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편집 파일: my_sys.h

/* Copyright (c) 2000, 2013, Oracle and/or its affiliates. Copyright (c) 2010, 2022, MariaDB Corporation. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1335 USA */ #ifndef _my_sys_h #define _my_sys_h #include <m_string.h> #include <mysql/psi/mysql_memory.h> C_MODE_START #include <my_valgrind.h> #include <my_pthread.h> #include <m_ctype.h> /* for CHARSET_INFO */ #include <stdarg.h> #include <typelib.h> #include <my_alloca.h> #include <mysql/plugin.h> #include <mysql/service_my_print_error.h> #define MY_INIT(name) { my_progname= name; my_init(); } /** Max length of an error message generated by mysys utilities. Some mysys functions produce error messages. These mostly go to stderr. This constant defines the size of the buffer used to format the message. It should be kept in sync with MYSQL_ERRMSG_SIZE, since sometimes mysys errors are stored in the server diagnostics area, and we would like to avoid unexpected truncation. */ #define MYSYS_ERRMSG_SIZE (512) #define MYSYS_STRERROR_SIZE (128) #define MY_FILE_ERROR ((size_t) -1) /* General bitmaps for my_func's */ #define MY_FFNF 1U /* Fatal if file not found */ #define MY_FNABP 2U /* Fatal if not all bytes read/written */ #define MY_NABP 4U /* Error if not all bytes read/written */ #define MY_FAE 8U /* Fatal if any error */ #define MY_WME 16U /* Write message on error */ #define MY_WAIT_IF_FULL 32U /* Wait and try again if disk full error */ #define MY_IGNORE_BADFD 32U /* my_sync(): ignore 'bad descriptor' errors */ #define MY_IGNORE_ENOENT 32U /* my_delete() ignores ENOENT (no such file) */ #define MY_ENCRYPT 64U /* Encrypt IO_CACHE temporary files */ #define MY_TEMPORARY 64U /* create_temp_file(): delete file at once */ #define MY_NOSYMLINKS 512U /* my_open(): don't follow symlinks */ #define MY_FULL_IO 512U /* my_read(): loop until I/O is complete */ #define MY_DONT_CHECK_FILESIZE 128U /* Option to init_io_cache() */ #define MY_LINK_WARNING 32U /* my_redel() gives warning if links */ #define MY_COPYTIME 64U /* my_redel() copies time */ #define MY_DELETE_OLD 256U /* my_create_with_symlink() */ #define MY_RESOLVE_LINK 128U /* my_realpath(); Only resolve links */ #define MY_HOLD_ORIGINAL_MODES 128U /* my_copy() holds to file modes */ #define MY_REDEL_MAKE_BACKUP 256U #define MY_SEEK_NOT_DONE 32U /* my_lock may have to do a seek */ #define MY_SHORT_WAIT 64U /* my_lock() don't wait if can't lock */ #define MY_FORCE_LOCK 128U /* use my_lock() even if disable_locking */ #define MY_NO_WAIT 256U /* my_lock() don't wait at all */ #define MY_NO_REGISTER 8196U /* my_open(), no malloc for file name */ /* If old_mode is UTF8_IS_UTF8MB3, then pass this flag. It mean utf8 is alias for utf8mb3. Otherwise utf8 is alias for utf8mb4. */ #define MY_UTF8_IS_UTF8MB3 1024U /* init_dynamic_array() has init buffer; Internal flag, not to be used by caller. */ #define MY_INIT_BUFFER_USED 256U #define MY_ZEROFILL 32U /* my_malloc(), fill array with zero */ #define MY_ALLOW_ZERO_PTR 64U /* my_realloc() ; zero ptr -> malloc */ #define MY_FREE_ON_ERROR 128U /* my_realloc() ; Free old ptr on error */ #define MY_DONT_OVERWRITE_FILE 2048U /* my_copy: Don't overwrite file */ #define MY_THREADSAFE 2048U /* my_seek(): lock fd mutex */ #define MY_SYNC 4096U /* my_copy(): sync dst file */ #define MY_SYNC_DIR 32768U /* my_create/delete/rename: sync directory */ #define MY_THREAD_SPECIFIC 0x10000U /* my_malloc(): thread specific */ /* Tree that should delete things automatically */ #define MY_TREE_WITH_DELETE 0x40000U #define MY_CHECK_ERROR 1U /* Params to my_end; Check open-close */ #define MY_GIVE_INFO 2U /* Give time info about process*/ #define MY_DONT_FREE_DBUG 4U /* Do not call DBUG_END() in my_end() */ #define ME_BELL 4U /* Ring bell then printing message */ #define ME_ERROR_LOG 64 /**< write the error message to error log */ #define ME_ERROR_LOG_ONLY 128 /**< write the error message to error log only */ #define ME_NOTE 1024 /**< not error but just info */ #define ME_WARNING 2048 /**< not error but just warning */ #define ME_FATAL 4096 /**< fatal statement error */ /* Bits in last argument to fn_format */ #define MY_REPLACE_DIR 1U /* replace dir in name with 'dir' */ #define MY_REPLACE_EXT 2U /* replace extension with 'ext' */ #define MY_UNPACK_FILENAME 4U /* Unpack name (~ -> home) */ #define MY_PACK_FILENAME 8U /* Pack name (home -> ~) */ #define MY_RESOLVE_SYMLINKS 16U /* Resolve all symbolic links */ #define MY_RETURN_REAL_PATH 32U /* return full path for file */ #define MY_SAFE_PATH 64U /* Return NULL if too long path */ #define MY_RELATIVE_PATH 128U /* name is relative to 'dir' */ #define MY_APPEND_EXT 256U /* add 'ext' as additional extension*/ /* My seek flags */ #define MY_SEEK_SET 0 #define MY_SEEK_CUR 1 #define MY_SEEK_END 2 /* Some constants */ #define MY_WAIT_FOR_USER_TO_FIX_PANIC 60 /* in seconds */ #define MY_WAIT_GIVE_USER_A_MESSAGE 10 /* Every 10 times of prev */ #define MIN_COMPRESS_LENGTH 50 /* Don't compress small bl. */ #define