return MDB_SUCCESS;
14 years ago
}
13 years ago
/** Move the cursor to the last item in the database. */
static int
mdb_cursor_last(MDB_cursor *mc, MDB_val *key, MDB_val *data)
{
int rc;
MDB_node *leaf;
if (mc->mc_xcursor)
mc->mc_xcursor->mx_cursor.mc_flags &= ~(C_INITIALIZED|C_EOF);
if (!(mc->mc_flags & C_EOF)) {
if (!(mc->mc_flags & C_INITIALIZED) || mc->mc_top) {
rc = mdb_page_search(mc, NULL, MDB_PS_LAST);
if (rc != MDB_SUCCESS)
return rc;
}
mdb_cassert(mc, IS_LEAF(mc->mc_pg[mc->mc_top]));
}
mc->mc_ki[mc->mc_top] = NUMKEYS(mc->mc_pg[mc->mc_top]) - 1;
mc->mc_flags |= C_INITIALIZED|C_EOF;
leaf = NODEPTR(mc->mc_pg[mc->mc_top], mc->mc_ki[mc->mc_top]);
if (IS_LEAF2(mc->mc_pg[mc->mc_top])) {
key->mv_size = mc->mc_db->md_pad;
key->mv_data = LEAF2KEY(mc->mc_pg[mc->mc_top], mc->mc_ki[mc->mc_top], key->mv_size);
return MDB_SUCCESS;
}
if (data) {
if (F_ISSET(leaf->mn_flags, F_DUPDATA)) {
mdb_xcursor_init1(mc, leaf);
rc = mdb_cursor_last(&mc->mc_xcursor->mx_cursor, data, NULL);
if (rc)
return rc;
} else {
13 years ago
if ((rc = mdb_node_read(mc->mc_txn, leaf, data)) != MDB_SUCCESS)
return rc;
}
}
MDB_GET_KEY(leaf, key);
return MDB_SUCCESS;
}
14 years ago
int
mdb_cursor_get(MDB_cursor *mc, MDB_val *key, MDB_val *data,
14 years ago
MDB_cursor_op op)
{
int rc;
int exact = 0;
int (*mfunc)(MDB_cursor *mc, MDB_val *key, MDB_val *data);
14 years ago
if (mc == NULL)
return EINVAL;
14 years ago
if (mc->mc_txn->mt_flags & MDB_TXN_ERROR)
return MDB_BAD_TXN;
14 years ago
switch (op) {
case MDB_GET_CURRENT:
if (!(mc->mc_flags & C_INITIALIZED)) {
rc = EINVAL;
} else {
MDB_page *mp = mc->mc_pg[mc->mc_top];
int nkeys = NUMKEYS(mp);
if (!nkeys || mc->mc_ki[mc->mc_top] >= nkeys) {
mc->mc_ki[mc->mc_top] = nkeys;
rc = MDB_NOTFOUND;
break;
}
rc = MDB_SUCCESS;
if (IS_LEAF2(mp)) {
key->mv_size = mc->mc_db->md_pad;
key->mv_data = LEAF2KEY(mp, mc->mc_ki[mc->mc_top], key->mv_size);
} else {
MDB_node *leaf = NODEPTR(mp, mc->mc_ki[mc->mc_top]);
MDB_GET_KEY(leaf, key);
if (data) {
if (F_ISSET(leaf->mn_flags, F_DUPDATA)) {
if (mc->mc_flags & C_DEL)
mdb_xcursor_init1(mc, leaf);
rc = mdb_cursor_get(&mc->mc_xcursor->mx_cursor, data, NULL, MDB_GET_CURRENT);
} else {
rc = mdb_node_read(mc->mc_txn, leaf, data);
}
}
}
}
break;
case MDB_GET_BOTH:
case MDB_GET_BOTH_RANGE:
if (data == NULL) {
rc = EINVAL;
break;
}
if (mc->mc_xcursor == NULL) {
rc = MDB_INCOMPATIBLE;
break;
}
/* FALLTHRU */
case MDB_SET:
case MDB_SET_KEY:
case MDB_SET_RANGE:
if (key == NULL) {
14 years ago
rc = EINVAL;
} else {
rc = mdb_cursor_set(mc, key, data, op,
op == MDB_SET_RANGE ? NULL : &exact);
}
14 years ago
break;
case MDB_GET_MULTIPLE:
if (data == NULL || !(mc->mc_flags & C_INITIALIZED)) {
rc = EINVAL;
break;
}
if (!(mc->mc_db->md_flags & MDB_DUPFIXED)) {
rc = MDB_INCOMPATIBLE;
break;
}
rc = MDB_SUCCESS;
if (!(mc->mc_xcursor->mx_cursor.mc_flags & C_INITIALIZED) ||
(mc->mc_xcursor->mx_cursor.mc_flags & C_EOF))
break;
goto fetchm;
case MDB_NEXT_MULTIPLE:
if (data == NULL) {
rc = EINVAL;
break;
}
if (!(mc->mc_db->md_flags & MDB_DUPFIXED)) {
rc = MDB_INCOMPATIBLE;
break;
}
if (!(mc->mc_flags & C_INITIALIZED))
rc = mdb_cursor_first(mc, key, data);
else
rc = mdb_cursor_next(mc, key, data, MDB_NEXT_DUP);
if (rc == MDB_SUCCESS) {
if (mc->mc_xcursor->mx_cursor.mc_flags & C_INITIALIZED) {
MDB_cursor *mx;
fetchm:
mx = &mc->mc_xcursor->mx_cursor;
data->mv_size = NUMKEYS(mx->mc_pg[mx->mc_top]) *
mx->mc_db->md_pad;
data->mv_data = METADATA(mx->mc_pg[mx->mc_top]);
mx->mc_ki[mx->mc_top] = NUMKEYS(mx->mc_pg[mx->mc_top])-1;
} else {
rc = MDB_NOTFOUND;
}
}
break;
14 years ago
case MDB_NEXT:
case MDB_NEXT_DUP:
case MDB_NEXT_NODUP:
if (!(mc->mc_flags & C_INITIALIZED))
rc = mdb_cursor_first(mc, key, data);
else
rc = mdb_cursor_next(mc, key, data, op);
14 years ago
break;
13 years ago
case MDB_PREV:
case MDB_PREV_DUP:
case MDB_PREV_NODUP:
if (!(mc->mc_flags & C_INITIALIZED)) {
rc = mdb_cursor_last(mc, key, data);
if (rc)
break;
mc->mc_flags |= C_INITIALIZED;
mc->mc_ki[mc->mc_top]++;
}
rc = mdb_cursor_prev(mc, key, data, op);
13 years ago
break;
14 years ago
case MDB_FIRST:
rc = mdb_cursor_first(mc, key, data);
14 years ago
break;
case MDB_FIRST_DUP:
mfunc = mdb_cursor_first;
mmove:
if (data == NULL || !(mc->mc_flags & C_INITIALIZED)) {
rc = EINVAL;
break;
}
if (mc->mc_xcursor == NULL) {
rc = MDB_INCOMPATIBLE;
break;
}
if (!(mc->mc_xcursor->mx_cursor.mc_flags & C_INITIALIZED)) {
rc = EINVAL;
break;
}
rc = mfunc(&mc->mc_xcursor->mx_cursor, data, NULL);
break;
case MDB_LAST:
rc = mdb_cursor_last(mc, key, data);
break;
case MDB_LAST_DUP:
mfunc = mdb_cursor_last;
goto mmove;
14 years ago
default:
DPRINTF(("unhandled/unimplemented cursor operation %u", op));
14 years ago
rc = EINVAL;
break;
}
if (mc->mc_flags & C_DEL)
mc->mc_flags ^= C_DEL;
14 years ago
return rc;
}
/** Touch all the pages in the cursor stack. Set mc_top.
13 years ago
* Makes sure all the pages are writable, before attempting a write operation.
* @param[in] mc The cursor to operate on.
*/
static int
mdb_cursor_touch(MDB_cursor *mc)
{
int rc = MDB_SUCCESS;
if (mc->mc_dbi > MAIN_DBI && !(*mc->mc_dbflag & DB_DIRTY)) {
MDB_cursor mc2;
MDB_xcursor mcx;
mdb_cursor_init(&mc2, mc->mc_txn, MAIN_DBI, &mcx);
rc = mdb_page_search(&mc2, &mc->mc_dbx->md_name, MDB_PS_MODIFY);
if (rc)
return rc;
*mc->mc_dbflag |= DB_DIRTY;
}
mc->mc_top = 0;
if (mc->mc_snum) {
do {
rc = mdb_page_touch(mc);
} while (!rc && ++(mc->mc_top) < mc->mc_snum);
mc->mc_top = mc->mc_snum-1;
}
return rc;
}
/** Do not spill pages to disk if txn is getting full, may fail instead */
#define MDB_NOSPILL 0x8000
int
mdb_cursor_put(MDB_cursor *mc, MDB_val *key, MDB_val *data,
unsigned int flags)
{
enum { MDB_NO_ROOT = MDB_LAST_ERRCODE+10 }; /* internal code */
MDB_env *env;
MDB_node *leaf = NULL;
MDB_page *fp, *mp;
uint16_t fp_flags;
MDB_val xdata, *rdata, dkey, olddata;
MDB_db dummy;
int do_sub = 0, insert_key, insert_data;
unsigned int mcount = 0, dcount = 0, nospill;
size_t nsize;
int rc, rc2;
unsigned int nflags;
DKBUF;
if (mc == NULL || key == NULL)
return EINVAL;
env = mc->mc_txn->mt_env;
/* Check this first so counter will always be zero on any
* early failures.
*/
if (flags & MDB_MULTIPLE) {
dcount = data[1].mv_size;
data[1].mv_size = 0;
if (!F_ISSET(mc->mc_db->md_flags, MDB_DUPFIXED))
return MDB_INCOMPATIBLE;
}
nospill = flags & MDB_NOSPILL;
flags &= ~MDB_NOSPILL;
if (mc->mc_txn->mt_flags & (MDB_TXN_RDONLY|MDB_TXN_ERROR))
return (mc->mc_txn->mt_flags & MDB_TXN_RDONLY) ? EACCES : MDB_BAD_TXN;
if (key->mv_size-1 >= ENV_MAXKEY(env))
return MDB_BAD_VALSIZE;
#if SIZE_MAX > MAXDATASIZE
if (data->mv_size > ((mc->mc_db->md_flags & MDB_DUPSORT) ? ENV_MAXKEY(env) : MAXDATASIZE))
return MDB_BAD_VALSIZE;
#else
if ((mc->mc_db->md_flags & MDB_DUPSORT) && data->mv_size > ENV_MAXKEY(env))
return MDB_BAD_VALSIZE;
#endif
DPRINTF(("==> put db %d key [%s], size %"Z"u, data size %"Z"u",
DDBI(mc), DKEY(key), key ? key->mv_size : 0, data->mv_size));
dkey.mv_size = 0;
if (flags == MDB_CURRENT) {
if (!(mc->mc_flags & C_INITIALIZED))
return EINVAL;
rc = MDB_SUCCESS;
} else if (mc->mc_db->md_root == P_INVALID) {
/* new database, cursor has nothing to point to */
mc->mc_snum = 0;
mc->mc_top = 0;
mc->mc_flags &= ~C_INITIALIZED;
rc = MDB_NO_ROOT;
} else {
int exact = 0;
MDB_val d2;
if (flags & MDB_APPEND) {
MDB_val k2;
rc = mdb_cursor_last(mc, &k2, &d2);
if (rc == 0) {
rc = mc->mc_dbx->md_cmp(key, &k2);
if (rc > 0) {
rc = MDB_NOTFOUND;
mc->mc_ki[mc->mc_top]++;
} else {
/* new key is <= last key */
rc = MDB_KEYEXIST;
}
}
} else {
rc = mdb_cursor_set(mc, key, &d2, MDB_SET, &exact);
}
if ((flags & MDB_NOOVERWRITE) && rc == 0) {
DPRINTF(("duplicate key [%s]", DKEY(key)));
*data = d2;
return MDB_KEYEXIST;
}
if (rc && rc != MDB_NOTFOUND)
return rc;
}
if (mc->mc_flags & C_DEL)
mc->mc_flags ^= C_DEL;
/* Cursor is positioned, check for room in the dirty list */
if (!nospill) {
if (flags & MDB_MULTIPLE) {
rdata = &xdata;
xdata.mv_size = data->mv_size * dcount;
} else {
rdata = data;
}
if ((rc2 = mdb_page_spill(mc, key, rdata)))
return rc2;
}
if (rc == MDB_NO_ROOT) {
MDB_page *np;
/* new database, write a root leaf page */
DPUTS("allocating new root leaf page");
if ((rc2 = mdb_page_new(mc, P_LEAF, 1, &np))) {
return rc2;
}
mdb_cursor_push(mc, np);
mc->mc_db->md_root = np->mp_pgno;
mc->mc_db->md_depth++;
*mc->mc_dbflag |= DB_DIRTY;
if ((mc->mc_db->md_flags & (MDB_DUPSORT|MDB_DUPFIXED))
== MDB_DUPFIXED)
np->mp_flags |= P_LEAF2;
mc->mc_flags |= C_INITIALIZED;
} else {
/* make sure all cursor pages are writable */
rc2 = mdb_cursor_touch(mc);
if (rc2)
return rc2;
}
insert_key = insert_data = rc;
if (insert_key) {
/* The key does not exist */
DPRINTF(("inserting key at index %i", mc->mc_ki[mc->mc_top]));
if ((mc->mc_db->md_flags & MDB_DUPSORT) &&
LEAFSIZE(key, data) > env->me_nodemax)
{
/* Too big for a node, insert in sub-DB */
fp_flags = P_LEAF|P_DIRTY;
fp = env->me_pbuf;
fp->mp_pad = data->mv_size; /* used if MDB_DUPFIXED */
fp->mp_lower = fp->mp_upper = olddata.mv_size = PAGEHDRSZ;
goto prep_subDB;
}
} else {
/* there's only a key anyway, so this is a no-op */
if (IS_LEAF2(mc->mc_pg[mc->mc_top])) {
char *ptr;
unsigned int ksize = mc->mc_db->md_pad;
if (key->mv_size != ksize)
return MDB_BAD_VALSIZE;
ptr = LEAF2KEY(mc->mc_pg[mc->mc_top], mc->mc_ki[mc->mc_top], ksize);
memcpy(ptr, key->mv_data, ksize);
return MDB_SUCCESS;
}
more:
leaf = NODEPTR(mc->mc_pg[mc->mc_top], mc->mc_ki[mc->mc_top]);
olddata.mv_size = NODEDSZ(leaf);
olddata.mv_data = NODEDATA(leaf);
/* DB has dups? */
if (F_ISSET(mc->mc_db->md_flags, MDB_DUPSORT)) {
/* Prepare (sub-)page/sub-DB to accept the new item,
* if needed. fp: old sub-page or a header faking
* it. mp: new (sub-)page. offset: growth in page
* size. xdata: node data with new page or DB.
