/***************************************************************************** Copyright (c) 1995, 2013, Oracle and/or its affiliates. All Rights Reserved. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License 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 St, Fifth Floor, Boston, MA 02110-1301 USA *****************************************************************************/ /**************************************************//** @file fil/fil0fil.c The tablespace memory cache Created 10/25/1995 Heikki Tuuri *******************************************************/ #include "fil0fil.h" #include "mem0mem.h" #include "hash0hash.h" #include "os0file.h" #include "mach0data.h" #include "buf0buf.h" #include "buf0flu.h" #include "log0recv.h" #include "fsp0fsp.h" #include "srv0srv.h" #include "srv0start.h" #include "mtr0mtr.h" #include "mtr0log.h" #include "dict0dict.h" #include "page0page.h" #include "page0zip.h" #include "trx0trx.h" #include "trx0sys.h" #include "pars0pars.h" #include "row0mysql.h" #include "row0row.h" #include "que0que.h" #include "btr0btr.h" #include "btr0sea.h" #ifndef UNIV_HOTBACKUP # include "buf0lru.h" # include "ibuf0ibuf.h" # include "sync0sync.h" # include "os0sync.h" #else /* !UNIV_HOTBACKUP */ static ulint srv_data_read, srv_data_written; #endif /* !UNIV_HOTBACKUP */ /* IMPLEMENTATION OF THE TABLESPACE MEMORY CACHE ============================================= The tablespace cache is responsible for providing fast read/write access to tablespaces and logs of the database. File creation and deletion is done in other modules which know more of the logic of the operation, however. A tablespace consists of a chain of files. The size of the files does not have to be divisible by the database block size, because we may just leave the last incomplete block unused. When a new file is appended to the tablespace, the maximum size of the file is also specified. At the moment, we think that it is best to extend the file to its maximum size already at the creation of the file, because then we can avoid dynamically extending the file when more space is needed for the tablespace. A block's position in the tablespace is specified with a 32-bit unsigned integer. The files in the chain are thought to be catenated, and the block corresponding to an address n is the nth block in the catenated file (where the first block is named the 0th block, and the incomplete block fragments at the end of files are not taken into account). A tablespace can be extended by appending a new file at the end of the chain. Our tablespace concept is similar to the one of Oracle. To acquire more speed in disk transfers, a technique called disk striping is sometimes used. This means that logical block addresses are divided in a round-robin fashion across several disks. Windows NT supports disk striping, so there we do not need to support it in the database. Disk striping is implemented in hardware in RAID disks. We conclude that it is not necessary to implement it in the database. Oracle 7 does not support disk striping, either. Another trick used at some database sites is replacing tablespace files by raw disks, that is, the whole physical disk drive, or a partition of it, is opened as a single file, and it is accessed through byte offsets calculated from the start of the disk or the partition. This is recommended in some books on database tuning to achieve more speed in i/o. Using raw disk certainly prevents the OS from fragmenting disk space, but it is not clear if it really adds speed. We measured on the Pentium 100 MHz + NT + NTFS file system + EIDE Conner disk only a negligible difference in speed when reading from a file, versus reading from a raw disk. To have fast access to a tablespace or a log file, we put the data structures to a hash table. Each tablespace and log file is given an unique 32-bit identifier. Some operating systems do not support many open files at the same time, though NT seems to tolerate at least 900 open files. Therefore, we put the open files in an LRU-list. If we need to open another file, we may close the file at the end of the LRU-list. When an i/o-operation is pending on a file, the file cannot be closed. We take the file nodes with pending i/o-operations out of the LRU-list and keep a count of pending operations. When an operation completes, we decrement the count and return the file node to the LRU-list if the count drops to zero. */ /** When mysqld is run, the default directory "." is the mysqld datadir, but in the MySQL Embedded Server Library and ibbackup it is not the default directory, and we must set the base file path explicitly */ UNIV_INTERN const char* fil_path_to_mysql_datadir = "."; /** The number of fsyncs done to the log */ UNIV_INTERN ulint fil_n_log_flushes = 0; /** Number of pending redo log flushes */ UNIV_INTERN ulint fil_n_pending_log_flushes = 0; /** Number of pending tablespace flushes */ UNIV_INTERN ulint fil_n_pending_tablespace_flushes = 0; /** The null file address */ UNIV_INTERN fil_addr_t fil_addr_null = {FIL_NULL, 0}; #ifdef UNIV_PFS_MUTEX /* Key to register fil_system_mutex with performance schema */ UNIV_INTERN mysql_pfs_key_t fil_system_mutex_key; #endif /* UNIV_PFS_MUTEX */ #ifdef UNIV_PFS_RWLOCK /* Key to register file space latch with performance schema */ UNIV_INTERN mysql_pfs_key_t fil_space_latch_key; #endif /* UNIV_PFS_RWLOCK */ /** File node of a tablespace or the log data space */ struct fil_node_struct { fil_space_t* space; /*!< backpointer to the space where this node belongs */ char* name; /*!< path to the file */ ibool open; /*!< TRUE if file open */ os_file_t handle; /*!< OS handle to the file, if file open */ ibool is_raw_disk;/*!< TRUE if the 'file' is actually a raw device or a raw disk partition */ ulint size; /*!< size of the file in database pages, 0 if not known yet; the possible last incomplete megabyte may be ignored if space == 0 */ ulint n_pending; /*!< count of pending i/o's on this file; closing of the file is not allowed if this is > 0 */ ulint n_pending_flushes; /*!< count of pending flushes on this file; closing of the file is not allowed if this is > 0 */ ib_int64_t modification_counter;/*!< when we write to the file we increment this by one */ ib_int64_t flush_counter;/*!< up to what modification_counter value we have flushed the modifications to disk */ UT_LIST_NODE_T(fil_node_t) chain; /*!< link field for the file chain */ UT_LIST_NODE_T(fil_node_t) LRU; /*!< link field for the LRU list */ ulint magic_n;/*!< FIL_NODE_MAGIC_N */ }; /** Value of fil_node_struct::magic_n */ #define FIL_NODE_MAGIC_N 89389 /** Tablespace or log data space: let us call them by a common name space */ struct fil_space_struct { char* name; /*!< space name = the path to the first file in it */ ulint id; /*!< space id */ ib_int64_t tablespace_version; /*!< in DISCARD/IMPORT this timestamp is used to check if we should ignore an insert buffer merge request for a page because it actually was for the previous incarnation of the space */ ibool mark; /*!< this is set to TRUE at database startup if the space corresponds to a table in the InnoDB data dictionary; so we can print a warning of orphaned tablespaces */ ibool stop_ios;/*!< TRUE if we want to rename the .ibd file of tablespace and want to stop temporarily posting of new i/o requests on the file */ ibool stop_new_ops; /*!< we set this TRUE when we start deleting a single-table tablespace. When this is set following new ops are not allowed: * read IO request * ibuf merge * file flush Note that we can still possibly have new write operations because we don't check this flag when doing flush batches. */ ulint purpose;/*!< FIL_TABLESPACE, FIL_LOG, or FIL_ARCH_LOG */ UT_LIST_BASE_NODE_T(fil_node_t) chain; /*!< base node for the file chain */ ulint size; /*!< space size in pages; 0 if a single-table tablespace whose size we do not know yet; last incomplete megabytes in data files may be ignored if space == 0 */ ulint flags; /*!< compressed page size and file format, or 0 */ ulint n_reserved_extents; /*!< number of reserved free extents for ongoing operations like B-tree page split */ ulint n_pending_flushes; /*!< this is positive when flushing the tablespace to disk; dropping of the tablespace is forbidden if this is positive */ ulint n_pending_ops;/*!< this is positive when we have pending operations against this tablespace. The pending operations can be ibuf merges or lock validation code trying to read a block. Dropping of the tablespace is forbidden if this is positive */ hash_node_t hash; /*!< hash chain node */ hash_node_t name_hash;/*!< hash chain the name_hash table */ #ifndef UNIV_HOTBACKUP rw_lock_t latch; /*!< latch protecting the file space storage allocation */ #endif /* !UNIV_HOTBACKUP */ UT_LIST_NODE_T(fil_space_t) unflushed_spaces; /*!< list of spaces with at least one unflushed file we have written to */ ibool is_in_unflushed_spaces; /*!< TRUE if this space is currently in unflushed_spaces */ ibool is_corrupt; UT_LIST_NODE_T(fil_space_t) space_list; /*!< list of all spaces */ ulint magic_n;/*!< FIL_SPACE_MAGIC_N */ }; /** Value of fil_space_struct::magic_n */ #define FIL_SPACE_MAGIC_N 89472 /** The tablespace memory cache */ typedef struct fil_system_struct fil_system_t; /** The tablespace memory cache; also the totality of logs (the log data space) is stored here; below we talk about tablespaces, but also the ib_logfiles form a 'space' and it is handled here */ struct fil_system_struct { #ifndef UNIV_HOTBACKUP mutex_t mutex; /*!< The mutex protecting the cache */ mutex_t file_extend_mutex; #endif /* !UNIV_HOTBACKUP */ hash_table_t* spaces; /*!< The hash table of spaces in the system; they are hashed on the space id */ hash_table_t* name_hash; /*!< hash table based on the space name */ UT_LIST_BASE_NODE_T(fil_node_t) LRU; /*!< base node for the LRU list of the most recently used open files with no pending i/o's; if we start an i/o on the file, we first remove it from this list, and return it to the start of the list when the i/o ends; log files and the system tablespace are not put to this list: they are opened after the startup, and kept open until shutdown */ UT_LIST_BASE_NODE_T(fil_space_t) unflushed_spaces; /*!< base node for the list of those tablespaces whose files contain unflushed writes; those spaces have at least one file node where modification_counter > flush_counter */ ulint n_open; /*!< number of files currently open */ ulint max_n_open; /*!< n_open is not allowed to exceed this */ ib_int64_t modification_counter;/*!< when we write to a file we increment this by one */ ulint max_assigned_id;/*!< maximum space id in the existing tables, or assigned during the time mysqld has been up; at an InnoDB startup we scan the data dictionary and set here the maximum of the space id's of the tables there */ ib_int64_t tablespace_version; /*!< a counter which is incremented for every space object memory creation; every space mem object gets a 'timestamp' from this; in DISCARD/ IMPORT this is used to check if we should ignore an insert buffer merge request */ UT_LIST_BASE_NODE_T(fil_space_t) space_list; /*!< list of all file spaces */ ibool space_id_reuse_warned; /* !< TRUE if fil_space_create() has issued a warning about potential space_id reuse */ }; /** The tablespace memory cache. This variable is NULL before the module is initialized. */ static fil_system_t* fil_system = NULL; #ifdef UNIV_DEBUG /** Try fil_validate() every this many times */ # define FIL_VALIDATE_SKIP 17 /******************************************************************//** Checks the consistency of the tablespace cache some of the time. @return TRUE if ok or the check was skipped */ static ibool fil_validate_skip(void) /*===================*/ { /** The fil_validate() call skip counter. Use a signed type because of the race condition below. */ static int fil_validate_count = FIL_VALIDATE_SKIP; /* There is a race condition below, but it does not matter, because this call is only for heuristic purposes. We want to reduce the call frequency of the costly fil_validate() check in debug builds. */ if (--fil_validate_count > 0) { return(TRUE); } fil_validate_count = FIL_VALIDATE_SKIP; return(fil_validate()); } #endif /* UNIV_DEBUG */ /********************************************************************//** NOTE: you must call fil_mutex_enter_and_prepare_for_io() first! Prepares a file node for i/o. Opens the file if it is closed. Updates the pending i/o's field in the node and the system appropriately. Takes the node off the LRU list if it is in the LRU list. The caller must hold the fil_sys mutex. */ static void fil_node_prepare_for_io( /*====================*/ fil_node_t* node, /*!< in: file node */ fil_system_t* system, /*!< in: tablespace memory cache */ fil_space_t* space); /*!< in: space */ /********************************************************************//** Updates the data structures when an i/o operation finishes. Updates the pending i/o's field in the node appropriately. */ static void fil_node_complete_io( /*=================*/ fil_node_t* node, /*!< in: file node */ fil_system_t* system, /*!< in: tablespace memory cache */ ulint type); /*!< in: OS_FILE_WRITE or OS_FILE_READ; marks the node as modified if type == OS_FILE_WRITE */ /*******************************************************************//** Checks if a single-table tablespace for a given table name exists in the tablespace memory cache. @return space id, ULINT_UNDEFINED if not found */ static ulint fil_get_space_id_for_table( /*=======================*/ const char* name); /*!< in: table name in the standard 'databasename/tablename' format */ /*******************************************************************//** Frees a space object from the tablespace memory cache. Closes the files in the chain but does not delete them. There must not be any pending i/o's or flushes on the files. @return TRUE on success */ static ibool fil_space_free( /*===========*/ ulint id, /* in: space id */ ibool x_latched); /* in: TRUE if caller has space->latch in X mode */ /********************************************************************//** Reads data from a space to a buffer. Remember that the possible incomplete blocks at the end of file are ignored: they are not taken into account when calculating the byte offset within a space. @return DB_SUCCESS, or DB_TABLESPACE_DELETED if we are trying to do i/o on a tablespace which does not exist */ UNIV_INLINE ulint fil_read( /*=====*/ ibool sync, /*!< in: TRUE if synchronous aio is desired */ ulint space_id, /*!< in: space id */ ulint zip_size, /*!< in: compressed page size in bytes; 0 for uncompressed pages */ ulint block_offset, /*!< in: offset in number of blocks */ ulint byte_offset, /*!< in: remainder of offset in bytes; in aio this must be divisible by the OS block size */ ulint len, /*!< in: how many bytes to read; this must not cross a file boundary; in aio this must be a block size multiple */ void* buf, /*!< in/out: buffer where to store data read; in aio this must be appropriately aligned */ void* message) /*!< in: message for aio handler if non-sync aio used, else ignored */ { return(fil_io(OS_FILE_READ, sync, space_id, zip_size, block_offset, byte_offset, len, buf, message)); } /********************************************************************//** Writes data to a space from a buffer. Remember that the possible incomplete blocks at the end of file are ignored: they are not taken into account when calculating the byte offset within a space. @return DB_SUCCESS, or DB_TABLESPACE_DELETED if we are trying to do i/o on a tablespace which does not exist */ UNIV_INLINE ulint fil_write( /*======*/ ibool sync, /*!< in: TRUE if synchronous aio is desired */ ulint space_id, /*!< in: space id */ ulint zip_size, /*!< in: compressed page size in bytes; 0 for uncompressed pages */ ulint block_offset, /*!< in: offset in number of blocks */ ulint byte_offset, /*!< in: remainder of offset in bytes; in aio this must be divisible by the OS block size */ ulint len, /*!< in: how many bytes to write; this must not cross a file boundary; in aio this must be a block size multiple */ void* buf, /*!< in: buffer from which to write; in aio this must be appropriately aligned */ void* message) /*!< in: message for aio handler if non-sync aio used, else ignored */ { return(fil_io(OS_FILE_WRITE, sync, space_id, zip_size, block_offset, byte_offset, len, buf, message)); } /*******************************************************************//** Returns the table space by a given id, NULL if not found. */ UNIV_INLINE fil_space_t* fil_space_get_by_id( /*================*/ ulint id) /*!< in: space id */ { fil_space_t* space; ut_ad(mutex_own(&fil_system->mutex)); HASH_SEARCH(hash, fil_system->spaces, id, fil_space_t*, space, ut_ad(space->magic_n == FIL_SPACE_MAGIC_N), space->id == id); return(space); } /*******************************************************************//** Returns the table space by a given name, NULL if not found. */ UNIV_INLINE fil_space_t* fil_space_get_by_name( /*==================*/ const char* name) /*!< in: space name */ { fil_space_t* space; ulint fold; ut_ad(mutex_own(&fil_system->mutex)); fold = ut_fold_string(name); HASH_SEARCH(name_hash, fil_system->name_hash, fold, fil_space_t*, space, ut_ad(space->magic_n == FIL_SPACE_MAGIC_N), !strcmp(name, space->name)); return(space); } #ifndef UNIV_HOTBACKUP /*******************************************************************//** Returns the version number of a tablespace, -1 if not found. @return version number, -1 if the tablespace does not exist in the memory cache */ UNIV_INTERN ib_int64_t fil_space_get_version( /*==================*/ ulint id) /*!< in: space id */ { fil_space_t* space; ib_int64_t version = -1; ut_ad(fil_system); mutex_enter(&fil_system->mutex); space = fil_space_get_by_id(id); if (space) { version = space->tablespace_version; } mutex_exit(&fil_system->mutex); return(version); } /*******************************************************************//** Returns the latch of a file space. @return latch protecting storage allocation */ UNIV_INTERN rw_lock_t* fil_space_get_latch( /*================*/ ulint id, /*!< in: space id */ ulint* flags) /*!< out: tablespace flags */ { fil_space_t* space; ut_ad(fil_system); mutex_enter(&fil_system->mutex); space = fil_space_get_by_id(id); ut_a(space); if (flags) { *flags = space->flags; } mutex_exit(&fil_system->mutex); return(&(space->latch)); } /*******************************************************************//** Returns the type of a file space. @return FIL_TABLESPACE or FIL_LOG */ UNIV_INTERN ulint fil_space_get_type( /*===============*/ ulint id) /*!< in: space id */ { fil_space_t* space; ut_ad(fil_system); mutex_enter(&fil_system->mutex); space = fil_space_get_by_id(id); ut_a(space); mutex_exit(&fil_system->mutex); return(space->purpose); } #endif /* !UNIV_HOTBACKUP */ /**********************************************************************//** Checks if all the file nodes in a space are flushed. The caller must hold the fil_system mutex. @return TRUE if all are flushed */ static ibool fil_space_is_flushed( /*=================*/ fil_space_t* space) /*!