DFLT_INIT_HITS 3 /* root_alloc flags */ #define MY_KEEP_PREALLOC 1U #define MY_MARK_BLOCKS_FREE 2U /* move used to free list and reuse them */ /* Internal error numbers (for assembler functions) */ #define MY_ERRNO_EDOM 33 #define MY_ERRNO_ERANGE 34 /* Bits for get_date timeflag */ #define GETDATE_DATE_TIME 1U #define GETDATE_SHORT_DATE 2U #define GETDATE_HHMMSSTIME 4U #define GETDATE_GMT 8U #define GETDATE_FIXEDLENGTH 16U /* Extra length needed for filename if one calls my_create_backup_name */ #define MY_BACKUP_NAME_EXTRA_LENGTH 17 char *guess_malloc_library(); /* If we have our own safemalloc (for debugging) */ #if defined(SAFEMALLOC) void sf_report_leaked_memory(my_thread_id id); int sf_sanity(); extern my_thread_id (*sf_malloc_dbug_id)(void); #define SAFEMALLOC_REPORT_MEMORY(X) if (!sf_leaking_memory) sf_report_leaked_memory(X) #else #define SAFEMALLOC_REPORT_MEMORY(X) do {} while(0) #endif typedef void (*MALLOC_SIZE_CB) (long long size, my_bool is_thread_specific); extern void set_malloc_size_cb(MALLOC_SIZE_CB func); extern MALLOC_SIZE_CB update_malloc_size; /* defines when allocating data */ extern void *my_malloc(PSI_memory_key key, size_t size, myf MyFlags); extern void *my_multi_malloc(PSI_memory_key key, myf MyFlags, ...); extern void *my_multi_malloc_large(PSI_memory_key key, myf MyFlags, ...); extern void *my_realloc(PSI_memory_key key, void *ptr, size_t size, myf MyFlags); extern void my_free(void *ptr); extern void *my_memdup(PSI_memory_key key, const void *from,size_t length,myf MyFlags); extern char *my_strdup(PSI_memory_key key, const char *from,myf MyFlags); extern char *my_strndup(PSI_memory_key key, const char *from, size_t length, myf MyFlags); int my_init_large_pages(my_bool super_large_pages); uchar *my_large_malloc(size_t *size, myf my_flags); void my_large_free(void *ptr, size_t size); #ifdef _WIN32 extern BOOL my_obtain_privilege(LPCSTR lpPrivilege); #endif void my_init_atomic_write(void); #ifdef __linux__ my_bool my_test_if_atomic_write(File handle, int pagesize); my_bool my_test_if_thinly_provisioned(File handle); #else # define my_test_if_atomic_write(A, B) 0 # define my_test_if_thinly_provisioned(A) 0 #endif /* __linux__ */ extern my_bool my_may_have_atomic_write; #if defined(HAVE_ALLOCA) && !defined(HAVE_valgrind) #define my_alloca(SZ) alloca((size_t) (SZ)) #define my_afree(PTR) ((void)0) #define MAX_ALLOCA_SZ 4096 #define my_safe_alloca(size) (((size) <= MAX_ALLOCA_SZ) ? \ my_alloca(size) : \ my_malloc(PSI_NOT_INSTRUMENTED, (size), MYF(MY_THREAD_SPECIFIC|MY_WME))) #define my_safe_afree(ptr, size) \ do { if ((size) > MAX_ALLOCA_SZ) my_free(ptr); } while(0) #else #define my_alloca(SZ) my_malloc(PSI_NOT_INSTRUMENTED, SZ,MYF(MY_FAE)) #define my_afree(PTR) my_free(PTR) #define my_safe_alloca(size) my_alloca(size) #define my_safe_afree(ptr, size) my_afree(ptr) #endif /* HAVE_ALLOCA */ #ifndef errno /* did we already get it? */ #ifdef HAVE_ERRNO_AS_DEFINE #include <errno.h> /* errno is a define */ #else extern int errno; /* declare errno */ #endif #endif /* #ifndef errno */ extern char *home_dir; /* Home directory for user */ extern MYSQL_PLUGIN_IMPORT char *mysql_data_home; extern const char *my_progname; /* program-name (printed in errors) */ extern const char *my_progname_short; /* like above but without directory */ extern char curr_dir[]; /* Current directory for user */ extern void (*error_handler_hook)(uint my_err, const char *str,myf MyFlags); extern void (*fatal_error_handler_hook)(uint my_err, const char *str, myf MyFlags); extern uint my_file_limit; extern ulonglong my_thread_stack_size; extern int sf_leaking_memory; /* set to 1 to disable memleak detection */ extern void (*proc_info_hook)(void *, const PSI_stage_info *, PSI_stage_info *, const char *, const char *, const unsigned int); /* charsets */ #define MY_ALL_CHARSETS_SIZE 2048 extern MYSQL_PLUGIN_IMPORT CHARSET_INFO *default_charset_info; extern MYSQL_PLUGIN_IMPORT CHARSET_INFO *all_charsets[MY_ALL_CHARSETS_SIZE]; extern struct charset_info_st compiled_charsets[]; /* Collation properties and use statistics */ extern my_bool my_collation_is_known_id(uint id); extern ulonglong my_collation_statistics_get_use_count(uint id); extern const char *my_collation_get_tailoring(uint id); /* statistics */ extern ulong my_stream_opened, my_tmp_file_created; extern ulong my_file_total_opened; extern ulong my_sync_count; extern uint mysys_usage_id; extern int32 my_file_opened; extern my_bool my_init_done, my_thr_key_mysys_exists; extern my_bool my_assert; extern my_bool my_assert_on_error; extern myf my_global_flags; /* Set to MY_WME for more error messages */ /* Point to current my_message() */ extern void (*my_sigtstp_cleanup)(void), /* Executed before jump to shell */ (*my_sigtstp_restart)(void); /* Executed when coming from shell */ extern MYSQL_PLUGIN_IMPORT int my_umask; /* Default creation mask */ extern int my_umask_dir, my_recived_signals, /* Signals we have got */ my_safe_to_handle_signal, /* Set when allowed to SIGTSTP */ my_dont_interrupt; /* call remember_intr