*/
unsigned i, offset = 0;
mp = fp = xdata.mv_data = env->me_pbuf;
mp->mp_pgno = mc->mc_pg[mc->mc_top]->mp_pgno;
/* Was a single item before, must convert now */
if (!F_ISSET(leaf->mn_flags, F_DUPDATA)) {
/* Just overwrite the current item */
if (flags == MDB_CURRENT)
goto current;
13 years ago
#if UINT_MAX < SIZE_MAX
if (mc->mc_dbx->md_dcmp == mdb_cmp_int && olddata.mv_size == sizeof(size_t))
mc->mc_dbx->md_dcmp = mdb_cmp_clong;
#endif
/* does data match? */
if (!mc->mc_dbx->md_dcmp(data, &olddata)) {
if (flags & MDB_NODUPDATA)
return MDB_KEYEXIST;
/* overwrite it */
goto current;
}
/* Back up original data item */
dkey.mv_size = olddata.mv_size;
dkey.mv_data = memcpy(fp+1, olddata.mv_data, olddata.mv_size);
/* Make sub-page header for the dup items, with dummy body */
fp->mp_flags = P_LEAF|P_DIRTY|P_SUBP;
fp->mp_lower = PAGEHDRSZ;
xdata.mv_size = PAGEHDRSZ + dkey.mv_size + data->mv_size;
if (mc->mc_db->md_flags & MDB_DUPFIXED) {
fp->mp_flags |= P_LEAF2;
fp->mp_pad = data->mv_size;
xdata.mv_size += 2 * data->mv_size; /* leave space for 2 more */
} else {
xdata.mv_size += 2 * (sizeof(indx_t) + NODESIZE) +
(dkey.mv_size & 1) + (data->mv_size & 1);
}
fp->mp_upper = xdata.mv_size;
olddata.mv_size = fp->mp_upper; /* pretend olddata is fp */
} else if (leaf->mn_flags & F_SUBDATA) {
/* Data is on sub-DB, just store it */
flags |= F_DUPDATA|F_SUBDATA;
goto put_sub;
} else {
/* Data is on sub-page */
fp = olddata.mv_data;
switch (flags) {
default:
if (!(mc->mc_db->md_flags & MDB_DUPFIXED)) {
offset = EVEN(NODESIZE + sizeof(indx_t) +
data->mv_size);
break;
}
offset = fp->mp_pad;
if (SIZELEFT(fp) < offset) {
offset *= 4; /* space for 4 more */
break;
}
/* FALLTHRU: Big enough MDB_DUPFIXED sub-page */
case MDB_CURRENT:
fp->mp_flags |= P_DIRTY;
COPY_PGNO(fp->mp_pgno, mp->mp_pgno);
mc->mc_xcursor->mx_cursor.mc_pg[0] = fp;
flags |= F_DUPDATA;
goto put_sub;
}
xdata.mv_size = olddata.mv_size + offset;
}
fp_flags = fp->mp_flags;
if (NODESIZE + NODEKSZ(leaf) + xdata.mv_size > env->me_nodemax) {
/* Too big for a sub-page, convert to sub-DB */
fp_flags &= ~P_SUBP;
prep_subDB:
if (mc->mc_db->md_flags & MDB_DUPFIXED) {
fp_flags |= P_LEAF2;
dummy.md_pad = fp->mp_pad;
dummy.md_flags = MDB_DUPFIXED;
if (mc->mc_db->md_flags & MDB_INTEGERDUP)
dummy.md_flags |= MDB_INTEGERKEY;
} else {
dummy.md_pad = 0;
dummy.md_flags = 0;
}
dummy.md_depth = 1;
dummy.md_branch_pages = 0;
dummy.md_leaf_pages = 1;
dummy.md_overflow_pages = 0;
dummy.md_entries = NUMKEYS(fp);
xdata.mv_size = sizeof(MDB_db);
xdata.mv_data = &dummy;
if ((rc = mdb_page_alloc(mc, 1, &mp)))
return rc;
offset = env->me_psize - olddata.mv_size;
flags |= F_DUPDATA|F_SUBDATA;
dummy.md_root = mp->mp_pgno;
}
if (mp != fp) {
mp->mp_flags = fp_flags | P_DIRTY;
mp->mp_pad = fp->mp_pad;
mp->mp_lower = fp->mp_lower;
mp->mp_upper = fp->mp_upper + offset;
if (fp_flags & P_LEAF2) {
memcpy(METADATA(mp), METADATA(fp), NUMKEYS(fp) * fp->mp_pad);
} else {
memcpy((char *)mp + mp->mp_upper, (char *)fp + fp->mp_upper,
olddata.mv_size - fp->mp_upper);
for (i=0; i<NUMKEYS(fp); i++)
mp->mp_ptrs[i] = fp->mp_ptrs[i] + offset;
}
}
rdata = &xdata;
flags |= F_DUPDATA;
do_sub = 1;
if (!insert_key)
mdb_node_del(mc, 0);
goto new_sub;
}
current:
/* overflow page overwrites need special handling */
if (F_ISSET(leaf->mn_flags, F_BIGDATA)) {
MDB_page *omp;
pgno_t pg;
int level, ovpages, dpages = OVPAGES(data->mv_size, env->me_psize);
memcpy(&pg, olddata.mv_data, sizeof(pg));
if ((rc2 = mdb_page_get(mc->mc_txn, pg, &omp, &level)) != 0)
return rc2;
ovpages = omp->mp_pages;
/* Is the ov page large enough? */
if (ovpages >= dpages) {
if (!(omp->mp_flags & P_DIRTY) &&
(level || (env->me_flags & MDB_WRITEMAP)))
{
rc = mdb_page_unspill(mc->mc_txn, omp, &omp);
if (rc)
return rc;
level = 0; /* dirty in this txn or clean */
}
/* Is it dirty? */
if (omp->mp_flags & P_DIRTY) {
/* yes, overwrite it. Note in this case we don't
* bother to try shrinking the page if the new data
* is smaller than the overflow threshold.
*/
if (level > 1) {
/* It is writable only in a parent txn */
size_t sz = (size_t) env->me_psize * ovpages, off;
MDB_page *np = mdb_page_malloc(mc->mc_txn, ovpages);
MDB_ID2 id2;
if (!np)
return ENOMEM;
id2.mid = pg;
id2.mptr = np;
rc2 = mdb_mid2l_insert(mc->mc_txn->mt_u.dirty_list, &id2);
mdb_cassert(mc, rc2 == 0);
if (!(flags & MDB_RESERVE)) {
/* Copy end of page, adjusting alignment so
* compiler may copy words instead of bytes.
*/
off = (PAGEHDRSZ + data->mv_size) & -sizeof(size_t);
memcpy((size_t *)((char *)np + off),
(size_t *)((char *)omp + off), sz - off);
sz = PAGEHDRSZ;
}
memcpy(np, omp, sz); /* Copy beginning of page */
omp = np;
}
SETDSZ(leaf, data->mv_size);
if (F_ISSET(flags, MDB_RESERVE))
data->mv_data = METADATA(omp);
else
memcpy(METADATA(omp), data->mv_data, data->mv_size);
return MDB_SUCCESS;
}
}
if ((rc2 = mdb_ovpage_free(mc, omp)) != MDB_SUCCESS)
return rc2;
} else if (data->mv_size == olddata.mv_size) {
/* same size, just replace it. Note that we could
* also reuse this node if the new data is smaller,
* but instead we opt to shrink the node in that case.
*/
if (F_ISSET(flags, MDB_RESERVE))
data->mv_data = olddata.mv_data;
else if (!(mc->mc_flags & C_SUB))
memcpy(olddata.mv_data, data->mv_data, data->mv_size);
else
memcpy(NODEKEY(leaf), key->mv_data, key->mv_size);
return MDB_SUCCESS;
}
mdb_node_del(mc, 0);
}
rdata = data;
new_sub:
nflags = flags & NODE_ADD_FLAGS;
nsize = IS_LEAF2(mc->mc_pg[mc->mc_top]) ? key->mv_size : mdb_leaf_size(env, key, rdata);
if (SIZELEFT(mc->mc_pg[mc->mc_top]) < nsize) {
if (( flags & (F_DUPDATA|F_SUBDATA)) == F_DUPDATA )
nflags &= ~MDB_APPEND; /* sub-page may need room to grow */
if (!insert_key)
nflags |= MDB_SPLIT_REPLACE;
rc = mdb_page_split(mc, key, rdata, P_INVALID, nflags);
} else {
/* There is room already in this leaf page. */
rc = mdb_node_add(mc, mc->mc_ki[mc->mc_top], key, rdata, 0, nflags);
if (rc == 0 && insert_key) {
/* Adjust other cursors pointing to mp */
MDB_cursor *m2, *m3;
MDB_dbi dbi = mc->mc_dbi;
unsigned i = mc->mc_top;
MDB_page *mp = mc->mc_pg[i];
for (m2 = mc->mc_txn->mt_cursors[dbi]; m2; m2=m2->mc_next) {
if (mc->mc_flags & C_SUB)
m3 = &m2->mc_xcursor->mx_cursor;
else
m3 = m2;
if (m3 == mc || m3->mc_snum < mc->mc_snum) continue;
if (m3->mc_pg[i] == mp && m3->mc_ki[i] >= mc->mc_ki[i]) {
m3->mc_ki[i]++;
}
}
}
}
if (rc == MDB_SUCCESS) {
/* Now store the actual data in the child DB. Note that we're
* storing the user data in the keys field, so there are strict
* size limits on dupdata. The actual data fields of the child
* DB are all zero size.
*/
if (do_sub) {
int xflags;
size_t ecount;
put_sub:
xdata.mv_size = 0;
xdata.mv_data = "";
leaf = NODEPTR(mc->mc_pg[mc->mc_top], mc->mc_ki[mc->mc_top]);
if (flags & MDB_CURRENT) {
xflags = MDB_CURRENT|MDB_NOSPILL;
} else {
mdb_xcursor_init1(mc, leaf);
xflags = (flags & MDB_NODUPDATA) ?
MDB_NOOVERWRITE|MDB_NOSPILL : MDB_NOSPILL;
}
/* converted, write the original data first */
if (dkey.mv_size) {
rc = mdb_cursor_put(&mc->mc_xcursor->mx_cursor, &dkey, &xdata, xflags);
if (rc)
goto bad_sub;
{
/* Adjust other cursors pointing to mp */
MDB_cursor *m2;
unsigned i = mc->mc_top;
MDB_page *mp = mc->mc_pg[i];
for (m2 = mc->mc_txn->mt_cursors[mc->mc_dbi]; m2; m2=m2->mc_next) {
if (m2 == mc || m2->mc_snum < mc->mc_snum) continue;
if (!(m2->mc_flags & C_INITIALIZED)) continue;
if (m2->mc_pg[i] == mp && m2->mc_ki[i] == mc->mc_ki[i]) {
mdb_xcursor_init1(m2, leaf);
}
}
}
/* we've done our job */
dkey.mv_size = 0;
}
ecount = mc->mc_xcursor->mx_db.md_entries;
if (flags & MDB_APPENDDUP)
xflags |= MDB_APPEND;
rc = mdb_cursor_put(&mc->mc_xcursor->mx_cursor, data, &xdata, xflags);
if (flags & F_SUBDATA) {
void *db = NODEDATA(leaf);
memcpy(db, &mc->mc_xcursor->mx_db, sizeof(MDB_db));
}
insert_data = mc->mc_xcursor->mx_db.md_entries - ecount;
}
/* Increment count unless we just replaced an existing item. */
if (insert_data)
mc->mc_db->md_entries++;
if (insert_key) {
/* Invalidate txn if we created an empty sub-DB */
if (rc)
goto bad_sub;
/* If we succeeded and the key didn't exist before,
* make sure the cursor is marked valid.
*/
mc->mc_flags |= C_INITIALIZED;
}
if (flags & MDB_MULTIPLE) {
if (!rc) {
mcount++;
/* let caller know how many succeeded, if any */
data[1].mv_size = mcount;
if (mcount < dcount) {
data[0].mv_data = (char *)data[0].mv_data + data[0].mv_size;
insert_key = insert_data = 0;
goto more;
}
}
}
return rc;
bad_sub:
if (rc == MDB_KEYEXIST) /* should not happen, we deleted that item */
rc = MDB_CORRUPTED;
}
mc->mc_txn->mt_flags |= MDB_TXN_ERROR;
return rc;
}
int
mdb_cursor_del(MDB_cursor *mc, unsigned int flags)
{
MDB_node *leaf;
MDB_page *mp;
int rc;
if (mc->mc_txn->mt_flags & (MDB_TXN_RDONLY|MDB_TXN_ERROR))
return (mc->mc_txn->mt_flags & MDB_TXN_RDONLY) ? EACCES : MDB_BAD_TXN;
if (!(mc->mc_flags & C_INITIALIZED))
return EINVAL;
if (mc->mc_ki[mc->mc_top] >= NUMKEYS(mc->mc_pg[mc->mc_top]))
return MDB_NOTFOUND;
if (!(flags & MDB_NOSPILL) && (rc = mdb_page_spill(mc, NULL, NULL)))
return rc;
rc = mdb_cursor_touch(mc);
if (rc)
return rc;
mp = mc->mc_pg[mc->mc_top];
if (IS_LEAF2(mp))
goto del_key;
leaf = NODEPTR(mp, mc->mc_ki[mc->mc_top]);
if (F_ISSET(leaf->mn_flags, F_DUPDATA)) {
if (flags & MDB_NODUPDATA) {
/* mdb_cursor_del0() will subtract the final entry */
mc->mc_db->md_entries -= mc->mc_xcursor->mx_db.md_entries - 1;
} else {
if (!F_ISSET(leaf->mn_flags, F_SUBDATA)) {
mc->mc_xcursor->mx_cursor.mc_pg[0] = NODEDATA(leaf);
}
rc = mdb_cursor_del(&mc->mc_xcursor->mx_cursor, MDB_NOSPILL);
if (rc)
return rc;
/* If sub-DB still has entries, we're done */
if (mc->mc_xcursor->mx_db.md_entries) {
if (leaf->mn_flags & F_SUBDATA) {
/* update subDB info */
void *db = NODEDATA(leaf);
memcpy(db, &mc->mc_xcursor->mx_db, sizeof(MDB_db));
} else {
MDB_cursor *m2;
/* shrink fake page */
mdb_node_shrink(mp, mc->mc_ki[mc->mc_top]);
leaf = NODEPTR(mp, mc->mc_ki[mc->mc_top]);
mc->mc_xcursor->mx_cursor.mc_pg[0] = NODEDATA(leaf);
/* fix other sub-DB cursors pointed at this fake page */
for (m2 = mc->mc_txn->mt_cursors[mc->mc_dbi]; m2; m2=m2->mc_next) {
if (m2 == mc || m2->mc_snum < mc->mc_snum) continue;
if (m2->mc_pg[mc->mc_top] == mp &&
m2->mc_ki[mc->mc_top] == mc->mc_ki[mc->mc_top])
m2->mc_xcursor->mx_cursor.mc_pg[0] = NODEDATA(leaf);
}
}
mc->mc_db->md_entries--;
mc->mc_flags |= C_DEL;
return rc;
}
/* otherwise fall thru and delete the sub-DB */
}
if (leaf->mn_flags & F_SUBDATA) {
/* add all the child DB's pages to the free list */
rc = mdb_drop0(&mc->mc_xcursor->mx_cursor, 0);
if (rc)
goto fail;
}
}
/* add overflow pages to free list */
if (F_ISSET(leaf->mn_flags, F_BIGDATA)) {
MDB_page *omp;
pgno_t pg;
memcpy(&pg, NODEDATA(leaf), sizeof(pg));
if ((rc = mdb_page_get(mc->mc_txn, pg, &omp, NULL)) ||
(rc = mdb_ovpage_free(mc, omp)))
goto fail;
}
del_key:
return mdb_cursor_del0(mc);
fail:
mc->mc_txn->mt_flags |= MDB_TXN_ERROR;
return rc;
}
13 years ago
/** Allocate and initialize new pages for a database.