< in: space */ { fil_node_t* node; ut_ad(mutex_own(&fil_system->mutex)); node = UT_LIST_GET_FIRST(space->chain); while (node) { if (node->modification_counter > node->flush_counter) { return(FALSE); } node = UT_LIST_GET_NEXT(chain, node); } return(TRUE); } /*******************************************************************//** Appends a new file to the chain of files of a space. File must be closed. */ UNIV_INTERN void fil_node_create( /*============*/ const char* name, /*!< in: file name (file must be closed) */ ulint size, /*!< in: file size in database blocks, rounded downwards to an integer */ ulint id, /*!< in: space id where to append */ ibool is_raw) /*!< in: TRUE if a raw device or a raw disk partition */ { fil_node_t* node; fil_space_t* space; ut_a(fil_system); ut_a(name); mutex_enter(&fil_system->mutex); node = mem_alloc(sizeof(fil_node_t)); node->name = mem_strdup(name); node->open = FALSE; ut_a(!is_raw || srv_start_raw_disk_in_use); node->is_raw_disk = is_raw; node->size = size; node->magic_n = FIL_NODE_MAGIC_N; node->n_pending = 0; node->n_pending_flushes = 0; node->modification_counter = 0; node->flush_counter = 0; space = fil_space_get_by_id(id); if (!space) { ut_print_timestamp(stderr); fprintf(stderr, " InnoDB: Error: Could not find tablespace %lu for\n" "InnoDB: file ", (ulong) id); ut_print_filename(stderr, name); fputs(" in the tablespace memory cache.\n", stderr); mem_free(node->name); mem_free(node); mutex_exit(&fil_system->mutex); return; } space->size += size; node->space = space; UT_LIST_ADD_LAST(chain, space->chain, node); if (id < SRV_EXTRA_SYS_SPACE_FIRST_ID && fil_system->max_assigned_id < id) { fil_system->max_assigned_id = id; } mutex_exit(&fil_system->mutex); } /********************************************************************//** Opens a the file of a node of a tablespace. The caller must own the fil_system mutex. */ static void fil_node_open_file( /*===============*/ fil_node_t* node, /*!< in: file node */ fil_system_t* system, /*!< in: tablespace memory cache */ fil_space_t* space) /*!< in: space */ { ib_int64_t size_bytes; ulint size_low; ulint size_high; ibool ret; ibool success; byte* buf2; byte* page; ulint space_id; ulint flags; ut_ad(mutex_own(&(system->mutex))); ut_a(node->n_pending == 0); ut_a(node->open == FALSE); if (node->size == 0) { /* It must be a single-table tablespace and we do not know the size of the file yet. First we open the file in the normal mode, no async I/O here, for simplicity. Then do some checks, and close the file again. NOTE that we could not use the simple file read function os_file_read() in Windows to read from a file opened for async I/O! */ node->handle = os_file_create_simple_no_error_handling( innodb_file_data_key, node->name, OS_FILE_OPEN, OS_FILE_READ_ONLY, &success); if (!success) { /* The following call prints an error message */ os_file_get_last_error(TRUE); ut_print_timestamp(stderr); fprintf(stderr, " InnoDB: Fatal error: cannot open %s\n." "InnoDB: Have you deleted .ibd files" " under a running mysqld server?\n", node->name); ut_a(0); } os_file_get_size(node->handle, &size_low, &size_high); size_bytes = (((ib_int64_t)size_high) << 32) + (ib_int64_t)size_low; #ifdef UNIV_HOTBACKUP if (trx_sys_sys_space(space->id)) { node->size = (ulint) (size_bytes / UNIV_PAGE_SIZE); os_file_close(node->handle); goto add_size; } #endif /* UNIV_HOTBACKUP */ ut_a(space->purpose != FIL_LOG); ut_a(!trx_sys_sys_space(space->id)); if (size_bytes < FIL_IBD_FILE_INITIAL_SIZE * (lint)UNIV_PAGE_SIZE) { fprintf(stderr, "InnoDB: Error: the size of single-table" " tablespace file %s\n" "InnoDB: is only %lu %lu," " should be at least %lu!\n", node->name, (ulong) size_high, (ulong) size_low, (ulong) (FIL_IBD_FILE_INITIAL_SIZE * UNIV_PAGE_SIZE)); ut_a(0); } /* Read the first page of the tablespace */ buf2 = ut_malloc(2 * UNIV_PAGE_SIZE); /* Align the memory for file i/o if we might have O_DIRECT set */ page = ut_align(buf2, UNIV_PAGE_SIZE); success = os_file_read(node->handle, page, 0, 0, UNIV_PAGE_SIZE); space_id = fsp_header_get_space_id(page); flags = fsp_header_get_flags(page); ut_free(buf2); /* Close the file now that we have read the space id from it */ os_file_close(node->handle); if (UNIV_UNLIKELY(space_id != space->id)) { fprintf(stderr, "InnoDB: Error: tablespace id is %lu" " in the data dictionary\n" "InnoDB: but in file %s it is %lu!\n", space->id, node->name, space_id); ut_error; } if (UNIV_UNLIKELY(space_id == ULINT_UNDEFINED || trx_sys_sys_space(space_id))) { fprintf(stderr, "InnoDB: Error: tablespace id %lu" " in file %s is not sensible\n", (ulong) space_id, node->name); ut_error; } if (UNIV_UNLIKELY(space->flags != flags)) { fprintf(stderr, "InnoDB: Error: table flags are %lx" " in the data dictionary\n" "InnoDB: but the flags in file %s are %lx!\n", space->flags, node->name, flags); ut_error; } if (size_bytes >= 1024 * 1024) { /* Truncate the size to whole megabytes. */ size_bytes = ut_2pow_round(size_bytes, 1024 * 1024); } if (!(flags & DICT_TF_ZSSIZE_MASK)) { node->size = (ulint) (size_bytes / UNIV_PAGE_SIZE); } else { node->size = (ulint) (size_bytes / dict_table_flags_to_zip_size(flags)); } #ifdef UNIV_HOTBACKUP add_size: #endif /* UNIV_HOTBACKUP */ space->size += node->size; } /* printf("Opening file %s\n", node->name); */ /* Open the file for reading and writing, in Windows normally in the unbuffered async I/O mode, though global variables may make os_file_create() to fall back to the normal file I/O mode. */ if (space->purpose == FIL_LOG) { node->handle = os_file_create(innodb_file_log_key, node->name, OS_FILE_OPEN, OS_FILE_AIO, OS_LOG_FILE, &ret); } else if (node->is_raw_disk) { node->handle = os_file_create(innodb_file_data_key, node->name, OS_FILE_OPEN_RAW, OS_FILE_AIO, OS_DATA_FILE, &ret); } else { node->handle = os_file_create(innodb_file_data_key, node->name, OS_FILE_OPEN, OS_FILE_AIO, OS_DATA_FILE, &ret); } ut_a(ret); node->open = TRUE; system->n_open++; if (space->purpose == FIL_TABLESPACE && !trx_sys_sys_space(space->id)) { /* Put the node to the LRU list */ UT_LIST_ADD_FIRST(LRU, system->LRU, node); } } /**********************************************************************//** Closes a file. */ static void fil_node_close_file( /*================*/ fil_node_t* node, /*!< in: file node */ fil_system_t* system) /*!< in: tablespace memory cache */ { ibool ret; ut_ad(node && system); ut_ad(mutex_own(&(system->mutex))); ut_a(node->open); ut_a(node->n_pending == 0 || node->space->stop_new_ops); ut_a(node->n_pending_flushes == 0); #ifndef UNIV_HOTBACKUP ut_a(node->modification_counter == node->flush_counter || srv_fast_shutdown == 2); #endif /* !UNIV_HOTBACKUP */ ret = os_file_close(node->handle); ut_a(ret); /* printf("Closing file %s\n", node->name); */ node->open = FALSE; ut_a(system->n_open > 0); system->n_open--; if (node->n_pending == 0 && node->space->purpose == FIL_TABLESPACE && !trx_sys_sys_space(node->space->id)) { ut_a(UT_LIST_GET_LEN(system->LRU) > 0); /* The node is in the LRU list, remove it */ UT_LIST_REMOVE(LRU, system->LRU, node); } } /********************************************************************//** Tries to close a file in the LRU list. The caller must hold the fil_sys mutex. @return TRUE if success, FALSE if should retry later; since i/o's generally complete in < 100 ms, and as InnoDB writes at most 128 pages from the buffer pool in a batch, and then immediately flushes the files, there is a good chance that the next time we find a suitable node from the LRU list */ static ibool fil_try_to_close_file_in_LRU( /*=========================*/ ibool print_info) /*!< in: if TRUE, prints information why it cannot close a file */ { fil_node_t* node; ut_ad(mutex_own(&fil_system->mutex)); node = UT_LIST_GET_LAST(fil_system->LRU); if (print_info) { fprintf(stderr, "InnoDB: fil_sys open file LRU len %lu\n", (ulong) UT_LIST_GET_LEN(fil_system->LRU)); } while (node != NULL) { if (node->modification_counter == node->flush_counter && node->n_pending_flushes == 0) { fil_node_close_file(node, fil_system); return(TRUE); } if (print_info && node->n_pending_flushes > 0) { fputs("InnoDB: cannot close file ", stderr); ut_print_filename(stderr, node->name); fprintf(stderr, ", because n_pending_flushes %lu\n", (ulong) node->n_pending_flushes); } if (print_info && node->modification_counter != node->flush_counter) { fputs("InnoDB: cannot close file ", stderr); ut_print_filename(stderr, node->name); fprintf(stderr, ", because mod_count %ld != fl_count %ld\n", (long) node->modification_counter, (long) node->flush_counter); } node = UT_LIST_GET_PREV(LRU, node); } return(FALSE); } /*******************************************************************//** Reserves the fil_system mutex and tries to make sure we can open at least one file while holding it. This should be called before calling fil_node_prepare_for_io(), because that function may need to open a file. */ static void fil_mutex_enter_and_prepare_for_io( /*===============================*/ ulint space_id) /*!< in: space id */ { fil_space_t* space; ibool success; ibool print_info = FALSE; ulint count = 0; ulint count2 = 0; retry: mutex_enter(&fil_system->mutex); if (trx_sys_sys_space(space_id) || space_id >= SRV_LOG_SPACE_FIRST_ID) { /* We keep log files and system tablespace files always open; this is important in preventing deadlocks in this module, as a page read completion often performs another read from the insert buffer. The insert buffer is in tablespace 0, and we cannot end up waiting in this function. */ return; } space = fil_space_get_by_id(space_id); if (space != NULL && space->stop_ios) { /* We are going to do a rename file and want to stop new i/o's for a while */ if (count2 > 20000) { fputs("InnoDB: Warning: tablespace ", stderr); ut_print_filename(stderr, space->name); fprintf(stderr, " has i/o ops stopped for a long time %lu\n", (ulong) count2); } mutex_exit(&fil_system->mutex); #ifndef UNIV_HOTBACKUP /* Wake the i/o-handler threads to make sure pending i/o's are performed */ os_aio_simulated_wake_handler_threads(); /* The sleep here is just to give IO helper threads a bit of time to do some work. It is not required that all IO related to the tablespace being renamed must be flushed here as we do fil_flush() in fil_rename_tablespace() as well. */ os_thread_sleep(20000); #endif /* UNIV_HOTBACKUP */ /* Flush tablespaces so that we can close modified files in the LRU list */ fil_flush_file_spaces(FIL_TABLESPACE); os_thread_sleep(20000); count2++; goto retry; } if (fil_system->n_open < fil_system->max_n_open) { return; } /* If the file is already open, no need to do anything; if the space does not exist, we handle the situation in the function which called this function */ if (!space || UT_LIST_GET_FIRST(space->chain)->open) { return; } if (count > 1) { print_info = TRUE; } /* Too many files are open, try to close some */ close_more: success = fil_try_to_close_file_in_LRU(print_info); if (success && fil_system->n_open >= fil_system->max_n_open) { goto close_more; } if (fil_system->n_open < fil_system->max_n_open) { /* Ok */ return; } if (count >= 2) { ut_print_timestamp(stderr); fprintf(stderr, " InnoDB: Warning: too many (%lu) files stay open" " while the maximum\n" "InnoDB: allowed value would be %lu.\n" "InnoDB: You may need to raise the value of" " innodb_open_files in\n" "InnoDB: my.cnf.\n", (ulong) fil_system->n_open, (ulong) fil_system->max_n_open); return; } mutex_exit(&fil_system->mutex); #ifndef UNIV_HOTBACKUP /* Wake the i/o-handler threads to make sure pending i/o's are performed */ os_aio_simulated_wake_handler_threads(); os_thread_sleep(20000); #endif /* Flush tablespaces so that we can close modified files in the LRU list */ fil_flush_file_spaces(FIL_TABLESPACE); count++; goto retry; } /*******************************************************************//** Frees a file node object from a tablespace memory cache. */ static void fil_node_free( /*==========*/ fil_node_t* node, /*!< in, own: file node */ fil_system_t* system, /*!< in: tablespace memory cache */ fil_space_t* space) /*!< in: space where the file node is chained */ { ut_ad(node && system && space); ut_ad(mutex_own(&(system->mutex))); ut_a(node->magic_n == FIL_NODE_MAGIC_N); ut_a(node->n_pending == 0 || space->stop_new_ops); if (node->open) { /* We fool the assertion in fil_node_close_file() to think there are no unflushed modifications in the file */ node->modification_counter = node->flush_counter; if (space->is_in_unflushed_spaces && fil_space_is_flushed(space)) { space->is_in_unflushed_spaces = FALSE; UT_LIST_REMOVE(unflushed_spaces, system->unflushed_spaces, space); } fil_node_close_file(node, system); } space->size -= node->size; UT_LIST_REMOVE(chain, space->chain, node); mem_free(node->name); mem_free(node); } #ifdef UNIV_LOG_ARCHIVE /****************************************************************//** Drops files from the start of a file space, so that its size is cut by the amount given. */ UNIV_INTERN void fil_space_truncate_start( /*=====================*/ ulint id, /*!< in: space id */ ulint trunc_len) /*!< in: truncate by this much; it is an error if this does not equal to the combined size of some initial files in the space */ { fil_node_t* node; fil_space_t* space; mutex_enter(&fil_system->mutex); space = fil_space_get_by_id(id); ut_a(space); while (trunc_len > 0) { node = UT_LIST_GET_FIRST(space->chain); ut_a(node->size * UNIV_PAGE_SIZE <= trunc_len); trunc_len -= node->size * UNIV_PAGE_SIZE; fil_node_free(node, fil_system, space); } mutex_exit(&fil_system->mutex); } #endif /* UNIV_LOG_ARCHIVE */ /*******************************************************************//** Creates a space memory object and puts it to the tablespace memory cache. If there is an error, prints an error message to the .err log. @return TRUE if success */ UNIV_INTERN ibool fil_space_create( /*=============*/ const char* name, /*!< in: space name */ ulint id, /*!< in: space id */ ulint flags, /*!< in: compressed page size and file format, or 0 */ ulint purpose)/*!< in: FIL_TABLESPACE, or FIL_LOG if log */ { fil_space_t* space; /* The tablespace flags (FSP_SPACE_FLAGS) should be 0 for ROW_FORMAT=COMPACT ((table->flags & ~(~0 << DICT_TF_BITS)) == DICT_TF_COMPACT) and ROW_FORMAT=REDUNDANT (table->flags == 0). For any other format, the tablespace flags should equal (table->flags & ~(~0 << DICT_TF_BITS)). */ ut_a(flags != DICT_TF_COMPACT); ut_a(!(flags & (~0UL << DICT_TF_BITS))); try_again: /*printf( "InnoDB: Adding tablespace %lu of name %s, purpose %lu\n", id, name, purpose);*/ ut_a(fil_system); ut_a(name); mutex_enter(&fil_system->mutex); space = fil_space_get_by_name(name); if (UNIV_LIKELY_NULL(space)) { ibool success; ulint namesake_id; ut_print_timestamp(stderr); fprintf(stderr, " InnoDB: Warning: trying to init to the" " tablespace memory cache\n" "InnoDB: a tablespace %lu of name ", (ulong) id); ut_print_filename(stderr, name); fprintf(stderr, ",\n" "InnoDB: but a tablespace %lu of the same name\n" "InnoDB: already exists in the" " tablespace memory cache!\n", (ulong) space->id); if (trx_sys_sys_space(id) || purpose != FIL_TABLESPACE) { mutex_exit(&fil_system->mutex); return(FALSE); } fprintf(stderr, "InnoDB: We assume that InnoDB did a crash recovery," " and you had\n" "InnoDB: an .ibd file for which the table" " did not exist in the\n" "InnoDB: InnoDB internal data dictionary in the" " ibdata files.\n" "InnoDB: We assume that you later removed the" " .ibd and .frm files,\n" "InnoDB: and are now trying to recreate the table." " We now remove the\n" "InnoDB: conflicting tablespace object" " from the memory cache and try\n" "InnoDB: the init again.\n"); namesake_id = space->id; success = fil_space_free(namesake_id, FALSE); ut_a(success); mutex_exit(&fil_system->mutex); goto try_again; } space = fil_space_get_by_id(id); if (UNIV_LIKELY_NULL(space)) { fprintf(stderr, "InnoDB: Error: trying to add tablespace %lu" " of name ", (ulong) id); ut_print_filename(stderr, name); fprintf(stderr, "\n" "InnoDB: to the tablespace memory cache," " but tablespace\n" "InnoDB: %lu of name ", (ulong) space->id); ut_print_filename(stderr, space->name); fputs(" already exists in the tablespace\n" "InnoDB: memory cache!\n", stderr); mutex_exit(&fil_system->mutex); return(FALSE); } space = mem_alloc(sizeof(fil_space_t)); space->name = mem_strdup(name); space->id = id; fil_system->tablespace_version++; space->tablespace_version = fil_system->tablespace_version; space->mark = FALSE; if (UNIV_LIKELY(purpose == FIL_TABLESPACE && !recv_recovery_on) && UNIV_UNLIKELY(id < SRV_EXTRA_SYS_SPACE_FIRST_ID) && UNIV_UNLIKELY(id > fil_system->max_assigned_id)) { if (!fil_system->space_id_reuse_warned) { fil_system->space_id_reuse_warned = TRUE; ut_print_timestamp(stderr); fprintf(stderr, " InnoDB: Warning: allocated tablespace %lu," " old maximum was %lu\n", (ulong) id, (ulong) fil_system->max_assigned_id); } fil_system->max_assigned_id = id; } space->stop_ios = FALSE; space->stop_new_ops = FALSE; space->purpose = purpose; space->size = 0; space->flags = flags; space->n_reserved_extents = 0; space->n_pending_flushes = 0; space->n_pending_ops = 0; UT_LIST_INIT(space->chain); space->magic_n = FIL_SPACE_MAGIC_N; rw_lock_create(fil_space_latch_key, &space->latch, SYNC_FSP); HASH_INSERT(fil_space_t, hash, fil_system->spaces, id, space); HASH_INSERT(fil_space_t, name_hash, fil_system->name_hash, ut_fold_string(name), space); space->is_in_unflushed_spaces = FALSE; space->is_corrupt = FALSE; UT_LIST_ADD_LAST(space_list, fil_system->space_list, space); mutex_exit(&fil_system->mutex); return(TRUE); } /*******************************************************************//** Assigns a new space id for a new single-table tablespace. This works simply by incrementing the global counter. If 4 billion id's is not enough, we may need to recycle id's. @return TRUE if assigned, FALSE if not */ UNIV_INTERN ibool fil_assign_new_space_id( /*====================*/ ulint* space_id) /*!< in/out: space id */ { ulint id; ibool success; mutex_enter(&fil_system->mutex); id = *space_id; if (id < fil_system->max_assigned_id) { id = fil_system->max_assigned_id; } id++; if (id > (SRV_LOG_SPACE_FIRST_ID / 2) && (id % 1000000UL == 0)) { ut_print_timestamp(stderr); fprintf(stderr, "InnoDB: Warning: you are running out of new" " single-table tablespace id's.\n" "InnoDB: Current counter is %lu and it" " must not exceed %lu!\n" "InnoDB: To reset the counter to zero" " you have to dump all your tables and\n" "InnoDB: recreate the whole InnoDB installation.\n", (ulong) id, (ulong) SRV_LOG_SPACE_FIRST_ID); } success = (id < SRV_EXTRA_SYS_SPACE_FIRST_ID); if (success) { *space_id = fil_system->max_assigned_id = id; } else { ut_print_timestamp(stderr); fprintf(stderr, "InnoDB: You have run out of single-table" " tablespace id's!\n" "InnoDB: Current counter is %lu.\n" "InnoDB: To reset the counter to zero you" " have to dump all your tables and\n" "InnoDB: recreate the whole InnoDB installation.