when set */ #ifdef _WIN32 extern SECURITY_ATTRIBUTES my_dir_security_attributes; LPSECURITY_ATTRIBUTES my_win_file_secattr(); #endif extern MYSQL_PLUGIN_IMPORT my_bool my_use_symdir; extern ulong my_default_record_cache_size; extern MYSQL_PLUGIN_IMPORT my_bool my_disable_locking; extern my_bool my_disable_async_io, my_disable_flush_key_blocks, my_disable_symlinks; extern my_bool my_disable_sync, my_disable_copystat_in_redel; extern char wild_many,wild_one,wild_prefix; extern const char *charsets_dir; enum cache_type { TYPE_NOT_SET= 0, READ_CACHE, WRITE_CACHE, SEQ_READ_APPEND /* sequential read or append */, READ_FIFO, READ_NET}; enum flush_type { FLUSH_KEEP, /* flush block and keep it in the cache */ FLUSH_RELEASE, /* flush block and remove it from the cache */ FLUSH_IGNORE_CHANGED, /* remove block from the cache */ /* As my_disable_flush_pagecache_blocks is always 0, the following option is strictly equivalent to FLUSH_KEEP */ FLUSH_FORCE_WRITE, /** @brief like FLUSH_KEEP but return immediately if file is already being flushed (even partially) by another thread; only for page cache, forbidden for key cache. */ FLUSH_KEEP_LAZY }; typedef struct st_record_cache /* Used when caching records */ { File file; int rc_seek,error,inited; uint rc_length,read_length,reclength; my_off_t rc_record_pos,end_of_file; uchar *rc_buff,*rc_buff2,*rc_pos,*rc_end,*rc_request_pos; enum cache_type type; } RECORD_CACHE; enum file_type { UNOPEN = 0, FILE_BY_OPEN, FILE_BY_CREATE, STREAM_BY_FOPEN, STREAM_BY_FDOPEN, FILE_BY_O_TMPFILE, FILE_BY_MKSTEMP, FILE_BY_DUP }; struct st_my_file_info { char *name; #ifdef _WIN32 HANDLE fhandle; /* win32 file handle */ int oflag; /* open flags, e.g O_APPEND */ #endif enum file_type type; }; extern struct st_my_file_info *my_file_info; /* Free function pointer */ typedef void (*FREE_FUNC)(void *); typedef struct st_dynamic_array { uchar *buffer; uint elements,max_element; uint alloc_increment; uint size_of_element; PSI_memory_key m_psi_key; myf malloc_flags; } DYNAMIC_ARRAY; typedef struct st_my_tmpdir { DYNAMIC_ARRAY full_list; char **list; uint cur, max; mysql_mutex_t mutex; } MY_TMPDIR; typedef struct st_dynamic_string { char *str; size_t length,max_length,alloc_increment; } DYNAMIC_STRING; struct st_io_cache; typedef struct st_io_cache_share { mysql_mutex_t mutex; /* To sync on reads into buffer. */ mysql_cond_t cond; /* To wait for signals. */ mysql_cond_t cond_writer; /* For a synchronized writer. */ /* Offset in file corresponding to the first byte of buffer. */ my_off_t pos_in_file; /* If a synchronized write cache is the source of the data. */ struct st_io_cache *source_cache; uchar *buffer; /* The read buffer. */ uchar *read_end; /* Behind last valid byte of buffer. */ int running_threads; /* threads not in lock. */ int total_threads; /* threads sharing the cache. */ int error; /* Last error. */ #ifdef NOT_YET_IMPLEMENTED /* whether the structure should be free'd */ my_bool alloced; #endif } IO_CACHE_SHARE; typedef struct st_io_cache /* Used when caching files */ { /* Offset in file corresponding to the first byte of uchar* buffer. */ my_off_t pos_in_file; /* The offset of end of file for READ_CACHE and WRITE_CACHE. For SEQ_READ_APPEND it the maximum of the actual end of file and the position represented by read_end. */ my_off_t end_of_file; /* Points to current read position in the buffer */ uchar *read_pos; /* the non-inclusive boundary in the buffer for the currently valid read */ uchar *read_end; uchar *buffer; /* The read buffer */ /* Used in ASYNC_IO */ uchar *request_pos; /* Only used in WRITE caches and in SEQ_READ_APPEND to buffer writes */ uchar *write_buffer; /* Only used in SEQ_READ_APPEND, and points to the current read position in the write buffer. Note that reads in SEQ_READ_APPEND caches can happen from both read buffer (uchar* buffer) and write buffer (uchar* write_buffer). */ uchar *append_read_pos; /* Points to current write position in the write buffer */ uchar *write_pos; /* The non-inclusive boundary of the valid write area */ uchar *write_end; /* The lock is for append buffer used in SEQ_READ_APPEND cache need mutex copying from append buffer to read buffer. */ mysql_mutex_t append_buffer_lock; /* The following is used when several threads are reading the same file in parallel. They are synchronized on disk accesses reading the cached part of the file asynchronously. It should be set to NULL to disable the feature. Only READ_CACHE mode is supported. */ IO_CACHE_SHARE *share; /* A caller will use my_b_read() macro to read from the cache if the data is already in cache, it will be simply copied with memcpy() and internal variables will be accordingly updated with no functions invoked. However, if the data is not fully in the cache, my_b_read() will call read_function to fetch the data. read_function must never be invoked directly. */ int (*read_function)(struct st_io_cache *,uchar *,size_t); /* Same idea as in the case of read_function, except my_b_write() needs to be replaced with my_b_append() for a