* @param[in] mc a cursor on the database being added to.
* @param[in] flags flags defining what type of page is being allocated.
* @param[in] num the number of pages to allocate. This is usually 1,
* unless allocating overflow pages for a large record.
* @param[out] mp Address of a page, or NULL on failure.
* @return 0 on success, non-zero on failure.
14 years ago
*/
static int
mdb_page_new(MDB_cursor *mc, uint32_t flags, int num, MDB_page **mp)
14 years ago
{
MDB_page *np;
int rc;
14 years ago
if ((rc = mdb_page_alloc(mc, num, &np)))
return rc;
DPRINTF(("allocated new mpage %"Z"u, page size %u",
np->mp_pgno, mc->mc_txn->mt_env->me_psize));
np->mp_flags = flags | P_DIRTY;
np->mp_lower = PAGEHDRSZ;
np->mp_upper = mc->mc_txn->mt_env->me_psize;
14 years ago
if (IS_BRANCH(np))
mc->mc_db->md_branch_pages++;
else if (IS_LEAF(np))
mc->mc_db->md_leaf_pages++;
else if (IS_OVERFLOW(np)) {
mc->mc_db->md_overflow_pages += num;
np->mp_pages = num;
14 years ago
}
*mp = np;
14 years ago
return 0;
14 years ago
}
13 years ago
/** Calculate the size of a leaf node.
* The size depends on the environment's page size; if a data item
* is too large it will be put onto an overflow page and the node
* size will only include the key and not the data. Sizes are always
* rounded up to an even number of bytes, to guarantee 2-byte alignment
* of the #MDB_node headers.
* @param[in] env The environment handle.
* @param[in] key The key for the node.
* @param[in] data The data for the node.
* @return The number of bytes needed to store the node.
*/
14 years ago
static size_t
mdb_leaf_size(MDB_env *env, MDB_val *key, MDB_val *data)
14 years ago
{
size_t sz;
sz = LEAFSIZE(key, data);
if (sz > env->me_nodemax) {
14 years ago
/* put on overflow page */
sz -= data->mv_size - sizeof(pgno_t);
}
return EVEN(sz + sizeof(indx_t));
14 years ago
}
13 years ago
/** Calculate the size of a branch node.
* The size should depend on the environment's page size but since
* we currently don't support spilling large keys onto overflow
* pages, it's simply the size of the #MDB_node header plus the
* size of the key. Sizes are always rounded up to an even number
* of bytes, to guarantee 2-byte alignment of the #MDB_node headers.
* @param[in] env The environment handle.
* @param[in] key The key for the node.
* @return The number of bytes needed to store the node.
*/
14 years ago
static size_t
mdb_branch_size(MDB_env *env, MDB_val *key)
14 years ago
{
size_t sz;
sz = INDXSIZE(key);
if (sz > env->me_nodemax) {
14 years ago
/* put on overflow page */
/* not implemented */
/* sz -= key->size - sizeof(pgno_t); */
}
return sz + sizeof(indx_t);
}
13 years ago
/** Add a node to the page pointed to by the cursor.
* @param[in] mc The cursor for this operation.
* @param[in] indx The index on the page where the new node should be added.
* @param[in] key The key for the new node.
* @param[in] data The data for the new node, if any.
* @param[in] pgno The page number, if adding a branch node.
* @param[in] flags Flags for the node.
* @return 0 on success, non-zero on failure. Possible errors are:
* <ul>
* <li>ENOMEM - failed to allocate overflow pages for the node.
* <li>MDB_PAGE_FULL - there is insufficient room in the page. This error
13 years ago
* should never happen since all callers already calculate the
* page's free space before calling this function.
* </ul>
*/
14 years ago
static int
13 years ago
mdb_node_add(MDB_cursor *mc, indx_t indx,
MDB_val *key, MDB_val *data, pgno_t pgno, unsigned int flags)
14 years ago
{
unsigned int i;
size_t node_size = NODESIZE;
ssize_t room;
14 years ago
indx_t ofs;
MDB_node *node;
MDB_page *mp = mc->mc_pg[mc->mc_top];
MDB_page *ofp = NULL; /* overflow page */
DKBUF;
14 years ago
mdb_cassert(mc, mp->mp_upper >= mp->mp_lower);
14 years ago
DPRINTF(("add to %s %spage %"Z"u index %i, data size %"Z"u key size %"Z"u [%s]",
14 years ago
IS_LEAF(mp) ? "leaf" : "branch",
IS_SUBP(mp) ? "sub-" : "",
mdb_dbg_pgno(mp), indx, data ? data->mv_size : 0,
key ? key->mv_size : 0, key ? DKEY(key) : "null"));
14 years ago
if (IS_LEAF2(mp)) {
/* Move higher keys up one slot. */
int ksize = mc->mc_db->md_pad, dif;
char *ptr = LEAF2KEY(mp, indx, ksize);
dif = NUMKEYS(mp) - indx;
if (dif > 0)
memmove(ptr+ksize, ptr, dif*ksize);
/* insert new key */
memcpy(ptr, key->mv_data, ksize);
/* Just using these for counting */
mp->mp_lower += sizeof(indx_t);
mp->mp_upper -= ksize - sizeof(indx_t);
return MDB_SUCCESS;
}
room = (ssize_t)SIZELEFT(mp) - (ssize_t)sizeof(indx_t);
14 years ago
if (key != NULL)
node_size += key->mv_size;
if (IS_LEAF(mp)) {
mdb_cassert(mc, data);
14 years ago
if (F_ISSET(flags, F_BIGDATA)) {
/* Data already on overflow page. */
node_size += sizeof(pgno_t);
} else if (node_size + data->mv_size > mc->mc_txn->mt_env->me_nodemax) {
int ovpages = OVPAGES(data->mv_size, mc->mc_txn->mt_env->me_psize);
int rc;
14 years ago
/* Put data on overflow page. */
DPRINTF(("data size is %"Z"u, node would be %"Z"u, put data on overflow page",
data->mv_size, node_size+data->mv_size));
node_size = EVEN(node_size + sizeof(pgno_t));
if ((ssize_t)node_size > room)
goto full;
if ((rc = mdb_page_new(mc, P_OVERFLOW, ovpages, &ofp)))
return rc;
DPRINTF(("allocated overflow page %"Z"u", ofp->mp_pgno));
14 years ago
flags |= F_BIGDATA;
goto update;
} else {
node_size += data->mv_size;
14 years ago
}
}
node_size = EVEN(node_size);
if ((ssize_t)node_size > room)
goto full;
14 years ago
update:
14 years ago
/* Move higher pointers up one slot. */
for (i = NUMKEYS(mp); i > indx; i--)
mp->mp_ptrs[i] = mp->mp_ptrs[i - 1];
/* Adjust free space offsets. */
ofs = mp->mp_upper - node_size;
mdb_cassert(mc, ofs >= mp->mp_lower + sizeof(indx_t));
14 years ago
mp->mp_ptrs[indx] = ofs;
mp->mp_upper = ofs;
mp->mp_lower += sizeof(indx_t);
/* Write the node data. */
node = NODEPTR(mp, indx);
node->mn_ksize = (key == NULL) ? 0 : key->mv_size;
node->mn_flags = flags;
if (IS_LEAF(mp))
SETDSZ(node,data->mv_size);
14 years ago
else
SETPGNO(node,pgno);
14 years ago
if (key)
memcpy(NODEKEY(node), key->mv_data, key->mv_size);
14 years ago
if (IS_LEAF(mp)) {
mdb_cassert(mc, key);
14 years ago
if (ofp == NULL) {
if (F_ISSET(flags, F_BIGDATA))
memcpy(node->mn_data + key->mv_size, data->mv_data,
14 years ago
sizeof(pgno_t));
else if (F_ISSET(flags, MDB_RESERVE))
data->mv_data = node->mn_data + key->mv_size;
14 years ago
else
memcpy(node->mn_data + key->mv_size, data->mv_data,
14 years ago
data->mv_size);
} else {
memcpy(node->mn_data + key->mv_size, &ofp->mp_pgno,
14 years ago
sizeof(pgno_t));
if (F_ISSET(flags, MDB_RESERVE))
data->mv_data = METADATA(ofp);
else
memcpy(METADATA(ofp), data->mv_data, data->mv_size);
14 years ago
}
}
return MDB_SUCCESS;
full:
DPRINTF(("not enough room in page %"Z"u, got %u ptrs",
mdb_dbg_pgno(mp), NUMKEYS(mp)));
DPRINTF(("upper-lower = %u - %u = %"Z"d", mp->mp_upper,mp->mp_lower,room));
DPRINTF(("node size = %"Z"u", node_size));
mc->mc_txn->mt_flags |= MDB_TXN_ERROR;
return MDB_PAGE_FULL;
14 years ago
}
13 years ago
/** Delete the specified node from a page.
11 years ago
* @param[in] mc Cursor pointing to the node to delete.
13 years ago
* @param[in] ksize The size of a node. Only used if the page is
* part of a #MDB_DUPFIXED database.
*/
14 years ago
static void
mdb_node_del(MDB_cursor *mc, int ksize)
14 years ago
{
MDB_page *mp = mc->mc_pg[mc->mc_top];
indx_t indx = mc->mc_ki[mc->mc_top];
14 years ago
unsigned int sz;
indx_t i, j, numkeys, ptr;
MDB_node *node;
char *base;
DPRINTF(("delete node %u on %s page %"Z"u", indx,
IS_LEAF(mp) ? "leaf" : "branch", mdb_dbg_pgno(mp)));
numkeys = NUMKEYS(mp);
mdb_cassert(mc, indx < numkeys);
14 years ago
if (IS_LEAF2(mp)) {
int x = numkeys - 1 - indx;
base = LEAF2KEY(mp, indx, ksize);
if (x)
memmove(base, base + ksize, x * ksize);
mp->mp_lower -= sizeof(indx_t);
mp->mp_upper += ksize - sizeof(indx_t);
return;
}
14 years ago
node = NODEPTR(mp, indx);
sz = NODESIZE + node->mn_ksize;
if (IS_LEAF(mp)) {
if (F_ISSET(node->mn_flags, F_BIGDATA))
sz += sizeof(pgno_t);
else
sz += NODEDSZ(node);
}
sz = EVEN(sz);
14 years ago
ptr = mp->mp_ptrs[indx];
for (i = j = 0; i < numkeys; i++) {
if (i != indx) {
mp->mp_ptrs[j] = mp->mp_ptrs[i];
if (mp->mp_ptrs[i] < ptr)
mp->mp_ptrs[j] += sz;
j++;
}
}
base = (char *)mp + mp->mp_upper;
memmove(base + sz, base, ptr - mp->mp_upper);
14 years ago
mp->mp_lower -= sizeof(indx_t);
mp->mp_upper += sz;
}
/** Compact the main page after deleting a node on a subpage.
* @param[in] mp The main page to operate on.
* @param[in] indx The index of the subpage on the main page.
*/
static void
mdb_node_shrink(MDB_page *mp, indx_t indx)
{
MDB_node *node;
MDB_page *sp, *xp;
char *base;
int nsize, delta;
indx_t i, numkeys, ptr;
node = NODEPTR(mp, indx);
sp = (MDB_page *)NODEDATA(node);
delta = SIZELEFT(sp);
xp = (MDB_page *)((char *)sp + delta);
/* shift subpage upward */
if (IS_LEAF2(sp)) {
nsize = NUMKEYS(sp) * sp->mp_pad;
if (nsize & 1)
return; /* do not make the node uneven-sized */
memmove(METADATA(xp), METADATA(sp), nsize);
} else {
int i;
numkeys = NUMKEYS(sp);
for (i=numkeys-1; i>=0; i--)
xp->mp_ptrs[i] = sp->mp_ptrs[i] - delta;
}
xp->mp_upper = sp->mp_lower;
xp->mp_lower = sp->mp_lower;
xp->mp_flags = sp->mp_flags;
xp->mp_pad = sp->mp_pad;
COPY_PGNO(xp->mp_pgno, mp->mp_pgno);
nsize = NODEDSZ(node) - delta;
SETDSZ(node, nsize);
/* shift lower nodes upward */
ptr = mp->mp_ptrs[indx];
numkeys = NUMKEYS(mp);
for (i = 0; i < numkeys; i++) {
if (mp->mp_ptrs[i] <= ptr)
mp->mp_ptrs[i] += delta;
}
base = (char *)mp + mp->mp_upper;
memmove(base + delta, base, ptr - mp->mp_upper + NODESIZE + NODEKSZ(node));
mp->mp_upper += delta;
}
13 years ago
/** Initial setup of a sorted-dups cursor.
