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|
/******************************************************
The interface to the operating system file i/o primitives
(c) 1995 Innobase Oy
Created 10/21/1995 Heikki Tuuri
*******************************************************/
#include "os0file.h"
#include "os0sync.h"
#include "os0thread.h"
#include "ut0mem.h"
#include "srv0srv.h"
#include "srv0start.h"
#include "fil0fil.h"
#include "buf0buf.h"
#undef HAVE_FDATASYNC
#ifdef POSIX_ASYNC_IO
/* We assume in this case that the OS has standard Posix aio (at least SunOS
2.6, HP-UX 11i and AIX 4.3 have) */
#endif
/* This specifies the file permissions InnoDB uses when it creates files in
Unix; the value of os_innodb_umask is initialized in ha_innodb.cc to
my_umask */
#ifndef __WIN__
ulint os_innodb_umask = S_IRUSR | S_IWUSR | S_IRGRP | S_IWGRP;
#else
ulint os_innodb_umask = 0;
#endif
/* If the following is set to TRUE, we do not call os_file_flush in every
os_file_write. We can set this TRUE when the doublewrite buffer is used. */
ibool os_do_not_call_flush_at_each_write = FALSE;
/* We use these mutexes to protect lseek + file i/o operation, if the
OS does not provide an atomic pread or pwrite, or similar */
#define OS_FILE_N_SEEK_MUTEXES 16
os_mutex_t os_file_seek_mutexes[OS_FILE_N_SEEK_MUTEXES];
/* In simulated aio, merge at most this many consecutive i/os */
#define OS_AIO_MERGE_N_CONSECUTIVE 64
/* If this flag is TRUE, then we will use the native aio of the
OS (provided we compiled Innobase with it in), otherwise we will
use simulated aio we build below with threads */
ibool os_aio_use_native_aio = FALSE;
ibool os_aio_print_debug = FALSE;
/* The aio array slot structure */
typedef struct os_aio_slot_struct os_aio_slot_t;
struct os_aio_slot_struct{
ibool is_read; /* TRUE if a read operation */
ulint pos; /* index of the slot in the aio
array */
ibool reserved; /* TRUE if this slot is reserved */
time_t reservation_time;/* time when reserved */
ulint len; /* length of the block to read or
write */
byte* buf; /* buffer used in i/o */
ulint type; /* OS_FILE_READ or OS_FILE_WRITE */
ulint offset; /* 32 low bits of file offset in
bytes */
ulint offset_high; /* 32 high bits of file offset */
os_file_t file; /* file where to read or write */
char* name; /* file name or path */
ibool io_already_done;/* used only in simulated aio:
TRUE if the physical i/o already
made and only the slot message
needs to be passed to the caller
of os_aio_simulated_handle */
void* message1; /* message which is given by the */
void* message2; /* the requester of an aio operation
and which can be used to identify
which pending aio operation was
completed */
#ifdef WIN_ASYNC_IO
os_event_t event; /* event object we need in the
OVERLAPPED struct */
OVERLAPPED control; /* Windows control block for the
aio request */
#elif defined(POSIX_ASYNC_IO)
struct aiocb control; /* Posix control block for aio
request */
#endif
};
/* The aio array structure */
typedef struct os_aio_array_struct os_aio_array_t;
struct os_aio_array_struct{
os_mutex_t mutex; /* the mutex protecting the aio array */
os_event_t not_full; /* The event which is set to the signaled
state when there is space in the aio
outside the ibuf segment */
os_event_t is_empty; /* The event which is set to the signaled
state when there are no pending i/os
in this array */
ulint n_slots; /* Total number of slots in the aio array.
This must be divisible by n_threads. */
ulint n_segments;/* Number of segments in the aio array of
pending aio requests. A thread can wait
separately for any one of the segments. */
ulint n_reserved;/* Number of reserved slots in the
aio array outside the ibuf segment */
os_aio_slot_t* slots; /* Pointer to the slots in the array */
#ifdef __WIN__
os_native_event_t* native_events;
/* Pointer to an array of OS native event
handles where we copied the handles from
slots, in the same order. This can be used
in WaitForMultipleObjects; used only in
Windows */
#endif
};
/* Array of events used in simulated aio */
os_event_t* os_aio_segment_wait_events = NULL;
/* The aio arrays for non-ibuf i/o and ibuf i/o, as well as sync aio. These
are NULL when the module has not yet been initialized. */
os_aio_array_t* os_aio_read_array = NULL;
os_aio_array_t* os_aio_write_array = NULL;
os_aio_array_t* os_aio_ibuf_array = NULL;
os_aio_array_t* os_aio_log_array = NULL;
os_aio_array_t* os_aio_sync_array = NULL;
ulint os_aio_n_segments = ULINT_UNDEFINED;
/* If the following is TRUE, read i/o handler threads try to
wait until a batch of new read requests have been posted */
ibool os_aio_recommend_sleep_for_read_threads = FALSE;
ulint os_n_file_reads = 0;
ulint os_bytes_read_since_printout = 0;
ulint os_n_file_writes = 0;
ulint os_n_fsyncs = 0;
ulint os_n_file_reads_old = 0;
ulint os_n_file_writes_old = 0;
ulint os_n_fsyncs_old = 0;
time_t os_last_printout;
ibool os_has_said_disk_full = FALSE;
/* The mutex protecting the following counts of pending pread and pwrite
operations */
os_mutex_t os_file_count_mutex;
ulint os_file_n_pending_preads = 0;
ulint os_file_n_pending_pwrites = 0;
/***************************************************************************
Gets the operating system version. Currently works only on Windows. */
ulint
os_get_os_version(void)
/*===================*/
/* out: OS_WIN95, OS_WIN31, OS_WINNT, OS_WIN2000 */
{
#ifdef __WIN__
OSVERSIONINFO os_info;
os_info.dwOSVersionInfoSize = sizeof(OSVERSIONINFO);
ut_a(GetVersionEx(&os_info));
if (os_info.dwPlatformId == VER_PLATFORM_WIN32s) {
return(OS_WIN31);
} else if (os_info.dwPlatformId == VER_PLATFORM_WIN32_WINDOWS) {
return(OS_WIN95);
} else if (os_info.dwPlatformId == VER_PLATFORM_WIN32_NT) {
if (os_info.dwMajorVersion <= 4) {
return(OS_WINNT);
} else {
return(OS_WIN2000);
}
} else {
ut_error;
return(0);
}
#else
ut_error;
return(0);
#endif
}
/***************************************************************************
Retrieves the last error number if an error occurs in a file io function.
The number should be retrieved before any other OS calls (because they may
overwrite the error number). If the number is not known to this program,
the OS error number + 100 is returned. */
ulint
os_file_get_last_error(
/*===================*/
/* out: error number, or OS error
number + 100 */
ibool report_all_errors) /* in: TRUE if we want an error message
printed of all errors */
{
ulint err;
#ifdef __WIN__
err = (ulint) GetLastError();
if (report_all_errors
|| (err != ERROR_DISK_FULL && err != ERROR_FILE_EXISTS)) {
ut_print_timestamp(stderr);
fprintf(stderr,
" InnoDB: Operating system error number %lu in a file operation.\n", (ulong) err);
if (err == ERROR_PATH_NOT_FOUND) {
fprintf(stderr,
"InnoDB: The error means the system cannot find the path specified.\n");
if (srv_is_being_started) {
fprintf(stderr,
"InnoDB: If you are installing InnoDB, remember that you must create\n"
"InnoDB: directories yourself, InnoDB does not create them.\n");
}
} else if (err == ERROR_ACCESS_DENIED) {
fprintf(stderr,
"InnoDB: The error means mysqld does not have the access rights to\n"
"InnoDB: the directory. It may also be you have created a subdirectory\n"
"InnoDB: of the same name as a data file.\n");
} else {
fprintf(stderr,
"InnoDB: See section 13.2 at http://www.innodb.com/ibman.html\n"
"InnoDB: about operating system error numbers.\n");
}
}
fflush(stderr);
if (err == ERROR_FILE_NOT_FOUND) {
return(OS_FILE_NOT_FOUND);
} else if (err == ERROR_DISK_FULL) {
return(OS_FILE_DISK_FULL);
} else if (err == ERROR_FILE_EXISTS) {
return(OS_FILE_ALREADY_EXISTS);
} else {
return(100 + err);
}
#else
err = (ulint) errno;
if (report_all_errors
|| (err != ENOSPC && err != EEXIST)) {
ut_print_timestamp(stderr);
fprintf(stderr,
" InnoDB: Operating system error number %lu in a file operation.\n", err);
if (err == ENOENT) {
fprintf(stderr,
"InnoDB: The error means the system cannot find the path specified.\n");
if (srv_is_being_started) {
fprintf(stderr,
"InnoDB: If you are installing InnoDB, remember that you must create\n"
"InnoDB: directories yourself, InnoDB does not create them.\n");
}
} else if (err == EACCES) {
fprintf(stderr,
"InnoDB: The error means mysqld does not have the access rights to\n"
"InnoDB: the directory.\n");
} else {
if (strerror((int)err) != NULL) {
fprintf(stderr,
"InnoDB: Error number %lu means '%s'.\n", err, strerror((int)err));
}
fprintf(stderr,
"InnoDB: See also section 13.2 at http://www.innodb.com/ibman.html\n"
"InnoDB: about operating system error numbers.\n");
}
}
fflush(stderr);
if (err == ENOSPC ) {
return(OS_FILE_DISK_FULL);
#ifdef POSIX_ASYNC_IO
} else if (err == EAGAIN) {
return(OS_FILE_AIO_RESOURCES_RESERVED);
#endif
} else if (err == ENOENT) {
return(OS_FILE_NOT_FOUND);
} else if (err == EEXIST) {
return(OS_FILE_ALREADY_EXISTS);
} else {
return(100 + err);
}
#endif
}
/********************************************************************
Does error handling when a file operation fails. */
static
ibool
os_file_handle_error(
/*=================*/
/* out: TRUE if we should retry the
operation */
os_file_t file, /* in: file pointer */
char* name, /* in: name of a file or NULL */
const char* operation)/* in: operation */
{
ulint err;
UT_NOT_USED(file);
err = os_file_get_last_error(FALSE);
if (err == OS_FILE_DISK_FULL) {
/* We only print a warning about disk full once */
if (os_has_said_disk_full) {
return(FALSE);
}
if (name) {
ut_print_timestamp(stderr);
fprintf(stderr,
" InnoDB: Encountered a problem with file %s\n", name);
}
ut_print_timestamp(stderr);
fprintf(stderr,
" InnoDB: Disk is full. Try to clean the disk to free space.\n");
os_has_said_disk_full = TRUE;
fflush(stderr);
return(FALSE);
} else if (err == OS_FILE_AIO_RESOURCES_RESERVED) {
return(TRUE);
} else if (err == OS_FILE_ALREADY_EXISTS) {
return(FALSE);
} else {
if (name) {
fprintf(stderr, "InnoDB: File name %s\n", name);
}
fprintf(stderr, "InnoDB: File operation call: '%s'.\n",
operation);
fprintf(stderr, "InnoDB: Cannot continue operation.\n");
fflush(stderr);
exit(1);
}
return(FALSE);
}
/********************************************************************
Does error handling when a file operation fails. */
static
ibool
os_file_handle_error_no_exit(
/*=========================*/
/* out: TRUE if we should retry the
operation */
os_file_t file, /* in: file pointer */
char* name, /* in: name of a file or NULL */
const char* operation)/* in: operation */
{
ulint err;
UT_NOT_USED(file);
err = os_file_get_last_error(FALSE);
if (err == OS_FILE_DISK_FULL) {
/* We only print a warning about disk full once */
if (os_has_said_disk_full) {
return(FALSE);
}
if (name) {
ut_print_timestamp(stderr);
fprintf(stderr,
" InnoDB: Encountered a problem with file %s\n", name);
}
ut_print_timestamp(stderr);
fprintf(stderr,
" InnoDB: Disk is full. Try to clean the disk to free space.\n");
os_has_said_disk_full = TRUE;
fflush(stderr);
return(FALSE);
} else if (err == OS_FILE_AIO_RESOURCES_RESERVED) {
return(TRUE);
} else if (err == OS_FILE_ALREADY_EXISTS) {
return(FALSE);
} else {
if (name) {
fprintf(stderr, "InnoDB: File name %s\n", name);
}
fprintf(stderr, "InnoDB: File operation call: '%s'.\n",
operation);
return (FALSE);
}
return(FALSE); /* not reached */
}
/********************************************************************
Creates the seek mutexes used in positioned reads and writes. */
void
os_io_init_simple(void)
/*===================*/
{
ulint i;
os_file_count_mutex = os_mutex_create(NULL);
for (i = 0; i < OS_FILE_N_SEEK_MUTEXES; i++) {
os_file_seek_mutexes[i] = os_mutex_create(NULL);
}
}
/***************************************************************************
The os_file_opendir() function opens a directory stream corresponding to the
directory named by the dirname argument. The directory stream is positioned
at the first entry. In both Unix and Windows we automatically skip the '.'