SEQ_READ_APPEND cache */ int (*write_function)(struct st_io_cache *,const uchar *,size_t); /* Specifies the type of the cache. Depending on the type of the cache certain operations might not be available and yield unpredicatable results. Details to be documented later */ enum cache_type type; /* Counts the number of times, when we were forced to use disk. We use it to increase the binlog_cache_disk_use and binlog_stmt_cache_disk_use status variables. */ ulong disk_writes; char *file_name; /* if used with 'open_cached_file' */ const char *dir; char prefix[3]; File file; /* file descriptor */ struct st_io_cache *next_file_user; /* seek_not_done is set by my_b_seek() to inform the upcoming read/write operation that a seek needs to be preformed prior to the actual I/O error is 0 if the cache operation was successful, -1 if there was a "hard" error, and the actual number of I/O-ed bytes if the read/write was partial. */ int seek_not_done,error; /* length of the buffer used for storing un-encrypted data */ size_t buffer_length; /* read_length is the same as buffer_length except when we use async io */ size_t read_length; myf myflags; /* Flags used to my_read/my_write */ /* alloced_buffer is set to the size of the buffer allocated for the IO_CACHE. Includes the overhead(storing key to encrypt and decrypt) for encryption. Set to 0 if nothing is allocated. Currently READ_NET is the only one that will use a buffer allocated somewhere else */ size_t alloced_buffer; } IO_CACHE; typedef int (*qsort2_cmp)(const void *, const void *, const void *); typedef void (*my_error_reporter)(enum loglevel level, const char *format, ...) ATTRIBUTE_FORMAT_FPTR(printf, 2, 3); extern my_error_reporter my_charset_error_reporter; extern PSI_file_key key_file_io_cache; /* inline functions for mf_iocache */ extern int my_b_flush_io_cache(IO_CACHE *info, int need_append_buffer_lock); extern int _my_b_get(IO_CACHE *info); extern int _my_b_read(IO_CACHE *info,uchar *Buffer,size_t Count); extern int _my_b_write(IO_CACHE *info,const uchar *Buffer,size_t Count); /* Test if buffer is inited */ static inline void my_b_clear(IO_CACHE *info) { info->buffer= 0; } static inline int my_b_inited(IO_CACHE *info) { return MY_TEST(info->buffer); } #define my_b_EOF INT_MIN static inline int my_b_read(IO_CACHE *info, uchar *Buffer, size_t Count) { if (info->read_pos + Count <= info->read_end) { memcpy(Buffer, info->read_pos, Count); info->read_pos+= Count; return 0; } return _my_b_read(info, Buffer, Count); } static inline int my_b_write(IO_CACHE *info, const uchar *Buffer, size_t Count) { MEM_CHECK_DEFINED(Buffer, Count); if (info->write_pos + Count <= info->write_end) { if (Count) { memcpy(info->write_pos, Buffer, Count); info->write_pos+= Count; } return 0; } return _my_b_write(info, Buffer, Count); } static inline int my_b_get(IO_CACHE *info) { if (info->read_pos != info->read_end) { info->read_pos++; return info->read_pos[-1]; } return _my_b_get(info); } static inline my_bool my_b_write_byte(IO_CACHE *info, uchar chr) { MEM_CHECK_DEFINED(&chr, 1); if (info->write_pos >= info->write_end) if (my_b_flush_io_cache(info, 1)) return 1; *info->write_pos++= chr; return 0; } /** Fill buffer of the cache. @note It assumes that you have already used all characters in the CACHE, independent of the read_pos value! @returns 0 On error or EOF (info->error = -1 on error) # Number of characters */ static inline size_t my_b_fill(IO_CACHE *info) { info->read_pos= info->read_end; return _my_b_read(info,0,0) ? 0 : (size_t) (info->read_end - info->read_pos); } static inline my_off_t my_b_tell(const IO_CACHE *info) { if (info->type == WRITE_CACHE) { return info->pos_in_file + (my_off_t)(info->write_pos - info->request_pos); } return info->pos_in_file + (my_off_t) (info->read_pos - info->request_pos); } static inline my_off_t my_b_write_tell(const IO_CACHE *info) { return info->pos_in_file + (my_off_t) (info->write_pos - info->write_buffer); } static inline uchar* my_b_get_buffer_start(const IO_CACHE *info) { return info->request_pos; } static inline size_t my_b_get_bytes_in_buffer(const IO_CACHE *info) { return (size_t) (info->read_end - info->request_pos); } static inline my_off_t my_b_get_pos_in_file(const IO_CACHE *info) { return info->pos_in_file; } static inline size_t my_b_bytes_in_cache(const IO_CACHE *info) { if (info->type == WRITE_CACHE) { return (size_t) (info->write_end - info->write_pos); } return (size_t) (info->read_end - info->read_pos); } int my_b_copy_to_file (IO_CACHE *cache, FILE *file, size_t count); int my_b_copy_all_to_file(IO_CACHE *cache, FILE *file); my_off_t my_b_append_tell(IO_CACHE* info); my_off_t my_b_safe_tell(IO_CACHE* info); /* picks the correct tell() */ int my_b_pread(IO_CACHE *info, uchar *Buffer, size_t Count, my_off_t pos); typedef uint32 ha_checksum; extern int (*mysys_test_invalid_symlink)(const char *filename); #include <my_alloc.h> /* Prototypes for mysys and my_func functions */ extern int my_copy(const char *from,const char *to,myf MyFlags); extern int my_delete(const char *name,myf MyFlags); extern int my_rmtree(const char *name, myf Myflags); extern int my_getwd(char * buf,size_t size,myf MyFlags); extern int my_setwd(const char *dir,myf MyFlags); extern int my_lock(File fd,int op,my_off_t start, my_off_t length,myf MyFlags); extern void *my_once_alloc(size_t Size,myf MyFlags); extern void my_once_free(void); extern char *my_once_strdup(const char *src,myf myflags); extern void *my_once_memdup(const void *src, size_t len, myf myflags); extern File my_open(const char *FileName,int Flags,myf MyFlags); extern File my_register_filename(File fd, const char *FileName, enum file_type type_of_file, uint error_message_number, myf MyFlags); extern File my_create(const char *FileName,int CreateFlags, int AccessFlags, myf MyFlags); extern int my_close(File Filedes,myf MyFlags); extern int my_mkdir(const char *dir, int Flags, myf MyFlags); extern int my_readlink(char *to, const char *filename, myf MyFlags); extern int my_is_symlink(const char *filename); extern int my_realpath(char *to, const char *filename, myf MyFlags); extern File my_create_with_symlink(const char *linkname, const char *filename, int createflags, int access_flags, myf MyFlags); extern int my_rename_with_symlink(const char *from,const char *to,myf MyFlags); extern int my_symlink(const char *content, const char *linkname, myf MyFlags); extern int my_handler_delete_with_symlink(const char *filename, myf sync_dir); extern size_t my_read(File Filedes,uchar *Buffer,size_t Count,myf MyFlags); extern size_t my_pread(File Filedes,uchar *Buffer,size_t Count,my_off_t offset, myf MyFlags); extern int my_rename(const char *from,const char *to,myf MyFlags); extern my_off_t my_seek(File fd,my_off_t pos,int whence,myf MyFlags); extern my_off_t my_tell(File fd,myf MyFlags); extern size_t my_write(File Filedes,const uchar *Buffer,size_t Count, myf MyFlags); extern size_t my_pwrite(File Filedes,const uchar *Buffer,size_t Count, my_off_t offset,myf MyFlags); extern size_t my_fread(FILE *stream,uchar *Buffer,size_t Count,myf MyFlags); extern size_t my_fwrite(FILE *stream,const uchar *Buffer,size_t Count, myf MyFlags); extern my_off_t my_fseek(FILE *stream,my_off_t pos,int whence,myf MyFlags); extern my_off_t my_ftell(FILE *stream,myf MyFlags); extern void (*my_sleep_for_space)(unsigned int seconds); extern int my_get_exepath(char *buf, size_t size, const char *argv0); /* implemented in my_memmem.c */ extern void *my_memmem(const void *haystack, size_t haystacklen, const void *needle, size_t needlelen); #ifdef _WIN32 extern int my_access(const char *path, int amode); #define my_check_user(A,B) (NULL) #define my_set_user(A,B,C) (0) #else #define my_access access struct passwd *my_check_user(const char *user, myf MyFlags); int my_set_user(const char *user, struct passwd *user_info, myf MyFlags); #endif extern int check_if_legal_filename(const char *path); extern int check_if_legal_tablename(const char *path); #ifdef _WIN32 extern my_bool is_filename_allowed(const char *name, size_t length, my_bool allow_current_dir); #else /* _WIN32 */ # define is_filename_allowed(name, length, allow_cwd) (TRUE) #endif /* _WIN32 */ #ifdef _WIN32 /* Windows-only functions (CRT equivalents)*/ extern HANDLE my_get_osfhandle(File fd); extern File my_win_handle2File(HANDLE hFile); extern void my_osmaperr(unsigned long last_error); #endif extern void init_glob_errs(void); extern const char** get_global_errmsgs(int nr); extern void wait_for_free_space(const char *filename, int errors); extern FILE *my_fopen(const char *FileName,int Flags,myf MyFlags); extern FILE *my_fdopen(File Filedes,const char *name, int Flags,myf MyFlags); extern FILE *my_freopen(const char *path, const char *mode, FILE *stream); extern int my_fclose(FILE *fd,myf MyFlags); extern int my_vfprintf(FILE *stream, const char* format, va_list args); extern const char* my_strerror(char *buf, size_t len, int nr); extern int my_fprintf(FILE *stream, const char* format, ...); extern File my_fileno(FILE *fd); extern int my_chsize(File fd,my_off_t newlength, int filler, myf MyFlags); extern int my_chmod(const char *name, mode_t mode, myf my_flags); extern const char *my_basename(const char *filename); extern void thr_set_sync_wait_callback(void (*before_sync)(void), void (*after_sync)(void)); extern int my_sync(File fd, myf my_flags); extern int my_sync_dir(const char *dir_name, myf my_flags); extern int my_sync_dir_by_file(const char *file_name, myf my_flags); extern const char *my_get_err_msg(uint nr); extern int my_error_register(const char** (*get_errmsgs) (int nr), uint first, uint last); extern my_bool my_error_unregister(uint first, uint last); extern void my_message(uint my_err, const char *str,myf MyFlags); extern void my_message_stderr(uint my_err, const char *str, myf MyFlags); extern my_bool my_init(void); extern void my_end(int infoflag); extern int my_redel(const char *from, const char *to, time_t backup_time_stamp, myf MyFlags); void my_create_backup_name(char *to, const char *from, time_t backup_time_stamp); extern int