* Sorted duplicates are implemented as a sub-database for the given key.
* The duplicate data items are actually keys of the sub-database.
* Operations on the duplicate data items are performed using a sub-cursor
* initialized when the sub-database is first accessed. This function does
* the preliminary setup of the sub-cursor, filling in the fields that
* depend only on the parent DB.
* @param[in] mc The main cursor whose sorted-dups cursor is to be initialized.
*/
static void
mdb_xcursor_init0(MDB_cursor *mc)
{
MDB_xcursor *mx = mc->mc_xcursor;
mx->mx_cursor.mc_xcursor = NULL;
mx->mx_cursor.mc_txn = mc->mc_txn;
mx->mx_cursor.mc_db = &mx->mx_db;
mx->mx_cursor.mc_dbx = &mx->mx_dbx;
mx->mx_cursor.mc_dbi = mc->mc_dbi;
mx->mx_cursor.mc_dbflag = &mx->mx_dbflag;
mx->mx_cursor.mc_snum = 0;
mx->mx_cursor.mc_top = 0;
mx->mx_cursor.mc_flags = C_SUB;
mx->mx_dbx.md_name.mv_size = 0;
mx->mx_dbx.md_name.mv_data = NULL;
mx->mx_dbx.md_cmp = mc->mc_dbx->md_dcmp;
mx->mx_dbx.md_dcmp = NULL;
mx->mx_dbx.md_rel = mc->mc_dbx->md_rel;
}
13 years ago
/** Final setup of a sorted-dups cursor.
* Sets up the fields that depend on the data from the main cursor.
* @param[in] mc The main cursor whose sorted-dups cursor is to be initialized.
* @param[in] node The data containing the #MDB_db record for the
* sorted-dup database.
*/
static void
mdb_xcursor_init1(MDB_cursor *mc, MDB_node *node)
{
MDB_xcursor *mx = mc->mc_xcursor;
if (node->mn_flags & F_SUBDATA) {
memcpy(&mx->mx_db, NODEDATA(node), sizeof(MDB_db));
mx->mx_cursor.mc_pg[0] = 0;
mx->mx_cursor.mc_snum = 0;
mx->mx_cursor.mc_top = 0;
mx->mx_cursor.mc_flags = C_SUB;
} else {
MDB_page *fp = NODEDATA(node);
mx->mx_db.md_pad = mc->mc_pg[mc->mc_top]->mp_pad;
mx->mx_db.md_flags = 0;
mx->mx_db.md_depth = 1;
mx->mx_db.md_branch_pages = 0;
mx->mx_db.md_leaf_pages = 1;
mx->mx_db.md_overflow_pages = 0;
mx->mx_db.md_entries = NUMKEYS(fp);
COPY_PGNO(mx->mx_db.md_root, fp->mp_pgno);
mx->mx_cursor.mc_snum = 1;
mx->mx_cursor.mc_top = 0;
mx->mx_cursor.mc_flags = C_INITIALIZED|C_SUB;
mx->mx_cursor.mc_pg[0] = fp;
mx->mx_cursor.mc_ki[0] = 0;
if (mc->mc_db->md_flags & MDB_DUPFIXED) {
mx->mx_db.md_flags = MDB_DUPFIXED;
mx->mx_db.md_pad = fp->mp_pad;
if (mc->mc_db->md_flags & MDB_INTEGERDUP)
mx->mx_db.md_flags |= MDB_INTEGERKEY;
}
}
DPRINTF(("Sub-db -%u root page %"Z"u", mx->mx_cursor.mc_dbi,
mx->mx_db.md_root));
mx->mx_dbflag = DB_VALID|DB_DIRTY; /* DB_DIRTY guides mdb_cursor_touch */
13 years ago
#if UINT_MAX < SIZE_MAX
13 years ago
if (mx->mx_dbx.md_cmp == mdb_cmp_int && mx->mx_db.md_pad == sizeof(size_t))
mx->mx_dbx.md_cmp = mdb_cmp_clong;
#endif
}
13 years ago
/** Initialize a cursor for a given transaction and database. */
static void
mdb_cursor_init(MDB_cursor *mc, MDB_txn *txn, MDB_dbi dbi, MDB_xcursor *mx)
{
mc->mc_next = NULL;
mc->mc_backup = NULL;
mc->mc_dbi = dbi;
mc->mc_txn = txn;
mc->mc_db = &txn->mt_dbs[dbi];
mc->mc_dbx = &txn->mt_dbxs[dbi];
mc->mc_dbflag = &txn->mt_dbflags[dbi];
mc->mc_snum = 0;
mc->mc_top = 0;
mc->mc_pg[0] = 0;
mc->mc_flags = 0;
if (txn->mt_dbs[dbi].md_flags & MDB_DUPSORT) {
mdb_tassert(txn, mx != NULL);
mc->mc_xcursor = mx;
mdb_xcursor_init0(mc);
} else {
mc->mc_xcursor = NULL;
}
if (*mc->mc_dbflag & DB_STALE) {
mdb_page_search(mc, NULL, MDB_PS_ROOTONLY);
}
}
14 years ago
int
mdb_cursor_open(MDB_txn *txn, MDB_dbi dbi, MDB_cursor **ret)
14 years ago
{
MDB_cursor *mc;
size_t size = sizeof(MDB_cursor);
14 years ago
if (!ret || !TXN_DBI_EXIST(txn, dbi))
return EINVAL;
if (txn->mt_flags & MDB_TXN_ERROR)
return MDB_BAD_TXN;
/* Allow read access to the freelist */
if (!dbi && !F_ISSET(txn->mt_flags, MDB_TXN_RDONLY))
14 years ago
return EINVAL;
if (txn->mt_dbs[dbi].md_flags & MDB_DUPSORT)
size += sizeof(MDB_xcursor);
if ((mc = malloc(size)) != NULL) {
mdb_cursor_init(mc, txn, dbi, (MDB_xcursor *)(mc + 1));
if (txn->mt_cursors) {
mc->mc_next = txn->mt_cursors[dbi];
txn->mt_cursors[dbi] = mc;
mc->mc_flags |= C_UNTRACK;
}
} else {
return ENOMEM;
14 years ago
}
*ret = mc;
14 years ago
return MDB_SUCCESS;
}
int
mdb_cursor_renew(MDB_txn *txn, MDB_cursor *mc)
{
if (!mc || !TXN_DBI_EXIST(txn, mc->mc_dbi))
return EINVAL;
if ((mc->mc_flags & C_UNTRACK) || txn->mt_cursors)
return EINVAL;
if (txn->mt_flags & MDB_TXN_ERROR)
return MDB_BAD_TXN;
mdb_cursor_init(mc, txn, mc->mc_dbi, mc->mc_xcursor);
return MDB_SUCCESS;
}
/* Return the count of duplicate data items for the current key */
int
mdb_cursor_count(MDB_cursor *mc, size_t *countp)
{
MDB_node *leaf;
if (mc == NULL || countp == NULL)
return EINVAL;
if (mc->mc_xcursor == NULL)
return MDB_INCOMPATIBLE;
if (mc->mc_txn->mt_flags & MDB_TXN_ERROR)
return MDB_BAD_TXN;
leaf = NODEPTR(mc->mc_pg[mc->mc_top], mc->mc_ki[mc->mc_top]);
if (!F_ISSET(leaf->mn_flags, F_DUPDATA)) {
*countp = 1;
} else {
if (!(mc->mc_xcursor->mx_cursor.mc_flags & C_INITIALIZED))
return EINVAL;
*countp = mc->mc_xcursor->mx_db.md_entries;
}
return MDB_SUCCESS;
}
14 years ago
void
mdb_cursor_close(MDB_cursor *mc)
14 years ago
{
if (mc && !mc->mc_backup) {
/* remove from txn, if tracked */
if ((mc->mc_flags & C_UNTRACK) && mc->mc_txn->mt_cursors) {
MDB_cursor **prev = &mc->mc_txn->mt_cursors[mc->mc_dbi];
while (*prev && *prev != mc) prev = &(*prev)->mc_next;
if (*prev == mc)
*prev = mc->mc_next;
}
free(mc);
14 years ago
}
}
MDB_txn *
mdb_cursor_txn(MDB_cursor *mc)
{
if (!mc) return NULL;
return mc->mc_txn;
}
MDB_dbi
mdb_cursor_dbi(MDB_cursor *mc)
{
return mc->mc_dbi;
}
/** Replace the key for a branch node with a new key.
12 years ago
* @param[in] mc Cursor pointing to the node to operate on.
13 years ago
* @param[in] key The new key to use.
* @return 0 on success, non-zero on failure.
*/
14 years ago
static int
mdb_update_key(MDB_cursor *mc, MDB_val *key)
14 years ago
{
MDB_page *mp;
14 years ago
MDB_node *node;
char *base;
size_t len;
int delta, ksize, oksize;
indx_t ptr, i, numkeys, indx;
DKBUF;
14 years ago
indx = mc->mc_ki[mc->mc_top];
mp = mc->mc_pg[mc->mc_top];
14 years ago
node = NODEPTR(mp, indx);
ptr = mp->mp_ptrs[indx];
#if MDB_DEBUG
{
MDB_val k2;
char kbuf2[DKBUF_MAXKEYSIZE*2+1];
k2.mv_data = NODEKEY(node);
k2.mv_size = node->mn_ksize;
DPRINTF(("update key %u (ofs %u) [%s] to [%s] on page %"Z"u",
indx, ptr,
mdb_dkey(&k2, kbuf2),
DKEY(key),
mp->mp_pgno));
}
#endif
14 years ago
/* Sizes must be 2-byte aligned. */
ksize = EVEN(key->mv_size);
oksize = EVEN(node->mn_ksize);
delta = ksize - oksize;
/* Shift node contents if EVEN(key length) changed. */
14 years ago
if (delta) {
if (delta > 0 && SIZELEFT(mp) < delta) {
pgno_t pgno;
/* not enough space left, do a delete and split */
DPRINTF(("Not enough room, delta = %d, splitting...", delta));
pgno = NODEPGNO(node);
mdb_node_del(mc, 0);
return mdb_page_split(mc, key, NULL, pgno, MDB_SPLIT_REPLACE);
14 years ago
}
numkeys = NUMKEYS(mp);
for (i = 0; i < numkeys; i++) {
if (mp->mp_ptrs[i] <= ptr)
mp->mp_ptrs[i] -= delta;
}
base = (char *)mp + mp->mp_upper;
len = ptr - mp->mp_upper + NODESIZE;
memmove(base - delta, base, len);
14 years ago
mp->mp_upper -= delta;
node = NODEPTR(mp, indx);
}
/* But even if no shift was needed, update ksize */
if (node->mn_ksize != key->mv_size)
node->mn_ksize = key->mv_size;
if (key->mv_size)
memcpy(NODEKEY(node), key->mv_data, key->mv_size);
14 years ago
return MDB_SUCCESS;
}
static void
mdb_cursor_copy(const MDB_cursor *csrc, MDB_cursor *cdst);
13 years ago
/** Move a node from csrc to cdst.
14 years ago
*/
static int
13 years ago
mdb_node_move(MDB_cursor *csrc, MDB_cursor *cdst)
14 years ago
{
MDB_node *srcnode;
MDB_val key, data;
pgno_t srcpg;
MDB_cursor mn;
int rc;
unsigned short flags;
DKBUF;
14 years ago
/* Mark src and dst as dirty. */
13 years ago
if ((rc = mdb_page_touch(csrc)) ||
(rc = mdb_page_touch(cdst)))
return rc;
14 years ago
if (IS_LEAF2(csrc->mc_pg[csrc->mc_top])) {
key.mv_size = csrc->mc_db->md_pad;
key.mv_data = LEAF2KEY(csrc->mc_pg[csrc->mc_top], csrc->mc_ki[csrc->mc_top], key.mv_size);
data.mv_size = 0;
data.mv_data = NULL;
srcpg = 0;
flags = 0;
} else {
srcnode = NODEPTR(csrc->mc_pg[csrc->mc_top], csrc->mc_ki[csrc->mc_top]);
mdb_cassert(csrc, !((size_t)srcnode & 1));
srcpg = NODEPGNO(srcnode);
flags = srcnode->mn_flags;
if (csrc->mc_ki[csrc->mc_top] == 0 && IS_BRANCH(csrc->mc_pg[csrc->mc_top])) {
unsigned int snum = csrc->mc_snum;
MDB_node *s2;
/* must find the lowest key below src */
rc = mdb_page_search_lowest(csrc);
if (rc)
return rc;
if (IS_LEAF2(csrc->mc_pg[csrc->mc_top])) {
key.mv_size = csrc->mc_db->md_pad;
key.mv_data = LEAF2KEY(csrc->mc_pg[csrc->mc_top], 0, key.mv_size);
} else {
s2 = NODEPTR(csrc->mc_pg[csrc->mc_top], 0);
key.mv_size = NODEKSZ(s2);
key.mv_data = NODEKEY(s2);
}
csrc->mc_snum = snum--;
csrc->mc_top = snum;
} else {
key.mv_size = NODEKSZ(srcnode);
key.mv_data = NODEKEY(srcnode);
}
data.mv_size = NODEDSZ(srcnode);
data.mv_data = NODEDATA(srcnode);
}
if (IS_BRANCH(cdst->mc_pg[cdst->mc_top]) && cdst->mc_ki[cdst->mc_top] == 0) {
unsigned int snum = cdst->mc_snum;
MDB_node *s2;
MDB_val bkey;
/* must find the lowest key below dst */
mdb_cursor_copy(cdst, &mn);
rc = mdb_page_search_lowest(&mn);
if (rc)
return rc;
if (IS_LEAF2(mn.mc_pg[mn.mc_top])) {
bkey.mv_size = mn.mc_db->md_pad;
bkey.mv_data = LEAF2KEY(mn.mc_pg[mn.mc_top], 0, bkey.mv_size);
} else {
s2 = NODEPTR(mn.mc_pg[mn.mc_top], 0);
bkey.mv_size = NODEKSZ(s2);
bkey.mv_data = NODEKEY(s2);
}
mn.mc_snum = snum--;
mn.mc_top = snum;
mn.mc_ki[snum] = 0;
rc = mdb_update_key(&mn, &bkey);
if (rc)
return rc;
}
DPRINTF(("moving %s node %u [%s] on page %"Z"u to node %u on page %"Z"u",
IS_LEAF(csrc->mc_pg[csrc->mc_top]) ? "leaf" : "branch",
csrc->mc_ki[csrc->mc_top],
DKEY(&key),
csrc->mc_pg[csrc->mc_top]->mp_pgno,
cdst->mc_ki[cdst->mc_top], cdst->mc_pg[cdst->mc_top]->mp_pgno));
14 years ago
/* Add the node to the destination page.