and '..' items at the start of the directory listing. */
os_file_dir_t
os_file_opendir(
/*============*/
/* out: directory stream, NULL if error */
char* dirname, /* in: directory name; it must not contain
a trailing '\' or '/' */
ibool error_is_fatal) /* in: TRUE if we should treat an error as a
fatal error; if we try to open symlinks then
we do not wish a fatal error if it happens
not to be a directory */
{
os_file_dir_t dir;
#ifdef __WIN__
LPWIN32_FIND_DATA lpFindFileData;
char path[OS_FILE_MAX_PATH + 3];
ut_a(strlen(dirname) < OS_FILE_MAX_PATH);
strcpy(path, dirname);
strcpy(path + strlen(path), "\\*");
/* Note that in Windows opening the 'directory stream' also retrieves
the first entry in the directory. Since it is '.', that is no problem,
as we will skip over the '.' and '..' entries anyway. */
lpFindFileData = ut_malloc(sizeof(WIN32_FIND_DATA));
dir = FindFirstFile(path, lpFindFileData);
ut_free(lpFindFileData);
if (dir == INVALID_HANDLE_VALUE) {
if (error_is_fatal) {
os_file_handle_error(NULL, dirname, "opendir");
}
return(NULL);
}
return(dir);
#else
dir = opendir(dirname);
if (dir == NULL && error_is_fatal) {
os_file_handle_error(0, dirname, "opendir");
}
return(dir);
#endif
}
/***************************************************************************
Closes a directory stream. */
int
os_file_closedir(
/*=============*/
/* out: 0 if success, -1 if failure */
os_file_dir_t dir) /* in: directory stream */
{
#ifdef __WIN__
BOOL ret;
ret = FindClose(dir);
if (!ret) {
os_file_handle_error_no_exit(NULL, NULL, "closedir");
return(-1);
}
return(0);
#else
int ret;
ret = closedir(dir);
if (ret) {
os_file_handle_error_no_exit(0, NULL, "closedir");
}
return(ret);
#endif
}
/***************************************************************************
This function returns information of the next file in the directory. We jump
over the '.' and '..' entries in the directory. */
int
os_file_readdir_next_file(
/*======================*/
/* out: 0 if ok, -1 if error, 1 if at the end
of the directory */
char* dirname,/* in: directory name or path */
os_file_dir_t dir, /* in: directory stream */
os_file_stat_t* info) /* in/out: buffer where the info is returned */
{
#ifdef __WIN__
LPWIN32_FIND_DATA lpFindFileData;
BOOL ret;
lpFindFileData = ut_malloc(sizeof(WIN32_FIND_DATA));
next_file:
ret = FindNextFile(dir, lpFindFileData);
if (ret) {
ut_a(strlen(lpFindFileData->cFileName) < OS_FILE_MAX_PATH);
if (strcmp(lpFindFileData->cFileName, ".") == 0
|| strcmp(lpFindFileData->cFileName, "..") == 0) {
goto next_file;
}
strcpy(info->name, lpFindFileData->cFileName);
info->size = (ib_longlong)(lpFindFileData->nFileSizeLow)
+ (((ib_longlong)(lpFindFileData->nFileSizeHigh)) << 32);
if (lpFindFileData->dwFileAttributes
& FILE_ATTRIBUTE_REPARSE_POINT) {
/* TODO: test Windows symlinks */
/* TODO: MySQL has apparently its own symlink implementation in Windows,
dbname.sym can redirect a database directory:
http://www.mysql.com/doc/en/Windows_symbolic_links.html */
info->type = OS_FILE_TYPE_LINK;
} else if (lpFindFileData->dwFileAttributes
& FILE_ATTRIBUTE_DIRECTORY) {
info->type = OS_FILE_TYPE_DIR;
} else if (lpFindFileData->dwFileAttributes
& FILE_ATTRIBUTE_NORMAL) {
/* TODO: are FILE_ATTRIBUTE_NORMAL files really all normal files? */
info->type = OS_FILE_TYPE_FILE;
} else {
info->type = OS_FILE_TYPE_UNKNOWN;
}
}
ut_free(lpFindFileData);
if (ret) {
return(0);
} else if (GetLastError() == ERROR_NO_MORE_FILES) {
return(1);
} else {
os_file_handle_error_no_exit(NULL, dirname,
"readdir_next_file");
return(-1);
}
#else
struct dirent* ent;
char* full_path;
int ret;
struct stat statinfo;
next_file:
ent = readdir(dir);
if (ent == NULL) {
return(1);
}
ut_a(strlen(ent->d_name) < OS_FILE_MAX_PATH);
if (strcmp(ent->d_name, ".") == 0 || strcmp(ent->d_name, "..") == 0) {
goto next_file;
}
strcpy(info->name, ent->d_name);
full_path = ut_malloc(strlen(dirname) + strlen(ent->d_name) + 10);
sprintf(full_path, "%s/%s", dirname, ent->d_name);
ret = stat(full_path, &statinfo);
if (ret) {
os_file_handle_error_no_exit(0, full_path, "stat");
ut_free(full_path);
return(-1);
}
info->size = (ib_longlong)statinfo.st_size;
if (S_ISDIR(statinfo.st_mode)) {
info->type = OS_FILE_TYPE_DIR;
} else if (S_ISLNK(statinfo.st_mode)) {
info->type = OS_FILE_TYPE_LINK;
} else if (S_ISREG(statinfo.st_mode)) {
info->type = OS_FILE_TYPE_FILE;
} else {
info->type = OS_FILE_TYPE_UNKNOWN;
}
ut_free(full_path);
return(0);
#endif
}
/*********************************************************************
This function attempts to create a directory named pathname. The new directory
gets default permissions. On Unix the permissions are (0770 & ~umask). If the
directory exists already, nothing is done and the call succeeds, unless the
fail_if_exists arguments is true. */
ibool
os_file_create_directory(
/*=====================*/
/* out: TRUE if call succeeds, FALSE on
error */
char* pathname, /* in: directory name as null-terminated
string */
ibool fail_if_exists) /* in: if TRUE, pre-existing directory is
treated as an error. */
{
#ifdef __WIN__
BOOL rcode;
rcode = CreateDirectory(pathname, NULL);
if (!(rcode != 0 ||
(GetLastError() == ERROR_FILE_EXISTS && !fail_if_exists))) {
/* failure */
os_file_handle_error(NULL, pathname, "CreateDirectory");
return(FALSE);
}
return (TRUE);
#else
int rcode;
rcode = mkdir(pathname, 0770);
if (!(rcode == 0 || (errno == EEXIST && !fail_if_exists))) {
/* failure */
os_file_handle_error(0, pathname, "mkdir");
return(FALSE);
}
return (TRUE);
#endif
}
/********************************************************************
A simple function to open or create a file. */
os_file_t
os_file_create_simple(
/*==================*/
/* out, own: handle to the file, not defined if error,
error number can be retrieved with
os_file_get_last_error */
char* name, /* in: name of the file or path as a null-terminated
string */
ulint create_mode,/* in: OS_FILE_OPEN if an existing file is opened
(if does not exist, error), or OS_FILE_CREATE if a new
file is created (if exists, error), or
OS_FILE_CREATE_PATH if new file (if exists, error) and
subdirectories along its path are created (if needed)*/
ulint access_type,/* in: OS_FILE_READ_ONLY or OS_FILE_READ_WRITE */
ibool* success)/* out: TRUE if succeed, FALSE if error */
{
#ifdef __WIN__
os_file_t file;
DWORD create_flag;
DWORD access;
DWORD attributes = 0;
ibool retry;
try_again:
ut_a(name);
if (create_mode == OS_FILE_OPEN) {
create_flag = OPEN_EXISTING;
} else if (create_mode == OS_FILE_CREATE) {
create_flag = CREATE_NEW;
} else if (create_mode == OS_FILE_CREATE_PATH) {
/* create subdirs along the path if needed */
*success = os_file_create_subdirs_if_needed(name);
if (!*success) {
ut_error;
}
create_flag = CREATE_NEW;
create_mode = OS_FILE_CREATE;
} else {
create_flag = 0;
ut_error;
}
if (access_type == OS_FILE_READ_ONLY) {
access = GENERIC_READ;
} else if (access_type == OS_FILE_READ_WRITE) {
access = GENERIC_READ | GENERIC_WRITE;
} else {
access = 0;
ut_error;
}
file = CreateFile(name,
access,
FILE_SHARE_READ,/* file can be read also by other
processes */
NULL, /* default security attributes */
create_flag,
attributes,
NULL); /* no template file */
if (file == INVALID_HANDLE_VALUE) {
*success = FALSE;
retry = os_file_handle_error(file, name,
create_mode == OS_FILE_OPEN ?
"open" : "create");
if (retry) {
goto try_again;
}
} else {
*success = TRUE;
}
return(file);
#else
os_file_t file;
int create_flag;
ibool retry;
try_again:
ut_a(name);
if (create_mode == OS_FILE_OPEN) {
if (access_type == OS_FILE_READ_ONLY) {
create_flag = O_RDONLY;
} else {
create_flag = O_RDWR;
}
} else if (create_mode == OS_FILE_CREATE) {
create_flag = O_RDWR | O_CREAT | O_EXCL;
} else if (create_mode == OS_FILE_CREATE_PATH) {
/* create subdirs along the path if needed */
*success = os_file_create_subdirs_if_needed(name);
if (!*success) {
return (-1);
}
create_flag = O_RDWR | O_CREAT | O_EXCL;
create_mode = OS_FILE_CREATE;
} else {
create_flag = 0;
ut_error;
}
if (create_mode == OS_FILE_CREATE) {
file = open(name, create_flag, S_IRUSR | S_IWUSR
| S_IRGRP | S_IWGRP);
} else {
file = open(name, create_flag);
}
if (file == -1) {
*success = FALSE;
retry = os_file_handle_error(file, name,
create_mode == OS_FILE_OPEN ?
"open" : "create");
if (retry) {
goto try_again;
}
} else {
*success = TRUE;
}
return(file);
#endif
}
/********************************************************************
A simple function to open or create a file. */
os_file_t
os_file_create_simple_no_error_handling(
/*====================================*/
/* out, own: handle to the file, not defined if error,
error number can be retrieved with
os_file_get_last_error */
char* name, /* in: name of the file or path as a null-terminated
string */
ulint create_mode,/* in: OS_FILE_OPEN if an existing file is opened
(if does not exist, error), or OS_FILE_CREATE if a new
file is created (if exists, error) */
ulint access_type,/* in: OS_FILE_READ_ONLY, OS_FILE_READ_WRITE, or
OS_FILE_READ_ALLOW_DELETE; the last option is used by
a backup program reading the file */
ibool* success)/* out: TRUE if succeed, FALSE if error */
{
#ifdef __WIN__
os_file_t file;
DWORD create_flag;
DWORD access;
DWORD attributes = 0;
DWORD share_mode = FILE_SHARE_READ;
ut_a(name);
if (create_mode == OS_FILE_OPEN) {
create_flag = OPEN_EXISTING;
} else if (create_mode == OS_FILE_CREATE) {
create_flag = CREATE_NEW;
} else {
create_flag = 0;
ut_error;
}
if (access_type == OS_FILE_READ_ONLY) {
access = GENERIC_READ;
} else if (access_type == OS_FILE_READ_WRITE) {
access = GENERIC_READ | GENERIC_WRITE;
} else if (access_type == OS_FILE_READ_ALLOW_DELETE) {
access = GENERIC_READ;
share_mode = FILE_SHARE_DELETE | FILE_SHARE_READ
| FILE_SHARE_WRITE; /* A backup program has to give
mysqld the maximum freedom to
do what it likes with the
file */
} else {
access = 0;
ut_error;
}
file = CreateFile(name,
access,
share_mode,
NULL, /* default security attributes */
create_flag,
attributes,
NULL); /* no template file */
if (file == INVALID_HANDLE_VALUE) {
*success = FALSE;
} else {
*success = TRUE;
}
return(file);
#else
os_file_t file;
int create_flag;
ut_a(name);
if (create_mode == OS_FILE_OPEN) {
if (access_type == OS_FILE_READ_ONLY) {
create_flag = O_RDONLY;
} else {
create_flag = O_RDWR;
}
} else if (create_mode == OS_FILE_CREATE) {
create_flag = O_RDWR | O_CREAT | O_EXCL;
} else {
create_flag = 0;
ut_error;
}
if (create_mode == OS_FILE_CREATE) {
file = open(name, create_flag, S_IRUSR | S_IWUSR
| S_IRGRP | S_IWGRP);
} else {
file = open(name, create_flag);
}
if (file == -1) {
*success = FALSE;
} else {
*success = TRUE;
}
return(file);
#endif
}
/********************************************************************
Opens an existing file or creates a new. */
os_file_t
os_file_create(
/*===========*/
/* out, own: handle to the file, not defined if error,
error number can be retrieved with
os_file_get_last_error */
char* name, /* in: name of the file or path as a null-terminated
string */
ulint create_mode, /* in: OS_FILE_OPEN if an existing file is opened
(if does not exist, error), or OS_FILE_CREATE if a new
file is created (if exists, error), OS_FILE_OVERWRITE
if a new is created or an old overwritten,
OS_FILE_OPEN_RAW, if a raw device or disk partition
should be opened */
ulint purpose,/* in: OS_FILE_AIO, if asynchronous, non-buffered i/o
is desired, OS_FILE_NORMAL, if any normal file;
NOTE that it also depends on type, os_aio_.. and srv_..