\n", (ulong) id); *space_id = ULINT_UNDEFINED; } mutex_exit(&fil_system->mutex); return(success); } /*******************************************************************//** Frees a space object from the tablespace memory cache. Closes the files in the chain but does not delete them. There must not be any pending i/o's or flushes on the files. @return TRUE if success */ static ibool fil_space_free( /*===========*/ /* out: TRUE if success */ ulint id, /* in: space id */ ibool x_latched) /* in: TRUE if caller has space->latch in X mode */ { fil_space_t* space; fil_space_t* namespace; fil_node_t* fil_node; ut_ad(mutex_own(&fil_system->mutex)); space = fil_space_get_by_id(id); if (!space) { ut_print_timestamp(stderr); fprintf(stderr, " InnoDB: Error: trying to remove tablespace %lu" " from the cache but\n" "InnoDB: it is not there.\n", (ulong) id); return(FALSE); } HASH_DELETE(fil_space_t, hash, fil_system->spaces, id, space); namespace = fil_space_get_by_name(space->name); ut_a(namespace); ut_a(space == namespace); HASH_DELETE(fil_space_t, name_hash, fil_system->name_hash, ut_fold_string(space->name), space); if (space->is_in_unflushed_spaces) { space->is_in_unflushed_spaces = FALSE; UT_LIST_REMOVE(unflushed_spaces, fil_system->unflushed_spaces, space); } UT_LIST_REMOVE(space_list, fil_system->space_list, space); ut_a(space->magic_n == FIL_SPACE_MAGIC_N); ut_a(0 == space->n_pending_flushes); fil_node = UT_LIST_GET_FIRST(space->chain); while (fil_node != NULL) { fil_node_free(fil_node, fil_system, space); fil_node = UT_LIST_GET_FIRST(space->chain); } ut_a(0 == UT_LIST_GET_LEN(space->chain)); if (x_latched) { rw_lock_x_unlock(&space->latch); } rw_lock_free(&(space->latch)); mem_free(space->name); mem_free(space); return(TRUE); } /*******************************************************************//** Returns the size of the space in pages. The tablespace must be cached in the memory cache. @return space size, 0 if space not found */ UNIV_INTERN ulint fil_space_get_size( /*===============*/ ulint id) /*!< in: space id */ { fil_node_t* node; fil_space_t* space; ulint size; ut_ad(fil_system); mutex_enter(&fil_system->mutex); space = fil_space_get_by_id(id); if (space == NULL) { mutex_exit(&fil_system->mutex); return(0); } if (space->size == 0 && space->purpose == FIL_TABLESPACE) { ut_a(id != 0); ut_a(1 == UT_LIST_GET_LEN(space->chain)); mutex_exit(&fil_system->mutex); /* It is possible that the space gets evicted at this point before the fil_mutex_enter_and_prepare_for_io() acquires the fil_system->mutex. Check for this after completing the call to fil_mutex_enter_and_prepare_for_io(). */ fil_mutex_enter_and_prepare_for_io(id); /* We are still holding the fil_system->mutex. Check if the space is still in memory cache. */ space = fil_space_get_by_id(id); if (space == NULL) { mutex_exit(&fil_system->mutex); return(0); } node = UT_LIST_GET_FIRST(space->chain); /* It must be a single-table tablespace and we have not opened the file yet; the following calls will open it and update the size fields */ fil_node_prepare_for_io(node, fil_system, space); fil_node_complete_io(node, fil_system, OS_FILE_READ); } size = space->size; mutex_exit(&fil_system->mutex); return(size); } /*******************************************************************//** Returns the flags of the space. The tablespace must be cached in the memory cache. @return flags, ULINT_UNDEFINED if space not found */ UNIV_INTERN ulint fil_space_get_flags( /*================*/ ulint id) /*!< in: space id */ { fil_node_t* node; fil_space_t* space; ulint flags; ut_ad(fil_system); if (UNIV_UNLIKELY(!id)) { return(0); } mutex_enter(&fil_system->mutex); space = fil_space_get_by_id(id); if (space == NULL) { mutex_exit(&fil_system->mutex); return(ULINT_UNDEFINED); } if (space->size == 0 && space->purpose == FIL_TABLESPACE) { ut_a(id != 0); ut_a(1 == UT_LIST_GET_LEN(space->chain)); mutex_exit(&fil_system->mutex); /* It is possible that the space gets evicted at this point before the fil_mutex_enter_and_prepare_for_io() acquires the fil_system->mutex. Check for this after completing the call to fil_mutex_enter_and_prepare_for_io(). */ fil_mutex_enter_and_prepare_for_io(id); /* We are still holding the fil_system->mutex. Check if the space is still in memory cache. */ space = fil_space_get_by_id(id); if (space == NULL) { mutex_exit(&fil_system->mutex); return(0); } node = UT_LIST_GET_FIRST(space->chain); /* It must be a single-table tablespace and we have not opened the file yet; the following calls will open it and update the size fields */ fil_node_prepare_for_io(node, fil_system, space); fil_node_complete_io(node, fil_system, OS_FILE_READ); } flags = space->flags; mutex_exit(&fil_system->mutex); return(flags); } /*******************************************************************//** Returns the compressed page size of the space, or 0 if the space is not compressed. The tablespace must be cached in the memory cache. @return compressed page size, ULINT_UNDEFINED if space not found */ UNIV_INTERN ulint fil_space_get_zip_size( /*===================*/ ulint id) /*!< in: space id */ { ulint flags; flags = fil_space_get_flags(id); if (flags && flags != ULINT_UNDEFINED) { return(dict_table_flags_to_zip_size(flags)); } return(flags); } /*******************************************************************//** Checks if the pair space, page_no refers to an existing page in a tablespace file space. The tablespace must be cached in the memory cache. @return TRUE if the address is meaningful */ UNIV_INTERN ibool fil_check_adress_in_tablespace( /*===========================*/ ulint id, /*!< in: space id */ ulint page_no)/*!< in: page number */ { if (fil_space_get_size(id) > page_no) { return(TRUE); } return(FALSE); } /****************************************************************//** Initializes the tablespace memory cache. */ UNIV_INTERN void fil_init( /*=====*/ ulint hash_size, /*!< in: hash table size */ ulint max_n_open) /*!< in: max number of open files */ { ut_a(fil_system == NULL); ut_a(hash_size > 0); ut_a(max_n_open > 0); fil_system = mem_zalloc(sizeof(fil_system_t)); mutex_create(fil_system_mutex_key, &fil_system->mutex, SYNC_ANY_LATCH); mutex_create(fil_system_mutex_key, &fil_system->file_extend_mutex, SYNC_OUTER_ANY_LATCH); fil_system->spaces = hash_create(hash_size); fil_system->name_hash = hash_create(hash_size); UT_LIST_INIT(fil_system->LRU); fil_system->max_n_open = max_n_open; fil_system->max_assigned_id = TRX_SYS_SPACE_MAX; } /*******************************************************************//** Opens all log files and system tablespace data files. They stay open until the database server shutdown. This should be called at a server startup after the space objects for the log and the system tablespace have been created. The purpose of this operation is to make sure we never run out of file descriptors if we need to read from the insert buffer or to write to the log. */ UNIV_INTERN void fil_open_log_and_system_tablespace_files(void) /*==========================================*/ { fil_space_t* space; fil_node_t* node; mutex_enter(&fil_system->mutex); space = UT_LIST_GET_FIRST(fil_system->space_list); while (space != NULL) { if (space->purpose != FIL_TABLESPACE || trx_sys_sys_space(space->id)) { node = UT_LIST_GET_FIRST(space->chain); while (node != NULL) { if (!node->open) { fil_node_open_file(node, fil_system, space); } if (fil_system->max_n_open < 10 + fil_system->n_open) { fprintf(stderr, "InnoDB: Warning: you must" " raise the value of" " innodb_open_files in\n" "InnoDB: my.cnf! Remember that" " InnoDB keeps all log files" " and all system\n" "InnoDB: tablespace files open" " for the whole time mysqld is" " running, and\n" "InnoDB: needs to open also" " some .ibd files if the" " file-per-table storage\n" "InnoDB: model is used." " Current open files %lu," " max allowed" " open files %lu.\n", (ulong) fil_system->n_open, (ulong) fil_system->max_n_open); } node = UT_LIST_GET_NEXT(chain, node); } } space = UT_LIST_GET_NEXT(space_list, space); } mutex_exit(&fil_system->mutex); } /*******************************************************************//** Closes all open files. There must not be any pending i/o's or not flushed modifications in the files. */ UNIV_INTERN void fil_close_all_files(void) /*=====================*/ { fil_space_t* space; mutex_enter(&fil_system->mutex); space = UT_LIST_GET_FIRST(fil_system->space_list); while (space != NULL) { fil_node_t* node; fil_space_t* prev_space = space; for (node = UT_LIST_GET_FIRST(space->chain); node != NULL; node = UT_LIST_GET_NEXT(chain, node)) { if (node->open) { fil_node_close_file(node, fil_system); } } space = UT_LIST_GET_NEXT(space_list, space); fil_space_free(prev_space->id, FALSE); } mutex_exit(&fil_system->mutex); } /*******************************************************************//** Sets the max tablespace id counter if the given number is bigger than the previous value. */ UNIV_INTERN void fil_set_max_space_id_if_bigger( /*===========================*/ ulint max_id) /*!< in: maximum known id */ { if (max_id >= SRV_LOG_SPACE_FIRST_ID) { fprintf(stderr, "InnoDB: Fatal error: max tablespace id" " is too high, %lu\n", (ulong) max_id); ut_error; } if (max_id >= SRV_EXTRA_SYS_SPACE_FIRST_ID) { return; } mutex_enter(&fil_system->mutex); if (fil_system->max_assigned_id < max_id) { fil_system->max_assigned_id = max_id; } mutex_exit(&fil_system->mutex); } /****************************************************************//** Writes the flushed lsn and the latest archived log number to the page header of the first page of a data file of the system tablespace (space 0), which is uncompressed. */ static ulint fil_write_lsn_and_arch_no_to_file( /*==============================*/ ulint space_id, ulint sum_of_sizes, /*!< in: combined size of previous files in space, in database pages */ ib_uint64_t lsn, /*!< in: lsn to write */ ulint arch_log_no __attribute__((unused))) /*!< in: archived log number to write */ { byte* buf1; byte* buf; ut_a(trx_sys_sys_space(space_id)); buf1 = mem_alloc(2 * UNIV_PAGE_SIZE); buf = ut_align(buf1, UNIV_PAGE_SIZE); fil_read(TRUE, space_id, 0, sum_of_sizes, 0, UNIV_PAGE_SIZE, buf, NULL); mach_write_to_8(buf + FIL_PAGE_FILE_FLUSH_LSN, lsn); fil_write(TRUE, space_id, 0, sum_of_sizes, 0, UNIV_PAGE_SIZE, buf, NULL); mem_free(buf1); return(DB_SUCCESS); } /****************************************************************//** Writes the flushed lsn and the latest archived log number to the page header of the first page of each data file in the system tablespace. @return DB_SUCCESS or error number */ UNIV_INTERN ulint fil_write_flushed_lsn_to_data_files( /*================================*/ ib_uint64_t lsn, /*!< in: lsn to write */ ulint arch_log_no) /*!< in: latest archived log file number */ { fil_space_t* space; fil_node_t* node; ulint sum_of_sizes; ulint err; mutex_enter(&fil_system->mutex); space = UT_LIST_GET_FIRST(fil_system->space_list); while (space) { /* We only write the lsn to all existing data files which have been open during the lifetime of the mysqld process; they are represented by the space objects in the tablespace memory cache. Note that all data files in the system tablespace 0 are always open. */ if (space->purpose == FIL_TABLESPACE && trx_sys_sys_space(space->id)) { sum_of_sizes = 0; node = UT_LIST_GET_FIRST(space->chain); while (node) { mutex_exit(&fil_system->mutex); err = fil_write_lsn_and_arch_no_to_file( space->id, sum_of_sizes, lsn, arch_log_no); if (err != DB_SUCCESS) { return(err); } mutex_enter(&fil_system->mutex); sum_of_sizes += node->size; node = UT_LIST_GET_NEXT(chain, node); } } space = UT_LIST_GET_NEXT(space_list, space); } mutex_exit(&fil_system->mutex); return(DB_SUCCESS); } /*******************************************************************//** Checks the consistency of the first data page of a tablespace at database startup. @retval NULL on success, or if innodb_force_recovery is set @return pointer to an error message string */ static __attribute__((warn_unused_result)) const char* fil_check_first_page( /*=================*/ const page_t* page) /*!< in: data page */ { ulint space_id; ulint flags; if (srv_force_recovery >= SRV_FORCE_IGNORE_CORRUPT) { return(NULL); } space_id = mach_read_from_4(FSP_HEADER_OFFSET + FSP_SPACE_ID + page); flags = mach_read_from_4(FSP_HEADER_OFFSET + FSP_SPACE_FLAGS + page); if (!space_id && !flags) { ulint nonzero_bytes = UNIV_PAGE_SIZE; const byte* b = page; while (!*b && --nonzero_bytes) { b++; } if (!nonzero_bytes) { return("space header page consists of zero bytes"); } } if (buf_page_is_corrupted( FALSE, page, dict_table_flags_to_zip_size(flags))) { return("checksum mismatch"); } if (page_get_space_id(page) == space_id && page_get_page_no(page) == 0) { return(NULL); } return("inconsistent data in space header"); } /*******************************************************************//** Reads the flushed lsn, arch no, and tablespace flag fields from a data file at database startup. @retval NULL on success, or if innodb_force_recovery is set @return pointer to an error message string */ UNIV_INTERN const char* fil_read_first_page( /*================*/ os_file_t data_file, /*!< in: open data file */ ibool one_read_already, /*!< in: TRUE if min and max parameters below already contain sensible data */ ulint* flags, /*!< out: tablespace flags */ #ifdef UNIV_LOG_ARCHIVE ulint* min_arch_log_no, /*!< out: min of archived log numbers in data files */ ulint* max_arch_log_no, /*!< out: max of archived log numbers in data files */ #endif /* UNIV_LOG_ARCHIVE */ ib_uint64_t* min_flushed_lsn, /*!< out: min of flushed lsn values in data files */ ib_uint64_t* max_flushed_lsn) /*!< out: max of flushed lsn values in data files */ { byte* buf; page_t* page; ib_uint64_t flushed_lsn; const char* check_msg = NULL; buf = ut_malloc(2 * UNIV_PAGE_SIZE); /* Align the memory for a possible read from a raw device */ page = ut_align(buf, UNIV_PAGE_SIZE); os_file_read(data_file, page, 0, 0, UNIV_PAGE_SIZE); *flags = mach_read_from_4(FSP_HEADER_OFFSET + FSP_SPACE_FLAGS + page); flushed_lsn = mach_read_from_8(page + FIL_PAGE_FILE_FLUSH_LSN); if (!one_read_already) { check_msg = fil_check_first_page(page); } ut_free(buf); if (check_msg) { return(check_msg); } if (!one_read_already) { *min_flushed_lsn = flushed_lsn; *max_flushed_lsn = flushed_lsn; #ifdef UNIV_LOG_ARCHIVE *min_arch_log_no = arch_log_no; *max_arch_log_no = arch_log_no; #endif /* UNIV_LOG_ARCHIVE */ return(NULL); } if (*min_flushed_lsn > flushed_lsn) { *min_flushed_lsn = flushed_lsn; } if (*max_flushed_lsn < flushed_lsn) { *max_flushed_lsn = flushed_lsn; } #ifdef UNIV_LOG_ARCHIVE if (*min_arch_log_no > arch_log_no) { *min_arch_log_no = arch_log_no; } if (*max_arch_log_no < arch_log_no) { *max_arch_log_no = arch_log_no; } #endif /* UNIV_LOG_ARCHIVE */ return(NULL); } /*================ SINGLE-TABLE TABLESPACES ==========================*/ #ifndef UNIV_HOTBACKUP /*******************************************************************//** Increments the count of pending operation, if space is not being deleted. @return TRUE if being deleted, and operation should be skipped */ UNIV_INTERN ibool fil_inc_pending_ops( /*================*/ ulint id) /*!< in: space id */ { fil_space_t* space; mutex_enter(&fil_system->mutex); space = fil_space_get_by_id(id); if (space == NULL) { fprintf(stderr, "InnoDB: Error: trying to do an operation on a" " dropped tablespace %lu\n", (ulong) id); } if (space == NULL || space->stop_new_ops) { mutex_exit(&fil_system->mutex); return(TRUE); } space->n_pending_ops++; mutex_exit(&fil_system->mutex); return(FALSE); } /*******************************************************************//** Decrements the count of pending operations. */ UNIV_INTERN void fil_decr_pending_ops( /*=================*/ ulint id) /*!< in: space id */ { fil_space_t* space; mutex_enter(&fil_system->mutex); space = fil_space_get_by_id(id); if (space == NULL) { fprintf(stderr, "InnoDB: Error: decrementing pending operation" " of a dropped tablespace %lu\n", (ulong) id); } if (space != NULL) { space->n_pending_ops--; } mutex_exit(&fil_system->mutex); } #endif /* !UNIV_HOTBACKUP */ /********************************************************//** Creates the database directory for a table if it does not exist yet. */ static void fil_create_directory_for_tablename( /*===============================*/ const char* name) /*!< in: name in the standard 'databasename/tablename' format */ { const char* namend; char* path; ulint len; len = strlen(fil_path_to_mysql_datadir); namend = strchr(name, '/'); ut_a(namend); path = mem_alloc(len + (namend - name) + 2); memcpy(path, fil_path_to_mysql_datadir, len); path[len] = '/'; memcpy(path + len + 1, name, namend - name); path[len + (namend - name) + 1] = 0; srv_normalize_path_for_win(path); ut_a(os_file_create_directory(path, FALSE)); mem_free(path); } #ifndef UNIV_HOTBACKUP /********************************************************//** Writes a log record about an .ibd file create/rename/delete. */ static void fil_op_write_log( /*=============*/ ulint type, /*!< in: MLOG_FILE_CREATE, MLOG_FILE_CREATE2, MLOG_FILE_DELETE, or MLOG_FILE_RENAME */ ulint space_id, /*!< in: space id */ ulint log_flags, /*!< in: redo log flags (stored in the page number field) */ ulint flags, /*!< in: compressed page size and file format if type==MLOG_FILE_CREATE2, or 0 */ const char* name, /*!< in: table name in the familiar 'databasename/tablename' format, or the file path in the case of MLOG_FILE_DELETE */ const char* new_name, /*!< in: if type is MLOG_FILE_RENAME, the new table name in the 'databasename/tablename' format */ mtr_t* mtr) /*!< in: mini-transaction handle */ { byte* log_ptr; ulint len; log_ptr = mlog_open(mtr, 11 + 2 + 1); if (!log_ptr) { /* Logging in mtr is switched off during crash recovery: in that case mlog_open returns NULL */ return; } log_ptr = mlog_write_initial_log_record_for_file_op( type, space_id, log_flags, log_ptr, mtr); if (type == MLOG_FILE_CREATE2) { mach_write_to_4(log_ptr, flags); log_ptr += 4; } /* Let us store the strings as null-terminated for easier readability and handling */ len = strlen(name) + 1; mach_write_to_2(log_ptr, len); log_ptr += 2; mlog_close(mtr, log_ptr); mlog_catenate_string(mtr, (byte*) name, len); if (type == MLOG_FILE_RENAME) { len = strlen(new_name) + 1; log_ptr = mlog_open(mtr, 2 + len); ut_a(log_ptr); mach_write_to_2(log_ptr, len); log_ptr += 2; mlog_close(mtr, log_ptr); mlog_catenate_string(mtr, (byte*) new_name, len); } } #endif /*******************************************************************//** Parses the body of a log record written about an .ibd file operation. That is, the log record part after the standard (type, space id, page no) header of the log record. If desired, also replays the delete or rename operation if the .ibd file exists and the space id in it matches. Replays the create operation if a file at that path does not exist yet. If the database directory for the file to be created does not exist, then we create the directory, too. Note that ibbackup --apply-log sets fil_path_to_mysql_datadir to point to the datadir that we should use in replaying the file operations. @return end of log record, or NULL if the record was not completely contained between ptr and end_ptr */ UNIV_INTERN byte* fil_op_log_parse_or_replay( /*=======================*/ byte* ptr, /*!< in: buffer containing the log record body, or an initial segment of it, if the record does not fir completely between ptr and end_ptr */ byte* end_ptr, /*!