*/
rc = mdb_node_add(cdst, cdst->mc_ki[cdst->mc_top], &key, &data, srcpg, flags);
14 years ago
if (rc != MDB_SUCCESS)
return rc;
/* Delete the node from the source page.
*/
mdb_node_del(csrc, key.mv_size);
14 years ago
{
/* Adjust other cursors pointing to mp */
MDB_cursor *m2, *m3;
MDB_dbi dbi = csrc->mc_dbi;
MDB_page *mp = csrc->mc_pg[csrc->mc_top];
for (m2 = csrc->mc_txn->mt_cursors[dbi]; m2; m2=m2->mc_next) {
if (csrc->mc_flags & C_SUB)
m3 = &m2->mc_xcursor->mx_cursor;
else
m3 = m2;
if (m3 == csrc) continue;
if (m3->mc_pg[csrc->mc_top] == mp && m3->mc_ki[csrc->mc_top] ==
csrc->mc_ki[csrc->mc_top]) {
m3->mc_pg[csrc->mc_top] = cdst->mc_pg[cdst->mc_top];
m3->mc_ki[csrc->mc_top] = cdst->mc_ki[cdst->mc_top];
}
}
}
/* Update the parent separators.
*/
if (csrc->mc_ki[csrc->mc_top] == 0) {
if (csrc->mc_ki[csrc->mc_top-1] != 0) {
if (IS_LEAF2(csrc->mc_pg[csrc->mc_top])) {
key.mv_data = LEAF2KEY(csrc->mc_pg[csrc->mc_top], 0, key.mv_size);
} else {
srcnode = NODEPTR(csrc->mc_pg[csrc->mc_top], 0);
key.mv_size = NODEKSZ(srcnode);
key.mv_data = NODEKEY(srcnode);
}
DPRINTF(("update separator for source page %"Z"u to [%s]",
csrc->mc_pg[csrc->mc_top]->mp_pgno, DKEY(&key)));
mdb_cursor_copy(csrc, &mn);
mn.mc_snum--;
mn.mc_top--;
if ((rc = mdb_update_key(&mn, &key)) != MDB_SUCCESS)
return rc;
}
if (IS_BRANCH(csrc->mc_pg[csrc->mc_top])) {
MDB_val nullkey;
indx_t ix = csrc->mc_ki[csrc->mc_top];
nullkey.mv_size = 0;
csrc->mc_ki[csrc->mc_top] = 0;
rc = mdb_update_key(csrc, &nullkey);
csrc->mc_ki[csrc->mc_top] = ix;
mdb_cassert(csrc, rc == MDB_SUCCESS);
}
14 years ago
}
if (cdst->mc_ki[cdst->mc_top] == 0) {
if (cdst->mc_ki[cdst->mc_top-1] != 0) {
if (IS_LEAF2(csrc->mc_pg[csrc->mc_top])) {
key.mv_data = LEAF2KEY(cdst->mc_pg[cdst->mc_top], 0, key.mv_size);
} else {
srcnode = NODEPTR(cdst->mc_pg[cdst->mc_top], 0);
key.mv_size = NODEKSZ(srcnode);
key.mv_data = NODEKEY(srcnode);
}
DPRINTF(("update separator for destination page %"Z"u to [%s]",
cdst->mc_pg[cdst->mc_top]->mp_pgno, DKEY(&key)));
mdb_cursor_copy(cdst, &mn);
mn.mc_snum--;
mn.mc_top--;
if ((rc = mdb_update_key(&mn, &key)) != MDB_SUCCESS)
return rc;
}
if (IS_BRANCH(cdst->mc_pg[cdst->mc_top])) {
MDB_val nullkey;
indx_t ix = cdst->mc_ki[cdst->mc_top];
nullkey.mv_size = 0;
cdst->mc_ki[cdst->mc_top] = 0;
rc = mdb_update_key(cdst, &nullkey);
cdst->mc_ki[cdst->mc_top] = ix;
mdb_cassert(csrc, rc == MDB_SUCCESS);
}
14 years ago
}
return MDB_SUCCESS;
}
13 years ago
/** Merge one page into another.
* The nodes from the page pointed to by \b csrc will
* be copied to the page pointed to by \b cdst and then
* the \b csrc page will be freed.
* @param[in] csrc Cursor pointing to the source page.
* @param[in] cdst Cursor pointing to the destination page.
11 years ago
* @return 0 on success, non-zero on failure.
13 years ago
*/
14 years ago
static int
13 years ago
mdb_page_merge(MDB_cursor *csrc, MDB_cursor *cdst)
14 years ago
{
int rc;
indx_t i, j;
14 years ago
MDB_node *srcnode;
MDB_val key, data;
unsigned nkeys;
14 years ago
DPRINTF(("merging page %"Z"u into %"Z"u", csrc->mc_pg[csrc->mc_top]->mp_pgno,
cdst->mc_pg[cdst->mc_top]->mp_pgno));
14 years ago
mdb_cassert(csrc, csrc->mc_snum > 1); /* can't merge root page */
mdb_cassert(csrc, cdst->mc_snum > 1);
14 years ago
/* Mark dst as dirty. */
13 years ago
if ((rc = mdb_page_touch(cdst)))
14 years ago
return rc;
/* Move all nodes from src to dst.
*/
j = nkeys = NUMKEYS(cdst->mc_pg[cdst->mc_top]);
if (IS_LEAF2(csrc->mc_pg[csrc->mc_top])) {
key.mv_size = csrc->mc_db->md_pad;
key.mv_data = METADATA(csrc->mc_pg[csrc->mc_top]);
for (i = 0; i < NUMKEYS(csrc->mc_pg[csrc->mc_top]); i++, j++) {
13 years ago
rc = mdb_node_add(cdst, j, &key, NULL, 0, 0);
if (rc != MDB_SUCCESS)
return rc;
key.mv_data = (char *)key.mv_data + key.mv_size;
}
} else {
for (i = 0; i < NUMKEYS(csrc->mc_pg[csrc->mc_top]); i++, j++) {
srcnode = NODEPTR(csrc->mc_pg[csrc->mc_top], i);
if (i == 0 && IS_BRANCH(csrc->mc_pg[csrc->mc_top])) {
MDB_cursor mn;
MDB_node *s2;
mdb_cursor_copy(csrc, &mn);
/* must find the lowest key below src */
rc = mdb_page_search_lowest(&mn);
if (rc)
return rc;
if (IS_LEAF2(mn.mc_pg[mn.mc_top])) {
key.mv_size = mn.mc_db->md_pad;
key.mv_data = LEAF2KEY(mn.mc_pg[mn.mc_top], 0, key.mv_size);
} else {
s2 = NODEPTR(mn.mc_pg[mn.mc_top], 0);
key.mv_size = NODEKSZ(s2);
key.mv_data = NODEKEY(s2);
}
} else {
key.mv_size = srcnode->mn_ksize;
key.mv_data = NODEKEY(srcnode);
}
data.mv_size = NODEDSZ(srcnode);
data.mv_data = NODEDATA(srcnode);
13 years ago
rc = mdb_node_add(cdst, j, &key, &data, NODEPGNO(srcnode), srcnode->mn_flags);
if (rc != MDB_SUCCESS)
return rc;
}
14 years ago
}
DPRINTF(("dst page %"Z"u now has %u keys (%.1f%% filled)",
cdst->mc_pg[cdst->mc_top]->mp_pgno, NUMKEYS(cdst->mc_pg[cdst->mc_top]),
(float)PAGEFILL(cdst->mc_txn->mt_env, cdst->mc_pg[cdst->mc_top]) / 10));
14 years ago
/* Unlink the src page from parent and add to free list.
14 years ago
*/
csrc->mc_top--;
mdb_node_del(csrc, 0);
if (csrc->mc_ki[csrc->mc_top] == 0) {
14 years ago
key.mv_size = 0;
rc = mdb_update_key(csrc, &key);
if (rc) {
csrc->mc_top++;
14 years ago
return rc;
}
14 years ago
}
csrc->mc_top++;
14 years ago
mdb_page_loose(csrc->mc_txn->mt_env, csrc->mc_pg[csrc->mc_top]);
if (IS_LEAF(csrc->mc_pg[csrc->mc_top]))
csrc->mc_db->md_leaf_pages--;
14 years ago
else
csrc->mc_db->md_branch_pages--;
{
/* Adjust other cursors pointing to mp */
MDB_cursor *m2, *m3;
MDB_dbi dbi = csrc->mc_dbi;
MDB_page *mp = cdst->mc_pg[cdst->mc_top];
for (m2 = csrc->mc_txn->mt_cursors[dbi]; m2; m2=m2->mc_next) {
if (csrc->mc_flags & C_SUB)
m3 = &m2->mc_xcursor->mx_cursor;
else
m3 = m2;
if (m3 == csrc) continue;
if (m3->mc_snum < csrc->mc_snum) continue;
if (m3->mc_pg[csrc->mc_top] == csrc->mc_pg[csrc->mc_top]) {
m3->mc_pg[csrc->mc_top] = mp;
m3->mc_ki[csrc->mc_top] += nkeys;
}
}
}
{
unsigned int snum = cdst->mc_snum;
uint16_t depth = cdst->mc_db->md_depth;
mdb_cursor_pop(cdst);
rc = mdb_rebalance(cdst);
/* Did the tree shrink? */
if (depth > cdst->mc_db->md_depth)
snum--;
cdst->mc_snum = snum;
cdst->mc_top = snum-1;
}
return rc;
}
13 years ago
/** Copy the contents of a cursor.
* @param[in] csrc The cursor to copy from.
* @param[out] cdst The cursor to copy to.
*/
static void
mdb_cursor_copy(const MDB_cursor *csrc, MDB_cursor *cdst)
{
unsigned int i;
14 years ago
cdst->mc_txn = csrc->mc_txn;
cdst->mc_dbi = csrc->mc_dbi;
cdst->mc_db = csrc->mc_db;
cdst->mc_dbx = csrc->mc_dbx;
cdst->mc_snum = csrc->mc_snum;
cdst->mc_top = csrc->mc_top;
cdst->mc_flags = csrc->mc_flags;
14 years ago
for (i=0; i<csrc->mc_snum; i++) {
cdst->mc_pg[i] = csrc->mc_pg[i];
cdst->mc_ki[i] = csrc->mc_ki[i];
}
14 years ago
}
13 years ago
/** Rebalance the tree after a delete operation.
* @param[in] mc Cursor pointing to the page where rebalancing
* should begin.
* @return 0 on success, non-zero on failure.
*/
14 years ago
static int
mdb_rebalance(MDB_cursor *mc)
14 years ago
{
MDB_node *node;
int rc;
unsigned int ptop, minkeys;
MDB_cursor mn;
indx_t oldki;
14 years ago
minkeys = 1 + (IS_BRANCH(mc->mc_pg[mc->mc_top]));
DPRINTF(("rebalancing %s page %"Z"u (has %u keys, %.1f%% full)",
IS_LEAF(mc->mc_pg[mc->mc_top]) ? "leaf" : "branch",
mdb_dbg_pgno(mc->mc_pg[mc->mc_top]), NUMKEYS(mc->mc_pg[mc->mc_top]),
(float)PAGEFILL(mc->mc_txn->mt_env, mc->mc_pg[mc->mc_top]) / 10));
14 years ago
if (PAGEFILL(mc->mc_txn->mt_env, mc->mc_pg[mc->mc_top]) >= FILL_THRESHOLD &&
12 years ago
NUMKEYS(mc->mc_pg[mc->mc_top]) >= minkeys) {
DPRINTF(("no need to rebalance page %"Z"u, above fill threshold",
mdb_dbg_pgno(mc->mc_pg[mc->mc_top])));
14 years ago
return MDB_SUCCESS;
}
if (mc->mc_snum < 2) {
MDB_page *mp = mc->mc_pg[0];
if (IS_SUBP(mp)) {
DPUTS("Can't rebalance a subpage, ignoring");
return MDB_SUCCESS;
}
if (NUMKEYS(mp) == 0) {
DPUTS("tree is completely empty");
mc->mc_db->md_root = P_INVALID;
mc->mc_db->md_depth = 0;
mc->mc_db->md_leaf_pages = 0;
rc = mdb_midl_append(&mc->mc_txn->mt_free_pgs, mp->mp_pgno);
if (rc)
return rc;
/* Adjust cursors pointing to mp */
mc->mc_snum = 0;
mc->mc_top = 0;
mc->mc_flags &= ~C_INITIALIZED;
{
MDB_cursor *m2, *m3;
MDB_dbi dbi = mc->mc_dbi;
for (m2 = mc->mc_txn->mt_cursors[dbi]; m2; m2=m2->mc_next) {
if (mc->mc_flags & C_SUB)
m3 = &m2->mc_xcursor->mx_cursor;
else
m3 = m2;
if (m3->mc_snum < mc->mc_snum) continue;
if (m3->mc_pg[0] == mp) {
m3->mc_snum = 0;
m3->mc_top = 0;
m3->mc_flags &= ~C_INITIALIZED;
}
}
}
} else if (IS_BRANCH(mp) && NUMKEYS(mp) == 1) {
int i;
DPUTS("collapsing root page!");
rc = mdb_midl_append(&mc->mc_txn->mt_free_pgs, mp->mp_pgno);
if (rc)
return rc;
mc->mc_db->md_root = NODEPGNO(NODEPTR(mp, 0));
rc = mdb_page_get(mc->mc_txn,mc->mc_db->md_root,&mc->mc_pg[0],NULL);
if (rc)
13 years ago
return rc;
mc->mc_db->md_depth--;
mc->mc_db->md_branch_pages--;
mc->mc_ki[0] = mc->mc_ki[1];
for (i = 1; i<mc->mc_db->md_depth; i++) {
mc->mc_pg[i] = mc->mc_pg[i+1];
mc->mc_ki[i] = mc->mc_ki[i+1];
}
{
/* Adjust other cursors pointing to mp */
MDB_cursor *m2, *m3;
MDB_dbi dbi = mc->mc_dbi;
for (m2 = mc->mc_txn->mt_cursors[dbi]; m2; m2=m2->mc_next) {
if (mc->mc_flags & C_SUB)
m3 = &m2->mc_xcursor->mx_cursor;
else
m3 = m2;
if (m3 == mc || m3->mc_snum < mc->mc_snum) continue;
if (m3->mc_pg[0] == mp) {
m3->mc_snum--;
m3->mc_top--;
for (i=0; i<m3->mc_snum; i++) {
m3->mc_pg[i] = m3->mc_pg[i+1];
m3->mc_ki[i] = m3->mc_ki[i+1];
}
}
}
}
14 years ago
} else
DPUTS("root page doesn't need rebalancing");
14 years ago
return MDB_SUCCESS;
}
/* The parent (branch page) must have at least 2 pointers,
* otherwise the tree is invalid.