variables whether we really use async i/o or
unbuffered i/o: look in the function source code for
the exact rules */
ulint type, /* in: OS_DATA_FILE or OS_LOG_FILE */
ibool* success)/* out: TRUE if succeed, FALSE if error */
{
#ifdef __WIN__
os_file_t file;
DWORD share_mode = FILE_SHARE_READ;
DWORD create_flag;
DWORD attributes;
ibool retry;
try_again:
ut_a(name);
if (create_mode == OS_FILE_OPEN_RAW) {
create_flag = OPEN_EXISTING;
share_mode = FILE_SHARE_WRITE;
} else if (create_mode == OS_FILE_OPEN) {
create_flag = OPEN_EXISTING;
} else if (create_mode == OS_FILE_CREATE) {
create_flag = CREATE_NEW;
} else if (create_mode == OS_FILE_OVERWRITE) {
create_flag = CREATE_ALWAYS;
} else {
create_flag = 0;
ut_error;
}
if (purpose == OS_FILE_AIO) {
/* If specified, use asynchronous (overlapped) io and no
buffering of writes in the OS */
attributes = 0;
#ifdef WIN_ASYNC_IO
if (os_aio_use_native_aio) {
attributes = attributes | FILE_FLAG_OVERLAPPED;
}
#endif
#ifdef UNIV_NON_BUFFERED_IO
if (type == OS_LOG_FILE && srv_flush_log_at_trx_commit == 2) {
/* Do not use unbuffered i/o to log files because
value 2 denotes that we do not flush the log at every
commit, but only once per second */
} else if (srv_win_file_flush_method ==
SRV_WIN_IO_UNBUFFERED) {
attributes = attributes | FILE_FLAG_NO_BUFFERING;
}
#endif
} else if (purpose == OS_FILE_NORMAL) {
attributes = 0;
#ifdef UNIV_NON_BUFFERED_IO
if (type == OS_LOG_FILE && srv_flush_log_at_trx_commit == 2) {
/* Do not use unbuffered i/o to log files because
value 2 denotes that we do not flush the log at every
commit, but only once per second */
} else if (srv_win_file_flush_method ==
SRV_WIN_IO_UNBUFFERED) {
attributes = attributes | FILE_FLAG_NO_BUFFERING;
}
#endif
} else {
attributes = 0;
ut_error;
}
file = CreateFile(name,
GENERIC_READ | GENERIC_WRITE, /* read and write
access */
share_mode, /* File can be read also by other
processes; we must give the read
permission because of ibbackup. We do
not give the write permission to
others because if one would succeed to
start 2 instances of mysqld on the
SAME files, that could cause severe
database corruption! When opening
raw disk partitions, Microsoft manuals
say that we must give also the write
permission. */
NULL, /* default security attributes */
create_flag,
attributes,
NULL); /* no template file */
if (file == INVALID_HANDLE_VALUE) {
*success = FALSE;
retry = os_file_handle_error(file, name,
create_mode == OS_FILE_CREATE ?
"create" : "open");
if (retry) {
goto try_again;
}
} else {
*success = TRUE;
}
return(file);
#else
os_file_t file;
int create_flag;
ibool retry;
const char* mode_str = NULL;
const char* type_str = NULL;
const char* purpose_str = NULL;
try_again:
ut_a(name);
if (create_mode == OS_FILE_OPEN || create_mode == OS_FILE_OPEN_RAW) {
mode_str = "OPEN";
create_flag = O_RDWR;
} else if (create_mode == OS_FILE_CREATE) {
mode_str = "CREATE";
create_flag = O_RDWR | O_CREAT | O_EXCL;
} else if (create_mode == OS_FILE_OVERWRITE) {
mode_str = "OVERWRITE";
create_flag = O_RDWR | O_CREAT | O_TRUNC;
} else {
create_flag = 0;
ut_error;
}
if (type == OS_LOG_FILE) {
type_str = "LOG";
} else if (type == OS_DATA_FILE) {
type_str = "DATA";
} else {
ut_error;
}
if (purpose == OS_FILE_AIO) {
purpose_str = "AIO";
} else if (purpose == OS_FILE_NORMAL) {
purpose_str = "NORMAL";
} else {
ut_error;
}
/* printf("Opening file %s, mode %s, type %s, purpose %s\n",
name, mode_str, type_str, purpose_str); */
#ifdef O_SYNC
/* We let O_SYNC only affect log files; note that we map O_DSYNC to
O_SYNC because the datasync options seemed to corrupt files in 2001
in both Linux and Solaris */
if (type == OS_LOG_FILE
&& srv_unix_file_flush_method == SRV_UNIX_O_DSYNC) {
/* printf("Using O_SYNC for file %s\n", name); */
create_flag = create_flag | O_SYNC;
}
#endif
#ifdef O_DIRECT
/* We let O_DIRECT only affect data files */
if (type != OS_LOG_FILE
&& srv_unix_file_flush_method == SRV_UNIX_O_DIRECT) {
/* printf("Using O_DIRECT for file %s\n", name); */
create_flag = create_flag | O_DIRECT;
}
#endif
if (create_mode == OS_FILE_CREATE) {
file = open(name, create_flag, os_innodb_umask);
} else {
file = open(name, create_flag);
}
if (file == -1) {
*success = FALSE;
retry = os_file_handle_error(file, name,
create_mode == OS_FILE_CREATE ?
"create" : "open");
if (retry) {
goto try_again;
}
} else {
*success = TRUE;
}
return(file);
#endif
}
/***************************************************************************
Deletes a file if it exists. The file has to be closed before calling this. */
ibool
os_file_delete_if_exists(
/*=====================*/
/* out: TRUE if success */
char* name) /* in: file path as a null-terminated string */
{
#ifdef __WIN__
BOOL ret;
ulint count = 0;
loop:
/* In Windows, deleting an .ibd file may fail if ibbackup is copying
it */
ret = DeleteFile((LPCTSTR)name);
if (ret) {
return(TRUE);
}
if (GetLastError() == ERROR_PATH_NOT_FOUND) {
/* the file does not exist, this not an error */
return(TRUE);
}
count++;
if (count > 100 && 0 == (count % 10)) {
fprintf(stderr,
"InnoDB: Warning: cannot delete file %s\n"
"InnoDB: Are you running ibbackup to back up the file?\n", name);
os_file_get_last_error(TRUE); /* print error information */
}
os_thread_sleep(1000000); /* sleep for a second */
if (count > 2000) {
return(FALSE);
}
goto loop;
#else
int ret;
ret = unlink((const char*)name);
if (ret != 0 && errno != ENOENT) {
os_file_handle_error(0, name, "delete");
return(FALSE);
}
return(TRUE);
#endif
}
/***************************************************************************
Deletes a file. The file has to be closed before calling this. */
ibool
os_file_delete(
/*===========*/
/* out: TRUE if success */
char* name) /* in: file path as a null-terminated string */
{
#ifdef __WIN__
BOOL ret;
ulint count = 0;
loop:
/* In Windows, deleting an .ibd file may fail if ibbackup is copying
it */
ret = DeleteFile((LPCTSTR)name);
if (ret) {
return(TRUE);
}
if (GetLastError() == ERROR_PATH_NOT_FOUND) {
/* If the file does not exist, we classify this as a 'mild'
error and return */
return(FALSE);
}
count++;
if (count > 100 && 0 == (count % 10)) {
fprintf(stderr,
"InnoDB: Warning: cannot delete file %s\n"
"InnoDB: Are you running ibbackup to back up the file?\n", name);
os_file_get_last_error(TRUE); /* print error information */
}
os_thread_sleep(1000000); /* sleep for a second */
if (count > 2000) {
return(FALSE);
}
goto loop;
#else
int ret;
ret = unlink((const char*)name);
if (ret != 0) {
os_file_handle_error(0, name, "delete");
return(FALSE);
}
return(TRUE);
#endif
}
/***************************************************************************
Renames a file (can also move it to another directory). It is safest that the
file is closed before calling this function. */
ibool
os_file_rename(
/*===========*/
/* out: TRUE if success */
char* oldpath, /* in: old file path as a null-terminated
string */
char* newpath) /* in: new file path */
{
#ifdef __WIN__
BOOL ret;
ret = MoveFile((LPCTSTR)oldpath, (LPCTSTR)newpath);
if (ret) {
return(TRUE);
}
os_file_handle_error(NULL, oldpath, "delete");
return(FALSE);
#else
int ret;
ret = rename((const char*)oldpath, (const char*)newpath);
if (ret != 0) {
os_file_handle_error(0, oldpath, "rename");
return(FALSE);
}
return(TRUE);
#endif
}
/***************************************************************************
Closes a file handle. In case of error, error number can be retrieved with
os_file_get_last_error. */
ibool
os_file_close(
/*==========*/
/* out: TRUE if success */
os_file_t file) /* in, own: handle to a file */
{
#ifdef __WIN__
BOOL ret;
ut_a(file);
ret = CloseHandle(file);
if (ret) {
return(TRUE);
}
os_file_handle_error(file, NULL, "close");
return(FALSE);
#else
int ret;
ret = close(file);
if (ret == -1) {
os_file_handle_error(file, NULL, "close");
return(FALSE);
}
return(TRUE);
#endif
}
/***************************************************************************
Closes a file handle. */
ibool
os_file_close_no_error_handling(
/*============================*/
/* out: TRUE if success */
os_file_t file) /* in, own: handle to a file */
{
#ifdef __WIN__
BOOL ret;
ut_a(file);
ret = CloseHandle(file);
if (ret) {
return(TRUE);
}
return(FALSE);
#else
int ret;
ret = close(file);
if (ret == -1) {
return(FALSE);
}
return(TRUE);
#endif
}
/***************************************************************************
Gets a file size. */
ibool
os_file_get_size(
/*=============*/
/* out: TRUE if success */
os_file_t file, /* in: handle to a file */
ulint* size, /* out: least significant 32 bits of file
size */
ulint* size_high)/* out: most significant 32 bits of size */
{
#ifdef __WIN__
DWORD high;
DWORD low;
low = GetFileSize(file, &high);
if ((low == 0xFFFFFFFF) && (GetLastError() != NO_ERROR)) {
return(FALSE);
}
*size = low;
*size_high = high;
return(TRUE);
#else
off_t offs;
offs = lseek(file, 0, SEEK_END);
if (offs == ((off_t)-1)) {
return(FALSE);
}
if (sizeof(off_t) > 4) {
*size = (ulint)(offs & 0xFFFFFFFFUL);
*size_high = (ulint)(offs >> 32);
} else {
*size = (ulint) offs;
*size_high = 0;
}
return(TRUE);
#endif
}
/***************************************************************************
Gets file size as a 64-bit integer ib_longlong. */
ib_longlong
os_file_get_size_as_iblonglong(
/*===========================*/
/* out: size in bytes, -1 if error */
os_file_t file) /* in: handle to a file */
{
ulint size;
ulint size_high;
ibool success;
success = os_file_get_size(file, &size, &size_high);
if (!success) {
return(-1);
}
return((((ib_longlong)size_high) << 32) + (ib_longlong)size);
}
/***************************************************************************
Sets a file size. This function can be used to extend or truncate a file. */
ibool
os_file_set_size(
/*=============*/
/* out: TRUE if success */
char* name, /* in: name of the file or path as a