< in: buffer end */ ulint type, /*!< in: the type of this log record */ ulint space_id, /*!< in: the space id of the tablespace in question, or 0 if the log record should only be parsed but not replayed */ ulint log_flags) /*!< in: redo log flags (stored in the page number parameter) */ { ulint name_len; ulint new_name_len; const char* name; const char* new_name = NULL; ulint flags = 0; if (type == MLOG_FILE_CREATE2) { if (end_ptr < ptr + 4) { return(NULL); } flags = mach_read_from_4(ptr); ptr += 4; } if (end_ptr < ptr + 2) { return(NULL); } name_len = mach_read_from_2(ptr); ptr += 2; if (end_ptr < ptr + name_len) { return(NULL); } name = (const char*) ptr; ptr += name_len; if (type == MLOG_FILE_RENAME) { if (end_ptr < ptr + 2) { return(NULL); } new_name_len = mach_read_from_2(ptr); ptr += 2; if (end_ptr < ptr + new_name_len) { return(NULL); } new_name = (const char*) ptr; ptr += new_name_len; } /* We managed to parse a full log record body */ /* printf("Parsed log rec of type %lu space %lu\n" "name %s\n", type, space_id, name); if (type == MLOG_FILE_RENAME) { printf("new name %s\n", new_name); } */ if (!space_id) { return(ptr); } /* Let us try to perform the file operation, if sensible. Note that ibbackup has at this stage already read in all space id info to the fil0fil.c data structures. NOTE that our algorithm is not guaranteed to work correctly if there were renames of tables during the backup. See ibbackup code for more on the problem. */ switch (type) { case MLOG_FILE_DELETE: if (fil_tablespace_exists_in_mem(space_id)) { ut_a(fil_delete_tablespace(space_id, TRUE)); } break; case MLOG_FILE_RENAME: /* We do the rename based on space id, not old file name; this should guarantee that after the log replay each .ibd file has the correct name for the latest log sequence number; the proof is left as an exercise :) */ if (fil_tablespace_exists_in_mem(space_id)) { /* Create the database directory for the new name, if it does not exist yet */ fil_create_directory_for_tablename(new_name); /* Rename the table if there is not yet a tablespace with the same name */ if (fil_get_space_id_for_table(new_name) == ULINT_UNDEFINED) { /* We do not care of the old name, that is why we pass NULL as the first argument */ if (!fil_rename_tablespace(NULL, space_id, new_name)) { ut_error; } } } break; case MLOG_FILE_CREATE: case MLOG_FILE_CREATE2: if (fil_tablespace_exists_in_mem(space_id)) { /* Do nothing */ } else if (fil_get_space_id_for_table(name) != ULINT_UNDEFINED) { /* Do nothing */ } else if (log_flags & MLOG_FILE_FLAG_TEMP) { /* Temporary table, do nothing */ } else { /* Create the database directory for name, if it does not exist yet */ fil_create_directory_for_tablename(name); if (fil_create_new_single_table_tablespace( space_id, name, FALSE, flags, FIL_IBD_FILE_INITIAL_SIZE) != DB_SUCCESS) { ut_error; } } break; default: ut_error; } return(ptr); } /*******************************************************************//** Deletes a single-table tablespace. The tablespace must be cached in the memory cache. @return TRUE if success */ UNIV_INTERN ibool fil_delete_tablespace( /*==================*/ ulint id, /*!< in: space id */ ibool evict_all) /*!< in: TRUE if we want all pages evicted from LRU. */ { ibool success; fil_space_t* space; fil_node_t* node; ulint count = 0; char* path; ut_a(id != 0); stop_new_ops: mutex_enter(&fil_system->mutex); space = fil_space_get_by_id(id); if (space != NULL) { space->stop_new_ops = TRUE; if (space->n_pending_ops == 0) { mutex_exit(&fil_system->mutex); count = 0; goto try_again; } else { if (count > 5000) { ut_print_timestamp(stderr); fputs(" InnoDB: Warning: trying to" " delete tablespace ", stderr); ut_print_filename(stderr, space->name); fprintf(stderr, ",\n" "InnoDB: but there are %lu pending" " operations (most likely ibuf merges)" " on it.\n" "InnoDB: Loop %lu.\n", (ulong) space->n_pending_ops, (ulong) count); } mutex_exit(&fil_system->mutex); os_thread_sleep(20000); count++; goto stop_new_ops; } } mutex_exit(&fil_system->mutex); count = 0; try_again: mutex_enter(&fil_system->mutex); space = fil_space_get_by_id(id); if (space == NULL) { ut_print_timestamp(stderr); fprintf(stderr, " InnoDB: Error: cannot delete tablespace %lu\n" "InnoDB: because it is not found in the" " tablespace memory cache.\n", (ulong) id); mutex_exit(&fil_system->mutex); return(FALSE); } ut_a(space->stop_new_ops); ut_a(space->n_pending_ops == 0); ut_a(UT_LIST_GET_LEN(space->chain) == 1); node = UT_LIST_GET_FIRST(space->chain); if (space->n_pending_flushes > 0 || node->n_pending > 0) { if (count > 1000) { ut_print_timestamp(stderr); fputs(" InnoDB: Warning: trying to" " delete tablespace ", stderr); ut_print_filename(stderr, space->name); fprintf(stderr, ",\n" "InnoDB: but there are %lu flushes" " and %lu pending i/o's on it\n" "InnoDB: Loop %lu.\n", (ulong) space->n_pending_flushes, (ulong) node->n_pending, (ulong) count); } mutex_exit(&fil_system->mutex); os_thread_sleep(20000); count++; goto try_again; } path = mem_strdup(space->name); mutex_exit(&fil_system->mutex); /* Important: We rely on the data dictionary mutex to ensure that a race is not possible here. It should serialize the tablespace drop/free. We acquire an X latch only to avoid a race condition when accessing the tablespace instance via: fsp_get_available_space_in_free_extents(). There our main motivation is to reduce the contention on the dictionary mutex. */ rw_lock_x_lock(&space->latch); #ifndef UNIV_HOTBACKUP /* IMPORTANT: Because we have set space::stop_new_ops there can't be any new ibuf merges, reads or flushes. We are here because node::n_pending was zero above. However, it is still possible to have pending read and write requests: A read request can happen because the reader thread has gone through the ::stop_new_ops check in buf_page_init_for_read() before the flag was set and has not yet incremented ::n_pending when we checked it above. A write request can be issued any time because we don't check the ::stop_new_ops flag when queueing a block for write. We deal with pending write requests in the following function where we'd minimally evict all dirty pages belonging to this space from the flush_list. Not that if a block is IO-fixed we'll wait for IO to complete. To deal with potential read requests by checking the ::stop_new_ops flag in fil_io() */ buf_LRU_flush_or_remove_pages( id, evict_all ? BUF_REMOVE_ALL_NO_WRITE : BUF_REMOVE_FLUSH_NO_WRITE); #endif /* printf("Deleting tablespace %s id %lu\n", space->name, id); */ mutex_enter(&fil_system->mutex); /* Double check the sanity of pending ops after reacquiring the fil_system::mutex. */ if (fil_space_get_by_id(id)) { ut_a(space->n_pending_ops == 0); ut_a(UT_LIST_GET_LEN(space->chain) == 1); node = UT_LIST_GET_FIRST(space->chain); ut_a(node->n_pending == 0); } success = fil_space_free(id, TRUE); mutex_exit(&fil_system->mutex); if (success) { success = os_file_delete(path); if (!success) { success = os_file_delete_if_exists(path); } } else { rw_lock_x_unlock(&space->latch); } if (success) { #ifndef UNIV_HOTBACKUP /* Write a log record about the deletion of the .ibd file, so that ibbackup can replay it in the --apply-log phase. We use a dummy mtr and the familiar log write mechanism. */ mtr_t mtr; /* When replaying the operation in ibbackup, do not try to write any log record */ mtr_start(&mtr); fil_op_write_log(MLOG_FILE_DELETE, id, 0, 0, path, NULL, &mtr); mtr_commit(&mtr); #endif mem_free(path); return(TRUE); } mem_free(path); return(FALSE); } /*******************************************************************//** Returns TRUE if a single-table tablespace is being deleted. @return TRUE if being deleted */ UNIV_INTERN ibool fil_tablespace_is_being_deleted( /*============================*/ ulint id) /*!< in: space id */ { fil_space_t* space; ibool is_being_deleted; mutex_enter(&fil_system->mutex); space = fil_space_get_by_id(id); ut_a(space != NULL); is_being_deleted = space->stop_new_ops; mutex_exit(&fil_system->mutex); return(is_being_deleted); } #ifndef UNIV_HOTBACKUP /*******************************************************************//** Discards a single-table tablespace. The tablespace must be cached in the memory cache. Discarding is like deleting a tablespace, but 1) we do not drop the table from the data dictionary; 2) we remove all insert buffer entries for the tablespace immediately; in DROP TABLE they are only removed gradually in the background; 3) when the user does IMPORT TABLESPACE, the tablespace will have the same id as it originally had. @return TRUE if success */ UNIV_INTERN ibool fil_discard_tablespace( /*===================*/ ulint id) /*!< in: space id */ { ibool success; success = fil_delete_tablespace(id, TRUE); if (!success) { fprintf(stderr, "InnoDB: Warning: cannot delete tablespace %lu" " in DISCARD TABLESPACE.\n" "InnoDB: But let us remove the" " insert buffer entries for this tablespace.\n", (ulong) id); } /* Remove all insert buffer entries for the tablespace */ ibuf_delete_for_discarded_space(id); return(success); } #endif /* !UNIV_HOTBACKUP */ /*******************************************************************//** Renames the memory cache structures of a single-table tablespace. @return TRUE if success */ static ibool fil_rename_tablespace_in_mem( /*=========================*/ fil_space_t* space, /*!< in: tablespace memory object */ fil_node_t* node, /*!< in: file node of that tablespace */ const char* path) /*!< in: new name */ { fil_space_t* space2; const char* old_name = space->name; ut_ad(mutex_own(&fil_system->mutex)); space2 = fil_space_get_by_name(old_name); if (space != space2) { fputs("InnoDB: Error: cannot find ", stderr); ut_print_filename(stderr, old_name); fputs(" in tablespace memory cache\n", stderr); return(FALSE); } space2 = fil_space_get_by_name(path); if (space2 != NULL) { fputs("InnoDB: Error: ", stderr); ut_print_filename(stderr, path); fputs(" is already in tablespace memory cache\n", stderr); return(FALSE); } HASH_DELETE(fil_space_t, name_hash, fil_system->name_hash, ut_fold_string(space->name), space); mem_free(space->name); mem_free(node->name); space->name = mem_strdup(path); node->name = mem_strdup(path); HASH_INSERT(fil_space_t, name_hash, fil_system->name_hash, ut_fold_string(path), space); return(TRUE); } /*******************************************************************//** Allocates a file name for a single-table tablespace. The string must be freed by caller with mem_free(). @return own: file name */ static char* fil_make_ibd_name( /*==============*/ const char* name, /*!< in: table name or a dir path of a TEMPORARY table */ ibool is_temp) /*!< in: TRUE if it is a dir path */ { ulint namelen = strlen(name); ulint dirlen = strlen(fil_path_to_mysql_datadir); char* filename = mem_alloc(namelen + dirlen + sizeof "/.ibd"); if (is_temp) { memcpy(filename, name, namelen); memcpy(filename + namelen, ".ibd", sizeof ".ibd"); } else { memcpy(filename, fil_path_to_mysql_datadir, dirlen); filename[dirlen] = '/'; memcpy(filename + dirlen + 1, name, namelen); memcpy(filename + dirlen + namelen + 1, ".ibd", sizeof ".ibd"); } srv_normalize_path_for_win(filename); return(filename); } /*******************************************************************//** Renames a single-table tablespace. The tablespace must be cached in the tablespace memory cache. @return TRUE if success */ UNIV_INTERN ibool fil_rename_tablespace( /*==================*/ const char* old_name, /*!< in: old table name in the standard databasename/tablename format of InnoDB, or NULL if we do the rename based on the space id only */ ulint id, /*!< in: space id */ const char* new_name) /*!< in: new table name in the standard databasename/tablename format of InnoDB */ { ibool success; fil_space_t* space; fil_node_t* node; ulint count = 0; char* path; ibool old_name_was_specified = TRUE; char* old_path; ut_a(id != 0); if (old_name == NULL) { old_name = "(name not specified)"; old_name_was_specified = FALSE; } retry: count++; if (!(count % 1000)) { ut_print_timestamp(stderr); fputs(" InnoDB: Warning: problems renaming ", stderr); ut_print_filename(stderr, old_name); fputs(" to ", stderr); ut_print_filename(stderr, new_name); fprintf(stderr, ", %lu iterations\n", (ulong) count); } mutex_enter(&fil_system->mutex); space = fil_space_get_by_id(id); if (space == NULL) { fprintf(stderr, "InnoDB: Error: cannot find space id %lu" " in the tablespace memory cache\n" "InnoDB: though the table ", (ulong) id); ut_print_filename(stderr, old_name); fputs(" in a rename operation should have that id\n", stderr); mutex_exit(&fil_system->mutex); return(FALSE); } if (count > 25000) { space->stop_ios = FALSE; mutex_exit(&fil_system->mutex); return(FALSE); } /* We temporarily close the .ibd file because we do not trust that operating systems can rename an open file. For the closing we have to wait until there are no pending i/o's or flushes on the file. */ space->stop_ios = TRUE; ut_a(UT_LIST_GET_LEN(space->chain) == 1); node = UT_LIST_GET_FIRST(space->chain); if (node->n_pending > 0 || node->n_pending_flushes > 0) { /* There are pending i/o's or flushes, sleep for a while and retry */ mutex_exit(&fil_system->mutex); os_thread_sleep(20000); goto retry; } else if (node->modification_counter > node->flush_counter) { /* Flush the space */ mutex_exit(&fil_system->mutex); os_thread_sleep(20000); fil_flush(id, TRUE); goto retry; } else if (node->open) { /* Close the file */ fil_node_close_file(node, fil_system); } /* Check that the old name in the space is right */ if (old_name_was_specified) { old_path = fil_make_ibd_name(old_name, FALSE); ut_a(strcmp(space->name, old_path) == 0); ut_a(strcmp(node->name, old_path) == 0); } else { old_path = mem_strdup(space->name); } /* Rename the tablespace and the node in the memory cache */ path = fil_make_ibd_name(new_name, FALSE); success = fil_rename_tablespace_in_mem(space, node, path); if (success) { success = os_file_rename(innodb_file_data_key, old_path, path); if (!success) { /* We have to revert the changes we made to the tablespace memory cache */ ut_a(fil_rename_tablespace_in_mem(space, node, old_path)); } } mem_free(path); mem_free(old_path); space->stop_ios = FALSE; mutex_exit(&fil_system->mutex); #ifndef UNIV_HOTBACKUP if (success && !recv_recovery_on) { mtr_t mtr; mtr_start(&mtr); fil_op_write_log(MLOG_FILE_RENAME, id, 0, 0, old_name, new_name, &mtr); mtr_commit(&mtr); } #endif return(success); } /*******************************************************************//** Creates a new single-table tablespace to a database directory of MySQL. Database directories are under the 'datadir' of MySQL. The datadir is the directory of a running mysqld program. We can refer to it by simply the path '.'. Tables created with CREATE TEMPORARY TABLE we place in the temp dir of the mysqld server. @return DB_SUCCESS or error code */ UNIV_INTERN ulint fil_create_new_single_table_tablespace( /*===================================*/ ulint space_id, /*!< in: space id */ const char* tablename, /*!< in: the table name in the usual databasename/tablename format of InnoDB, or a dir path to a temp table */ ibool is_temp, /*!< in: TRUE if a table created with CREATE TEMPORARY TABLE */ ulint flags, /*!< in: tablespace flags */ ulint size) /*!< in: the initial size of the tablespace file in pages, must be >= FIL_IBD_FILE_INITIAL_SIZE */ { os_file_t file; ibool ret; ulint err; byte* buf2; byte* page; ibool success; char* path; ut_a(space_id > 0); ut_a(space_id < SRV_LOG_SPACE_FIRST_ID); ut_a(size >= FIL_IBD_FILE_INITIAL_SIZE); /* The tablespace flags (FSP_SPACE_FLAGS) should be 0 for ROW_FORMAT=COMPACT ((table->flags & ~(~0 << DICT_TF_BITS)) == DICT_TF_COMPACT) and ROW_FORMAT=REDUNDANT (table->flags == 0). For any other format, the tablespace flags should equal (table->flags & ~(~0 << DICT_TF_BITS)). */ ut_a(flags != DICT_TF_COMPACT); ut_a(!(flags & (~0UL << DICT_TF_BITS))); path = fil_make_ibd_name(tablename, is_temp); file = os_file_create(innodb_file_data_key, path, OS_FILE_CREATE, OS_FILE_NORMAL, OS_DATA_FILE, &ret); if (ret == FALSE) { ut_print_timestamp(stderr); fputs(" InnoDB: Error creating file ", stderr); ut_print_filename(stderr, path); fputs(".\n", stderr); /* The following call will print an error message */ err = os_file_get_last_error(TRUE); if (err == OS_FILE_ALREADY_EXISTS) { fputs("InnoDB: The file already exists though" " the corresponding table did not\n" "InnoDB: exist in the InnoDB data dictionary." " Have you moved InnoDB\n" "InnoDB: .ibd files around without using the" " SQL commands\n" "InnoDB: DISCARD TABLESPACE and" " IMPORT TABLESPACE, or did\n" "InnoDB: mysqld crash in the middle of" " CREATE TABLE? You can\n" "InnoDB: resolve the problem by" " removing the file ", stderr); ut_print_filename(stderr, path); fputs("\n" "InnoDB: under the 'datadir' of MySQL.\n", stderr); mem_free(path); return(DB_TABLESPACE_ALREADY_EXISTS); } if (err == OS_FILE_DISK_FULL) { mem_free(path); return(DB_OUT_OF_FILE_SPACE); } mem_free(path); return(DB_ERROR); } ret = os_file_set_size(path, file, size * UNIV_PAGE_SIZE, 0); if (!ret) { err = DB_OUT_OF_FILE_SPACE; error_exit: os_file_close(file); error_exit2: os_file_delete(path); mem_free(path); return(err); } /* printf("Creating tablespace %s id %lu\n", path, space_id); */ /* We have to write the space id to the file immediately and flush the file to disk. This is because in crash recovery we must be aware what tablespaces exist and what are their space id's, so that we can apply the log records to the right file. It may take quite a while until buffer pool flush algorithms write anything to the file and flush it to disk. If we would not write here anything, the file would be filled with zeros from the call of os_file_set_size(), until a buffer pool flush would write to it. */ buf2 = ut_malloc(3 * UNIV_PAGE_SIZE); /* Align the memory for file i/o if we might have O_DIRECT set */ page = ut_align(buf2, UNIV_PAGE_SIZE); memset(page, '\0', UNIV_PAGE_SIZE); fsp_header_init_fields(page, space_id, flags); mach_write_to_4(page + FIL_PAGE_ARCH_LOG_NO_OR_SPACE_ID, space_id); if (!(flags & DICT_TF_ZSSIZE_MASK)) { buf_flush_init_for_writing(page, NULL, 0); ret = os_file_write(path, file, page, 0, 0, UNIV_PAGE_SIZE); } else { page_zip_des_t page_zip; ulint zip_size; zip_size = ((PAGE_ZIP_MIN_SIZE >> 1) << ((flags & DICT_TF_ZSSIZE_MASK) >> DICT_TF_ZSSIZE_SHIFT)); page_zip_set_size(&page_zip, zip_size); page_zip.data = page + UNIV_PAGE_SIZE; #ifdef UNIV_DEBUG page_zip.m_start = #endif /* UNIV_DEBUG */ page_zip.m_end = page_zip.m_nonempty = page_zip.n_blobs = 0; buf_flush_init_for_writing(page, &page_zip, 0); ret = os_file_write(path, file, page_zip.data, 0, 0, zip_size); } ut_free(buf2); if (!ret) { fputs("InnoDB: Error: could not write the first page" " to tablespace ", stderr); ut_print_filename(stderr, path); putc('\n', stderr); err = DB_ERROR; goto error_exit; } ret = os_file_flush(file, TRUE); if (!ret) { fputs("InnoDB: Error: file flush of tablespace ", stderr); ut_print_filename(stderr, path); fputs(" failed\n", stderr); err = DB_ERROR; goto error_exit; } os_file_close(file); success = fil_space_create(path, space_id, flags, FIL_TABLESPACE); if (!success) { err = DB_ERROR; goto error_exit2; } fil_node_create(path, size, space_id, FALSE); #ifndef UNIV_HOTBACKUP { mtr_t mtr; mtr_start(&mtr); fil_op_write_log(flags ? MLOG_FILE_CREATE2 : MLOG_FILE_CREATE, space_id, is_temp ? MLOG_FILE_FLAG_TEMP : 0, flags, tablename, NULL, &mtr); mtr_commit(&mtr); } #endif mem_free(path); return(DB_SUCCESS); } #ifndef UNIV_HOTBACKUP /********************************************************************//** It is possible, though very improbable, that the lsn's in the tablespace to be imported have risen above the current system lsn, if a lengthy purge, ibuf merge, or rollback was performed on a backup taken with ibbackup. If that is the case, reset page lsn's in the file. We assume that mysqld was shut down after it performed these cleanup operations on the .ibd file, so that it at the shutdown stamped the latest lsn to the FIL_PAGE_FILE_FLUSH_LSN in the first page of the .ibd file, and we can determine whether we need to reset the lsn's just by looking at that flush lsn. @return TRUE if success */ UNIV_INTERN ibool fil_reset_too_high_lsns( /*====================*/ const char* name, /*!