my_copystat(const char *from, const char *to, int MyFlags); extern char * my_filename(File fd); extern my_bool init_tmpdir(MY_TMPDIR *tmpdir, const char *pathlist); extern char *my_tmpdir(MY_TMPDIR *tmpdir); extern void free_tmpdir(MY_TMPDIR *tmpdir); extern void my_remember_signal(int signal_number,sig_handler (*func)(int)); extern size_t dirname_part(char * to,const char *name, size_t *to_res_length); extern size_t dirname_length(const char *name); #define base_name(A) (A+dirname_length(A)) extern int test_if_hard_path(const char *dir_name); extern my_bool has_path(const char *name); extern char *convert_dirname(char *to, const char *from, const char *from_end); extern void to_unix_path(char * name); extern char * fn_ext(const char *name); extern char * fn_ext2(const char *name); extern char * fn_same(char * toname,const char *name,int flag); extern char * fn_format(char * to,const char *name,const char *dir, const char *form, uint flag); extern size_t strlength(const char *str); extern void pack_dirname(char * to,const char *from); extern size_t normalize_dirname(char * to, const char *from); extern size_t unpack_dirname(char * to,const char *from); extern size_t cleanup_dirname(char * to,const char *from); extern size_t system_filename(char * to,const char *from); extern size_t unpack_filename(char * to,const char *from); extern char * intern_filename(char * to,const char *from); extern int pack_filename(char * to, const char *name, size_t max_length); extern char * my_path(char * to,const char *progname, const char *own_pathname_part); extern char * my_load_path(char * to, const char *path, const char *own_path_prefix); extern int wild_compare(const char *str,const char *wildstr, pbool str_is_pattern); extern my_bool array_append_string_unique(const char *str, const char **array, size_t size); extern void get_date(char * to,int timeflag,time_t use_time); extern void soundex(CHARSET_INFO *, char * out_pntr, char * in_pntr, pbool remove_garbage); extern int init_record_cache(RECORD_CACHE *info,size_t cachesize,File file, size_t reclength,enum cache_type type, pbool use_async_io); extern int read_cache_record(RECORD_CACHE *info,uchar *to); extern int end_record_cache(RECORD_CACHE *info); extern int write_cache_record(RECORD_CACHE *info,my_off_t filepos, const uchar *record,size_t length); extern int flush_write_cache(RECORD_CACHE *info); extern void handle_recived_signals(void); extern sig_handler my_set_alarm_variable(int signo); extern my_bool radixsort_is_appliccable(uint n_items, size_t size_of_element); extern void my_string_ptr_sort(uchar *base,uint items,size_t size); extern void radixsort_for_str_ptr(uchar* base[], uint number_of_elements, size_t size_of_element,uchar *buffer[]); extern qsort_t my_qsort(void *base_ptr, size_t total_elems, size_t size, qsort_cmp cmp); extern qsort_t my_qsort2(void *base_ptr, size_t total_elems, size_t size, qsort2_cmp cmp, void *cmp_argument); extern qsort2_cmp get_ptr_compare(size_t); void my_store_ptr(uchar *buff, size_t pack_length, my_off_t pos); my_off_t my_get_ptr(uchar *ptr, size_t pack_length); extern int init_io_cache(IO_CACHE *info,File file,size_t cachesize, enum cache_type type,my_off_t seek_offset, my_bool use_async_io, myf cache_myflags); extern int init_io_cache_ext(IO_CACHE *info, File file, size_t cachesize, enum cache_type type, my_off_t seek_offset, pbool use_async_io, myf cache_myflags, PSI_file_key file_key); extern my_bool reinit_io_cache(IO_CACHE *info,enum cache_type type, my_off_t seek_offset, my_bool use_async_io, my_bool clear_cache); extern void init_io_cache_share(IO_CACHE *read_cache, IO_CACHE_SHARE *cshare, IO_CACHE *write_cache, uint num_threads); extern int init_slave_io_cache(IO_CACHE *master, IO_CACHE *slave); void end_slave_io_cache(IO_CACHE *cache); void seek_io_cache(IO_CACHE *cache, my_off_t needed_offset); extern void remove_io_thread(IO_CACHE *info); extern int my_b_append(IO_CACHE *info,const uchar *Buffer,size_t Count); extern int my_b_safe_write(IO_CACHE *info,const uchar *Buffer,size_t Count); extern int my_block_write(IO_CACHE *info, const uchar *Buffer, size_t Count, my_off_t pos); #define flush_io_cache(info) my_b_flush_io_cache((info),1) extern int end_io_cache(IO_CACHE *info); extern void my_b_seek(IO_CACHE *info,my_off_t pos); extern size_t my_b_gets(IO_CACHE *info, char *to, size_t max_length); extern my_off_t my_b_filelength(IO_CACHE *info); extern my_bool my_b_write_backtick_quote(IO_CACHE *info, const char *str, size_t len); extern my_bool my_b_printf(IO_CACHE *info, const char* fmt, ...); extern size_t my_b_vprintf(IO_CACHE *info, const char* fmt, va_list ap); extern my_bool open_cached_file(IO_CACHE *cache,const char *dir, const char *prefix, size_t cache_size, myf cache_myflags); extern my_bool real_open_cached_file(IO_CACHE *cache); extern void close_cached_file(IO_CACHE *cache); File create_temp_file(char *to, const char *dir, const char *pfx, int mode, myf MyFlags); #define my_init_dynamic_array(A,B,C,D,E,F) init_dynamic_array2(A,B,C,NULL,D,E,F) #define