*/
ptop = mc->mc_top-1;
mdb_cassert(mc, NUMKEYS(mc->mc_pg[ptop]) > 1);
14 years ago
/* Leaf page fill factor is below the threshold.
* Try to move keys from left or right neighbor, or
* merge with a neighbor page.
*/
/* Find neighbors.
*/
mdb_cursor_copy(mc, &mn);
mn.mc_xcursor = NULL;
oldki = mc->mc_ki[mc->mc_top];
if (mc->mc_ki[ptop] == 0) {
14 years ago
/* We're the leftmost leaf in our parent.
*/
DPUTS("reading right neighbor");
mn.mc_ki[ptop]++;
node = NODEPTR(mc->mc_pg[ptop], mn.mc_ki[ptop]);
rc = mdb_page_get(mc->mc_txn,NODEPGNO(node),&mn.mc_pg[mn.mc_top],NULL);
if (rc)
13 years ago
return rc;
mn.mc_ki[mn.mc_top] = 0;
mc->mc_ki[mc->mc_top] = NUMKEYS(mc->mc_pg[mc->mc_top]);
14 years ago
} else {
/* There is at least one neighbor to the left.
*/
DPUTS("reading left neighbor");
mn.mc_ki[ptop]--;
node = NODEPTR(mc->mc_pg[ptop], mn.mc_ki[ptop]);
rc = mdb_page_get(mc->mc_txn,NODEPGNO(node),&mn.mc_pg[mn.mc_top],NULL);
if (rc)
13 years ago
return rc;
mn.mc_ki[mn.mc_top] = NUMKEYS(mn.mc_pg[mn.mc_top]) - 1;
mc->mc_ki[mc->mc_top] = 0;
14 years ago
}
DPRINTF(("found neighbor page %"Z"u (%u keys, %.1f%% full)",
mn.mc_pg[mn.mc_top]->mp_pgno, NUMKEYS(mn.mc_pg[mn.mc_top]),
(float)PAGEFILL(mc->mc_txn->mt_env, mn.mc_pg[mn.mc_top]) / 10));
14 years ago
/* If the neighbor page is above threshold and has enough keys,
* move one key from it. Otherwise we should try to merge them.
* (A branch page must never have less than 2 keys.)
14 years ago
*/
minkeys = 1 + (IS_BRANCH(mn.mc_pg[mn.mc_top]));
if (PAGEFILL(mc->mc_txn->mt_env, mn.mc_pg[mn.mc_top]) >= FILL_THRESHOLD && NUMKEYS(mn.mc_pg[mn.mc_top]) > minkeys) {
rc = mdb_node_move(&mn, mc);
if (mc->mc_ki[ptop]) {
oldki++;
}
} else {
if (mc->mc_ki[ptop] == 0) {
rc = mdb_page_merge(&mn, mc);
} else {
oldki += NUMKEYS(mn.mc_pg[mn.mc_top]);
mn.mc_ki[mn.mc_top] += mc->mc_ki[mn.mc_top] + 1;
rc = mdb_page_merge(mc, &mn);
mdb_cursor_copy(&mn, mc);
}
mc->mc_flags &= ~C_EOF;
14 years ago
}
mc->mc_ki[mc->mc_top] = oldki;
return rc;
14 years ago
}
13 years ago
/** Complete a delete operation started by #mdb_cursor_del(). */
static int
mdb_cursor_del0(MDB_cursor *mc)
{
int rc;
MDB_page *mp;
indx_t ki;
unsigned int nkeys;
ki = mc->mc_ki[mc->mc_top];
mdb_node_del(mc, mc->mc_db->md_pad);
mc->mc_db->md_entries--;
rc = mdb_rebalance(mc);
if (rc == MDB_SUCCESS) {
MDB_cursor *m2, *m3;
MDB_dbi dbi = mc->mc_dbi;
mp = mc->mc_pg[mc->mc_top];
nkeys = NUMKEYS(mp);
/* if mc points past last node in page, find next sibling */
if (mc->mc_ki[mc->mc_top] >= nkeys) {
rc = mdb_cursor_sibling(mc, 1);
if (rc == MDB_NOTFOUND)
rc = MDB_SUCCESS;
}
/* Adjust other cursors pointing to mp */
for (m2 = mc->mc_txn->mt_cursors[dbi]; !rc && m2; m2=m2->mc_next) {
m3 = (mc->mc_flags & C_SUB) ? &m2->mc_xcursor->mx_cursor : m2;
if (! (m2->mc_flags & m3->mc_flags & C_INITIALIZED))
continue;
if (m3 == mc || m3->mc_snum < mc->mc_snum)
continue;
if (m3->mc_pg[mc->mc_top] == mp) {
if (m3->mc_ki[mc->mc_top] >= ki) {
m3->mc_flags |= C_DEL;
if (m3->mc_ki[mc->mc_top] > ki)
m3->mc_ki[mc->mc_top]--;
}
if (m3->mc_ki[mc->mc_top] >= nkeys) {
rc = mdb_cursor_sibling(m3, 1);
if (rc == MDB_NOTFOUND)
rc = MDB_SUCCESS;
}
}
}
mc->mc_flags |= C_DEL;
}
if (rc)
mc->mc_txn->mt_flags |= MDB_TXN_ERROR;
return rc;
}
14 years ago
int
mdb_del(MDB_txn *txn, MDB_dbi dbi,
MDB_val *key, MDB_val *data)
14 years ago
{
if (!key || dbi == FREE_DBI || !TXN_DBI_EXIST(txn, dbi))
14 years ago
return EINVAL;
if (txn->mt_flags & (MDB_TXN_RDONLY|MDB_TXN_ERROR))
return (txn->mt_flags & MDB_TXN_RDONLY) ? EACCES : MDB_BAD_TXN;
14 years ago
if (!F_ISSET(txn->mt_dbs[dbi].md_flags, MDB_DUPSORT)) {
/* must ignore any data */
data = NULL;
}
return mdb_del0(txn, dbi, key, data, 0);
}
static int
mdb_del0(MDB_txn *txn, MDB_dbi dbi,
MDB_val *key, MDB_val *data, unsigned flags)
{
MDB_cursor mc;
MDB_xcursor mx;
MDB_cursor_op op;
MDB_val rdata, *xdata;
int rc, exact = 0;
DKBUF;
DPRINTF(("====> delete db %u key [%s]", dbi, DKEY(key)));
mdb_cursor_init(&mc, txn, dbi, &mx);
if (data) {
op = MDB_GET_BOTH;
rdata = *data;
xdata = &rdata;
} else {
op = MDB_SET;
xdata = NULL;
flags |= MDB_NODUPDATA;
}
rc = mdb_cursor_set(&mc, key, xdata, op, &exact);
if (rc == 0) {
/* let mdb_page_split know about this cursor if needed:
* delete will trigger a rebalance; if it needs to move
* a node from one page to another, it will have to
* update the parent's separator key(s). If the new sepkey
* is larger than the current one, the parent page may
* run out of space, triggering a split. We need this
* cursor to be consistent until the end of the rebalance.
*/
mc.mc_flags |= C_UNTRACK;
mc.mc_next = txn->mt_cursors[dbi];
txn->mt_cursors[dbi] = &mc;
rc = mdb_cursor_del(&mc, flags);
txn->mt_cursors[dbi] = mc.mc_next;
}
return rc;
14 years ago
}
13 years ago
/** Split a page and insert a new node.
* @param[in,out] mc Cursor pointing to the page and desired insertion index.
* The cursor will be updated to point to the actual page and index where
* the node got inserted after the split.
* @param[in] newkey The key for the newly inserted node.
* @param[in] newdata The data for the newly inserted node.
* @param[in] newpgno The page number, if the new node is a branch node.
* @param[in] nflags The #NODE_ADD_FLAGS for the new node.
13 years ago
* @return 0 on success, non-zero on failure.
14 years ago
*/
static int
mdb_page_split(MDB_cursor *mc, MDB_val *newkey, MDB_val *newdata, pgno_t newpgno,
unsigned int nflags)
14 years ago
{
unsigned int flags;
int rc = MDB_SUCCESS, new_root = 0, did_split = 0;
14 years ago
indx_t newindx;
pgno_t pgno = 0;
int i, j, split_indx, nkeys, pmax;
MDB_env *env = mc->mc_txn->mt_env;
14 years ago
MDB_node *node;
MDB_val sepkey, rkey, xdata, *rdata = &xdata;
MDB_page *copy = NULL;
MDB_page *mp, *rp, *pp;
int ptop;
MDB_cursor mn;
DKBUF;
14 years ago
mp = mc->mc_pg[mc->mc_top];
newindx = mc->mc_ki[mc->mc_top];
nkeys = NUMKEYS(mp);
14 years ago
DPRINTF(("-----> splitting %s page %"Z"u and adding [%s] at index %i/%i",
IS_LEAF(mp) ? "leaf" : "branch", mp->mp_pgno,
DKEY(newkey), mc->mc_ki[mc->mc_top], nkeys));
14 years ago
/* Create a right sibling. */
if ((rc = mdb_page_new(mc, mp->mp_flags, 1, &rp)))
return rc;
DPRINTF(("new right sibling: page %"Z"u", rp->mp_pgno));
if (mc->mc_snum < 2) {
if ((rc = mdb_page_new(mc, P_BRANCH, 1, &pp)))
goto done;
/* shift current top to make room for new parent */
mc->mc_pg[1] = mc->mc_pg[0];
mc->mc_ki[1] = mc->mc_ki[0];
mc->mc_pg[0] = pp;
mc->mc_ki[0] = 0;
mc->mc_db->md_root = pp->mp_pgno;
DPRINTF(("root split! new root = %"Z"u", pp->mp_pgno));
mc->mc_db->md_depth++;
new_root = 1;
14 years ago
/* Add left (implicit) pointer. */
13 years ago
if ((rc = mdb_node_add(mc, 0, NULL, NULL, mp->mp_pgno, 0)) != MDB_SUCCESS) {
/* undo the pre-push */
mc->mc_pg[0] = mc->mc_pg[1];
mc->mc_ki[0] = mc->mc_ki[1];
mc->mc_db->md_root = mp->mp_pgno;
mc->mc_db->md_depth--;
goto done;
}
mc->mc_snum = 2;
mc->mc_top = 1;
ptop = 0;
14 years ago
} else {
ptop = mc->mc_top-1;
DPRINTF(("parent branch page is %"Z"u", mc->mc_pg[ptop]->mp_pgno));
14 years ago
}
mc->mc_flags |= C_SPLITTING;
mdb_cursor_copy(mc, &mn);
mn.mc_pg[mn.mc_top] = rp;
mn.mc_ki[ptop] = mc->mc_ki[ptop]+1;
if (nflags & MDB_APPEND) {
mn.mc_ki[mn.mc_top] = 0;
sepkey = *newkey;
split_indx = newindx;
nkeys = 0;
} else {
14 years ago
split_indx = (nkeys+1) / 2;
if (IS_LEAF2(rp)) {
char *split, *ins;
int x;
unsigned int lsize, rsize, ksize;
/* Move half of the keys to the right sibling */
x = mc->mc_ki[mc->mc_top] - split_indx;
ksize = mc->mc_db->md_pad;
split = LEAF2KEY(mp, split_indx, ksize);
rsize = (nkeys - split_indx) * ksize;
lsize = (nkeys - split_indx) * sizeof(indx_t);
mp->mp_lower -= lsize;
rp->mp_lower += lsize;
mp->mp_upper += rsize - lsize;
rp->mp_upper -= rsize - lsize;
sepkey.mv_size = ksize;
if (newindx == split_indx) {
sepkey.mv_data = newkey->mv_data;
} else {
sepkey.mv_data = split;
}
if (x<0) {
ins = LEAF2KEY(mp, mc->mc_ki[mc->mc_top], ksize);
memcpy(rp->mp_ptrs, split, rsize);
sepkey.mv_data = rp->mp_ptrs;
memmove(ins+ksize, ins, (split_indx - mc->mc_ki[mc->mc_top]) * ksize);
memcpy(ins, newkey->mv_data, ksize);
mp->mp_lower += sizeof(indx_t);
mp->mp_upper -= ksize - sizeof(indx_t);
} else {
if (x)
memcpy(rp->mp_ptrs, split, x * ksize);
ins = LEAF2KEY(rp, x, ksize);
memcpy(ins, newkey->mv_data, ksize);
memcpy(ins+ksize, split + x * ksize, rsize - x * ksize);
rp->mp_lower += sizeof(indx_t);
rp->mp_upper -= ksize - sizeof(indx_t);
mc->mc_ki[mc->mc_top] = x;
mc->mc_pg[mc->mc_top] = rp;
}
} else {
int psize, nsize, k;
/* Maximum free space in an empty page */
pmax = env->me_psize - PAGEHDRSZ;
if (IS_LEAF(mp))
nsize = mdb_leaf_size(env, newkey, newdata);
else
nsize = mdb_branch_size(env, newkey);
nsize = EVEN(nsize);
/* grab a page to hold a temporary copy */
copy = mdb_page_malloc(mc->mc_txn, 1);
if (copy == NULL) {
rc = ENOMEM;
goto done;
}
copy->mp_pgno = mp->mp_pgno;
copy->mp_flags = mp->mp_flags;
copy->mp_lower = PAGEHDRSZ;
copy->mp_upper = env->me_psize;
/* prepare to insert */
for (i=0, j=0; i<nkeys; i++) {
if (i == newindx) {
copy->mp_ptrs[j++] = 0;
}
copy->mp_ptrs[j++] = mp->mp_ptrs[i];
}
/* When items are relatively large the split point needs
* to be checked, because being off-by-one will make the
* difference between success or failure in mdb_node_add.
*
* It's also relevant if a page happens to be laid out
* such that one half of its nodes are all "small" and
* the other half of its nodes are "large." If the new
* item is also "large" and falls on the half with
* "large" nodes, it also may not fit.