< in: table name in the databasename/tablename format */ ib_uint64_t current_lsn) /*!< in: reset lsn's if the lsn stamped to FIL_PAGE_FILE_FLUSH_LSN in the first page is too high */ { os_file_t file; char* filepath; byte* page; byte* buf2; ib_uint64_t flush_lsn; ulint space_id; ib_int64_t file_size; ib_int64_t offset; ulint zip_size; ibool success; page_zip_des_t page_zip; filepath = fil_make_ibd_name(name, FALSE); file = os_file_create_simple_no_error_handling( innodb_file_data_key, filepath, OS_FILE_OPEN, OS_FILE_READ_WRITE, &success); if (!success) { /* The following call prints an error message */ os_file_get_last_error(TRUE); ut_print_timestamp(stderr); fputs(" InnoDB: Error: trying to open a table," " but could not\n" "InnoDB: open the tablespace file ", stderr); ut_print_filename(stderr, filepath); fputs("!\n", stderr); mem_free(filepath); return(FALSE); } /* Read the first page of the tablespace */ buf2 = ut_malloc(3 * UNIV_PAGE_SIZE); /* Align the memory for file i/o if we might have O_DIRECT set */ page = ut_align(buf2, UNIV_PAGE_SIZE); success = os_file_read(file, page, 0, 0, UNIV_PAGE_SIZE); if (!success) { goto func_exit; } /* We have to read the file flush lsn from the header of the file */ flush_lsn = mach_read_from_8(page + FIL_PAGE_FILE_FLUSH_LSN); if (current_lsn >= flush_lsn) { /* Ok */ success = TRUE; goto func_exit; } space_id = fsp_header_get_space_id(page); zip_size = fsp_header_get_zip_size(page); page_zip_des_init(&page_zip); page_zip_set_size(&page_zip, zip_size); if (zip_size) { page_zip.data = page + UNIV_PAGE_SIZE; } ut_print_timestamp(stderr); fprintf(stderr, " InnoDB: Flush lsn in the tablespace file %lu" " to be imported\n" "InnoDB: is %llu, which exceeds current" " system lsn %llu.\n" "InnoDB: We reset the lsn's in the file ", (ulong) space_id, flush_lsn, current_lsn); ut_print_filename(stderr, filepath); fputs(".\n", stderr); ut_a(ut_is_2pow(zip_size)); ut_a(zip_size <= UNIV_PAGE_SIZE); /* Loop through all the pages in the tablespace and reset the lsn and the page checksum if necessary */ file_size = os_file_get_size_as_iblonglong(file); for (offset = 0; offset < file_size; offset += zip_size ? zip_size : UNIV_PAGE_SIZE) { success = os_file_read(file, page, (ulint)(offset & 0xFFFFFFFFUL), (ulint)(offset >> 32), zip_size ? zip_size : UNIV_PAGE_SIZE); if (!success) { goto func_exit; } if (mach_read_from_8(page + FIL_PAGE_LSN) > current_lsn) { /* We have to reset the lsn */ if (zip_size) { memcpy(page_zip.data, page, zip_size); buf_flush_init_for_writing( page, &page_zip, current_lsn); success = os_file_write( filepath, file, page_zip.data, (ulint) offset & 0xFFFFFFFFUL, (ulint) (offset >> 32), zip_size); } else { buf_flush_init_for_writing( page, NULL, current_lsn); success = os_file_write( filepath, file, page, (ulint)(offset & 0xFFFFFFFFUL), (ulint)(offset >> 32), UNIV_PAGE_SIZE); } if (!success) { goto func_exit; } } } success = os_file_flush(file, TRUE); if (!success) { goto func_exit; } /* We now update the flush_lsn stamp at the start of the file */ success = os_file_read(file, page, 0, 0, zip_size ? zip_size : UNIV_PAGE_SIZE); if (!success) { goto func_exit; } mach_write_to_8(page + FIL_PAGE_FILE_FLUSH_LSN, current_lsn); success = os_file_write(filepath, file, page, 0, 0, zip_size ? zip_size : UNIV_PAGE_SIZE); if (!success) { goto func_exit; } success = os_file_flush(file, TRUE); func_exit: os_file_close(file); ut_free(buf2); mem_free(filepath); return(success); } /********************************************************************//** Checks if a page is corrupt. (for offline page) */ static ibool fil_page_buf_page_is_corrupted_offline( /*===================================*/ const byte* page, /*!< in: a database page */ ulint zip_size) /*!< in: size of compressed page; 0 for uncompressed pages */ { ulint checksum_field; ulint old_checksum_field; if (!zip_size && memcmp(page + FIL_PAGE_LSN + 4, page + UNIV_PAGE_SIZE - FIL_PAGE_END_LSN_OLD_CHKSUM + 4, 4)) { return(TRUE); } checksum_field = mach_read_from_4(page + FIL_PAGE_SPACE_OR_CHKSUM); if (zip_size) { return(checksum_field != BUF_NO_CHECKSUM_MAGIC && checksum_field != page_zip_calc_checksum(page, zip_size)); } old_checksum_field = mach_read_from_4( page + UNIV_PAGE_SIZE - FIL_PAGE_END_LSN_OLD_CHKSUM); if (old_checksum_field != mach_read_from_4(page + FIL_PAGE_LSN) && old_checksum_field != BUF_NO_CHECKSUM_MAGIC && old_checksum_field != buf_calc_page_old_checksum(page)) { return(TRUE); } if (!srv_fast_checksum && checksum_field != 0 && checksum_field != BUF_NO_CHECKSUM_MAGIC && checksum_field != buf_calc_page_new_checksum(page)) { return(TRUE); } if (srv_fast_checksum && checksum_field != 0 && checksum_field != BUF_NO_CHECKSUM_MAGIC && checksum_field != buf_calc_page_new_checksum_32(page) && checksum_field != buf_calc_page_new_checksum(page)) { return(TRUE); } return(FALSE); } /********************************************************************//** */ static void fil_page_buf_page_store_checksum( /*=============================*/ byte* page, ulint zip_size) { if (!zip_size) { mach_write_to_4(page + FIL_PAGE_SPACE_OR_CHKSUM, srv_use_checksums ? (!srv_fast_checksum ? buf_calc_page_new_checksum(page) : buf_calc_page_new_checksum_32(page)) : BUF_NO_CHECKSUM_MAGIC); mach_write_to_4(page + UNIV_PAGE_SIZE - FIL_PAGE_END_LSN_OLD_CHKSUM, srv_use_checksums ? buf_calc_page_old_checksum(page) : BUF_NO_CHECKSUM_MAGIC); } else { mach_write_to_4(page + FIL_PAGE_SPACE_OR_CHKSUM, srv_use_checksums ? page_zip_calc_checksum(page, zip_size) : BUF_NO_CHECKSUM_MAGIC); } } /********************************************************************//** Tries to open a single-table tablespace and optionally checks the space id is right in it. If does not succeed, prints an error message to the .err log. This function is used to open a tablespace when we start up mysqld, and also in IMPORT TABLESPACE. NOTE that we assume this operation is used either at the database startup or under the protection of the dictionary mutex, so that two users cannot race here. This operation does not leave the file associated with the tablespace open, but closes it after we have looked at the space id in it. @return TRUE if success */ UNIV_INTERN ibool fil_open_single_table_tablespace( /*=============================*/ ibool check_space_id, /*!< in: should we check that the space id in the file is right; we assume that this function runs much faster if no check is made, since accessing the file inode probably is much faster (the OS caches them) than accessing the first page of the file */ ulint id, /*!< in: space id */ ulint flags, /*!< in: tablespace flags */ const char* name, /*!< in: table name in the databasename/tablename format */ trx_t* trx) /*!< in: transaction. This is only used for IMPORT TABLESPACE, must be NULL otherwise */ { os_file_t file; char* filepath; ibool success; const char* check_msg; byte* buf2; byte* page; ulint space_id; ulint space_flags; filepath = fil_make_ibd_name(name, FALSE); /* The tablespace flags (FSP_SPACE_FLAGS) should be 0 for ROW_FORMAT=COMPACT ((table->flags & ~(~0 << DICT_TF_BITS)) == DICT_TF_COMPACT) and ROW_FORMAT=REDUNDANT (table->flags == 0). For any other format, the tablespace flags should equal (table->flags & ~(~0 << DICT_TF_BITS)). */ ut_a(flags != DICT_TF_COMPACT); ut_a(!(flags & (~0UL << DICT_TF_BITS))); file = os_file_create_simple_no_error_handling( innodb_file_data_key, filepath, OS_FILE_OPEN, OS_FILE_READ_WRITE, &success); if (!success) { /* The following call prints an error message */ os_file_get_last_error(TRUE); ut_print_timestamp(stderr); fputs(" InnoDB: Error: trying to open a table," " but could not\n" "InnoDB: open the tablespace file ", stderr); ut_print_filename(stderr, filepath); fputs("!\n" "InnoDB: Have you moved InnoDB .ibd files around" " without using the\n" "InnoDB: commands DISCARD TABLESPACE and" " IMPORT TABLESPACE?\n" "InnoDB: It is also possible that this is" " a temporary table #sql...,\n" "InnoDB: and MySQL removed the .ibd file for this.\n" "InnoDB: Please refer to\n" "InnoDB: " REFMAN "innodb-troubleshooting-datadict.html\n" "InnoDB: for how to resolve the issue.\n", stderr); mem_free(filepath); return(FALSE); } if (!check_space_id) { space_id = id; goto skip_check; } /* Read the first page of the tablespace */ buf2 = ut_malloc(2 * UNIV_PAGE_SIZE); /* Align the memory for file i/o if we might have O_DIRECT set */ page = ut_align(buf2, UNIV_PAGE_SIZE); success = os_file_read(file, page, 0, 0, UNIV_PAGE_SIZE); check_msg = fil_check_first_page(page); /* We have to read the tablespace id and flags from the file. */ space_id = fsp_header_get_space_id(page); space_flags = fsp_header_get_flags(page); if (srv_expand_import) { ibool file_is_corrupt = FALSE; byte* buf3; byte* descr_page; ibool descr_is_corrupt = FALSE; index_id_t old_id[31]; index_id_t new_id[31]; ulint root_page[31]; ulint n_index; os_file_t info_file = (os_file_t) -1; char* info_file_path; ulint i; int len; ib_uint64_t current_lsn; ulint size_low, size_high, size, free_limit; ib_int64_t size_bytes, free_limit_bytes; dict_table_t* table; dict_index_t* index; fil_system_t* system; fil_node_t* node = NULL; fil_space_t* space; ulint zip_size; buf3 = ut_malloc(2 * UNIV_PAGE_SIZE); descr_page = ut_align(buf3, UNIV_PAGE_SIZE); current_lsn = log_get_lsn(); /* check the header page's consistency */ if (buf_page_is_corrupted(TRUE, page, dict_table_flags_to_zip_size(space_flags))) { fprintf(stderr, "InnoDB: page 0 of %s seems corrupt.\n", filepath); file_is_corrupt = TRUE; descr_is_corrupt = TRUE; } /* store as first descr page */ memcpy(descr_page, page, UNIV_PAGE_SIZE); zip_size = dict_table_flags_to_zip_size(flags); ut_a(zip_size == dict_table_flags_to_zip_size(space_flags)); /* get free limit (page number) of the table space */ /* these should be same to the definition in fsp0fsp.c */ #define FSP_HEADER_OFFSET FIL_PAGE_DATA #define FSP_FREE_LIMIT 12 free_limit = mach_read_from_4(FSP_HEADER_OFFSET + FSP_FREE_LIMIT + page); free_limit_bytes = (ib_int64_t)free_limit * (ib_int64_t)(zip_size ? zip_size : UNIV_PAGE_SIZE); /* overwrite fsp header */ fsp_header_init_fields(page, id, flags); mach_write_to_4(page + FIL_PAGE_ARCH_LOG_NO_OR_SPACE_ID, id); space_id = id; space_flags = flags; if (mach_read_from_8(page + FIL_PAGE_FILE_FLUSH_LSN) > current_lsn) mach_write_to_8(page + FIL_PAGE_FILE_FLUSH_LSN, current_lsn); fil_page_buf_page_store_checksum(page, zip_size); success = os_file_write(filepath, file, page, 0, 0, UNIV_PAGE_SIZE); /* get file size */ os_file_get_size(file, &size_low, &size_high); size_bytes = (((ib_int64_t)size_high) << 32) + (ib_int64_t)size_low; if (size_bytes < free_limit_bytes) { free_limit_bytes = size_bytes; if (size_bytes >= (lint)FSP_EXTENT_SIZE * (lint)(zip_size ? zip_size : UNIV_PAGE_SIZE)) { fprintf(stderr, "InnoDB: free limit of %s is larger than its real size.\n", filepath); file_is_corrupt = TRUE; } } /* get cruster index information */ table = dict_table_get_low(name, DICT_ERR_IGNORE_NONE); index = dict_table_get_first_index(table); ut_a(index->page==3); /* read metadata from .exp file */ n_index = 0; memset(old_id, 0, sizeof(old_id)); memset(new_id, 0, sizeof(new_id)); memset(root_page, 0, sizeof(root_page)); info_file_path = fil_make_ibd_name(name, FALSE); len = strlen(info_file_path); info_file_path[len - 3] = 'e'; info_file_path[len - 2] = 'x'; info_file_path[len - 1] = 'p'; info_file = os_file_create_simple_no_error_handling(innodb_file_data_key, info_file_path, OS_FILE_OPEN, OS_FILE_READ_ONLY, &success); if (!success) { fprintf(stderr, "InnoDB: Cannot open the file: %s\n", info_file_path); file_is_corrupt = TRUE; goto skip_info; } success = os_file_read(info_file, page, 0, 0, UNIV_PAGE_SIZE); if (!success) { fprintf(stderr, "InnoDB: Cannot read the file: %s\n", info_file_path); file_is_corrupt = TRUE; goto skip_info; } if (mach_read_from_4(page) != 0x78706f72UL || mach_read_from_4(page + 4) != 0x74696e66UL) { fprintf(stderr, "InnoDB: %s seems to be an incorrect .exp file.\n", info_file_path); file_is_corrupt = TRUE; goto skip_info; } fprintf(stderr, "InnoDB: Import: The extended import of %s is being started.\n", name); n_index = mach_read_from_4(page + 8); fprintf(stderr, "InnoDB: Import: %lu indexes have been detected.\n", (ulong)n_index); for (i = 0; i < n_index; i++) { new_id[i] = dict_table_get_index_on_name(table, (char*)(page + (i + 1) * 512 + 12))->id; old_id[i] = mach_read_from_8(page + (i + 1) * 512); root_page[i] = mach_read_from_4(page + (i + 1) * 512 + 8); } skip_info: if (info_file != (os_file_t) -1) os_file_close(info_file); /* if (size_bytes >= 1024 * 1024) { size_bytes = ut_2pow_round(size_bytes, 1024 * 1024); } */ if (zip_size) { fprintf(stderr, "InnoDB: Warning: importing compressed table is still EXPERIMENTAL, currently.\n"); } { mem_heap_t* heap = NULL; ulint offsets_[REC_OFFS_NORMAL_SIZE]; ulint* offsets = offsets_; ib_int64_t offset; size = (ulint) (size_bytes / (zip_size ? zip_size : UNIV_PAGE_SIZE)); /* over write space id of all pages */ rec_offs_init(offsets_); /* Unlock the data dictionary to not block queries accessing other tables */ ut_a(trx); row_mysql_unlock_data_dictionary(trx); fprintf(stderr, "InnoDB: Progress in %%:"); for (offset = 0; offset < free_limit_bytes; offset += zip_size ? zip_size : UNIV_PAGE_SIZE) { ibool page_is_corrupt; ibool is_descr_page = FALSE; success = os_file_read(file, page, (ulint)(offset & 0xFFFFFFFFUL), (ulint)(offset >> 32), zip_size ? zip_size : UNIV_PAGE_SIZE); page_is_corrupt = FALSE; /* check consistency */ if (fil_page_buf_page_is_corrupted_offline(page, zip_size)) { page_is_corrupt = TRUE; } if (mach_read_from_4(page + FIL_PAGE_OFFSET) != offset / (zip_size ? zip_size : UNIV_PAGE_SIZE)) { page_is_corrupt = TRUE; } /* if it is free page, inconsistency is acceptable */ if (!offset) { /* header page*/ /* it should be overwritten already */ ut_a(!page_is_corrupt); } else if (!((offset / (zip_size ? zip_size : UNIV_PAGE_SIZE)) % (zip_size ? zip_size : UNIV_PAGE_SIZE))) { /* descr page (not header) */ if (page_is_corrupt) { file_is_corrupt = TRUE; descr_is_corrupt = TRUE; } else { ut_ad(fil_page_get_type(page) == FIL_PAGE_TYPE_XDES); descr_is_corrupt = FALSE; } /* store as descr page */ memcpy(descr_page, page, (zip_size ? zip_size : UNIV_PAGE_SIZE)); is_descr_page = TRUE; } else if (descr_is_corrupt) { /* unknown state of the page */ if (page_is_corrupt) { file_is_corrupt = TRUE; } } else { /* check free page or not */ /* These definitions should be same to fsp0fsp.c */ #define FSP_HEADER_SIZE (32 + 5 * FLST_BASE_NODE_SIZE) #define XDES_BITMAP (FLST_NODE_SIZE + 12) #define XDES_BITS_PER_PAGE 2 #define XDES_FREE_BIT 0 #define XDES_SIZE \ (XDES_BITMAP + UT_BITS_IN_BYTES(FSP_EXTENT_SIZE * XDES_BITS_PER_PAGE)) #define XDES_ARR_OFFSET (FSP_HEADER_OFFSET + FSP_HEADER_SIZE) /*descr = descr_page + XDES_ARR_OFFSET + XDES_SIZE * xdes_calc_descriptor_index(zip_size, offset)*/ /*xdes_get_bit(descr, XDES_FREE_BIT, page % FSP_EXTENT_SIZE, mtr)*/ byte* descr; ulint index; ulint byte_index; ulint bit_index; descr = descr_page + XDES_ARR_OFFSET + XDES_SIZE * (ut_2pow_remainder( (offset / (zip_size ? zip_size : UNIV_PAGE_SIZE)), (zip_size ? zip_size : UNIV_PAGE_SIZE)) / FSP_EXTENT_SIZE); index = XDES_FREE_BIT + XDES_BITS_PER_PAGE * ((offset / (zip_size ? zip_size : UNIV_PAGE_SIZE)) % FSP_EXTENT_SIZE); byte_index = index / 8; bit_index = index % 8; if (ut_bit_get_nth(mach_read_from_1(descr + XDES_BITMAP + byte_index), bit_index)) { /* free page */ if (page_is_corrupt) { goto skip_write; } } else { /* not free */ if (page_is_corrupt) { file_is_corrupt = TRUE; } } } if (page_is_corrupt) { fprintf(stderr, " [errp:%ld]", (long)(offset / (zip_size ? zip_size : UNIV_PAGE_SIZE))); /* cannot treat corrupt page */ goto skip_write; } if (mach_read_from_4(page + FIL_PAGE_OFFSET) || !offset) { mach_write_to_4(page + FIL_PAGE_ARCH_LOG_NO_OR_SPACE_ID, id); for (i = 0; i < n_index; i++) { if (offset / (zip_size ? zip_size : UNIV_PAGE_SIZE) == root_page[i]) { if (fil_page_get_type(page) != FIL_PAGE_INDEX) { file_is_corrupt = TRUE; fprintf(stderr, " [etyp:%ld]", (long)(offset / (zip_size ? zip_size : UNIV_PAGE_SIZE))); goto skip_write; } /* this is index root page */ mach_write_to_4(page + FIL_PAGE_DATA + PAGE_BTR_SEG_LEAF + FSEG_HDR_SPACE, id); mach_write_to_4(page + FIL_PAGE_DATA + PAGE_BTR_SEG_TOP + FSEG_HDR_SPACE, id); break; } } if (fil_page_get_type(page) == FIL_PAGE_INDEX && !is_descr_page) { index_id_t tmp = mach_read_from_8(page + (PAGE_HEADER + PAGE_INDEX_ID)); for (i = 0; i < n_index; i++) { if (old_id[i] == tmp) { mach_write_to_8(page + (PAGE_HEADER + PAGE_INDEX_ID), new_id[i]); break; } } if (!zip_size && mach_read_from_2(page + PAGE_HEADER + PAGE_LEVEL) == 0 && old_id[0] == tmp) { /* leaf page of cluster index, reset trx_id of records */ rec_t* rec; rec_t* supremum; ulint n_recs; supremum = page_get_supremum_rec(page); rec = page_rec_get_next(page_get_infimum_rec(page)); n_recs = page_get_n_recs(page); while (rec && rec != supremum && n_recs > 0) { ulint n_fields; ulint i; ulint offset = index->trx_id_offset; offsets = rec_get_offsets(rec, index, offsets, ULINT_UNDEFINED, &heap); n_fields = rec_offs_n_fields(offsets); if (!offset) { offset = row_get_trx_id_offset(index, offsets); } trx_write_trx_id(rec + offset, 1); for (i = 0; i < n_fields; i++) { if (rec_offs_nth_extern(offsets, i)) { ulint local_len; byte* data; data = rec_get_nth_field(rec, offsets, i, &local_len); local_len -= BTR_EXTERN_FIELD_REF_SIZE; mach_write_to_4(data + local_len + BTR_EXTERN_SPACE_ID, id); } } rec = page_rec_get_next(rec); n_recs--; } } else if (mach_read_from_2(page + PAGE_HEADER + PAGE_LEVEL) == 0 && old_id[0] != tmp) { mach_write_to_8(page + (PAGE_HEADER + PAGE_MAX_TRX_ID), 1); } } if (mach_read_from_8(page + FIL_PAGE_LSN) > current_lsn) { mach_write_to_8(page + FIL_PAGE_LSN, current_lsn); if (!zip_size) { mach_write_to_8(page + UNIV_PAGE_SIZE - FIL_PAGE_END_LSN_OLD_CHKSUM, current_lsn); } } fil_page_buf_page_store_checksum(page, zip_size); success = os_file_write(filepath, file, page, (ulint)(offset & 0xFFFFFFFFUL), (ulint)(offset >> 32), zip_size ? zip_size : UNIV_PAGE_SIZE); } skip_write: if (free_limit_bytes && ((ib_int64_t)((offset + (zip_size ? zip_size : UNIV_PAGE_SIZE)) * 100) / free_limit_bytes) != ((offset * 100) / free_limit_bytes)) { fprintf(stderr, " %lu", (ulong)((ib_int64_t)((offset + (zip_size ? zip_size : UNIV_PAGE_SIZE)) * 100) / free_limit_bytes)); } } fprintf(stderr, " done.