null-terminated string */
os_file_t file, /* in: handle to a file */
ulint size, /* in: least significant 32 bits of file
size */
ulint size_high)/* in: most significant 32 bits of size */
{
ib_longlong offset;
ib_longlong low;
ulint n_bytes;
ibool ret;
byte* buf;
byte* buf2;
ulint i;
ut_a(size == (size & 0xFFFFFFFF));
/* We use a very big 8 MB buffer in writing because Linux may be
extremely slow in fsync on 1 MB writes */
buf2 = ut_malloc(UNIV_PAGE_SIZE * 513);
/* Align the buffer for possible raw i/o */
buf = ut_align(buf2, UNIV_PAGE_SIZE);
/* Write buffer full of zeros */
for (i = 0; i < UNIV_PAGE_SIZE * 512; i++) {
buf[i] = '\0';
}
offset = 0;
low = (ib_longlong)size + (((ib_longlong)size_high) << 32);
if (low >= (ib_longlong)(100 * 1024 * 1024)) {
fprintf(stderr, "InnoDB: Progress in MB:");
}
while (offset < low) {
if (low - offset < UNIV_PAGE_SIZE * 512) {
n_bytes = (ulint)(low - offset);
} else {
n_bytes = UNIV_PAGE_SIZE * 512;
}
ret = os_file_write(name, file, buf,
(ulint)(offset & 0xFFFFFFFF),
(ulint)(offset >> 32),
n_bytes);
if (!ret) {
ut_free(buf2);
goto error_handling;
}
/* Print about progress for each 100 MB written */
if ((offset + n_bytes) / (ib_longlong)(100 * 1024 * 1024)
!= offset / (ib_longlong)(100 * 1024 * 1024)) {
fprintf(stderr, " %lu00",
(ulong) ((offset + n_bytes)
/ (ib_longlong)(100 * 1024 * 1024)));
}
offset += n_bytes;
}
if (low >= (ib_longlong)(100 * 1024 * 1024)) {
fprintf(stderr, "\n");
}
ut_free(buf2);
ret = os_file_flush(file);
if (ret) {
return(TRUE);
}
error_handling:
return(FALSE);
}
/***************************************************************************
Flushes the write buffers of a given file to the disk. */
ibool
os_file_flush(
/*==========*/
/* out: TRUE if success */
os_file_t file) /* in, own: handle to a file */
{
#ifdef __WIN__
BOOL ret;
ut_a(file);
os_n_fsyncs++;
ret = FlushFileBuffers(file);
if (ret) {
return(TRUE);
}
/* Since Windows returns ERROR_INVALID_FUNCTION if the 'file' is
actually a raw device, we choose to ignore that error if we are using
raw disks */
if (srv_start_raw_disk_in_use && GetLastError()
== ERROR_INVALID_FUNCTION) {
return(TRUE);
}
os_file_handle_error(file, NULL, "flush");
/* It is a fatal error if a file flush does not succeed, because then
the database can get corrupt on disk */
ut_error;
return(FALSE);
#else
int ret;
#ifdef HAVE_FDATASYNC
ret = fdatasync(file);
#else
/* printf("Flushing to file %lu\n", (ulint)file); */
ret = fsync(file);
#endif
os_n_fsyncs++;
if (ret == 0) {
return(TRUE);
}
/* Since Linux returns EINVAL if the 'file' is actually a raw device,
we choose to ignore that error if we are using raw disks */
if (srv_start_raw_disk_in_use && errno == EINVAL) {
return(TRUE);
}
ut_print_timestamp(stderr);
fprintf(stderr,
" InnoDB: Error: the OS said file flush did not succeed\n");
os_file_handle_error(file, NULL, "flush");
/* It is a fatal error if a file flush does not succeed, because then
the database can get corrupt on disk */
ut_error;
return(FALSE);
#endif
}
#ifndef __WIN__
/***********************************************************************
Does a synchronous read operation in Posix. */
static
ssize_t
os_file_pread(
/*==========*/
/* out: number of bytes read, -1 if error */
os_file_t file, /* in: handle to a file */
void* buf, /* in: buffer where to read */
ulint n, /* in: number of bytes to read */
ulint offset, /* in: least significant 32 bits of file
offset from where to read */
ulint offset_high) /* in: most significant 32 bits of
offset */
{
off_t offs;
ssize_t n_bytes;
ut_a((offset & 0xFFFFFFFFUL) == offset);
/* If off_t is > 4 bytes in size, then we assume we can pass a
64-bit address */
if (sizeof(off_t) > 4) {
offs = (off_t)offset + (((off_t)offset_high) << 32);
} else {
offs = (off_t)offset;
if (offset_high > 0) {
fprintf(stderr,
"InnoDB: Error: file read at offset > 4 GB\n");
}
}
os_n_file_reads++;
#ifdef HAVE_PREAD
os_mutex_enter(os_file_count_mutex);
os_file_n_pending_preads++;
os_mutex_exit(os_file_count_mutex);
n_bytes = pread(file, buf, n, offs);
os_mutex_enter(os_file_count_mutex);
os_file_n_pending_preads--;
os_mutex_exit(os_file_count_mutex);
return(n_bytes);
#else
{
ssize_t ret;
ulint i;
/* Protect the seek / read operation with a mutex */
i = ((ulint) file) % OS_FILE_N_SEEK_MUTEXES;
os_mutex_enter(os_file_seek_mutexes[i]);
ret = lseek(file, offs, 0);
if (ret < 0) {
os_mutex_exit(os_file_seek_mutexes[i]);
return(ret);
}
ret = read(file, buf, n);
os_mutex_exit(os_file_seek_mutexes[i]);
return(ret);
}
#endif
}
/***********************************************************************
Does a synchronous write operation in Posix. */
static
ssize_t
os_file_pwrite(
/*===========*/
/* out: number of bytes written, -1 if error */
os_file_t file, /* in: handle to a file */
void* buf, /* in: buffer from where to write */
ulint n, /* in: number of bytes to write */
ulint offset, /* in: least significant 32 bits of file
offset where to write */
ulint offset_high) /* in: most significant 32 bits of
offset */
{
ssize_t ret;
off_t offs;
ut_a((offset & 0xFFFFFFFFUL) == offset);
/* If off_t is > 4 bytes in size, then we assume we can pass a
64-bit address */
if (sizeof(off_t) > 4) {
offs = (off_t)offset + (((off_t)offset_high) << 32);
} else {
offs = (off_t)offset;
if (offset_high > 0) {
fprintf(stderr,
"InnoDB: Error: file write at offset > 4 GB\n");
}
}
os_n_file_writes++;
#ifdef HAVE_PWRITE
os_mutex_enter(os_file_count_mutex);
os_file_n_pending_pwrites++;
os_mutex_exit(os_file_count_mutex);
ret = pwrite(file, buf, n, offs);
os_mutex_enter(os_file_count_mutex);
os_file_n_pending_pwrites--;
os_mutex_exit(os_file_count_mutex);
if (srv_unix_file_flush_method != SRV_UNIX_LITTLESYNC
&& srv_unix_file_flush_method != SRV_UNIX_NOSYNC
&& !os_do_not_call_flush_at_each_write) {
/* Always do fsync to reduce the probability that when
the OS crashes, a database page is only partially
physically written to disk. */
ut_a(TRUE == os_file_flush(file));
}
return(ret);
#else
{
ulint i;
/* Protect the seek / write operation with a mutex */
i = ((ulint) file) % OS_FILE_N_SEEK_MUTEXES;
os_mutex_enter(os_file_seek_mutexes[i]);
ret = lseek(file, offs, 0);
if (ret < 0) {
os_mutex_exit(os_file_seek_mutexes[i]);
return(ret);
}
ret = write(file, buf, n);
if (srv_unix_file_flush_method != SRV_UNIX_LITTLESYNC
&& srv_unix_file_flush_method != SRV_UNIX_NOSYNC
&& !os_do_not_call_flush_at_each_write) {
/* Always do fsync to reduce the probability that when
the OS crashes, a database page is only partially
physically written to disk. */
ut_a(TRUE == os_file_flush(file));
}
os_mutex_exit(os_file_seek_mutexes[i]);
return(ret);
}
#endif
}
#endif
/***********************************************************************
Requests a synchronous positioned read operation. */
ibool
os_file_read(
/*=========*/
/* out: TRUE if request was
successful, FALSE if fail */
os_file_t file, /* in: handle to a file */
void* buf, /* in: buffer where to read */
ulint offset, /* in: least significant 32 bits of file
offset where to read */
ulint offset_high, /* in: most significant 32 bits of
offset */
ulint n) /* in: number of bytes to read */
{
#ifdef __WIN__
BOOL ret;
DWORD len;
DWORD ret2;
DWORD low;
DWORD high;
ibool retry;
ulint i;
ut_a((offset & 0xFFFFFFFFUL) == offset);
os_n_file_reads++;
os_bytes_read_since_printout += n;
try_again:
ut_ad(file);
ut_ad(buf);
ut_ad(n > 0);
low = offset;
high = offset_high;
/* Protect the seek / read operation with a mutex */
i = ((ulint) file) % OS_FILE_N_SEEK_MUTEXES;
os_mutex_enter(os_file_seek_mutexes[i]);
ret2 = SetFilePointer(file, low, &high, FILE_BEGIN);
if (ret2 == 0xFFFFFFFF && GetLastError() != NO_ERROR) {
os_mutex_exit(os_file_seek_mutexes[i]);
goto error_handling;
}
ret = ReadFile(file, buf, n, &len, NULL);
os_mutex_exit(os_file_seek_mutexes[i]);
if (ret && len == n) {
return(TRUE);
}
#else
ibool retry;
ssize_t ret;
os_bytes_read_since_printout += n;
try_again:
ret = os_file_pread(file, buf, n, offset, offset_high);
if ((ulint)ret == n) {
return(TRUE);
}
#endif
#ifdef __WIN__
error_handling:
#endif
retry = os_file_handle_error(file, NULL, "read");
if (retry) {
goto try_again;
}
fprintf(stderr,
"InnoDB: Fatal error: cannot read from file. OS error number %lu.\n",
#ifdef __WIN__
(ulong) GetLastError()
#else
(ulong) errno
#endif
);
fflush(stderr);
ut_error;
return(FALSE);
}
/***********************************************************************
Requests a synchronous positioned read operation. This function does not do
any error handling. In case of error it returns FALSE. */
ibool
os_file_read_no_error_handling(
/*===========================*/
/* out: TRUE if request was
successful, FALSE if fail */
os_file_t file, /* in: handle to a file */
void* buf, /* in: buffer where to read */
ulint offset, /* in: least significant 32 bits of file
offset where to read */
ulint offset_high, /* in: most significant 32 bits of
offset */
ulint n) /* in: number of bytes to read */
{
#ifdef __WIN__
BOOL ret;
DWORD len;
DWORD ret2;
DWORD low;
DWORD high;
ibool retry;
ulint i;
ut_a((offset & 0xFFFFFFFFUL) == offset);
os_n_file_reads++;
os_bytes_read_since_printout += n;
try_again:
ut_ad(file);
ut_ad(buf);
ut_ad(n > 0);
low = offset;
high = offset_high;
/* Protect the seek / read operation with a mutex */
i = ((ulint) file) % OS_FILE_N_SEEK_MUTEXES;
os_mutex_enter(os_file_seek_mutexes[i]);
ret2 = SetFilePointer(file, low, &high, FILE_BEGIN);
if (ret2 == 0xFFFFFFFF && GetLastError() != NO_ERROR) {
os_mutex_exit(os_file_seek_mutexes[i]);
goto error_handling;
}
ret = ReadFile(file, buf, n, &len, NULL);
os_mutex_exit(os_file_seek_mutexes[i]);
if (ret && len == n) {
return(TRUE);
}
#else
ibool retry;
ssize_t ret;
os_bytes_read_since_printout += n;
try_again:
ret = os_file_pread(file, buf, n, offset, offset_high);
if ((ulint)ret == n) {
return(TRUE);
}
#endif