my_init_dynamic_array2(A,B,C,D,E,F,G) init_dynamic_array2(A,B,C,D,E,F,G) extern my_bool init_dynamic_array2(PSI_memory_key psi_key, DYNAMIC_ARRAY *array, uint element_size, void *init_buffer, uint init_alloc, uint alloc_increment, myf my_flags); extern my_bool insert_dynamic(DYNAMIC_ARRAY *array, const void* element); extern void *alloc_dynamic(DYNAMIC_ARRAY *array); extern void *pop_dynamic(DYNAMIC_ARRAY*); extern my_bool set_dynamic(DYNAMIC_ARRAY *array, const void *element, uint array_index); extern my_bool allocate_dynamic(DYNAMIC_ARRAY *array, uint max_elements); extern void get_dynamic(DYNAMIC_ARRAY *array, void *element, uint array_index); extern void delete_dynamic(DYNAMIC_ARRAY *array); extern void delete_dynamic_element(DYNAMIC_ARRAY *array, uint array_index); extern void delete_dynamic_with_callback(DYNAMIC_ARRAY *array, FREE_FUNC f); extern void freeze_size(DYNAMIC_ARRAY *array); extern int get_index_dynamic(DYNAMIC_ARRAY *array, void *element); #define dynamic_array_ptr(array,array_index) ((array)->buffer+(array_index)*(array)->size_of_element) #define dynamic_element(array,array_index,type) ((type)((array)->buffer) +(array_index)) #define push_dynamic(A,B) insert_dynamic((A),(B)) #define reset_dynamic(array) ((array)->elements= 0) #define sort_dynamic(A,cmp) my_qsort((A)->buffer, (A)->elements, (A)->size_of_element, (cmp)) extern my_bool init_dynamic_string(DYNAMIC_STRING *str, const char *init_str, size_t init_alloc,size_t alloc_increment); extern my_bool dynstr_append(DYNAMIC_STRING *str, const char *append); my_bool dynstr_append_mem(DYNAMIC_STRING *str, const char *append, size_t length); extern my_bool dynstr_append_os_quoted(DYNAMIC_STRING *str, const char *append, ...); extern my_bool dynstr_append_quoted(DYNAMIC_STRING *str, const char *append, size_t len, char quote); extern my_bool dynstr_set(DYNAMIC_STRING *str, const char *init_str); extern my_bool dynstr_realloc(DYNAMIC_STRING *str, size_t additional_size); extern my_bool dynstr_trunc(DYNAMIC_STRING *str, size_t n); extern void dynstr_free(DYNAMIC_STRING *str); extern uint32 copy_and_convert_extended(char *to, uint32 to_length, CHARSET_INFO *to_cs, const char *from, uint32 from_length, CHARSET_INFO *from_cs, uint *errors); extern void dynstr_reassociate(DYNAMIC_STRING *str, char **res, size_t *length, size_t *alloc_length); extern uint32 copy_and_convert_extended(char *to, uint32 to_length, CHARSET_INFO *to_cs, const char *from, uint32 from_length, CHARSET_INFO *from_cs, uint *errors); #ifdef HAVE_MLOCK extern void *my_malloc_lock(size_t length,myf flags); extern void my_free_lock(void *ptr); #else #define my_malloc_lock(A,B) my_malloc(PSI_INSTRUMENT_ME, (A),(B)) #define my_free_lock(A) my_free((A)) #endif #define alloc_root_inited(A) ((A)->min_malloc != 0) #define ALLOC_ROOT_MIN_BLOCK_SIZE (MALLOC_OVERHEAD + sizeof(USED_MEM) + 8) #define clear_alloc_root(A) do { (A)->free= (A)->used= (A)->pre_alloc= 0; (A)->min_malloc=0;} while(0) extern void init_alloc_root(PSI_memory_key key, MEM_ROOT *mem_root, size_t block_size, size_t pre_alloc_size, myf my_flags); extern void *alloc_root(MEM_ROOT *mem_root, size_t Size); extern void *multi_alloc_root(MEM_ROOT *mem_root, ...); extern void free_root(MEM_ROOT *root, myf MyFLAGS); extern void move_root(MEM_ROOT *to, MEM_ROOT *from); extern void set_prealloc_root(MEM_ROOT *root, char *ptr); extern void reset_root_defaults(MEM_ROOT *mem_root, size_t block_size, size_t prealloc_size); extern char *strdup_root(MEM_ROOT *root,const char *str); static inline char *safe_strdup_root(MEM_ROOT *root, const char *str) { return str ? strdup_root(root, str) : 0; } extern char *strmake_root(MEM_ROOT *root,const char *str,size_t len); extern void *memdup_root(MEM_ROOT *root,const void *str, size_t len); extern LEX_CSTRING safe_lexcstrdup_root(MEM_ROOT *root, const LEX_CSTRING str); extern my_bool my_compress(uchar *, size_t *, size_t *); extern my_bool my_uncompress(uchar *, size_t , size_t *); extern uchar *my_compress_alloc(const uchar *packet, size_t *len, size_t *complen); extern void *my_az_allocator(void *dummy, unsigned int items, unsigned int size); extern void my_az_free(void *dummy, void *address); extern int my_compress_buffer(uchar *dest, size_t *destLen, const uchar *source, size_t sourceLen); extern int packfrm(const uchar *, size_t, uchar **, size_t *); extern int unpackfrm(uchar **, size_t *, const uchar *); extern uint32 my_checksum(uint32, const void *, size_t); extern uint32 my_crc32c(uint32, const void *, size_t); extern const char *my_crc32c_implementation(); #ifdef DBUG_ASSERT_EXISTS extern void my_debug_put_break_here(void); #else #define my_debug_put_break_here() do {} while(0) #endif extern void my_sleep(ulong m_seconds); extern uint my_set_max_open_files(uint files); void my_free_open_file_info(void); extern my_bool my_gethwaddr(uchar *to); extern int my_getncpus(void); #define HRTIME_RESOLUTION 1000000ULL /* microseconds */ typedef struct {ulonglong val;} my_hrtime_t; void my_time_init(void); extern my_hrtime_t