\n"); /* Reacquire the data dictionary lock */ row_mysql_lock_data_dictionary(trx); /* update SYS_INDEXES set root page */ index = dict_table_get_first_index(table); while (index) { for (i = 0; i < n_index; i++) { if (new_id[i] == index->id) { break; } } if (i != n_index && root_page[i] != index->page) { /* must update */ ulint error; trx_t* trx; pars_info_t* info = NULL; trx = trx_allocate_for_mysql(); trx->op_info = "extended import"; info = pars_info_create(); pars_info_add_ull_literal(info, "indexid", new_id[i]); pars_info_add_int4_literal(info, "new_page", (lint) root_page[i]); error = que_eval_sql(info, "PROCEDURE UPDATE_INDEX_PAGE () IS\n" "BEGIN\n" "UPDATE SYS_INDEXES" " SET PAGE_NO = :new_page" " WHERE ID = :indexid;\n" "COMMIT WORK;\n" "END;\n", FALSE, trx); if (error != DB_SUCCESS) { fprintf(stderr, "InnoDB: failed to update SYS_INDEXES\n"); } trx_commit_for_mysql(trx); trx_free_for_mysql(trx); index->page = root_page[i]; } index = dict_table_get_next_index(index); } if (UNIV_LIKELY_NULL(heap)) { mem_heap_free(heap); } } /* .exp file should be removed */ success = os_file_delete(info_file_path); if (!success) { success = os_file_delete_if_exists(info_file_path); } mem_free(info_file_path); system = fil_system; mutex_enter(&(system->mutex)); space = fil_space_get_by_id(id); if (space) node = UT_LIST_GET_FIRST(space->chain); if (node && node->size < size) { space->size += (size - node->size); node->size = size; } mutex_exit(&(system->mutex)); ut_free(buf3); if (file_is_corrupt) { ut_print_timestamp(stderr); fputs(" InnoDB: Error: file ", stderr); ut_print_filename(stderr, filepath); fprintf(stderr, " seems to be corrupt.\n" "InnoDB: An attempt to convert and salvage all corrupt pages was not made.\n" "InnoDB: ##### CAUTION #####\n" "InnoDB: ## The .ibd file may cause InnoDB to crash, even though its re-import seems to have succeeded.\n" "InnoDB: ## If you don't know how to salvage data from a .ibd, you should not use the file.\n" "InnoDB: ###################\n"); success = FALSE; ut_free(buf2); goto func_exit; } } ut_free(buf2); if (check_msg) { ut_print_timestamp(stderr); fprintf(stderr, " InnoDB: Error: %s in file ", check_msg); ut_print_filename(stderr, filepath); fprintf(stderr, " (tablespace id=%lu, flags=%lu)\n" "InnoDB: Please refer to " REFMAN "innodb-troubleshooting-datadict.html\n", (ulong) id, (ulong) flags); success = FALSE; goto func_exit; } if (space_id != id || space_flags != (flags & ~(~0 << DICT_TF_BITS))) { ut_print_timestamp(stderr); fputs(" InnoDB: Error: tablespace id and flags in file ", stderr); ut_print_filename(stderr, filepath); fprintf(stderr, " are %lu and %lu, but in the InnoDB\n" "InnoDB: data dictionary they are %lu and %lu.\n" "InnoDB: Have you moved InnoDB .ibd files" " around without using the\n" "InnoDB: commands DISCARD TABLESPACE and" " IMPORT TABLESPACE?\n" "InnoDB: Please refer to\n" "InnoDB: " REFMAN "innodb-troubleshooting-datadict.html\n" "InnoDB: for how to resolve the issue.\n", (ulong) space_id, (ulong) space_flags, (ulong) id, (ulong) flags); success = FALSE; goto func_exit; } skip_check: success = fil_space_create(filepath, space_id, flags, FIL_TABLESPACE); if (!success) { goto func_exit; } /* We do not measure the size of the file, that is why we pass the 0 below */ fil_node_create(filepath, 0, space_id, FALSE); func_exit: os_file_close(file); mem_free(filepath); if (srv_expand_import && dict_table_flags_to_zip_size(flags)) { ulint page_no; ulint zip_size; ulint height; rec_t* node_ptr; dict_table_t* table; dict_index_t* index; buf_block_t* block; page_t* page; page_zip_des_t* page_zip; mtr_t mtr; mem_heap_t* heap = NULL; ulint offsets_[REC_OFFS_NORMAL_SIZE]; ulint* offsets = offsets_; rec_offs_init(offsets_); zip_size = dict_table_flags_to_zip_size(flags); table = dict_table_get_low(name, DICT_ERR_IGNORE_NONE); index = dict_table_get_first_index(table); page_no = dict_index_get_page(index); ut_a(page_no == 3); fprintf(stderr, "InnoDB: It is compressed .ibd file. need to convert additionaly on buffer pool.\n"); /* down to leaf */ mtr_start(&mtr); mtr_set_log_mode(&mtr, MTR_LOG_NONE); height = ULINT_UNDEFINED; for (;;) { block = buf_page_get(space_id, zip_size, page_no, RW_NO_LATCH, &mtr); page = buf_block_get_frame(block); block->check_index_page_at_flush = TRUE; if (height == ULINT_UNDEFINED) { height = btr_page_get_level(page, &mtr); } if (height == 0) { break; } node_ptr = page_rec_get_next(page_get_infimum_rec(page)); height--; offsets = rec_get_offsets(node_ptr, index, offsets, ULINT_UNDEFINED, &heap); page_no = btr_node_ptr_get_child_page_no(node_ptr, offsets); } mtr_commit(&mtr); fprintf(stderr, "InnoDB: pages needs split are ..."); /* scan reaf pages */ while (page_no != FIL_NULL) { rec_t* rec; rec_t* supremum; ulint n_recs; mtr_start(&mtr); block = buf_page_get(space_id, zip_size, page_no, RW_X_LATCH, &mtr); page = buf_block_get_frame(block); page_zip = buf_block_get_page_zip(block); if (!page_zip) { /*something wrong*/ fprintf(stderr, "InnoDB: Something wrong with reading page %lu.\n", page_no); convert_err_exit: mtr_commit(&mtr); mutex_enter(&fil_system->mutex); fil_space_free(space_id, FALSE); mutex_exit(&fil_system->mutex); success = FALSE; goto convert_exit; } supremum = page_get_supremum_rec(page); rec = page_rec_get_next(page_get_infimum_rec(page)); n_recs = page_get_n_recs(page); /* illegal operation as InnoDB online system. so not logged */ while (rec && rec != supremum && n_recs > 0) { ulint n_fields; ulint i; ulint offset = index->trx_id_offset; offsets = rec_get_offsets(rec, index, offsets, ULINT_UNDEFINED, &heap); n_fields = rec_offs_n_fields(offsets); if (!offset) { offset = row_get_trx_id_offset(index, offsets); } trx_write_trx_id(rec + offset, 1); for (i = 0; i < n_fields; i++) { if (rec_offs_nth_extern(offsets, i)) { ulint local_len; byte* data; data = rec_get_nth_field(rec, offsets, i, &local_len); local_len -= BTR_EXTERN_FIELD_REF_SIZE; mach_write_to_4(data + local_len + BTR_EXTERN_SPACE_ID, id); } } rec = page_rec_get_next(rec); n_recs--; } /* dummy logged update for along with modified page path */ if (index->id != btr_page_get_index_id(page)) { /* this should be adjusted already */ fprintf(stderr, "InnoDB: The page %lu seems to be converted wrong.\n", page_no); goto convert_err_exit; } btr_page_set_index_id(page, page_zip, index->id, &mtr); /* confirm whether fits to the page size or not */ if (!page_zip_compress(page_zip, page, index, &mtr) && !btr_page_reorganize(block, index, &mtr)) { buf_block_t* new_block; page_t* new_page; page_zip_des_t* new_page_zip; rec_t* split_rec; ulint n_uniq; /* split page is needed */ fprintf(stderr, " %lu", page_no); mtr_x_lock(dict_index_get_lock(index), &mtr); n_uniq = dict_index_get_n_unique_in_tree(index); if(page_get_n_recs(page) < 2) { /* no way to make smaller */ fprintf(stderr, "InnoDB: The page %lu cannot be store to the page size.\n", page_no); goto convert_err_exit; } if (UNIV_UNLIKELY(page_no == dict_index_get_page(index))) { ulint new_page_no; dtuple_t* node_ptr; ulint level; rec_t* node_ptr_rec; page_cur_t page_cursor; /* it is root page, need to raise before split */ level = btr_page_get_level(page, &mtr); new_block = btr_page_alloc(index, 0, FSP_NO_DIR, level, &mtr, &mtr); new_page = buf_block_get_frame(new_block); new_page_zip = buf_block_get_page_zip(new_block); btr_page_create(new_block, new_page_zip, index, level, &mtr); btr_page_set_next(new_page, new_page_zip, FIL_NULL, &mtr); btr_page_set_prev(new_page, new_page_zip, FIL_NULL, &mtr); page_zip_copy_recs(new_page_zip, new_page, page_zip, page, index, &mtr); btr_search_move_or_delete_hash_entries(new_block, block, index); rec = page_rec_get_next(page_get_infimum_rec(new_page)); new_page_no = buf_block_get_page_no(new_block); node_ptr = dict_index_build_node_ptr(index, rec, new_page_no, heap, level); dtuple_set_info_bits(node_ptr, dtuple_get_info_bits(node_ptr) | REC_INFO_MIN_REC_FLAG); btr_page_empty(block, page_zip, index, level + 1, &mtr); btr_page_set_next(page, page_zip, FIL_NULL, &mtr); btr_page_set_prev(page, page_zip, FIL_NULL, &mtr); page_cur_set_before_first(block, &page_cursor); node_ptr_rec = page_cur_tuple_insert(&page_cursor, node_ptr, index, 0, &mtr); ut_a(node_ptr_rec); if (!btr_page_reorganize(block, index, &mtr)) { fprintf(stderr, "InnoDB: failed to store the page %lu.\n", page_no); goto convert_err_exit; } /* move to the raised page */ page_no = new_page_no; block = new_block; page = new_page; page_zip = new_page_zip; fprintf(stderr, "(raise_to:%lu)", page_no); } split_rec = page_get_middle_rec(page); new_block = btr_page_alloc(index, page_no + 1, FSP_UP, btr_page_get_level(page, &mtr), &mtr, &mtr); new_page = buf_block_get_frame(new_block); new_page_zip = buf_block_get_page_zip(new_block); btr_page_create(new_block, new_page_zip, index, btr_page_get_level(page, &mtr), &mtr); offsets = rec_get_offsets(split_rec, index, offsets, n_uniq, &heap); btr_attach_half_pages(index, block, split_rec, new_block, FSP_UP, &mtr); page_zip_copy_recs(new_page_zip, new_page, page_zip, page, index, &mtr); page_delete_rec_list_start(split_rec - page + new_page, new_block, index, &mtr); btr_search_move_or_delete_hash_entries(new_block, block, index); page_delete_rec_list_end(split_rec, block, index, ULINT_UNDEFINED, ULINT_UNDEFINED, &mtr); fprintf(stderr, "(new:%lu)", buf_block_get_page_no(new_block)); /* Are they needed? */ if (!btr_page_reorganize(block, index, &mtr)) { fprintf(stderr, "InnoDB: failed to store the page %lu.\n", page_no); goto convert_err_exit; } if (!btr_page_reorganize(new_block, index, &mtr)) { fprintf(stderr, "InnoDB: failed to store the page %lu.\n", buf_block_get_page_no(new_block)); goto convert_err_exit; } } page_no = btr_page_get_next(page, &mtr); mtr_commit(&mtr); if (heap) { mem_heap_empty(heap); } } fprintf(stderr, "...done.\nInnoDB: waiting the flush batch of the additional conversion.\n"); /* should wait for the not-logged changes are all flushed */ buf_flush_list(ULINT_MAX, mtr.end_lsn + 1); buf_flush_wait_batch_end(NULL, BUF_FLUSH_LIST); fprintf(stderr, "InnoDB: done.\n"); convert_exit: if (UNIV_LIKELY_NULL(heap)) { mem_heap_free(heap); } } return(success); } #endif /* !UNIV_HOTBACKUP */ #ifdef UNIV_HOTBACKUP /*******************************************************************//** Allocates a file name for an old version of a single-table tablespace. The string must be freed by caller with mem_free()! @return own: file name */ static char* fil_make_ibbackup_old_name( /*=======================*/ const char* name) /*!< in: original file name */ { static const char suffix[] = "_ibbackup_old_vers_"; ulint len = strlen(name); char* path = mem_alloc(len + (15 + sizeof suffix)); memcpy(path, name, len); memcpy(path + len, suffix, (sizeof suffix) - 1); ut_sprintf_timestamp_without_extra_chars(path + len + sizeof suffix); return(path); } #endif /* UNIV_HOTBACKUP */ /********************************************************************//** Opens an .ibd file and adds the associated single-table tablespace to the InnoDB fil0fil.c data structures. */ static void fil_load_single_table_tablespace( /*=============================*/ const char* dbname, /*!< in: database name */ const char* filename) /*!< in: file name (not a path), including the .ibd extension */ { os_file_t file; char* filepath; ibool success; byte* buf2; byte* page; ulint space_id; ulint flags; ulint size_low; ulint size_high; ib_int64_t size; #ifdef UNIV_HOTBACKUP fil_space_t* space; #endif filepath = mem_alloc(strlen(dbname) + strlen(filename) + strlen(fil_path_to_mysql_datadir) + 3); sprintf(filepath, "%s/%s/%s", fil_path_to_mysql_datadir, dbname, filename); srv_normalize_path_for_win(filepath); #ifdef __WIN__ # ifndef UNIV_HOTBACKUP /* If lower_case_table_names is 0 or 2, then MySQL allows database directory names with upper case letters. On Windows, all table and database names in InnoDB are internally always in lower case. Put the file path to lower case, so that we are consistent with InnoDB's internal data dictionary. */ dict_casedn_str(filepath); # endif /* !UNIV_HOTBACKUP */ #endif file = os_file_create_simple_no_error_handling( innodb_file_data_key, filepath, OS_FILE_OPEN, OS_FILE_READ_ONLY, &success); if (!success) { /* The following call prints an error message */ os_file_get_last_error(TRUE); fprintf(stderr, "InnoDB: Error: could not open single-table tablespace" " file\n" "InnoDB: %s!\n" "InnoDB: We do not continue the crash recovery," " because the table may become\n" "InnoDB: corrupt if we cannot apply the log records" " in the InnoDB log to it.\n" "InnoDB: To fix the problem and start mysqld:\n" "InnoDB: 1) If there is a permission problem" " in the file and mysqld cannot\n" "InnoDB: open the file, you should" " modify the permissions.\n" "InnoDB: 2) If the table is not needed, or you can" " restore it from a backup,\n" "InnoDB: then you can remove the .ibd file," " and InnoDB will do a normal\n" "InnoDB: crash recovery and ignore that table.\n" "InnoDB: 3) If the file system or the" " disk is broken, and you cannot remove\n" "InnoDB: the .ibd file, you can set" " innodb_force_recovery > 0 in my.cnf\n" "InnoDB: and force InnoDB to continue crash" " recovery here.\n", filepath); mem_free(filepath); if (srv_force_recovery > 0) { fprintf(stderr, "InnoDB: innodb_force_recovery" " was set to %lu. Continuing crash recovery\n" "InnoDB: even though we cannot access" " the .ibd file of this table.\n", srv_force_recovery); return; } exit(1); } success = os_file_get_size(file, &size_low, &size_high); if (!success) { /* The following call prints an error message */ os_file_get_last_error(TRUE); fprintf(stderr, "InnoDB: Error: could not measure the size" " of single-table tablespace file\n" "InnoDB: %s!\n" "InnoDB: We do not continue crash recovery," " because the table will become\n" "InnoDB: corrupt if we cannot apply the log records" " in the InnoDB log to it.\n" "InnoDB: To fix the problem and start mysqld:\n" "InnoDB: 1) If there is a permission problem" " in the file and mysqld cannot\n" "InnoDB: access the file, you should" " modify the permissions.\n" "InnoDB: 2) If the table is not needed," " or you can restore it from a backup,\n" "InnoDB: then you can remove the .ibd file," " and InnoDB will do a normal\n" "InnoDB: crash recovery and ignore that table.\n" "InnoDB: 3) If the file system or the disk is broken," " and you cannot remove\n" "InnoDB: the .ibd file, you can set" " innodb_force_recovery > 0 in my.cnf\n" "InnoDB: and force InnoDB to continue" " crash recovery here.\n", filepath); os_file_close(file); mem_free(filepath); if (srv_force_recovery > 0) { fprintf(stderr, "InnoDB: innodb_force_recovery" " was set to %lu. Continuing crash recovery\n" "InnoDB: even though we cannot access" " the .ibd file of this table.\n", srv_force_recovery); return; } exit(1); } /* TODO: What to do in other cases where we cannot access an .ibd file during a crash recovery? */ /* Every .ibd file is created >= 4 pages in size. Smaller files cannot be ok. */ size = (((ib_int64_t)size_high) << 32) + (ib_int64_t)size_low; #ifndef UNIV_HOTBACKUP if (size < FIL_IBD_FILE_INITIAL_SIZE * (lint)UNIV_PAGE_SIZE) { fprintf(stderr, "InnoDB: Error: the size of single-table tablespace" " file %s\n" "InnoDB: is only %lu %lu, should be at least %lu!", filepath, (ulong) size_high, (ulong) size_low, (ulong) (4 * UNIV_PAGE_SIZE)); os_file_close(file); mem_free(filepath); return; } #endif /* Read the first page of the tablespace if the size big enough */ buf2 = ut_malloc(2 * UNIV_PAGE_SIZE); /* Align the memory for file i/o if we might have O_DIRECT set */ page = ut_align(buf2, UNIV_PAGE_SIZE); if (size >= FIL_IBD_FILE_INITIAL_SIZE * (lint)UNIV_PAGE_SIZE) { const char* check_msg; success = os_file_read(file, page, 0, 0, UNIV_PAGE_SIZE); /* We have to read the tablespace id from the file */ check_msg = fil_check_first_page(page); if (check_msg) { fprintf(stderr, "InnoDB: Error: %s in file %s", check_msg, filepath); goto func_exit; } space_id = fsp_header_get_space_id(page); flags = fsp_header_get_flags(page); } else { space_id = ULINT_UNDEFINED; flags = 0; } #ifndef UNIV_HOTBACKUP if (space_id == ULINT_UNDEFINED || trx_sys_sys_space(space_id)) { fprintf(stderr, "InnoDB: Error: tablespace id %lu in file %s" " is not sensible\n", (ulong) space_id, filepath); goto func_exit; } #else if (space_id == ULINT_UNDEFINED || trx_sys_sys_space(space_id)) { char* new_path; fprintf(stderr, "InnoDB: Renaming tablespace %s of id %lu,\n" "InnoDB: to %s_ibbackup_old_vers_\n" "InnoDB: because its size %" PRId64 " is too small" " (< 4 pages 16 kB each),\n" "InnoDB: or the space id in the file header" " is not sensible.\n" "InnoDB: This can happen in an ibbackup run," " and is not dangerous.\n", filepath, space_id, filepath, size); os_file_close(file); new_path = fil_make_ibbackup_old_name(filepath); ut_a(os_file_rename(innodb_file_data_key, filepath, new_path)); ut_free(buf2); mem_free(filepath); mem_free(new_path); return; } /* A backup may contain the same space several times, if the space got renamed at a sensitive time. Since it is enough to have one version of the space, we rename the file if a space with the same space id already exists in the tablespace memory cache. We rather rename the file than delete it, because if there is a bug, we do not want to destroy valuable data. */ mutex_enter(&fil_system->mutex); space = fil_space_get_by_id(space_id); if (space) { char* new_path; fprintf(stderr, "InnoDB: Renaming tablespace %s of id %lu,\n" "InnoDB: to %s_ibbackup_old_vers_\n" "InnoDB: because space %s with the same id\n" "InnoDB: was scanned earlier. This can happen" " if you have renamed tables\n" "InnoDB: during an ibbackup run.\n", filepath, space_id, filepath, space->name); os_file_close(file); new_path = fil_make_ibbackup_old_name(filepath); mutex_exit(&fil_system->mutex); ut_a(os_file_rename(innodb_file_data_key, filepath, new_path)); ut_free(buf2); mem_free(filepath); mem_free(new_path); return; } mutex_exit(&fil_system->mutex); #endif success = fil_space_create(filepath, space_id, flags, FIL_TABLESPACE); if (!success) { if (srv_force_recovery > 0) { fprintf(stderr, "InnoDB: innodb_force_recovery" " was set to %lu. Continuing crash recovery\n" "InnoDB: even though the tablespace creation" " of this table failed.\n", srv_force_recovery); goto func_exit; } exit(1); } /* We do not use the size information we have about the file, because the rounding formula for extents and pages is somewhat complex; we let fil_node_open() do that task. */ fil_node_create(filepath, 0, space_id, FALSE); func_exit: os_file_close(file); ut_free(buf2); mem_free(filepath); } /***********************************************************************//** A fault-tolerant function that tries to read the next file name in the directory. We retry 100 times if os_file_readdir_next_file() returns -1. The idea is to read as much good data as we can and jump over bad data. @return 0 if ok, -1 if error even after the retries, 1 if at the end of the directory */ static int fil_file_readdir_next_file( /*=======================*/ ulint* err, /*!