#ifdef __WIN__
error_handling:
#endif
retry = os_file_handle_error_no_exit(file, NULL, "read");
if (retry) {
goto try_again;
}
return(FALSE);
}
/***********************************************************************
Requests a synchronous write operation. */
ibool
os_file_write(
/*==========*/
/* out: TRUE if request was
successful, FALSE if fail */
char* name, /* in: name of the file or path as a
null-terminated string */
os_file_t file, /* in: handle to a file */
void* buf, /* in: buffer from which to write */
ulint offset, /* in: least significant 32 bits of file
offset where to write */
ulint offset_high, /* in: most significant 32 bits of
offset */
ulint n) /* in: number of bytes to write */
{
#ifdef __WIN__
BOOL ret;
DWORD len;
DWORD ret2;
DWORD low;
DWORD high;
ulint i;
ulint n_retries = 0;
ulint err;
ut_a((offset & 0xFFFFFFFF) == offset);
os_n_file_writes++;
ut_ad(file);
ut_ad(buf);
ut_ad(n > 0);
retry:
low = offset;
high = offset_high;
/* Protect the seek / write operation with a mutex */
i = ((ulint) file) % OS_FILE_N_SEEK_MUTEXES;
os_mutex_enter(os_file_seek_mutexes[i]);
ret2 = SetFilePointer(file, low, &high, FILE_BEGIN);
if (ret2 == 0xFFFFFFFF && GetLastError() != NO_ERROR) {
os_mutex_exit(os_file_seek_mutexes[i]);
ut_print_timestamp(stderr);
fprintf(stderr,
" InnoDB: Error: File pointer positioning to file %s failed at\n"
"InnoDB: offset %lu %lu. Operating system error number %lu.\n"
"InnoDB: Look from section 13.2 at http://www.innodb.com/ibman.html\n"
"InnoDB: what the error number means.\n",
name, (ulong) offset_high, (ulong) offset,
(ulong) GetLastError());
return(FALSE);
}
ret = WriteFile(file, buf, n, &len, NULL);
/* Always do fsync to reduce the probability that when the OS crashes,
a database page is only partially physically written to disk. */
if (!os_do_not_call_flush_at_each_write) {
ut_a(TRUE == os_file_flush(file));
}
os_mutex_exit(os_file_seek_mutexes[i]);
if (ret && len == n) {
return(TRUE);
}
/* If some background file system backup tool is running, then, at
least in Windows 2000, we may get here a specific error. Let us
retry the operation 100 times, with 1 second waits. */
if (GetLastError() == ERROR_LOCK_VIOLATION && n_retries < 100) {
os_thread_sleep(1000000);
n_retries++;
goto retry;
}
if (!os_has_said_disk_full) {
err = (ulint)GetLastError();
ut_print_timestamp(stderr);
fprintf(stderr,
" InnoDB: Error: Write to file %s failed at offset %lu %lu.\n"
"InnoDB: %lu bytes should have been written, only %lu were written.\n"
"InnoDB: Operating system error number %lu.\n"
"InnoDB: Check that your OS and file system support files of this size.\n"
"InnoDB: Check also that the disk is not full or a disk quota exceeded.\n",
name, (ulong) offset_high, (ulong) offset,
(ulong) n, (ulong) len, (ulong) err);
if (strerror((int)err) != NULL) {
fprintf(stderr,
"InnoDB: Error number %lu means '%s'.\n", (ulong) err, strerror((int)err));
}
fprintf(stderr,
"InnoDB: See also section 13.2 at http://www.innodb.com/ibman.html\n"
"InnoDB: about operating system error numbers.\n");
os_has_said_disk_full = TRUE;
}
return(FALSE);
#else
ssize_t ret;
ret = os_file_pwrite(file, buf, n, offset, offset_high);
if ((ulint)ret == n) {
return(TRUE);
}
if (!os_has_said_disk_full) {
ut_print_timestamp(stderr);
fprintf(stderr,
" InnoDB: Error: Write to file %s failed at offset %lu %lu.\n"
"InnoDB: %lu bytes should have been written, only %ld were written.\n"
"InnoDB: Operating system error number %lu.\n"
"InnoDB: Check that your OS and file system support files of this size.\n"
"InnoDB: Check also that the disk is not full or a disk quota exceeded.\n",
name, offset_high, offset, n, (long int)ret,
(ulint)errno);
if (strerror(errno) != NULL) {
fprintf(stderr,
"InnoDB: Error number %lu means '%s'.\n", (ulint)errno, strerror(errno));
}
fprintf(stderr,
"InnoDB: See also section 13.2 at http://www.innodb.com/ibman.html\n"
"InnoDB: about operating system error numbers.\n");
os_has_said_disk_full = TRUE;
}
return(FALSE);
#endif
}
/***********************************************************************
Check the existence and type of the given file. */
ibool
os_file_status(
/*===========*/
/* out: TRUE if call succeeded */
char* path, /* in: pathname of the file */
ibool* exists, /* out: TRUE if file exists */
os_file_type_t* type) /* out: type of the file (if it exists) */
{
#ifdef __WIN__
int ret;
struct _stat statinfo;
ret = _stat(path, &statinfo);
if (ret && (errno == ENOENT || errno == ENOTDIR)) {
/* file does not exist */
*exists = FALSE;
return(TRUE);
} else if (ret) {
/* file exists, but stat call failed */
os_file_handle_error_no_exit(0, path, "stat");
return(FALSE);
}
if (_S_IFDIR & statinfo.st_mode) {
*type = OS_FILE_TYPE_DIR;
} else if (_S_IFREG & statinfo.st_mode) {
*type = OS_FILE_TYPE_FILE;
} else {
*type = OS_FILE_TYPE_UNKNOWN;
}
*exists = TRUE;
return(TRUE);
#else
int ret;
struct stat statinfo;
ret = stat(path, &statinfo);
if (ret && (errno == ENOENT || errno == ENOTDIR)) {
/* file does not exist */
*exists = FALSE;
return(TRUE);
} else if (ret) {
/* file exists, but stat call failed */
os_file_handle_error_no_exit(0, path, "stat");
return(FALSE);
}
if (S_ISDIR(statinfo.st_mode)) {
*type = OS_FILE_TYPE_DIR;
} else if (S_ISLNK(statinfo.st_mode)) {
*type = OS_FILE_TYPE_LINK;
} else if (S_ISREG(statinfo.st_mode)) {
*type = OS_FILE_TYPE_FILE;
} else {
*type = OS_FILE_TYPE_UNKNOWN;
}
*exists = TRUE;
return(TRUE);
#endif
}
/* path name separator character */
#ifdef __WIN__
# define OS_FILE_PATH_SEPARATOR '\\'
#else
# define OS_FILE_PATH_SEPARATOR '/'
#endif
/********************************************************************
The function os_file_dirname returns a directory component of a
null-terminated pathname string. In the usual case, dirname returns
the string up to, but not including, the final '/', and basename
is the component following the final '/'. Trailing '/' charac
ters are not counted as part of the pathname.
If path does not contain a slash, dirname returns the string ".".
Concatenating the string returned by dirname, a "/", and the basename
yields a complete pathname.
The return value is a copy of the directory component of the pathname.
The copy is allocated from heap. It is the caller responsibility
to free it after it is no longer needed.
The following list of examples (taken from SUSv2) shows the strings
returned by dirname and basename for different paths:
path dirname basename
"/usr/lib" "/usr" "lib"
"/usr/" "/" "usr"
"usr" "." "usr"
"/" "/" "/"
"." "." "."
".." "." ".."
*/
char*
os_file_dirname(
/*============*/
/* out, own: directory component of the
pathname */
char* path) /* in: pathname */
{
char* dir;
int i, length, last_slash;
/* find the offset of the last slash */
length = ut_strlen(path);
for (i = length - 1; i >= 0 && path[i] != OS_FILE_PATH_SEPARATOR; i++);
last_slash = i;
if (last_slash < 0) {
/* no slash in the path, return "." */
return(ut_strdup((char*)"."));
}
/* ok, there is a slash */
if (last_slash == 0) {
/* last slash is the first char of the path */
return(ut_strdup((char*)"/"));
}
/* non-trivial directory component */
dir = ut_strdup(path);
dir[last_slash] = 0;
return(dir);
}
/********************************************************************
Creates all missing subdirectories along the given path. */
ibool
os_file_create_subdirs_if_needed(
/*=============================*/
/* out: TRUE if call succeeded
FALSE otherwise */
char* path) /* in: path name */
{
char* subdir;
static char rootdir[2] = { OS_FILE_PATH_SEPARATOR, 0 };
ibool success, subdir_exists;
os_file_type_t type;
subdir = os_file_dirname(path);
if (0 == strcmp(subdir, rootdir) || 0 == strcmp(subdir, ".")) {
/* subdir is root or cwd, nothing to do */
ut_free(subdir);
return(TRUE);
}
/* test if subdir exists */
success = os_file_status(subdir, &subdir_exists, &type);
if (success && !subdir_exists) {
/* subdir does not exist, create it */
success = os_file_create_subdirs_if_needed(subdir);
if (!success) {
ut_free(subdir);
return(FALSE);
}
success = os_file_create_directory(subdir, FALSE);
}
ut_free(subdir);
return(success);
}
/********************************************************************
Returns a pointer to the nth slot in the aio array. */
static
os_aio_slot_t*
os_aio_array_get_nth_slot(
/*======================*/
/* out: pointer to slot */
os_aio_array_t* array, /* in: aio array */
ulint index) /* in: index of the slot */
{
ut_a(index < array->n_slots);
return((array->slots) + index);
}
/****************************************************************************
Creates an aio wait array. */
static
os_aio_array_t*
os_aio_array_create(
/*================*/
/* out, own: aio array */
ulint n, /* in: maximum number of pending aio operations
allowed; n must be divisible by n_segments */
ulint n_segments) /* in: number of segments in the aio array */
{
os_aio_array_t* array;
ulint i;
os_aio_slot_t* slot;
#ifdef WIN_ASYNC_IO
OVERLAPPED* over;
#endif
ut_a(n > 0);
ut_a(n_segments > 0);
array = ut_malloc(sizeof(os_aio_array_t));
array->mutex = os_mutex_create(NULL);
array->not_full = os_event_create(NULL);
array->is_empty = os_event_create(NULL);
os_event_set(array->is_empty);
array->n_slots = n;
array->n_segments = n_segments;
array->n_reserved = 0;
array->slots = ut_malloc(n * sizeof(os_aio_slot_t));
#ifdef __WIN__
array->native_events = ut_malloc(n * sizeof(os_native_event_t));
#endif
for (i = 0; i < n; i++) {
slot = os_aio_array_get_nth_slot(array, i);
slot->pos = i;
slot->reserved = FALSE;
#ifdef WIN_ASYNC_IO
slot->event = os_event_create(NULL);
over = &(slot->control);
over->hEvent = slot->event->handle;
*((array->native_events) + i) = over->hEvent;
#endif
}
return(array);
}
/****************************************************************************
Initializes the asynchronous io system. Calls also os_io_init_simple.