my_hrtime(void); #ifdef _WIN32 extern my_hrtime_t my_hrtime_coarse(); #else #define my_hrtime_coarse() my_hrtime() #endif extern ulonglong my_interval_timer(void); extern ulonglong my_getcputime(void); #define microsecond_interval_timer() (my_interval_timer()/1000) #define hrtime_to_time(X) ((time_t)((X).val/HRTIME_RESOLUTION)) #define hrtime_from_time(X) ((ulonglong)((X)*HRTIME_RESOLUTION)) #define hrtime_to_double(X) ((X).val/(double)HRTIME_RESOLUTION) #define hrtime_sec_part(X) ((ulong)((X).val % HRTIME_RESOLUTION)) #define my_time(X) hrtime_to_time(my_hrtime_coarse()) /** Make high resolution time from two parts. */ static inline my_hrtime_t make_hr_time(my_time_t time, ulong time_sec_part) { my_hrtime_t res= {((ulonglong) time)*1000000 + time_sec_part}; return res; } #if STACK_DIRECTION < 0 #define available_stack_size(CUR,END) (long) ((char*)(CUR) - (char*)(END)) #else #define available_stack_size(CUR,END) (long) ((char*)(END) - (char*)(CUR)) #endif #ifndef MAP_SYNC #define MAP_SYNC 0x80000 #endif #ifndef MAP_SHARED_VALIDATE #define MAP_SHARED_VALIDATE 0x03 #endif #ifdef HAVE_SYS_MMAN_H #ifndef MAP_NOSYNC #define MAP_NOSYNC 0 #endif #ifndef MAP_NORESERVE #define MAP_NORESERVE 0 /* For irix and AIX */ #endif #ifdef HAVE_MMAP64 #define my_mmap(a,b,c,d,e,f) mmap64(a,b,c,d,e,f) #else #define my_mmap(a,b,c,d,e,f) mmap(a,b,c,d,e,f) #endif #define my_munmap(a,b) munmap((a),(b)) #else /* not a complete set of mmap() flags, but only those that necessary */ #define PROT_READ 1 #define PROT_WRITE 2 #define MAP_NORESERVE 0 #define MAP_SHARED 0x0001 #define MAP_PRIVATE 0x0002 #define MAP_NOSYNC 0x0800 #define MAP_FAILED ((void *)-1) #define MS_SYNC 0x0000 #define HAVE_MMAP void *my_mmap(void *, size_t, int, int, int, my_off_t); int my_munmap(void *, size_t); #endif #ifdef _WIN32 extern FILE* my_win_popen(const char*, const char*); extern int my_win_pclose(FILE*); #define my_popen(A,B) my_win_popen(A,B) #define my_pclose(A) my_win_pclose(A) #else #define my_popen(A,B) popen(A,B) #define my_pclose(A) pclose(A) #endif /* my_getpagesize */ #ifdef HAVE_GETPAGESIZE #define my_getpagesize() getpagesize() #else int my_getpagesize(void); #endif int my_msync(int, void *, size_t, int); #define MY_UUID_SIZE 16 #define MY_UUID_STRING_LENGTH (8+1+4+1+4+1+4+1+12) #define MY_UUID_ORACLE_STRING_LENGTH (8+4+4+4+12) void my_uuid_init(ulong seed1, ulong seed2); void my_uuid(uchar *guid); void my_uuid2str(const uchar *guid, char *s); void my_uuid2str_oracle(const uchar *guid, char *s); void my_uuid_end(void); const char *my_dlerror(const char *dlpath); /* character sets */ extern void my_charset_loader_init_mysys(MY_CHARSET_LOADER *loader); extern uint get_charset_number(const char *cs_name, uint cs_flags, myf flags); extern uint get_collation_number(const char *name,myf flags); extern const char *get_charset_name(uint cs_number); extern CHARSET_INFO *get_charset(uint cs_number, myf flags); extern CHARSET_INFO *get_charset_by_name(const char *cs_name, myf flags); extern CHARSET_INFO *my_collation_get_by_name(MY_CHARSET_LOADER *loader, const char *name, myf flags); extern CHARSET_INFO *get_charset_by_csname(const char *cs_name, uint cs_flags, myf my_flags); extern CHARSET_INFO *my_charset_get_by_name(MY_CHARSET_LOADER *loader, const char *name, uint cs_flags, myf my_flags); extern my_bool resolve_charset(const char *cs_name, CHARSET_INFO *default_cs, CHARSET_INFO **cs, myf flags); extern my_bool resolve_collation(const char *cl_name, CHARSET_INFO *default_cl, CHARSET_INFO **cl, myf my_flags); extern void free_charsets(void); extern char *get_charsets_dir(char *buf); static inline my_bool my_charset_same(CHARSET_INFO *cs1, CHARSET_INFO *cs2) { return (cs1->cs_name.str == cs2->cs_name.str); } extern my_bool init_compiled_charsets(myf flags); extern void add_compiled_collation(struct charset_info_st *cs); extern void add_compiled_extra_collation(struct charset_info_st *cs); extern size_t escape_string_for_mysql(CHARSET_INFO *charset_info, char *to, size_t to_length, const char *from, size_t length, my_bool *overflow); extern char *my_get_tty_password(const char *opt_message); #ifdef _WIN32 #define BACKSLASH_MBTAIL /* File system character set */ extern CHARSET_INFO *fs_character_set(void); #endif extern const char *my_default_csname(void); extern size_t escape_quotes_for_mysql(CHARSET_INFO *charset_info, char *to, size_t to_length, const char *from, size_t length, my_bool *overflow); extern void thd_increment_bytes_sent(void *thd, size_t length); extern void thd_increment_bytes_received(void *thd, size_t length); extern void thd_increment_net_big_packet_count(void *thd, size_t length); #ifdef _WIN32 /* implemented in my_conio.c */ char* my_cgets(char *string, size_t clen, size_t* plen); #endif #include <mysql/psi/psi.h> #ifdef HAVE_PSI_INTERFACE extern MYSQL_PLUGIN_IMPORT struct PSI_bootstrap *PSI_hook; extern void set_psi_server(PSI *psi); void my_init_mysys_psi_keys(void); #endif struct st_mysql_file; extern struct st_mysql_file *mysql_stdin; C_MODE_END #endif /* _my_sys_h */