< out: this is set to DB_ERROR if an error was encountered, otherwise not changed */ const 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 */ { ulint i; int ret; for (i = 0; i < 100; i++) { ret = os_file_readdir_next_file(dirname, dir, info); if (ret != -1) { return(ret); } fprintf(stderr, "InnoDB: Error: os_file_readdir_next_file()" " returned -1 in\n" "InnoDB: directory %s\n" "InnoDB: Crash recovery may have failed" " for some .ibd files!\n", dirname); *err = DB_ERROR; } return(-1); } /********************************************************************//** At the server startup, if we need crash recovery, scans the database directories under the MySQL datadir, looking for .ibd files. Those files are single-table tablespaces. We need to know the space id in each of them so that we know into which file we should look to check the contents of a page stored in the doublewrite buffer, also to know where to apply log records where the space id is != 0. @return DB_SUCCESS or error number */ UNIV_INTERN ulint fil_load_single_table_tablespaces(void) /*===================================*/ { int ret; char* dbpath = NULL; ulint dbpath_len = 100; os_file_dir_t dir; os_file_dir_t dbdir; os_file_stat_t dbinfo; os_file_stat_t fileinfo; ulint err = DB_SUCCESS; /* The datadir of MySQL is always the default directory of mysqld */ dir = os_file_opendir(fil_path_to_mysql_datadir, TRUE); if (dir == NULL) { return(DB_ERROR); } dbpath = mem_alloc(dbpath_len); /* Scan all directories under the datadir. They are the database directories of MySQL. */ ret = fil_file_readdir_next_file(&err, fil_path_to_mysql_datadir, dir, &dbinfo); while (ret == 0) { ulint len; /* printf("Looking at %s in datadir\n", dbinfo.name); */ if (dbinfo.type == OS_FILE_TYPE_FILE || dbinfo.type == OS_FILE_TYPE_UNKNOWN) { goto next_datadir_item; } /* We found a symlink or a directory; try opening it to see if a symlink is a directory */ len = strlen(fil_path_to_mysql_datadir) + strlen (dbinfo.name) + 2; if (len > dbpath_len) { dbpath_len = len; if (dbpath) { mem_free(dbpath); } dbpath = mem_alloc(dbpath_len); } sprintf(dbpath, "%s/%s", fil_path_to_mysql_datadir, dbinfo.name); srv_normalize_path_for_win(dbpath); dbdir = os_file_opendir(dbpath, FALSE); if (dbdir != NULL) { /* printf("Opened dir %s\n", dbinfo.name); */ /* We found a database directory; loop through it, looking for possible .ibd files in it */ ret = fil_file_readdir_next_file(&err, dbpath, dbdir, &fileinfo); while (ret == 0) { /* printf( " Looking at file %s\n", fileinfo.name); */ if (fileinfo.type == OS_FILE_TYPE_DIR) { goto next_file_item; } /* We found a symlink or a file */ if (strlen(fileinfo.name) > 4 && 0 == strcmp(fileinfo.name + strlen(fileinfo.name) - 4, ".ibd")) { /* The name ends in .ibd; try opening the file */ fil_load_single_table_tablespace( dbinfo.name, fileinfo.name); } next_file_item: ret = fil_file_readdir_next_file(&err, dbpath, dbdir, &fileinfo); } if (0 != os_file_closedir(dbdir)) { fputs("InnoDB: Warning: could not" " close database directory ", stderr); ut_print_filename(stderr, dbpath); putc('\n', stderr); err = DB_ERROR; } } next_datadir_item: ret = fil_file_readdir_next_file(&err, fil_path_to_mysql_datadir, dir, &dbinfo); } mem_free(dbpath); if (0 != os_file_closedir(dir)) { fprintf(stderr, "InnoDB: Error: could not close MySQL datadir\n"); return(DB_ERROR); } return(err); } /*******************************************************************//** Returns TRUE if a single-table tablespace does not exist in the memory cache, or is being deleted there. @return TRUE if does not exist or is being\ deleted */ UNIV_INTERN ibool fil_tablespace_deleted_or_being_deleted_in_mem( /*===========================================*/ ulint id, /*!< in: space id */ ib_int64_t version)/*!< in: tablespace_version should be this; if you pass -1 as the value of this, then this parameter is ignored */ { fil_space_t* space; ut_ad(fil_system); mutex_enter(&fil_system->mutex); space = fil_space_get_by_id(id); if (space == NULL || space->stop_new_ops) { mutex_exit(&fil_system->mutex); return(TRUE); } if (version != ((ib_int64_t)-1) && space->tablespace_version != version) { mutex_exit(&fil_system->mutex); return(TRUE); } mutex_exit(&fil_system->mutex); return(FALSE); } /*******************************************************************//** Returns TRUE if a single-table tablespace exists in the memory cache. @return TRUE if exists */ UNIV_INTERN ibool fil_tablespace_exists_in_mem( /*=========================*/ ulint id) /*!< in: space id */ { fil_space_t* space; ut_ad(fil_system); mutex_enter(&fil_system->mutex); space = fil_space_get_by_id(id); mutex_exit(&fil_system->mutex); return(space != NULL); } /*******************************************************************//** Returns TRUE if a matching tablespace exists in the InnoDB tablespace memory cache. Note that if we have not done a crash recovery at the database startup, there may be many tablespaces which are not yet in the memory cache. @return TRUE if a matching tablespace exists in the memory cache */ UNIV_INTERN ibool fil_space_for_table_exists_in_mem( /*==============================*/ ulint id, /*!< in: space id */ const char* name, /*!< in: table name in the standard 'databasename/tablename' format or the dir path to a temp table */ ibool is_temp, /*!< in: TRUE if created with CREATE TEMPORARY TABLE */ ibool mark_space, /*!< in: in crash recovery, at database startup we mark all spaces which have an associated table in the InnoDB data dictionary, so that we can print a warning about orphaned tablespaces */ ibool print_error_if_does_not_exist) /*!< in: print detailed error information to the .err log if a matching tablespace is not found from memory */ { fil_space_t* namespace; fil_space_t* space; char* path; ut_ad(fil_system); mutex_enter(&fil_system->mutex); path = fil_make_ibd_name(name, is_temp); /* Look if there is a space with the same id */ space = fil_space_get_by_id(id); /* Look if there is a space with the same name; the name is the directory path from the datadir to the file */ namespace = fil_space_get_by_name(path); if (space && space == namespace) { /* Found */ if (mark_space) { space->mark = TRUE; } mem_free(path); mutex_exit(&fil_system->mutex); return(TRUE); } if (!print_error_if_does_not_exist) { mem_free(path); mutex_exit(&fil_system->mutex); return(FALSE); } if (space == NULL) { if (namespace == NULL) { ut_print_timestamp(stderr); fputs(" InnoDB: Error: table ", stderr); ut_print_filename(stderr, name); fprintf(stderr, "\n" "InnoDB: in InnoDB data dictionary" " has tablespace id %lu,\n" "InnoDB: but tablespace with that id" " or name does not exist. Have\n" "InnoDB: you deleted or moved .ibd files?\n" "InnoDB: This may also be a table created with" " CREATE TEMPORARY TABLE\n" "InnoDB: whose .ibd and .frm files" " MySQL automatically removed, but the\n" "InnoDB: table still exists in the" " InnoDB internal data dictionary.\n", (ulong) id); } else { ut_print_timestamp(stderr); fputs(" InnoDB: Error: table ", stderr); ut_print_filename(stderr, name); fprintf(stderr, "\n" "InnoDB: in InnoDB data dictionary has" " tablespace id %lu,\n" "InnoDB: but a tablespace with that id" " does not exist. There is\n" "InnoDB: a tablespace of name %s and id %lu," " though. Have\n" "InnoDB: you deleted or moved .ibd files?\n", (ulong) id, namespace->name, (ulong) namespace->id); } error_exit: fputs("InnoDB: Please refer to\n" "InnoDB: " REFMAN "innodb-troubleshooting-datadict.html\n" "InnoDB: for how to resolve the issue.\n", stderr); mem_free(path); mutex_exit(&fil_system->mutex); return(FALSE); } if (0 != strcmp(space->name, path)) { ut_print_timestamp(stderr); fputs(" InnoDB: Error: table ", stderr); ut_print_filename(stderr, name); fprintf(stderr, "\n" "InnoDB: in InnoDB data dictionary has" " tablespace id %lu,\n" "InnoDB: but the tablespace with that id" " has name %s.\n" "InnoDB: Have you deleted or moved .ibd files?\n", (ulong) id, space->name); if (namespace != NULL) { fputs("InnoDB: There is a tablespace" " with the right name\n" "InnoDB: ", stderr); ut_print_filename(stderr, namespace->name); fprintf(stderr, ", but its id is %lu.\n", (ulong) namespace->id); } goto error_exit; } mem_free(path); mutex_exit(&fil_system->mutex); return(FALSE); } /*******************************************************************//** Checks if a single-table tablespace for a given table name exists in the tablespace memory cache. @return space id, ULINT_UNDEFINED if not found */ static ulint fil_get_space_id_for_table( /*=======================*/ const char* name) /*!< in: table name in the standard 'databasename/tablename' format */ { fil_space_t* namespace; ulint id = ULINT_UNDEFINED; char* path; ut_ad(fil_system); mutex_enter(&fil_system->mutex); path = fil_make_ibd_name(name, FALSE); /* Look if there is a space with the same name; the name is the directory path to the file */ namespace = fil_space_get_by_name(path); if (namespace) { id = namespace->id; } mem_free(path); mutex_exit(&fil_system->mutex); return(id); } /**********************************************************************//** Tries to extend a data file so that it would accommodate the number of pages given. The tablespace must be cached in the memory cache. If the space is big enough already, does nothing. @return TRUE if success */ UNIV_INTERN ibool fil_extend_space_to_desired_size( /*=============================*/ ulint* actual_size, /*!< out: size of the space after extension; if we ran out of disk space this may be lower than the desired size */ ulint space_id, /*!< in: space id */ ulint size_after_extend)/*!< in: desired size in pages after the extension; if the current space size is bigger than this already, the function does nothing */ { fil_node_t* node; fil_space_t* space; byte* buf2; byte* buf; ulint buf_size; ulint start_page_no; ulint file_start_page_no; ulint offset_high; ulint offset_low; ulint page_size; ibool success = TRUE; /* file_extend_mutex is for http://bugs.mysql.com/56433 */ /* to protect from the other fil_extend_space_to_desired_size() */ /* during temprary releasing &fil_system->mutex */ mutex_enter(&fil_system->file_extend_mutex); fil_mutex_enter_and_prepare_for_io(space_id); space = fil_space_get_by_id(space_id); ut_a(space); if (space->size >= size_after_extend) { /* Space already big enough */ *actual_size = space->size; mutex_exit(&fil_system->mutex); mutex_exit(&fil_system->file_extend_mutex); return(TRUE); } page_size = dict_table_flags_to_zip_size(space->flags); if (!page_size) { page_size = UNIV_PAGE_SIZE; } node = UT_LIST_GET_LAST(space->chain); fil_node_prepare_for_io(node, fil_system, space); start_page_no = space->size; file_start_page_no = space->size - node->size; #ifdef HAVE_POSIX_FALLOCATE if (srv_use_posix_fallocate) { offset_high = (size_after_extend - file_start_page_no) * page_size / (4ULL * 1024 * 1024 * 1024); offset_low = (size_after_extend - file_start_page_no) * page_size % (4ULL * 1024 * 1024 * 1024); mutex_exit(&fil_system->mutex); success = os_file_set_size(node->name, node->handle, offset_low, offset_high); mutex_enter(&fil_system->mutex); if (success) { node->size += (size_after_extend - start_page_no); space->size += (size_after_extend - start_page_no); os_has_said_disk_full = FALSE; } goto complete_io; } #endif /* Extend at most 64 pages at a time */ buf_size = ut_min(64, size_after_extend - start_page_no) * page_size; buf2 = mem_alloc(buf_size + page_size); buf = ut_align(buf2, page_size); memset(buf, 0, buf_size); while (start_page_no < size_after_extend) { ulint n_pages = ut_min(buf_size / page_size, size_after_extend - start_page_no); offset_high = (start_page_no - file_start_page_no) / (4096 * ((1024 * 1024) / page_size)); offset_low = ((start_page_no - file_start_page_no) % (4096 * ((1024 * 1024) / page_size))) * page_size; mutex_exit(&fil_system->mutex); #ifdef UNIV_HOTBACKUP success = os_file_write(node->name, node->handle, buf, offset_low, offset_high, page_size * n_pages); #else success = os_aio(OS_FILE_WRITE, OS_AIO_SYNC, node->name, node->handle, buf, offset_low, offset_high, page_size * n_pages, NULL, NULL, space_id, NULL); #endif mutex_enter(&fil_system->mutex); if (success) { node->size += n_pages; space->size += n_pages; os_has_said_disk_full = FALSE; } else { /* Let us measure the size of the file to determine how much we were able to extend it */ n_pages = ((ulint) (os_file_get_size_as_iblonglong( node->handle) / page_size)) - node->size; node->size += n_pages; space->size += n_pages; break; } start_page_no += n_pages; } mem_free(buf2); fil_node_complete_io(node, fil_system, OS_FILE_WRITE); #ifdef HAVE_POSIX_FALLOCATE complete_io: #endif *actual_size = space->size; #ifndef UNIV_HOTBACKUP if (space_id == 0) { ulint pages_per_mb = (1024 * 1024) / page_size; /* Keep the last data file size info up to date, rounded to full megabytes */ srv_data_file_sizes[srv_n_data_files - 1] = (node->size / pages_per_mb) * pages_per_mb; } #endif /* !UNIV_HOTBACKUP */ /* printf("Extended %s to %lu, actual size %lu pages\n", space->name, size_after_extend, *actual_size); */ mutex_exit(&fil_system->mutex); mutex_exit(&fil_system->file_extend_mutex); fil_flush(space_id, TRUE); return(success); } #ifdef UNIV_HOTBACKUP /********************************************************************//** Extends all tablespaces to the size stored in the space header. During the ibbackup --apply-log phase we extended the spaces on-demand so that log records could be applied, but that may have left spaces still too small compared to the size stored in the space header. */ UNIV_INTERN void fil_extend_tablespaces_to_stored_len(void) /*======================================*/ { fil_space_t* space; byte* buf; ulint actual_size; ulint size_in_header; ulint error; ibool success; buf = mem_alloc(UNIV_PAGE_SIZE); mutex_enter(&fil_system->mutex); space = UT_LIST_GET_FIRST(fil_system->space_list); while (space) { ut_a(space->purpose == FIL_TABLESPACE); mutex_exit(&fil_system->mutex); /* no need to protect with a mutex, because this is a single-threaded operation */ error = fil_read(TRUE, space->id, dict_table_flags_to_zip_size(space->flags), 0, 0, UNIV_PAGE_SIZE, buf, NULL); ut_a(error == DB_SUCCESS); size_in_header = fsp_get_size_low(buf); success = fil_extend_space_to_desired_size( &actual_size, space->id, size_in_header); if (!success) { fprintf(stderr, "InnoDB: Error: could not extend the" " tablespace of %s\n" "InnoDB: to the size stored in header," " %lu pages;\n" "InnoDB: size after extension %lu pages\n" "InnoDB: Check that you have free disk space" " and retry!\n", space->name, size_in_header, actual_size); exit(1); } mutex_enter(&fil_system->mutex); space = UT_LIST_GET_NEXT(space_list, space); } mutex_exit(&fil_system->mutex); mem_free(buf); } #endif /*========== RESERVE FREE EXTENTS (for a B-tree split, for example) ===*/ /*******************************************************************//** Tries to reserve free extents in a file space. @return TRUE if succeed */ UNIV_INTERN ibool fil_space_reserve_free_extents( /*===========================*/ ulint id, /*!< in: space id */ ulint n_free_now, /*!< in: number of free extents now */ ulint n_to_reserve) /*!< in: how many one wants to reserve */ { fil_space_t* space; ibool success; ut_ad(fil_system); mutex_enter(&fil_system->mutex); space = fil_space_get_by_id(id); ut_a(space); if (space->n_reserved_extents + n_to_reserve > n_free_now) { success = FALSE; } else { space->n_reserved_extents += n_to_reserve; success = TRUE; } mutex_exit(&fil_system->mutex); return(success); } /*******************************************************************//** Releases free extents in a file space. */ UNIV_INTERN void fil_space_release_free_extents( /*===========================*/ ulint id, /*!< in: space id */ ulint n_reserved) /*!< in: how many one reserved */ { fil_space_t* space; ut_ad(fil_system); mutex_enter(&fil_system->mutex); space = fil_space_get_by_id(id); ut_a(space); ut_a(space->n_reserved_extents >= n_reserved); space->n_reserved_extents -= n_reserved; mutex_exit(&fil_system->mutex); } /*******************************************************************//** Gets the number of reserved extents. If the database is silent, this number should be zero. */ UNIV_INTERN ulint fil_space_get_n_reserved_extents( /*=============================*/ ulint id) /*!< in: space id */ { fil_space_t* space; ulint n; ut_ad(fil_system); mutex_enter(&fil_system->mutex); space = fil_space_get_by_id(id); ut_a(space); n = space->n_reserved_extents; mutex_exit(&fil_system->mutex); return(n); } /*============================ FILE I/O ================================*/ /********************************************************************//** NOTE: you must call fil_mutex_enter_and_prepare_for_io() first! Prepares a file node for i/o. Opens the file if it is closed. Updates the pending i/o's field in the node and the system appropriately. Takes the node off the LRU list if it is in the LRU list. The caller must hold the fil_sys mutex. */ static void fil_node_prepare_for_io( /*====================*/ fil_node_t* node, /*!< in: file node */ fil_system_t* system, /*!< in: tablespace memory cache */ fil_space_t* space) /*!< in: space */ { ut_ad(node && system && space); ut_ad(mutex_own(&(system->mutex))); if (system->n_open > system->max_n_open + 5) { ut_print_timestamp(stderr); fprintf(stderr, " InnoDB: Warning: open files %lu" " exceeds the limit %lu\n", (ulong) system->n_open, (ulong) system->max_n_open); } if (node->open == FALSE) { /* File is closed: open it */ ut_a(node->n_pending == 0); fil_node_open_file(node, system, space); } if (node->n_pending == 0 && space->purpose == FIL_TABLESPACE && !trx_sys_sys_space(space->id)) { /* The node is in the LRU list, remove it */ ut_a(UT_LIST_GET_LEN(system->LRU) > 0); UT_LIST_REMOVE(LRU, system->LRU, node); } node->n_pending++; } /********************************************************************//** Updates the data structures when an i/o operation finishes. Updates the pending i/o's field in the node appropriately. */ static void fil_node_complete_io( /*=================*/ fil_node_t* node, /*!< in: file node */ fil_system_t* system, /*!< in: tablespace memory cache */ ulint type) /*!< in: OS_FILE_WRITE or OS_FILE_READ; marks the node as modified if type == OS_FILE_WRITE */ { ut_ad(node); ut_ad(system); ut_ad(mutex_own(&(system->mutex))); ut_a(node->n_pending > 0); node->n_pending--; if (type == OS_FILE_WRITE) { system->modification_counter++; node->modification_counter = system->modification_counter; if (!node->space->is_in_unflushed_spaces) { node->space->is_in_unflushed_spaces = TRUE; UT_LIST_ADD_FIRST(unflushed_spaces, system->unflushed_spaces, node->space); } } if (node->n_pending == 0 && node->space->purpose == FIL_TABLESPACE && !trx_sys_sys_space(node->space->id)) { /* The node must be put back to the LRU list */ UT_LIST_ADD_FIRST(LRU, system->LRU, node); } } /********************************************************************//** Report information about an invalid page access. */ static void fil_report_invalid_page_access( /*===========================*/ ulint block_offset, /*!