Creates a separate aio array for
non-ibuf read and write, a third aio array for the ibuf i/o, with just one
segment, two aio arrays for log reads and writes with one segment, and a
synchronous aio array of the specified size. The combined number of segments
in the three first aio arrays is the parameter n_segments given to the
function. The caller must create an i/o handler thread for each segment in
the four first arrays, but not for the sync aio array. */
void
os_aio_init(
/*========*/
ulint n, /* in: maximum number of pending aio operations
allowed; n must be divisible by n_segments */
ulint n_segments, /* in: combined number of segments in the four
first aio arrays; must be >= 4 */
ulint n_slots_sync) /* in: number of slots in the sync aio array */
{
ulint n_read_segs;
ulint n_write_segs;
ulint n_per_seg;
ulint i;
#ifdef POSIX_ASYNC_IO
sigset_t sigset;
#endif
ut_ad(n % n_segments == 0);
ut_ad(n_segments >= 4);
os_io_init_simple();
for (i = 0; i < n_segments; i++) {
srv_io_thread_op_info[i] = (char*)"not started yet";
}
n_per_seg = n / n_segments;
n_write_segs = (n_segments - 2) / 2;
n_read_segs = n_segments - 2 - n_write_segs;
/* printf("Array n per seg %lu\n", n_per_seg); */
os_aio_ibuf_array = os_aio_array_create(n_per_seg, 1);
srv_io_thread_function[0] = (char*)"insert buffer thread";
os_aio_log_array = os_aio_array_create(n_per_seg, 1);
srv_io_thread_function[1] = (char*)"log thread";
os_aio_read_array = os_aio_array_create(n_read_segs * n_per_seg,
n_read_segs);
for (i = 2; i < 2 + n_read_segs; i++) {
srv_io_thread_function[i] = (char*)"read thread";
}
os_aio_write_array = os_aio_array_create(n_write_segs * n_per_seg,
n_write_segs);
for (i = 2 + n_read_segs; i < n_segments; i++) {
srv_io_thread_function[i] = (char*)"write thread";
}
os_aio_sync_array = os_aio_array_create(n_slots_sync, 1);
os_aio_n_segments = n_segments;
os_aio_validate();
os_aio_segment_wait_events = ut_malloc(n_segments * sizeof(void*));
for (i = 0; i < n_segments; i++) {
os_aio_segment_wait_events[i] = os_event_create(NULL);
}
os_last_printout = time(NULL);
#ifdef POSIX_ASYNC_IO
/* Block aio signals from the current thread and its children:
for this to work, the current thread must be the first created
in the database, so that all its children will inherit its
signal mask */
/* TODO: to work MySQL needs the SIGALARM signal; the following
will not work yet! */
sigemptyset(&sigset);
sigaddset(&sigset, SIGRTMIN + 1 + 0);
sigaddset(&sigset, SIGRTMIN + 1 + 1);
sigaddset(&sigset, SIGRTMIN + 1 + 2);
sigaddset(&sigset, SIGRTMIN + 1 + 3);
pthread_sigmask(SIG_BLOCK, &sigset, NULL); */
#endif
}
#ifdef WIN_ASYNC_IO
/****************************************************************************
Wakes up all async i/o threads in the array in Windows async i/o at
shutdown. */
static
void
os_aio_array_wake_win_aio_at_shutdown(
/*==================================*/
os_aio_array_t* array) /* in: aio array */
{
ulint i;
for (i = 0; i < array->n_slots; i++) {
os_event_set((array->slots + i)->event);
}
}
#endif
/****************************************************************************
Wakes up all async i/o threads so that they know to exit themselves in
shutdown. */
void
os_aio_wake_all_threads_at_shutdown(void)
/*=====================================*/
{
ulint i;
#ifdef WIN_ASYNC_IO
/* This code wakes up all ai/o threads in Windows native aio */
os_aio_array_wake_win_aio_at_shutdown(os_aio_read_array);
os_aio_array_wake_win_aio_at_shutdown(os_aio_write_array);
os_aio_array_wake_win_aio_at_shutdown(os_aio_ibuf_array);
os_aio_array_wake_win_aio_at_shutdown(os_aio_log_array);
#endif
/* This loop wakes up all simulated ai/o threads */
for (i = 0; i < os_aio_n_segments; i++) {
os_event_set(os_aio_segment_wait_events[i]);
}
}
/****************************************************************************
Waits until there are no pending writes in os_aio_write_array. There can
be other, synchronous, pending writes. */
void
os_aio_wait_until_no_pending_writes(void)
/*=====================================*/
{
os_event_wait(os_aio_write_array->is_empty);
}
/**************************************************************************
Calculates segment number for a slot. */
static
ulint
os_aio_get_segment_no_from_slot(
/*============================*/
/* out: segment number (which is the number
used by, for example, i/o-handler threads) */
os_aio_array_t* array, /* in: aio wait array */
os_aio_slot_t* slot) /* in: slot in this array */
{
ulint segment;
ulint seg_len;
if (array == os_aio_ibuf_array) {
segment = 0;
} else if (array == os_aio_log_array) {
segment = 1;
} else if (array == os_aio_read_array) {
seg_len = os_aio_read_array->n_slots /
os_aio_read_array->n_segments;
segment = 2 + slot->pos / seg_len;
} else {
ut_a(array == os_aio_write_array);
seg_len = os_aio_write_array->n_slots /
os_aio_write_array->n_segments;
segment = os_aio_read_array->n_segments + 2
+ slot->pos / seg_len;
}
return(segment);
}
/**************************************************************************
Calculates local segment number and aio array from global segment number. */
static
ulint
os_aio_get_array_and_local_segment(
/*===============================*/
/* out: local segment number within
the aio array */
os_aio_array_t** array, /* out: aio wait array */
ulint global_segment)/* in: global segment number */
{
ulint segment;
ut_a(global_segment < os_aio_n_segments);
if (global_segment == 0) {
*array = os_aio_ibuf_array;
segment = 0;
} else if (global_segment == 1) {
*array = os_aio_log_array;
segment = 0;
} else if (global_segment < os_aio_read_array->n_segments + 2) {
*array = os_aio_read_array;
segment = global_segment - 2;
} else {
*array = os_aio_write_array;
segment = global_segment - (os_aio_read_array->n_segments + 2);
}
return(segment);
}
/***********************************************************************
Gets an integer value designating a specified aio array. This is used
to give numbers to signals in Posix aio. */
#if !defined(WIN_ASYNC_IO) && defined(POSIX_ASYNC_IO)
static
ulint
os_aio_get_array_no(
/*================*/
os_aio_array_t* array) /* in: aio array */
{
if (array == os_aio_ibuf_array) {
return(0);
} else if (array == os_aio_log_array) {
return(1);
} else if (array == os_aio_read_array) {
return(2);
} else if (array == os_aio_write_array) {
return(3);
} else {
ut_error;
return(0);
}
}
/***********************************************************************
Gets the aio array for its number. */
static
os_aio_array_t*
os_aio_get_array_from_no(
/*=====================*/
/* out: aio array */
ulint n) /* in: array number */
{
if (n == 0) {
return(os_aio_ibuf_array);
} else if (n == 1) {
return(os_aio_log_array);
} else if (n == 2) {
return(os_aio_read_array);
} else if (n == 3) {
return(os_aio_write_array);
} else {
ut_error;
return(NULL);
}
}
#endif /* if !defined(WIN_ASYNC_IO) && defined(POSIX_ASYNC_IO) */
/***********************************************************************
Requests for a slot in the aio array. If no slot is available, waits until
not_full-event becomes signaled. */
static
os_aio_slot_t*
os_aio_array_reserve_slot(
/*======================*/
/* out: pointer to slot */
ulint type, /* in: OS_FILE_READ or OS_FILE_WRITE */
os_aio_array_t* array, /* in: aio array */
void* message1,/* in: message to be passed along with
the aio operation */
void* message2,/* in: message to be passed along with
the aio operation */
os_file_t file, /* in: file handle */
char* name, /* in: name of the file or path as a
null-terminated string */
void* buf, /* in: buffer where to read or from which
to write */
ulint offset, /* in: least significant 32 bits of file
offset */
ulint offset_high, /* in: most significant 32 bits of
offset */
ulint len) /* in: length of the block to read or write */
{
os_aio_slot_t* slot;
#ifdef WIN_ASYNC_IO
OVERLAPPED* control;
#elif defined(POSIX_ASYNC_IO)
struct aiocb* control;
#endif
ulint i;
loop:
os_mutex_enter(array->mutex);
if (array->n_reserved == array->n_slots) {
os_mutex_exit(array->mutex);
if (!os_aio_use_native_aio) {
/* If the handler threads are suspended, wake them
so that we get more slots */
os_aio_simulated_wake_handler_threads();
}
os_event_wait(array->not_full);
goto loop;
}
for (i = 0;; i++) {
slot = os_aio_array_get_nth_slot(array, i);
if (slot->reserved == FALSE) {
break;
}
}
array->n_reserved++;
if (array->n_reserved == 1) {
os_event_reset(array->is_empty);
}
if (array->n_reserved == array->n_slots) {
os_event_reset(array->not_full);
}
slot->reserved = TRUE;
slot->reservation_time = time(NULL);
slot->message1 = message1;
slot->message2 = message2;
slot->file = file;
slot->name = name;
slot->len = len;
slot->type = type;
slot->buf = buf;
slot->offset = offset;
slot->offset_high = offset_high;
slot->io_already_done = FALSE;
#ifdef WIN_ASYNC_IO
control = &(slot->control);
control->Offset = (DWORD)offset;
control->OffsetHigh = (DWORD)offset_high;
os_event_reset(slot->event);
#elif defined(POSIX_ASYNC_IO)
#if (UNIV_WORD_SIZE == 8)
offset = offset + (offset_high << 32);
#else
ut_a(offset_high == 0);
#endif
control = &(slot->control);
control->aio_fildes = file;
control->aio_buf = buf;
control->aio_nbytes = len;
control->aio_offset = offset;
control->aio_reqprio = 0;
control->aio_sigevent.sigev_notify = SIGEV_SIGNAL;
control->aio_sigevent.sigev_signo =
SIGRTMIN + 1 + os_aio_get_array_no(array);
/* TODO: How to choose the signal numbers? */
/*
printf("AIO signal number %lu\n", (ulint) control->aio_sigevent.sigev_signo);
*/
control->aio_sigevent.sigev_value.sival_ptr = slot;
#endif
os_mutex_exit(array->mutex);
return(slot);
}
/***********************************************************************
Frees a slot in the aio array. */
static
void
os_aio_array_free_slot(
/*===================*/
os_aio_array_t* array, /* in: aio array */
os_aio_slot_t* slot) /* in: pointer to slot */
{
ut_ad(array);
ut_ad(slot);
os_mutex_enter(array->mutex);
ut_ad(slot->reserved);
slot->reserved = FALSE;
array->n_reserved--;
if (array->n_reserved == array->n_slots - 1) {
os_event_set(array->not_full);
}
if (array->n_reserved == 0) {
os_event_set(array->is_empty);
}
#ifdef WIN_ASYNC_IO
os_event_reset(slot->event);
#endif
os_mutex_exit(array->mutex);
}
/**************************************************************************
Wakes up a simulated aio i/o-handler thread if it has something to do. */
static
void
os_aio_simulated_wake_handler_thread(
/*=================================*/
ulint global_segment) /* in: the number of the segment in the aio
arrays */
{
os_aio_array_t* array;
os_aio_slot_t* slot;
ulint segment;
ulint n;
ulint i;
ut_ad(!os_aio_use_native_aio);
segment = os_aio_get_array_and_local_segment(&array, global_segment);
n = array->n_slots / array->n_segments;
/* Look through n slots after the segment * n'th slot */
os_mutex_enter(array->mutex);
for (i = 0; i < n; i++) {
slot = os_aio_array_get_nth_slot(array, i + segment * n);
if (slot->reserved) {
/* Found an i/o request */
break;
}
}
os_mutex_exit(array->mutex);
if (i < n) {
os_event_set(os_aio_segment_wait_events[global_segment]);
}
}
/**************************************************************************
Wakes up simulated aio i/o-handler threads if they have something to do. */
void
os_aio_simulated_wake_handler_threads(void)
/*=======================================*/
{
ulint i;
if (os_aio_use_native_aio) {
/* We do not use simulated aio: do nothing */
return;
}