*
* As a final tweak, if the new item goes on the last
* spot on the page (and thus, onto the new page), bias
* the split so the new page is emptier than the old page.
* This yields better packing during sequential inserts.
*/
if (nkeys < 20 || nsize > pmax/16 || newindx >= nkeys) {
/* Find split point */
psize = 0;
if (newindx <= split_indx || newindx >= nkeys) {
i = 0; j = 1;
k = newindx >= nkeys ? nkeys : split_indx+2;
} else {
i = nkeys; j = -1;
k = split_indx-1;
}
for (; i!=k; i+=j) {
if (i == newindx) {
psize += nsize;
node = NULL;
} else {
node = (MDB_node *)((char *)mp + copy->mp_ptrs[i]);
psize += NODESIZE + NODEKSZ(node) + sizeof(indx_t);
if (IS_LEAF(mp)) {
if (F_ISSET(node->mn_flags, F_BIGDATA))
psize += sizeof(pgno_t);
else
psize += NODEDSZ(node);
}
psize = EVEN(psize);
}
11 years ago
if (psize > pmax || i == k-j) {
split_indx = i + (j<0);
break;
}
}
}
if (split_indx == newindx) {
sepkey.mv_size = newkey->mv_size;
sepkey.mv_data = newkey->mv_data;
} else {
node = (MDB_node *)((char *)mp + copy->mp_ptrs[split_indx]);
sepkey.mv_size = node->mn_ksize;
sepkey.mv_data = NODEKEY(node);
}
}
}
14 years ago
DPRINTF(("separator is %d [%s]", split_indx, DKEY(&sepkey)));
14 years ago
/* Copy separator key to the parent.
*/
if (SIZELEFT(mn.mc_pg[ptop]) < mdb_branch_size(env, &sepkey)) {
mn.mc_snum--;
mn.mc_top--;
did_split = 1;
rc = mdb_page_split(&mn, &sepkey, NULL, rp->mp_pgno, 0);
if (rc)
goto done;
14 years ago
/* root split? */
if (mn.mc_snum == mc->mc_snum) {
mc->mc_pg[mc->mc_snum] = mc->mc_pg[mc->mc_top];
mc->mc_ki[mc->mc_snum] = mc->mc_ki[mc->mc_top];
mc->mc_pg[mc->mc_top] = mc->mc_pg[ptop];
mc->mc_ki[mc->mc_top] = mc->mc_ki[ptop];
mc->mc_snum++;
mc->mc_top++;
ptop++;
}
14 years ago
/* Right page might now have changed parent.
* Check if left page also changed parent.
*/
if (mn.mc_pg[ptop] != mc->mc_pg[ptop] &&
mc->mc_ki[ptop] >= NUMKEYS(mc->mc_pg[ptop])) {
for (i=0; i<ptop; i++) {
mc->mc_pg[i] = mn.mc_pg[i];
mc->mc_ki[i] = mn.mc_ki[i];
}
mc->mc_pg[ptop] = mn.mc_pg[ptop];
if (mn.mc_ki[ptop]) {
mc->mc_ki[ptop] = mn.mc_ki[ptop] - 1;
} else {
/* find right page's left sibling */
mc->mc_ki[ptop] = mn.mc_ki[ptop];
mdb_cursor_sibling(mc, 0);
}
14 years ago
}
} else {
mn.mc_top--;
13 years ago
rc = mdb_node_add(&mn, mn.mc_ki[ptop], &sepkey, NULL, rp->mp_pgno, 0);
mn.mc_top++;
14 years ago
}
mc->mc_flags ^= C_SPLITTING;
14 years ago
if (rc != MDB_SUCCESS) {
goto done;
14 years ago
}
if (nflags & MDB_APPEND) {
mc->mc_pg[mc->mc_top] = rp;
mc->mc_ki[mc->mc_top] = 0;
rc = mdb_node_add(mc, 0, newkey, newdata, newpgno, nflags);
if (rc)
goto done;
for (i=0; i<mc->mc_top; i++)
mc->mc_ki[i] = mn.mc_ki[i];
} else if (!IS_LEAF2(mp)) {
/* Move nodes */
mc->mc_pg[mc->mc_top] = rp;
i = split_indx;
j = 0;
do {
if (i == newindx) {
rkey.mv_data = newkey->mv_data;
rkey.mv_size = newkey->mv_size;
if (IS_LEAF(mp)) {
rdata = newdata;
} else
pgno = newpgno;
flags = nflags;
/* Update index for the new key. */
mc->mc_ki[mc->mc_top] = j;
} else {
node = (MDB_node *)((char *)mp + copy->mp_ptrs[i]);
rkey.mv_data = NODEKEY(node);
rkey.mv_size = node->mn_ksize;
if (IS_LEAF(mp)) {
xdata.mv_data = NODEDATA(node);
xdata.mv_size = NODEDSZ(node);
rdata = &xdata;
} else
pgno = NODEPGNO(node);
flags = node->mn_flags;
}
if (!IS_LEAF(mp) && j == 0) {
/* First branch index doesn't need key data. */
rkey.mv_size = 0;
}
rc = mdb_node_add(mc, j, &rkey, rdata, pgno, flags);
if (rc)
goto done;
if (i == nkeys) {
i = 0;
j = 0;
mc->mc_pg[mc->mc_top] = copy;
} else {
i++;
j++;
}
} while (i != split_indx);
nkeys = NUMKEYS(copy);
for (i=0; i<nkeys; i++)
mp->mp_ptrs[i] = copy->mp_ptrs[i];
mp->mp_lower = copy->mp_lower;
mp->mp_upper = copy->mp_upper;
memcpy(NODEPTR(mp, nkeys-1), NODEPTR(copy, nkeys-1),
env->me_psize - copy->mp_upper);
/* reset back to original page */
if (newindx < split_indx) {
mc->mc_pg[mc->mc_top] = mp;
if (nflags & MDB_RESERVE) {
node = NODEPTR(mp, mc->mc_ki[mc->mc_top]);
if (!(node->mn_flags & F_BIGDATA))
newdata->mv_data = NODEDATA(node);
}
14 years ago
} else {
mc->mc_pg[mc->mc_top] = rp;
mc->mc_ki[ptop]++;
/* Make sure mc_ki is still valid.
*/
if (mn.mc_pg[ptop] != mc->mc_pg[ptop] &&
mc->mc_ki[ptop] >= NUMKEYS(mc->mc_pg[ptop])) {
for (i=0; i<=ptop; i++) {
mc->mc_pg[i] = mn.mc_pg[i];
mc->mc_ki[i] = mn.mc_ki[i];
}
}
}
}
{
/* Adjust other cursors pointing to mp */
MDB_cursor *m2, *m3;
MDB_dbi dbi = mc->mc_dbi;
int fixup = NUMKEYS(mp);
for (m2 = mc->mc_txn->mt_cursors[dbi]; m2; m2=m2->mc_next) {
if (mc->mc_flags & C_SUB)
m3 = &m2->mc_xcursor->mx_cursor;
else
m3 = m2;
if (m3 == mc)
continue;
if (!(m2->mc_flags & m3->mc_flags & C_INITIALIZED))
continue;
if (m3->mc_flags & C_SPLITTING)
continue;
if (new_root) {
int k;
/* root split */
for (k=m3->mc_top; k>=0; k--) {
m3->mc_ki[k+1] = m3->mc_ki[k];
m3->mc_pg[k+1] = m3->mc_pg[k];
}
if (m3->mc_ki[0] >= split_indx) {
m3->mc_ki[0] = 1;
} else {
m3->mc_ki[0] = 0;
}
m3->mc_pg[0] = mc->mc_pg[0];
m3->mc_snum++;
m3->mc_top++;
}
if (m3->mc_top >= mc->mc_top && m3->mc_pg[mc->mc_top] == mp) {
if (m3->mc_ki[mc->mc_top] >= newindx && !(nflags & MDB_SPLIT_REPLACE))
m3->mc_ki[mc->mc_top]++;
if (m3->mc_ki[mc->mc_top] >= fixup) {
m3->mc_pg[mc->mc_top] = rp;
m3->mc_ki[mc->mc_top] -= fixup;
m3->mc_ki[ptop] = mn.mc_ki[ptop];
}
} else if (!did_split && m3->mc_top >= ptop && m3->mc_pg[ptop] == mc->mc_pg[ptop] &&
m3->mc_ki[ptop] >= mc->mc_ki[ptop]) {
m3->mc_ki[ptop]++;
}
}
}
DPRINTF(("mp left: %d, rp left: %d", SIZELEFT(mp), SIZELEFT(rp)));
done:
if (copy) /* tmp page */
mdb_page_free(env, copy);
if (rc)
mc->mc_txn->mt_flags |= MDB_TXN_ERROR;
14 years ago
return rc;
}
13 years ago
int
mdb_put(MDB_txn *txn, MDB_dbi dbi,
MDB_val *key, MDB_val *data, unsigned int flags)
{
MDB_cursor mc;
MDB_xcursor mx;
if (!key || !data || dbi == FREE_DBI || !TXN_DBI_EXIST(txn, dbi))
13 years ago
return EINVAL;
if ((flags & (MDB_NOOVERWRITE|MDB_NODUPDATA|MDB_RESERVE|MDB_APPEND|MDB_APPENDDUP)) != flags)
13 years ago
return EINVAL;
mdb_cursor_init(&mc, txn, dbi, &mx);
return mdb_cursor_put(&mc, key, data, flags);
13 years ago
}
int
mdb_env_set_flags(MDB_env *env, unsigned int flag, int onoff)
{
if ((flag & CHANGEABLE) != flag)
return EINVAL;
if (onoff)
env->me_flags |= flag;
else
env->me_flags &= ~flag;
return MDB_SUCCESS;
}
14 years ago
int
mdb_env_get_flags(MDB_env *env, unsigned int *arg)
14 years ago
{
if (!env || !arg)
return EINVAL;
*arg = env->me_flags;
14 years ago
return MDB_SUCCESS;
}
int
mdb_env_set_userctx(MDB_env *env, void *ctx)
{
if (!env)
return EINVAL;
env->me_userctx = ctx;
return MDB_SUCCESS;
}
void *
mdb_env_get_userctx(MDB_env *env)
{
return env ? env->me_userctx : NULL;
}
int
mdb_env_set_assert(MDB_env *env, MDB_assert_func *func)
{
if (!env)
return EINVAL;
#ifndef NDEBUG
env->me_assert_func = func;
#endif
return MDB_SUCCESS;
}
14 years ago
int
mdb_env_get_path(MDB_env *env, const char **arg)
14 years ago
{
if (!env || !arg)
return EINVAL;
*arg = env->me_path;
return MDB_SUCCESS;
}
int
mdb_env_get_fd(MDB_env *env, mdb_filehandle_t *arg)
{
if (!env || !arg)
return EINVAL;
*arg = env->me_fd;
return MDB_SUCCESS;
}
13 years ago
/** Common code for #mdb_stat() and #mdb_env_stat().
* @param[in] env the environment to operate in.
* @param[in] db the #MDB_db record containing the stats to return.
* @param[out] arg the address of an #MDB_stat structure to receive the stats.
* @return 0, this function always succeeds.
*/
static int
mdb_stat0(MDB_env *env, MDB_db *db, MDB_stat *arg)
{
arg->ms_psize = env->me_psize;
arg->ms_depth = db->md_depth;
arg->ms_branch_pages = db->md_branch_pages;
arg->ms_leaf_pages = db->md_leaf_pages;
arg->ms_overflow_pages = db->md_overflow_pages;
arg->ms_entries = db->md_entries;
return MDB_SUCCESS;
}
14 years ago
int
mdb_env_stat(MDB_env *env, MDB_stat *arg)
14 years ago
{
int toggle;
14 years ago
if (env == NULL || arg == NULL)
return EINVAL;
toggle = mdb_env_pick_meta(env);
return mdb_stat0(env, &env->me_metas[toggle]->mm_dbs[MAIN_DBI], arg);
14 years ago
}
int
mdb_env_info(MDB_env *env, MDB_envinfo *arg)
{
int toggle;
if (env == NULL || arg == NULL)
return EINVAL;
toggle = mdb_env_pick_meta(env);
arg->me_mapaddr = (env->me_flags & MDB_FIXEDMAP) ? env->me_map : 0;
arg->me_mapsize = env->me_mapsize;
arg->me_maxreaders = env->me_maxreaders;
/* me_numreaders may be zero if this process never used any readers. Use
* the shared numreader count if it exists.
*/
arg->me_numreaders = env->me_txns ? env->me_txns->mti_numreaders : env->me_numreaders;
arg->me_last_pgno = env->me_metas[toggle]->mm_last_pg;
arg->me_last_txnid = env->me_metas[toggle]->mm_txnid;
return MDB_SUCCESS;
}
13 years ago
/** Set the default comparison functions for a database.
* Called immediately after a database is opened to set the defaults.
* The user can then override them with #mdb_set_compare() or
* #mdb_set_dupsort().