< in: block offset */ ulint space_id, /*!< in: space id */ const char* space_name, /*!< in: space name */ ulint byte_offset, /*!< in: byte offset */ ulint len, /*!< in: I/O length */ ulint type) /*!< in: I/O type */ { fprintf(stderr, "InnoDB: Error: trying to access page number %lu" " in space %lu,\n" "InnoDB: space name %s,\n" "InnoDB: which is outside the tablespace bounds.\n" "InnoDB: Byte offset %lu, len %lu, i/o type %lu.\n" "InnoDB: If you get this error at mysqld startup," " please check that\n" "InnoDB: your my.cnf matches the ibdata files" " that you have in the\n" "InnoDB: MySQL server.\n", (ulong) block_offset, (ulong) space_id, space_name, (ulong) byte_offset, (ulong) len, (ulong) type); } /********************************************************************//** Reads or writes data. This operation is asynchronous (aio). @return DB_SUCCESS, or DB_TABLESPACE_DELETED if we are trying to do i/o on a tablespace which does not exist */ UNIV_INTERN ulint _fil_io( /*===*/ ulint type, /*!< in: OS_FILE_READ or OS_FILE_WRITE, ORed to OS_FILE_LOG, if a log i/o and ORed to OS_AIO_SIMULATED_WAKE_LATER if simulated aio and we want to post a batch of i/os; 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! */ ibool sync, /*!< in: TRUE if synchronous aio is desired */ ulint space_id, /*!< in: space id */ ulint zip_size, /*!< in: compressed page size in bytes; 0 for uncompressed pages */ ulint block_offset, /*!< in: offset in number of blocks */ ulint byte_offset, /*!< in: remainder of offset in bytes; in aio this must be divisible by the OS block size */ ulint len, /*!< in: how many bytes to read or write; this must not cross a file boundary; in aio this must be a block size multiple */ void* buf, /*!< in/out: buffer where to store read data or from where to write; in aio this must be appropriately aligned */ void* message, /*!< in: message for aio handler if non-sync aio used, else ignored */ trx_t* trx) { ulint mode; fil_space_t* space; fil_node_t* node; ulint offset_high; ulint offset_low; ibool ret; ulint is_log; ulint wake_later; is_log = type & OS_FILE_LOG; type = type & ~OS_FILE_LOG; wake_later = type & OS_AIO_SIMULATED_WAKE_LATER; type = type & ~OS_AIO_SIMULATED_WAKE_LATER; ut_ad(byte_offset < UNIV_PAGE_SIZE); ut_ad(!zip_size || !byte_offset); ut_ad(ut_is_2pow(zip_size)); ut_ad(buf); ut_ad(len > 0); //#if (1 << UNIV_PAGE_SIZE_SHIFT) != UNIV_PAGE_SIZE //# error "(1 << UNIV_PAGE_SIZE_SHIFT) != UNIV_PAGE_SIZE" //#endif ut_ad(fil_validate_skip()); #ifndef UNIV_HOTBACKUP # ifndef UNIV_LOG_DEBUG /* ibuf bitmap pages must be read in the sync aio mode: */ ut_ad(recv_no_ibuf_operations || (type == OS_FILE_WRITE) || !ibuf_bitmap_page(zip_size, block_offset) || sync || is_log); # endif /* UNIV_LOG_DEBUG */ if (sync) { mode = OS_AIO_SYNC; } else if (is_log) { mode = OS_AIO_LOG; } else if (type == OS_FILE_READ && !recv_no_ibuf_operations && ibuf_page(space_id, zip_size, block_offset, NULL)) { mode = OS_AIO_IBUF; } else { mode = OS_AIO_NORMAL; } #else /* !UNIV_HOTBACKUP */ ut_a(sync); mode = OS_AIO_SYNC; #endif /* !UNIV_HOTBACKUP */ if (type == OS_FILE_READ) { srv_data_read+= len; } else if (type == OS_FILE_WRITE) { srv_data_written+= len; } /* Reserve the fil_system mutex and make sure that we can open at least one file while holding it, if the file is not already open */ fil_mutex_enter_and_prepare_for_io(space_id); space = fil_space_get_by_id(space_id); /* If we are deleting a tablespace we don't allow any read operations on that. However, we do allow write operations. */ if (!space || (type == OS_FILE_READ && space->stop_new_ops)) { mutex_exit(&fil_system->mutex); ut_print_timestamp(stderr); fprintf(stderr, " InnoDB: Error: trying to do i/o" " to a tablespace which does not exist.\n" "InnoDB: i/o type %lu, space id %lu," " page no. %lu, i/o length %lu bytes\n", (ulong) type, (ulong) space_id, (ulong) block_offset, (ulong) len); return(DB_TABLESPACE_DELETED); } ut_ad((mode != OS_AIO_IBUF) || (space->purpose == FIL_TABLESPACE)); node = UT_LIST_GET_FIRST(space->chain); for (;;) { if (UNIV_UNLIKELY(node == NULL)) { fil_report_invalid_page_access( block_offset, space_id, space->name, byte_offset, len, type); ut_error; } if (space->id != 0 && node->size == 0) { /* We do not know the size of a single-table tablespace before we open the file */ break; } if (node->size > block_offset) { /* Found! */ break; } else { block_offset -= node->size; node = UT_LIST_GET_NEXT(chain, node); } } /* Open file if closed */ fil_node_prepare_for_io(node, fil_system, space); /* Check that at least the start offset is within the bounds of a single-table tablespace */ if (UNIV_UNLIKELY(node->size <= block_offset) && space->id != 0 && space->purpose == FIL_TABLESPACE) { fil_report_invalid_page_access( block_offset, space_id, space->name, byte_offset, len, type); ut_error; } /* Now we have made the changes in the data structures of fil_system */ mutex_exit(&fil_system->mutex); /* Calculate the low 32 bits and the high 32 bits of the file offset */ if (!zip_size) { offset_high = (block_offset >> (32 - UNIV_PAGE_SIZE_SHIFT)); offset_low = ((block_offset << UNIV_PAGE_SIZE_SHIFT) & 0xFFFFFFFFUL) + byte_offset; ut_a(node->size - block_offset >= ((byte_offset + len + (UNIV_PAGE_SIZE - 1)) / UNIV_PAGE_SIZE)); } else { ulint zip_size_shift; switch (zip_size) { case 1024: zip_size_shift = 10; break; case 2048: zip_size_shift = 11; break; case 4096: zip_size_shift = 12; break; case 8192: zip_size_shift = 13; break; case 16384: zip_size_shift = 14; break; default: ut_error; } offset_high = block_offset >> (32 - zip_size_shift); offset_low = (block_offset << zip_size_shift & 0xFFFFFFFFUL) + byte_offset; ut_a(node->size - block_offset >= (len + (zip_size - 1)) / zip_size); } /* Do aio */ ut_a(byte_offset % OS_MIN_LOG_BLOCK_SIZE == 0); ut_a((len % OS_MIN_LOG_BLOCK_SIZE) == 0); #ifndef UNIV_HOTBACKUP if (UNIV_UNLIKELY(space->is_corrupt && srv_pass_corrupt_table)) { /* should ignore i/o for the crashed space */ if (srv_pass_corrupt_table == 1 || type == OS_FILE_WRITE) { mutex_enter(&fil_system->mutex); fil_node_complete_io(node, fil_system, type); mutex_exit(&fil_system->mutex); if (mode == OS_AIO_NORMAL) { ut_a(space->purpose == FIL_TABLESPACE); buf_page_io_complete(message); } } if (srv_pass_corrupt_table == 1 && type == OS_FILE_READ) { return(DB_TABLESPACE_DELETED); } else if (type == OS_FILE_WRITE) { return(DB_SUCCESS); } } /**/ /* Queue the aio request */ ret = os_aio(type, mode | wake_later, node->name, node->handle, buf, offset_low, offset_high, len, node, message, space_id, trx); #else /* In ibbackup do normal i/o, not aio */ if (type == OS_FILE_READ) { ret = os_file_read(node->handle, buf, offset_low, offset_high, len); } else { ret = os_file_write(node->name, node->handle, buf, offset_low, offset_high, len); } #endif ut_a(ret); if (mode == OS_AIO_SYNC) { /* The i/o operation is already completed when we return from os_aio: */ mutex_enter(&fil_system->mutex); fil_node_complete_io(node, fil_system, type); mutex_exit(&fil_system->mutex); ut_ad(fil_validate_skip()); } return(DB_SUCCESS); } /********************************************************************//** Confirm whether the parameters are valid or not */ UNIV_INTERN ibool fil_is_exist( /*==============*/ ulint space_id, /*!< in: space id */ ulint block_offset) /*!< in: offset in number of blocks */ { fil_space_t* space; fil_node_t* node; /* Reserve the fil_system mutex and make sure that we can open at least one file while holding it, if the file is not already open */ fil_mutex_enter_and_prepare_for_io(space_id); space = fil_space_get_by_id(space_id); if (!space) { mutex_exit(&fil_system->mutex); return(FALSE); } node = UT_LIST_GET_FIRST(space->chain); for (;;) { if (UNIV_UNLIKELY(node == NULL)) { mutex_exit(&fil_system->mutex); return(FALSE); } if (space->id != 0 && node->size == 0) { /* We do not know the size of a single-table tablespace before we open the file */ break; } if (node->size > block_offset) { /* Found! */ break; } else { block_offset -= node->size; node = UT_LIST_GET_NEXT(chain, node); } } /* Open file if closed */ fil_node_prepare_for_io(node, fil_system, space); fil_node_complete_io(node, fil_system, OS_FILE_READ); /* Check that at least the start offset is within the bounds of a single-table tablespace */ if (UNIV_UNLIKELY(node->size <= block_offset) && space->id != 0 && space->purpose == FIL_TABLESPACE) { mutex_exit(&fil_system->mutex); return(FALSE); } mutex_exit(&fil_system->mutex); return(TRUE); } #ifndef UNIV_HOTBACKUP /**********************************************************************//** Waits for an aio operation to complete. This function is used to write the handler for completed requests. The aio array of pending requests is divided into segments (see os0file.c for more info). The thread specifies which segment it wants to wait for. */ UNIV_INTERN void fil_aio_wait( /*=========*/ ulint segment) /*!< in: the number of the segment in the aio array to wait for */ { ibool ret; fil_node_t* fil_node; void* message; ulint type; ulint space_id = 0; ut_ad(fil_validate_skip()); if (srv_use_native_aio) { srv_set_io_thread_op_info(segment, "native aio handle"); #ifdef WIN_ASYNC_IO ret = os_aio_windows_handle(segment, 0, &fil_node, &message, &type, &space_id); #elif defined(LINUX_NATIVE_AIO) ret = os_aio_linux_handle(segment, &fil_node, &message, &type, &space_id); #else ut_error; ret = 0; /* Eliminate compiler warning */ #endif } else { srv_set_io_thread_op_info(segment, "simulated aio handle"); ret = os_aio_simulated_handle(segment, &fil_node, &message, &type, &space_id); } ut_a(ret); if (UNIV_UNLIKELY(fil_node == NULL)) { ut_ad(srv_shutdown_state == SRV_SHUTDOWN_EXIT_THREADS); return; } srv_set_io_thread_op_info(segment, "complete io for fil node"); mutex_enter(&fil_system->mutex); fil_node_complete_io(fil_node, fil_system, type); mutex_exit(&fil_system->mutex); ut_ad(fil_validate_skip()); /* Do the i/o handling */ /* IMPORTANT: since i/o handling for reads will read also the insert buffer in tablespace 0, you have to be very careful not to introduce deadlocks in the i/o system. We keep tablespace 0 data files always open, and use a special i/o thread to serve insert buffer requests. */ if (fil_node->space->purpose == FIL_TABLESPACE) { srv_set_io_thread_op_info(segment, "complete io for buf page"); buf_page_io_complete(message); } else { srv_set_io_thread_op_info(segment, "complete io for log"); log_io_complete(message); } } #endif /* UNIV_HOTBACKUP */ /**********************************************************************//** Flushes to disk possible writes cached by the OS. If the space does not exist or is being dropped, does not do anything. */ UNIV_INTERN void fil_flush( /*======*/ ulint space_id, /*!< in: file space id (this can be a group of log files or a tablespace of the database) */ ibool metadata) { fil_space_t* space; fil_node_t* node; os_file_t file; ib_int64_t old_mod_counter; mutex_enter(&fil_system->mutex); space = fil_space_get_by_id(space_id); if (!space || space->stop_new_ops) { mutex_exit(&fil_system->mutex); return; } space->n_pending_flushes++; /*!< prevent dropping of the space while we are flushing */ node = UT_LIST_GET_FIRST(space->chain); while (node) { if (node->modification_counter > node->flush_counter) { ut_a(node->open); /* We want to flush the changes at least up to old_mod_counter */ old_mod_counter = node->modification_counter; if (space->purpose == FIL_TABLESPACE) { fil_n_pending_tablespace_flushes++; } else { fil_n_pending_log_flushes++; fil_n_log_flushes++; } #ifdef __WIN__ if (node->is_raw_disk) { goto skip_flush; } #endif retry: if (node->n_pending_flushes > 0) { /* We want to avoid calling os_file_flush() on the file twice at the same time, because we do not know what bugs OS's may contain in file i/o; sleep for a while */ mutex_exit(&fil_system->mutex); os_thread_sleep(20000); mutex_enter(&fil_system->mutex); if (node->flush_counter >= old_mod_counter) { goto skip_flush; } goto retry; } ut_a(node->open); file = node->handle; node->n_pending_flushes++; mutex_exit(&fil_system->mutex); /* fprintf(stderr, "Flushing to file %s\n", node->name); */ os_file_flush(file, metadata); mutex_enter(&fil_system->mutex); node->n_pending_flushes--; skip_flush: if (node->flush_counter < old_mod_counter) { node->flush_counter = old_mod_counter; if (space->is_in_unflushed_spaces && fil_space_is_flushed(space)) { space->is_in_unflushed_spaces = FALSE; UT_LIST_REMOVE( unflushed_spaces, fil_system->unflushed_spaces, space); } } if (space->purpose == FIL_TABLESPACE) { fil_n_pending_tablespace_flushes--; } else { fil_n_pending_log_flushes--; } } node = UT_LIST_GET_NEXT(chain, node); } space->n_pending_flushes--; mutex_exit(&fil_system->mutex); } /**********************************************************************//** Flushes to disk the writes in file spaces of the given type possibly cached by the OS. */ UNIV_INTERN void fil_flush_file_spaces( /*==================*/ ulint purpose) /*!< in: FIL_TABLESPACE, FIL_LOG */ { fil_space_t* space; ulint* space_ids; ulint n_space_ids; ulint i; mutex_enter(&fil_system->mutex); n_space_ids = UT_LIST_GET_LEN(fil_system->unflushed_spaces); if (n_space_ids == 0) { mutex_exit(&fil_system->mutex); return; } /* Assemble a list of space ids to flush. Previously, we traversed fil_system->unflushed_spaces and called UT_LIST_GET_NEXT() on a space that was just removed from the list by fil_flush(). Thus, the space could be dropped and the memory overwritten. */ space_ids = mem_alloc(n_space_ids * sizeof *space_ids); n_space_ids = 0; for (space = UT_LIST_GET_FIRST(fil_system->unflushed_spaces); space; space = UT_LIST_GET_NEXT(unflushed_spaces, space)) { if (space->purpose == purpose && !space->stop_new_ops) { space_ids[n_space_ids++] = space->id; } } mutex_exit(&fil_system->mutex); /* Flush the spaces. It will not hurt to call fil_flush() on a non-existing space id. */ for (i = 0; i < n_space_ids; i++) { fil_flush(space_ids[i], TRUE); } mem_free(space_ids); } /******************************************************************//** Checks the consistency of the tablespace cache. @return TRUE if ok */ UNIV_INTERN ibool fil_validate(void) /*==============*/ { fil_space_t* space; fil_node_t* fil_node; ulint n_open = 0; ulint i; mutex_enter(&fil_system->mutex); /* Look for spaces in the hash table */ for (i = 0; i < hash_get_n_cells(fil_system->spaces); i++) { space = HASH_GET_FIRST(fil_system->spaces, i); while (space != NULL) { UT_LIST_VALIDATE(chain, fil_node_t, space->chain, ut_a(ut_list_node_313->open || !ut_list_node_313->n_pending)); fil_node = UT_LIST_GET_FIRST(space->chain); while (fil_node != NULL) { if (fil_node->n_pending > 0) { ut_a(fil_node->open); } if (fil_node->open) { n_open++; } fil_node = UT_LIST_GET_NEXT(chain, fil_node); } space = HASH_GET_NEXT(hash, space); } } ut_a(fil_system->n_open == n_open); UT_LIST_VALIDATE(LRU, fil_node_t, fil_system->LRU, (void) 0); fil_node = UT_LIST_GET_FIRST(fil_system->LRU); while (fil_node != NULL) { ut_a(fil_node->n_pending == 0); ut_a(fil_node->open); ut_a(fil_node->space->purpose == FIL_TABLESPACE); ut_a(!trx_sys_sys_space(fil_node->space->id)); fil_node = UT_LIST_GET_NEXT(LRU, fil_node); } mutex_exit(&fil_system->mutex); return(TRUE); } /********************************************************************//** Returns TRUE if file address is undefined. @return TRUE if undefined */ UNIV_INTERN ibool fil_addr_is_null( /*=============*/ fil_addr_t addr) /*!< in: address */ { return(addr.page == FIL_NULL); } /********************************************************************//** Get the predecessor of a file page. @return FIL_PAGE_PREV */ UNIV_INTERN ulint fil_page_get_prev( /*==============*/ const byte* page) /*!< in: file page */ { return(mach_read_from_4(page + FIL_PAGE_PREV)); } /********************************************************************//** Get the successor of a file page. @return FIL_PAGE_NEXT */ UNIV_INTERN ulint fil_page_get_next( /*==============*/ const byte* page) /*!< in: file page */ { return(mach_read_from_4(page + FIL_PAGE_NEXT)); } /*********************************************************************//** Sets the file page type. */ UNIV_INTERN void fil_page_set_type( /*==============*/ byte* page, /*!< in/out: file page */ ulint type) /*!< in: type */ { ut_ad(page); mach_write_to_2(page + FIL_PAGE_TYPE, type); } /*********************************************************************//** Gets the file page type. @return type; NOTE that if the type has not been written to page, the return value not defined */ UNIV_INTERN ulint fil_page_get_type( /*==============*/ const byte* page) /*!< in: file page */ { ut_ad(page); return(mach_read_from_2(page + FIL_PAGE_TYPE)); } /****************************************************************//** Initializes the tablespace memory cache. */ UNIV_INTERN void fil_close(void) /*===========*/ { #ifndef UNIV_HOTBACKUP /* The mutex should already have been freed. */ ut_ad(fil_system->mutex.magic_n == 0); #endif /* !UNIV_HOTBACKUP */ hash_table_free(fil_system->spaces); hash_table_free(fil_system->name_hash); ut_a(UT_LIST_GET_LEN(fil_system->LRU) == 0); ut_a(UT_LIST_GET_LEN(fil_system->unflushed_spaces) == 0); ut_a(UT_LIST_GET_LEN(fil_system->space_list) == 0); mem_free(fil_system); fil_system = NULL; } /************************************************************************* Return local hash table informations. */ ulint fil_system_hash_cells(void) /*=======================*/ { if (fil_system) { return (fil_system->spaces->n_cells + fil_system->name_hash->n_cells); } else { return 0; } } ulint fil_system_hash_nodes(void) /*=======================*/ { if (fil_system) { return (UT_LIST_GET_LEN(fil_system->space_list) * (sizeof(fil_space_t) + MEM_BLOCK_HEADER_SIZE)); } else { return 0; } } /************************************************************************* functions to access is_corrupt flag of fil_space_t*/ ibool fil_space_is_corrupt( /*=================*/ ulint space_id) { fil_space_t* space; ibool ret = FALSE; mutex_enter(&fil_system->mutex); space = fil_space_get_by_id(space_id); if (space && space->is_corrupt) { ret = TRUE; } mutex_exit(&fil_system->mutex); return(ret); } void fil_space_set_corrupt( /*==================*/ ulint space_id) { fil_space_t* space; mutex_enter(&fil_system->mutex); space = fil_space_get_by_id(space_id); if (space) { space->is_corrupt = TRUE; } mutex_exit(&fil_system->mutex); } /****************************************************************//** Generate redo logs for swapping two .ibd files */ UNIV_INTERN void fil_mtr_rename_log( /*===============*/ ulint old_space_id, /*!< in: tablespace id of the old table. */ const char* old_name, /*!< in: old table name */ ulint new_space_id, /*!< in: tablespace id of the new table */ const char* new_name, /*!< in: new table name */ const char* tmp_name) /*!< in: temp table name used while swapping */ { mtr_t mtr; mtr_start(&mtr); fil_op_write_log(MLOG_FILE_RENAME, old_space_id, 0, 0, old_name, tmp_name, &mtr); fil_op_write_log(MLOG_FILE_RENAME, new_space_id, 0, 0, new_name, old_name, &mtr); mtr_commit(&mtr); }