os_aio_recommend_sleep_for_read_threads = FALSE;
for (i = 0; i < os_aio_n_segments; i++) {
os_aio_simulated_wake_handler_thread(i);
}
}
/**************************************************************************
This function can be called if one wants to post a batch of reads and
prefers an i/o-handler thread to handle them all at once later. You must
call os_aio_simulated_wake_handler_threads later to ensure the threads
are not left sleeping! */
void
os_aio_simulated_put_read_threads_to_sleep(void)
/*============================================*/
{
os_aio_array_t* array;
ulint g;
os_aio_recommend_sleep_for_read_threads = TRUE;
for (g = 0; g < os_aio_n_segments; g++) {
os_aio_get_array_and_local_segment(&array, g);
if (array == os_aio_read_array) {
os_event_reset(os_aio_segment_wait_events[g]);
}
}
}
/***********************************************************************
Requests an asynchronous i/o operation. */
ibool
os_aio(
/*===*/
/* out: TRUE if request was queued
successfully, FALSE if fail */
ulint type, /* in: OS_FILE_READ or OS_FILE_WRITE */
ulint mode, /* in: OS_AIO_NORMAL, ..., possibly ORed
to OS_AIO_SIMULATED_WAKE_LATER: the
last flag advises this function not to wake
i/o-handler threads, but the caller will
do the waking explicitly later, in this
way the caller can post several requests in
a batch; NOTE that the batch must not be
so big that it exhausts the slots in aio
arrays! NOTE that a simulated batch
may introduce hidden chances of deadlocks,
because i/os are not actually handled until
all have been posted: use with great
caution! */
char* name, /* in: name of the file or path as a
null-terminated string */
os_file_t file, /* in: handle to a file */
void* buf, /* in: buffer where to read or from which
to write */
ulint offset, /* in: least significant 32 bits of file
offset where to read or write */
ulint offset_high, /* in: most significant 32 bits of
offset */
ulint n, /* in: number of bytes to read or write */
void* message1,/* in: messages for the aio handler (these
can be used to identify a completed aio
operation); if mode is OS_AIO_SYNC, these
are ignored */
void* message2)
{
os_aio_array_t* array;
os_aio_slot_t* slot;
#ifdef WIN_ASYNC_IO
ibool retval;
BOOL ret = TRUE;
DWORD len = n;
void* dummy_mess1;
void* dummy_mess2;
ulint dummy_type;
#endif
ulint err = 0;
ibool retry;
ulint wake_later;
ut_ad(file);
ut_ad(buf);
ut_ad(n > 0);
ut_ad(n % OS_FILE_LOG_BLOCK_SIZE == 0);
ut_ad(offset % OS_FILE_LOG_BLOCK_SIZE == 0);
ut_ad(os_aio_validate());
wake_later = mode & OS_AIO_SIMULATED_WAKE_LATER;
mode = mode & (~OS_AIO_SIMULATED_WAKE_LATER);
if (mode == OS_AIO_SYNC
#ifdef WIN_ASYNC_IO
&& !os_aio_use_native_aio
#endif
) {
/* This is actually an ordinary synchronous read or write:
no need to use an i/o-handler thread. NOTE that if we use
Windows async i/o, Windows does not allow us to use
ordinary synchronous os_file_read etc. on the same file,
therefore we have built a special mechanism for synchronous
wait in the Windows case. */
if (type == OS_FILE_READ) {
return(os_file_read(file, buf, offset,
offset_high, n));
}
ut_a(type == OS_FILE_WRITE);
return(os_file_write(name, file, buf, offset, offset_high, n));
}
try_again:
if (mode == OS_AIO_NORMAL) {
if (type == OS_FILE_READ) {
array = os_aio_read_array;
} else {
array = os_aio_write_array;
}
} else if (mode == OS_AIO_IBUF) {
ut_ad(type == OS_FILE_READ);
/* Reduce probability of deadlock bugs in connection with ibuf:
do not let the ibuf i/o handler sleep */
wake_later = FALSE;
array = os_aio_ibuf_array;
} else if (mode == OS_AIO_LOG) {
array = os_aio_log_array;
} else if (mode == OS_AIO_SYNC) {
array = os_aio_sync_array;
} else {
array = NULL; /* Eliminate compiler warning */
ut_error;
}
slot = os_aio_array_reserve_slot(type, array, message1, message2, file,
name, buf, offset, offset_high, n);
if (type == OS_FILE_READ) {
if (os_aio_use_native_aio) {
#ifdef WIN_ASYNC_IO
os_n_file_reads++;
os_bytes_read_since_printout += len;
ret = ReadFile(file, buf, (DWORD)n, &len,
&(slot->control));
#elif defined(POSIX_ASYNC_IO)
slot->control.aio_lio_opcode = LIO_READ;
err = (ulint) aio_read(&(slot->control));
printf("Starting Posix aio read %lu\n", err);
#endif
} else {
if (!wake_later) {
os_aio_simulated_wake_handler_thread(
os_aio_get_segment_no_from_slot(array, slot));
}
}
} else if (type == OS_FILE_WRITE) {
if (os_aio_use_native_aio) {
#ifdef WIN_ASYNC_IO
os_n_file_writes++;
ret = WriteFile(file, buf, (DWORD)n, &len,
&(slot->control));
#elif defined(POSIX_ASYNC_IO)
slot->control.aio_lio_opcode = LIO_WRITE;
err = (ulint) aio_write(&(slot->control));
printf("Starting Posix aio write %lu\n", err);
#endif
} else {
if (!wake_later) {
os_aio_simulated_wake_handler_thread(
os_aio_get_segment_no_from_slot(array, slot));
}
}
} else {
ut_error;
}
#ifdef WIN_ASYNC_IO
if (os_aio_use_native_aio) {
if ((ret && len == n)
|| (!ret && GetLastError() == ERROR_IO_PENDING)) {
/* aio was queued successfully! */
if (mode == OS_AIO_SYNC) {
/* We want a synchronous i/o operation on a file
where we also use async i/o: in Windows we must
use the same wait mechanism as for async i/o */
retval = os_aio_windows_handle(ULINT_UNDEFINED,
slot->pos,
&dummy_mess1, &dummy_mess2,
&dummy_type);
return(retval);
}
return(TRUE);
}
err = 1; /* Fall through the next if */
}
#endif
if (err == 0) {
/* aio was queued successfully! */
return(TRUE);
}
os_aio_array_free_slot(array, slot);
retry = os_file_handle_error(file, name,
type == OS_FILE_READ ? "aio read" : "aio write");
if (retry) {
goto try_again;
}
return(FALSE);
}
#ifdef WIN_ASYNC_IO
/**************************************************************************
This function is only used in Windows asynchronous i/o.
Waits for an aio operation to complete. This function is used to wait the
for completed requests. The aio array of pending requests is divided
into segments. The thread specifies which segment or slot it wants to wait
for. NOTE: this function will also take care of freeing the aio slot,
therefore no other thread is allowed to do the freeing! */
ibool
os_aio_windows_handle(
/*==================*/
/* out: TRUE if the aio operation succeeded */
ulint segment, /* in: the number of the segment in the aio
arrays to wait for; segment 0 is the ibuf
i/o thread, segment 1 the log i/o thread,
then follow the non-ibuf read threads, and as
the last are the non-ibuf write threads; if
this is ULINT_UNDEFINED, then it means that
sync aio is used, and this parameter is
ignored */
ulint pos, /* this parameter is used only in sync aio:
wait for the aio slot at this position */
void** message1, /* out: the messages passed with the aio
request; note that also in the case where
the aio operation failed, these output
parameters are valid and can be used to
restart the operation, for example */
void** message2,
ulint* type) /* out: OS_FILE_WRITE or ..._READ */
{
ulint orig_seg = segment;
os_aio_array_t* array;
os_aio_slot_t* slot;
ulint n;
ulint i;
ibool ret_val;
BOOL ret;
DWORD len;
if (segment == ULINT_UNDEFINED) {
array = os_aio_sync_array;
segment = 0;
} else {
segment = os_aio_get_array_and_local_segment(&array, segment);
}
/* NOTE! We only access constant fields in os_aio_array. Therefore
we do not have to acquire the protecting mutex yet */
ut_ad(os_aio_validate());
ut_ad(segment < array->n_segments);
n = array->n_slots / array->n_segments;
if (array == os_aio_sync_array) {
srv_io_thread_op_info[orig_seg] =
"wait Windows aio for 1 page";
os_event_wait(os_aio_array_get_nth_slot(array, pos)->event);
i = pos;
} else {
srv_io_thread_op_info[orig_seg] =
"wait Windows aio";
i = os_event_wait_multiple(n,
(array->native_events) + segment * n);
}
os_mutex_enter(array->mutex);
slot = os_aio_array_get_nth_slot(array, i + segment * n);
ut_a(slot->reserved);
srv_io_thread_op_info[orig_seg] = "get windows aio return value";
ret = GetOverlappedResult(slot->file, &(slot->control), &len, TRUE);
*message1 = slot->message1;
*message2 = slot->message2;
*type = slot->type;
if (ret && len == slot->len) {
ret_val = TRUE;
if (slot->type == OS_FILE_WRITE
&& !os_do_not_call_flush_at_each_write) {
ut_a(TRUE == os_file_flush(slot->file));
}
} else {
os_file_handle_error(slot->file, slot->name, "Windows aio");
ret_val = FALSE;
}
os_mutex_exit(array->mutex);
os_aio_array_free_slot(array, slot);
return(ret_val);
}
#endif
#ifdef POSIX_ASYNC_IO
/**************************************************************************
This function is only used in Posix asynchronous i/o. Waits for an aio
operation to complete. */
ibool
os_aio_posix_handle(
/*================*/
/* out: TRUE if the aio operation succeeded */
ulint array_no, /* in: array number 0 - 3 */
void** message1, /* out: the messages passed with the aio
request; note that also in the case where
the aio operation failed, these output
parameters are valid and can be used to
restart the operation, for example */
void** message2)
{
os_aio_array_t* array;
os_aio_slot_t* slot;
siginfo_t info;
sigset_t sigset;
sigset_t proc_sigset;
sigset_t thr_sigset;
int ret;
int i;
int sig;
sigemptyset(&sigset);
sigaddset(&sigset, SIGRTMIN + 1 + array_no);
pthread_sigmask(SIG_UNBLOCK, &sigset, NULL);
/*
sigprocmask(0, NULL, &proc_sigset);
pthread_sigmask(0, NULL, &thr_sigset);
for (i = 32 ; i < 40; i++) {
printf("%lu : %lu %lu\n", (ulint)i,
(ulint)sigismember(&proc_sigset, i),
(ulint)sigismember(&thr_sigset, i));
}
*/
ret = sigwaitinfo(&sigset, &info);
if (sig != SIGRTMIN + 1 + array_no) {
ut_error;
return(FALSE);
}
printf("Handling Posix aio\n");
array = os_aio_get_array_from_no(array_no);
os_mutex_enter(array->mutex);
slot = info.si_value.sival_ptr;
ut_a(slot->reserved);
*message1 = slot->message1;
*message2 = slot->message2;
if (slot->type == OS_FILE_WRITE
&& !os_do_not_call_flush_at_each_write) {
ut_a(TRUE == os_file_flush(slot->file));
}
os_mutex_exit(array->mutex);
os_aio_array_free_slot(array, slot);
return(TRUE);
}
#endif
/**************************************************************************
Does simulated aio. This function should be called by an i/o-handler
thread. */
ibool
os_aio_simulated_handle(
/*====================*/
/* out: TRUE if the aio operation succeeded */
ulint global_segment, /* in: the number of the segment in the aio
arrays to wait for; segment 0 is the ibuf
i/o thread, segment 1 the log i/o thread,
then follow the non-ibuf read threads, and as
the last are the non-ibuf write threads */
void** message1, /* out: the messages passed with the aio
request; note that also in the case where
the aio operation failed, these output
parameters are valid and can be used to
restart the operation, for example */
void** message2,
ulint* type) /* out: OS_FILE_WRITE or ..._READ */
{
os_aio_array_t* array;
ulint segment;
os_aio_slot_t* slot;
os_aio_slot_t* slot2;
os_aio_slot_t* consecutive_ios[OS_AIO_MERGE_N_CONSECUTIVE];
ulint n_consecutive;
ulint total_len;
ulint offs;
ulint lowest_offset;
ulint biggest_age;
ulint age;
byte* combined_buf;
byte* combined_buf2;
ibool ret;
ulint n;
ulint i;
ulint len2;
segment = os_aio_get_array_and_local_segment(&array, global_segment);
restart:
/* NOTE! We only access constant fields in os_aio_array. Therefore
we do not have to acquire the protecting mutex yet */
ut_ad(os_aio_validate());
ut_ad(segment < array->n_segments);
n = array->n_slots / array->n_segments;
/* Look through n slots after the segment * n'th slot */
if (array == os_aio_read_array
&& os_aio_recommend_sleep_for_read_threads) {