* @param[in] txn A transaction handle returned by #mdb_txn_begin()
* @param[in] dbi A database handle returned by #mdb_dbi_open()
13 years ago
*/
static void
mdb_default_cmp(MDB_txn *txn, MDB_dbi dbi)
{
uint16_t f = txn->mt_dbs[dbi].md_flags;
txn->mt_dbxs[dbi].md_cmp =
(f & MDB_REVERSEKEY) ? mdb_cmp_memnr :
(f & MDB_INTEGERKEY) ? mdb_cmp_cint : mdb_cmp_memn;
txn->mt_dbxs[dbi].md_dcmp =
!(f & MDB_DUPSORT) ? 0 :
((f & MDB_INTEGERDUP)
? ((f & MDB_DUPFIXED) ? mdb_cmp_int : mdb_cmp_cint)
: ((f & MDB_REVERSEDUP) ? mdb_cmp_memnr : mdb_cmp_memn));
}
int mdb_dbi_open(MDB_txn *txn, const char *name, unsigned int flags, MDB_dbi *dbi)
14 years ago
{
MDB_val key, data;
MDB_dbi i;
MDB_cursor mc;
int rc, dbflag, exact;
unsigned int unused = 0;
size_t len;
if (txn->mt_dbxs[FREE_DBI].md_cmp == NULL) {
mdb_default_cmp(txn, FREE_DBI);
}
if ((flags & VALID_FLAGS) != flags)
return EINVAL;
if (txn->mt_flags & MDB_TXN_ERROR)
return MDB_BAD_TXN;
/* main DB? */
14 years ago
if (!name) {
13 years ago
*dbi = MAIN_DBI;
if (flags & PERSISTENT_FLAGS) {
uint16_t f2 = flags & PERSISTENT_FLAGS;
/* make sure flag changes get committed */
if ((txn->mt_dbs[MAIN_DBI].md_flags | f2) != txn->mt_dbs[MAIN_DBI].md_flags) {
txn->mt_dbs[MAIN_DBI].md_flags |= f2;
txn->mt_flags |= MDB_TXN_DIRTY;
}
}
mdb_default_cmp(txn, MAIN_DBI);
14 years ago
return MDB_SUCCESS;
}
if (txn->mt_dbxs[MAIN_DBI].md_cmp == NULL) {
mdb_default_cmp(txn, MAIN_DBI);
}
/* Is the DB already open? */
len = strlen(name);
13 years ago
for (i=2; i<txn->mt_numdbs; i++) {
if (!txn->mt_dbxs[i].md_name.mv_size) {
/* Remember this free slot */
if (!unused) unused = i;
continue;
}
if (len == txn->mt_dbxs[i].md_name.mv_size &&
13 years ago
!strncmp(name, txn->mt_dbxs[i].md_name.mv_data, len)) {
*dbi = i;
return MDB_SUCCESS;
}
}
/* If no free slot and max hit, fail */
if (!unused && txn->mt_numdbs >= txn->mt_env->me_maxdbs)
return MDB_DBS_FULL;
13 years ago
/* Cannot mix named databases with some mainDB flags */
if (txn->mt_dbs[MAIN_DBI].md_flags & (MDB_DUPSORT|MDB_INTEGERKEY))
return (flags & MDB_CREATE) ? MDB_INCOMPATIBLE : MDB_NOTFOUND;
/* Find the DB info */
dbflag = DB_NEW|DB_VALID;
exact = 0;
key.mv_size = len;
key.mv_data = (void *)name;
mdb_cursor_init(&mc, txn, MAIN_DBI, NULL);
rc = mdb_cursor_set(&mc, &key, &data, MDB_SET, &exact);
if (rc == MDB_SUCCESS) {
/* make sure this is actually a DB */
MDB_node *node = NODEPTR(mc.mc_pg[mc.mc_top], mc.mc_ki[mc.mc_top]);
if (!(node->mn_flags & F_SUBDATA))
return MDB_INCOMPATIBLE;
} else if (rc == MDB_NOTFOUND && (flags & MDB_CREATE)) {
/* Create if requested */
MDB_db dummy;
data.mv_size = sizeof(MDB_db);
data.mv_data = &dummy;
memset(&dummy, 0, sizeof(dummy));
dummy.md_root = P_INVALID;
dummy.md_flags = flags & PERSISTENT_FLAGS;
rc = mdb_cursor_put(&mc, &key, &data, F_SUBDATA);
dbflag |= DB_DIRTY;
}
/* OK, got info, add to table */
if (rc == MDB_SUCCESS) {
unsigned int slot = unused ? unused : txn->mt_numdbs;
txn->mt_dbxs[slot].md_name.mv_data = strdup(name);
txn->mt_dbxs[slot].md_name.mv_size = len;
txn->mt_dbxs[slot].md_rel = NULL;
txn->mt_dbflags[slot] = dbflag;
memcpy(&txn->mt_dbs[slot], data.mv_data, sizeof(MDB_db));
*dbi = slot;
mdb_default_cmp(txn, slot);
if (!unused) {
txn->mt_numdbs++;
}
}
return rc;
14 years ago
}
int mdb_stat(MDB_txn *txn, MDB_dbi dbi, MDB_stat *arg)
14 years ago
{
if (!arg || !TXN_DBI_EXIST(txn, dbi))
14 years ago
return EINVAL;
if (txn->mt_flags & MDB_TXN_ERROR)
return MDB_BAD_TXN;
if (txn->mt_dbflags[dbi] & DB_STALE) {
MDB_cursor mc;
MDB_xcursor mx;
/* Stale, must read the DB's root. cursor_init does it for us. */
mdb_cursor_init(&mc, txn, dbi, &mx);
}
return mdb_stat0(txn->mt_env, &txn->mt_dbs[dbi], arg);
14 years ago
}
void mdb_dbi_close(MDB_env *env, MDB_dbi dbi)
14 years ago
{
13 years ago
char *ptr;
if (dbi <= MAIN_DBI || dbi >= env->me_maxdbs)
return;
ptr = env->me_dbxs[dbi].md_name.mv_data;
env->me_dbxs[dbi].md_name.mv_data = NULL;
env->me_dbxs[dbi].md_name.mv_size = 0;
env->me_dbflags[dbi] = 0;
13 years ago
free(ptr);
14 years ago
}
13 years ago
int mdb_dbi_flags(MDB_txn *txn, MDB_dbi dbi, unsigned int *flags)
{
/* We could return the flags for the FREE_DBI too but what's the point? */
if (dbi == FREE_DBI || !TXN_DBI_EXIST(txn, dbi))
return EINVAL;
*flags = txn->mt_dbs[dbi].md_flags & PERSISTENT_FLAGS;
return MDB_SUCCESS;
}
/** Add all the DB's pages to the free list.
* @param[in] mc Cursor on the DB to free.
* @param[in] subs non-Zero to check for sub-DBs in this DB.
* @return 0 on success, non-zero on failure.
*/
static int
mdb_drop0(MDB_cursor *mc, int subs)
{
int rc;
rc = mdb_page_search(mc, NULL, MDB_PS_FIRST);
if (rc == MDB_SUCCESS) {
MDB_txn *txn = mc->mc_txn;
MDB_node *ni;
MDB_cursor mx;
unsigned int i;
/* LEAF2 pages have no nodes, cannot have sub-DBs */
if (IS_LEAF2(mc->mc_pg[mc->mc_top]))
mdb_cursor_pop(mc);
mdb_cursor_copy(mc, &mx);
while (mc->mc_snum > 0) {
MDB_page *mp = mc->mc_pg[mc->mc_top];
unsigned n = NUMKEYS(mp);
if (IS_LEAF(mp)) {
for (i=0; i<n; i++) {
ni = NODEPTR(mp, i);
if (ni->mn_flags & F_BIGDATA) {
MDB_page *omp;
pgno_t pg;
memcpy(&pg, NODEDATA(ni), sizeof(pg));
rc = mdb_page_get(txn, pg, &omp, NULL);
if (rc != 0)
goto done;
mdb_cassert(mc, IS_OVERFLOW(omp));
rc = mdb_midl_append_range(&txn->mt_free_pgs,
pg, omp->mp_pages);
if (rc)
goto done;
} else if (subs && (ni->mn_flags & F_SUBDATA)) {
mdb_xcursor_init1(mc, ni);
rc = mdb_drop0(&mc->mc_xcursor->mx_cursor, 0);
if (rc)
goto done;
}
}
} else {
if ((rc = mdb_midl_need(&txn->mt_free_pgs, n)) != 0)
goto done;
for (i=0; i<n; i++) {
pgno_t pg;
ni = NODEPTR(mp, i);
pg = NODEPGNO(ni);
/* free it */
mdb_midl_xappend(txn->mt_free_pgs, pg);
}
}
if (!mc->mc_top)
break;
mc->mc_ki[mc->mc_top] = i;
rc = mdb_cursor_sibling(mc, 1);
if (rc) {
if (rc != MDB_NOTFOUND)
goto done;
/* no more siblings, go back to beginning
* of previous level.
*/
mdb_cursor_pop(mc);
mc->mc_ki[0] = 0;
for (i=1; i<mc->mc_snum; i++) {
mc->mc_ki[i] = 0;
mc->mc_pg[i] = mx.mc_pg[i];
}
}
}
/* free it */
rc = mdb_midl_append(&txn->mt_free_pgs, mc->mc_db->md_root);
done:
if (rc)
txn->mt_flags |= MDB_TXN_ERROR;
} else if (rc == MDB_NOTFOUND) {
rc = MDB_SUCCESS;
}
return rc;
}
int mdb_drop(MDB_txn *txn, MDB_dbi dbi, int del)
{
MDB_cursor *mc, *m2;
int rc;
if ((unsigned)del > 1 || dbi == FREE_DBI || !TXN_DBI_EXIST(txn, dbi))
return EINVAL;
if (F_ISSET(txn->mt_flags, MDB_TXN_RDONLY))
return EACCES;
rc = mdb_cursor_open(txn, dbi, &mc);
if (rc)
return rc;
rc = mdb_drop0(mc, mc->mc_db->md_flags & MDB_DUPSORT);
/* Invalidate the dropped DB's cursors */
for (m2 = txn->mt_cursors[dbi]; m2; m2 = m2->mc_next)
m2->mc_flags &= ~(C_INITIALIZED|C_EOF);
if (rc)
goto leave;
/* Can't delete the main DB */
if (del && dbi > MAIN_DBI) {
rc = mdb_del0(txn, MAIN_DBI, &mc->mc_dbx->md_name, NULL, 0);
if (!rc) {
txn->mt_dbflags[dbi] = DB_STALE;
mdb_dbi_close(txn->mt_env, dbi);
} else {
txn->mt_flags |= MDB_TXN_ERROR;
}
} else {
/* reset the DB record, mark it dirty */
txn->mt_dbflags[dbi] |= DB_DIRTY;
txn->mt_dbs[dbi].md_depth = 0;
txn->mt_dbs[dbi].md_branch_pages = 0;
txn->mt_dbs[dbi].md_leaf_pages = 0;
txn->mt_dbs[dbi].md_overflow_pages = 0;
txn->mt_dbs[dbi].md_entries = 0;
txn->mt_dbs[dbi].md_root = P_INVALID;
txn->mt_flags |= MDB_TXN_DIRTY;
}
leave:
mdb_cursor_close(mc);
return rc;
}
13 years ago
int mdb_set_compare(MDB_txn *txn, MDB_dbi dbi, MDB_cmp_func *cmp)
{
if (dbi == FREE_DBI || !TXN_DBI_EXIST(txn, dbi))
13 years ago
return EINVAL;
txn->mt_dbxs[dbi].md_cmp = cmp;
return MDB_SUCCESS;
}
int mdb_set_dupsort(MDB_txn *txn, MDB_dbi dbi, MDB_cmp_func *cmp)
{
if (dbi == FREE_DBI || !TXN_DBI_EXIST(txn, dbi))
13 years ago
return EINVAL;
txn->mt_dbxs[dbi].md_dcmp = cmp;
return MDB_SUCCESS;
}
int mdb_set_relfunc(MDB_txn *txn, MDB_dbi dbi, MDB_rel_func *rel)
{
if (dbi == FREE_DBI || !TXN_DBI_EXIST(txn, dbi))
13 years ago
return EINVAL;
txn->mt_dbxs[dbi].md_rel = rel;
return MDB_SUCCESS;
}
int mdb_set_relctx(MDB_txn *txn, MDB_dbi dbi, void *ctx)
{
if (dbi == FREE_DBI || !TXN_DBI_EXIST(txn, dbi))
return EINVAL;
txn->mt_dbxs[dbi].md_relctx = ctx;
return MDB_SUCCESS;
}
int mdb_env_get_maxkeysize(MDB_env *env)
{
return ENV_MAXKEY(env);
}
int mdb_reader_list(MDB_env *env, MDB_msg_func *func, void *ctx)
{
unsigned int i, rdrs;
MDB_reader *mr;
12 years ago
char buf[64];
int rc = 0, first = 1;
if (!env || !func)
return -1;
if (!env->me_txns) {
return func("(no reader locks)\n", ctx);
}
rdrs = env->me_txns->mti_numreaders;
mr = env->me_txns->mti_readers;
for (i=0; i<rdrs; i++) {
if (mr[i].mr_pid) {
txnid_t txnid = mr[i].mr_txnid;
sprintf(buf, txnid == (txnid_t)-1 ?
"%10d %"Z"x -\n" : "%10d %"Z"x %"Z"u\n",
(int)mr[i].mr_pid, (size_t)mr[i].mr_tid, txnid);
if (first) {
first = 0;
rc = func(" pid thread txnid\n", ctx);
if (rc < 0)
break;
}
rc = func(buf, ctx);
if (rc < 0)
break;
}
}
if (first) {
rc = func("(no active readers)\n", ctx);
}
return rc;
}
/** Insert pid into list if not already present.
* return -1 if already present.
*/
static int mdb_pid_insert(MDB_PID_T *ids, MDB_PID_T pid)
{
/* binary search of pid in list */
unsigned base = 0;
unsigned cursor = 1;
int val = 0;
unsigned n = ids[0];
while( 0 < n ) {
unsigned pivot = n >> 1;
cursor = base + pivot + 1;
val = pid - ids[cursor];
if( val < 0 ) {
n = pivot;
} else if ( val > 0 ) {
base = cursor;
n -= pivot + 1;
} else {
/* found, so it's a duplicate */
return -1;
}
}
if( val > 0 ) {
++cursor;
}
ids[0]++;
for (n = ids[0]; n > cursor; n--)
ids[n] = ids[n-1];
ids[n] = pid;
return 0;
}
int mdb_reader_check(MDB_env *env, int *dead)
{
unsigned int i, j, rdrs;
MDB_reader *mr;
MDB_PID_T *pids, pid;
int count = 0;
if (!env)
return EINVAL;
if (dead)
*dead = 0;
if (!env->me_txns)
return MDB_SUCCESS;
rdrs = env->me_txns->mti_numreaders;
pids = malloc((rdrs+1) * sizeof(MDB_PID_T));
if (!pids)
return ENOMEM;
pids[0] = 0;
mr = env->me_txns->mti_readers;
for (i=0; i<rdrs; i++) {
if (mr[i].mr_pid && mr[i].mr_pid != env->me_pid) {
pid = mr[i].mr_pid;
if (mdb_pid_insert(pids, pid) == 0) {
if (!mdb_reader_pid(env, Pidcheck, pid)) {
LOCK_MUTEX_R(env);
/* Recheck, a new process may have reused pid */
if (!mdb_reader_pid(env, Pidcheck, pid)) {
for (j=i; j<rdrs; j++)
if (mr[j].mr_pid == pid) {
DPRINTF(("clear stale reader pid %u txn %"Z"d",
(unsigned) pid, mr[j].mr_txnid));
mr[j].mr_pid = 0;
count++;
}
}
UNLOCK_MUTEX_R(env);
}
}
}
}
free(pids);
if (dead)
*dead = count;
return MDB_SUCCESS;
}
/** @} */