/* Give other threads chance to add several i/os to the array
at once. */
goto recommended_sleep;
}
os_mutex_enter(array->mutex);
/* Check if there is a slot for which the i/o has already been
done */
for (i = 0; i < n; i++) {
slot = os_aio_array_get_nth_slot(array, i + segment * n);
if (slot->reserved && slot->io_already_done) {
if (os_aio_print_debug) {
fprintf(stderr,
"InnoDB: i/o for slot %lu already done, returning\n", (ulong) i);
}
ret = TRUE;
goto slot_io_done;
}
}
n_consecutive = 0;
/* If there are at least 2 seconds old requests, then pick the oldest
one to prevent starvation. If several requests have the same age,
then pick the one at the lowest offset. */
biggest_age = 0;
lowest_offset = ULINT_MAX;
for (i = 0; i < n; i++) {
slot = os_aio_array_get_nth_slot(array, i + segment * n);
if (slot->reserved) {
age = (ulint)difftime(time(NULL),
slot->reservation_time);
if ((age >= 2 && age > biggest_age)
|| (age >= 2 && age == biggest_age
&& slot->offset < lowest_offset)) {
/* Found an i/o request */
consecutive_ios[0] = slot;
n_consecutive = 1;
biggest_age = age;
lowest_offset = slot->offset;
}
}
}
if (n_consecutive == 0) {
/* There were no old requests. Look for an i/o request at the
lowest offset in the array (we ignore the high 32 bits of the
offset in these heuristics) */
lowest_offset = ULINT_MAX;
for (i = 0; i < n; i++) {
slot = os_aio_array_get_nth_slot(array,
i + segment * n);
if (slot->reserved && slot->offset < lowest_offset) {
/* Found an i/o request */
consecutive_ios[0] = slot;
n_consecutive = 1;
lowest_offset = slot->offset;
}
}
}
if (n_consecutive == 0) {
/* No i/o requested at the moment */
goto wait_for_io;
}
slot = consecutive_ios[0];
/* Check if there are several consecutive blocks to read or write */
consecutive_loop:
for (i = 0; i < n; i++) {
slot2 = os_aio_array_get_nth_slot(array, i + segment * n);
if (slot2->reserved && slot2 != slot
&& slot2->offset == slot->offset + slot->len
&& slot->offset + slot->len > slot->offset /* check that
sum does not wrap over */
&& slot2->offset_high == slot->offset_high
&& slot2->type == slot->type
&& slot2->file == slot->file) {
/* Found a consecutive i/o request */
consecutive_ios[n_consecutive] = slot2;
n_consecutive++;
slot = slot2;
if (n_consecutive < OS_AIO_MERGE_N_CONSECUTIVE) {
goto consecutive_loop;
} else {
break;
}
}
}
/* We have now collected n_consecutive i/o requests in the array;
allocate a single buffer which can hold all data, and perform the
i/o */
total_len = 0;
slot = consecutive_ios[0];
for (i = 0; i < n_consecutive; i++) {
total_len += consecutive_ios[i]->len;
}
if (n_consecutive == 1) {
/* We can use the buffer of the i/o request */
combined_buf = slot->buf;
} else {
combined_buf2 = ut_malloc(total_len + UNIV_PAGE_SIZE);
ut_a(combined_buf2);
combined_buf = ut_align(combined_buf2, UNIV_PAGE_SIZE);
}
/* We release the array mutex for the time of the i/o: NOTE that
this assumes that there is just one i/o-handler thread serving
a single segment of slots! */
os_mutex_exit(array->mutex);
if (slot->type == OS_FILE_WRITE && n_consecutive > 1) {
/* Copy the buffers to the combined buffer */
offs = 0;
for (i = 0; i < n_consecutive; i++) {
ut_memcpy(combined_buf + offs, consecutive_ios[i]->buf,
consecutive_ios[i]->len);
offs += consecutive_ios[i]->len;
}
}
srv_io_thread_op_info[global_segment] = (char*) "doing file i/o";
if (os_aio_print_debug) {
fprintf(stderr,
"InnoDB: doing i/o of type %lu at offset %lu %lu, length %lu\n",
(ulong) slot->type, (ulong) slot->offset_high,
(ulong) slot->offset, (ulong) total_len);
}
/* Do the i/o with ordinary, synchronous i/o functions: */
if (slot->type == OS_FILE_WRITE) {
if (array == os_aio_write_array) {
if ((total_len % UNIV_PAGE_SIZE != 0)
|| (slot->offset % UNIV_PAGE_SIZE != 0)) {
fprintf(stderr,
"InnoDB: Error: trying a displaced write to %s %lu %lu, len %lu\n",
slot->name, (ulong) slot->offset_high,
(ulong) slot->offset,
(ulong) total_len);
ut_error;
}
/* Do a 'last millisecond' check that the page end
is sensible; reported page checksum errors from
Linux seem to wipe over the page end */
for (len2 = 0; len2 + UNIV_PAGE_SIZE <= total_len;
len2 += UNIV_PAGE_SIZE) {
if (mach_read_from_4(combined_buf + len2
+ FIL_PAGE_LSN + 4)
!= mach_read_from_4(combined_buf + len2
+ UNIV_PAGE_SIZE
- FIL_PAGE_END_LSN_OLD_CHKSUM + 4)) {
ut_print_timestamp(stderr);
fprintf(stderr,
" InnoDB: ERROR: The page to be written seems corrupt!\n");
buf_page_print(combined_buf + len2);
fprintf(stderr,
"InnoDB: ERROR: The page to be written seems corrupt!\n");
}
}
}
ret = os_file_write(slot->name, slot->file, combined_buf,
slot->offset, slot->offset_high, total_len);
} else {
ret = os_file_read(slot->file, combined_buf,
slot->offset, slot->offset_high, total_len);
}
ut_a(ret);
srv_io_thread_op_info[global_segment] = (char*) "file i/o done";
/* printf("aio: %lu consecutive %lu:th segment, first offs %lu blocks\n",
n_consecutive, global_segment, slot->offset
/ UNIV_PAGE_SIZE); */
if (slot->type == OS_FILE_READ && n_consecutive > 1) {
/* Copy the combined buffer to individual buffers */
offs = 0;
for (i = 0; i < n_consecutive; i++) {
ut_memcpy(consecutive_ios[i]->buf, combined_buf + offs,
consecutive_ios[i]->len);
offs += consecutive_ios[i]->len;
}
}
if (n_consecutive > 1) {
ut_free(combined_buf2);
}
os_mutex_enter(array->mutex);
/* Mark the i/os done in slots */
for (i = 0; i < n_consecutive; i++) {
consecutive_ios[i]->io_already_done = TRUE;
}
/* We return the messages for the first slot now, and if there were
several slots, the messages will be returned with subsequent calls
of this function */
slot_io_done:
ut_a(slot->reserved);
*message1 = slot->message1;
*message2 = slot->message2;
*type = slot->type;
os_mutex_exit(array->mutex);
os_aio_array_free_slot(array, slot);
return(ret);
wait_for_io:
/* We wait here until there again can be i/os in the segment
of this thread */
os_event_reset(os_aio_segment_wait_events[global_segment]);
os_mutex_exit(array->mutex);
recommended_sleep:
srv_io_thread_op_info[global_segment] =
(char*)"waiting for i/o request";
os_event_wait(os_aio_segment_wait_events[global_segment]);
if (os_aio_print_debug) {
fprintf(stderr,
"InnoDB: i/o handler thread for i/o segment %lu wakes up\n",
(ulong) global_segment);
}
goto restart;
}
/**************************************************************************
Validates the consistency of an aio array. */
static
ibool
os_aio_array_validate(
/*==================*/
/* out: TRUE if ok */
os_aio_array_t* array) /* in: aio wait array */
{
os_aio_slot_t* slot;
ulint n_reserved = 0;
ulint i;
ut_a(array);
os_mutex_enter(array->mutex);
ut_a(array->n_slots > 0);
ut_a(array->n_segments > 0);
for (i = 0; i < array->n_slots; i++) {
slot = os_aio_array_get_nth_slot(array, i);
if (slot->reserved) {
n_reserved++;
ut_a(slot->len > 0);
}
}
ut_a(array->n_reserved == n_reserved);
os_mutex_exit(array->mutex);
return(TRUE);
}
/**************************************************************************
Validates the consistency the aio system. */
ibool
os_aio_validate(void)
/*=================*/
/* out: TRUE if ok */
{
os_aio_array_validate(os_aio_read_array);
os_aio_array_validate(os_aio_write_array);
os_aio_array_validate(os_aio_ibuf_array);
os_aio_array_validate(os_aio_log_array);
os_aio_array_validate(os_aio_sync_array);
return(TRUE);
}
/**************************************************************************
Prints info of the aio arrays. */
void
os_aio_print(
/*=========*/
char* buf, /* in/out: buffer where to print */
char* buf_end)/* in: buffer end */
{
os_aio_array_t* array;
os_aio_slot_t* slot;
ulint n_reserved;
time_t current_time;
double time_elapsed;
double avg_bytes_read;
ulint i;
if (buf_end - buf < 1200) {
return;
}
for (i = 0; i < srv_n_file_io_threads; i++) {
buf += sprintf(buf, "I/O thread %lu state: %s (%s)\n",
(ulong) i,
srv_io_thread_op_info[i],
srv_io_thread_function[i]);
}
buf += sprintf(buf, "Pending normal aio reads:");
array = os_aio_read_array;
loop:
ut_a(array);
os_mutex_enter(array->mutex);
ut_a(array->n_slots > 0);
ut_a(array->n_segments > 0);
n_reserved = 0;
for (i = 0; i < array->n_slots; i++) {
slot = os_aio_array_get_nth_slot(array, i);
if (slot->reserved) {
n_reserved++;
/* printf("Reserved slot, messages %lx %lx\n",
(ulint)slot->message1,
(ulint)slot->message2);
*/ ut_a(slot->len > 0);
}
}
ut_a(array->n_reserved == n_reserved);
buf += sprintf(buf, " %lu", (ulong) n_reserved);
os_mutex_exit(array->mutex);
if (array == os_aio_read_array) {
buf += sprintf(buf, ", aio writes:");
array = os_aio_write_array;
goto loop;
}
if (array == os_aio_write_array) {
buf += sprintf(buf, ",\n ibuf aio reads:");
array = os_aio_ibuf_array;
goto loop;
}
if (array == os_aio_ibuf_array) {
buf += sprintf(buf, ", log i/o's:");
array = os_aio_log_array;
goto loop;
}
if (array == os_aio_log_array) {
buf += sprintf(buf, ", sync i/o's:");
array = os_aio_sync_array;
goto loop;
}
buf += sprintf(buf, "\n");
current_time = time(NULL);
time_elapsed = 0.001 + difftime(current_time, os_last_printout);
buf += sprintf(buf,
"Pending flushes (fsync) log: %lu; buffer pool: %lu\n",
(ulong) fil_n_pending_log_flushes,
(ulong) fil_n_pending_tablespace_flushes);
buf += sprintf(buf,
"%lu OS file reads, %lu OS file writes, %lu OS fsyncs\n",
(ulong) os_n_file_reads, (ulong) os_n_file_writes,
(ulong) os_n_fsyncs);
if (os_file_n_pending_preads != 0 || os_file_n_pending_pwrites != 0) {
buf += sprintf(buf,
"%lu pending preads, %lu pending pwrites\n",
(ulong) os_file_n_pending_preads,
(ulong) os_file_n_pending_pwrites);
}
if (os_n_file_reads == os_n_file_reads_old) {
avg_bytes_read = 0.0;
} else {
avg_bytes_read = os_bytes_read_since_printout /
(os_n_file_reads - os_n_file_reads_old);
}
buf += sprintf(buf,
"%.2f reads/s, %lu avg bytes/read, %.2f writes/s, %.2f fsyncs/s\n",
(os_n_file_reads - os_n_file_reads_old)
/ time_elapsed,
(ulong)avg_bytes_read,
(os_n_file_writes - os_n_file_writes_old)
/ time_elapsed,
(os_n_fsyncs - os_n_fsyncs_old)
/ time_elapsed);
os_n_file_reads_old = os_n_file_reads;
os_n_file_writes_old = os_n_file_writes;
os_n_fsyncs_old = os_n_fsyncs;
os_bytes_read_since_printout = 0;
os_last_printout = current_time;
}
/**************************************************************************
Refreshes the statistics used to print per-second averages. */
void
os_aio_refresh_stats(void)
/*======================*/
{
os_n_file_reads_old = os_n_file_reads;
os_n_file_writes_old = os_n_file_writes;
os_n_fsyncs_old = os_n_fsyncs;
os_bytes_read_since_printout = 0;
os_last_printout = time(NULL);
}
/**************************************************************************
Checks that all slots in the system have been freed, that is, there are
no pending io operations. */
ibool
os_aio_all_slots_free(void)
/*=======================*/
/* out: TRUE if all free */
{
os_aio_array_t* array;
ulint n_res = 0;
array = os_aio_read_array;
os_mutex_enter(array->mutex);
n_res += array->n_reserved;
os_mutex_exit(array->mutex);
array = os_aio_write_array;
os_mutex_enter(array->mutex);
n_res += array->n_reserved;
os_mutex_exit(array->mutex);
array = os_aio_ibuf_array;
os_mutex_enter(array->mutex);
n_res += array->n_reserved;
os_mutex_exit(array->mutex);
array = os_aio_log_array;
os_mutex_enter(array->mutex);
n_res += array->n_reserved;
os_mutex_exit(array->mutex);
array = os_aio_sync_array;
os_mutex_enter(array->mutex);
n_res += array->n_reserved;
os_mutex_exit(array->mutex);
if (n_res == 0) {
return(TRUE);
}
return(FALSE);
}
|