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|
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* Copyright by The HDF Group. *
* Copyright by the Board of Trustees of the University of Illinois. *
* All rights reserved. *
* *
* This file is part of HDF5. The full HDF5 copyright notice, including *
* terms governing use, modification, and redistribution, is contained in *
* the files COPYING and Copyright.html. COPYING can be found at the root *
* of the source code distribution tree; Copyright.html can be found at the *
* root level of an installed copy of the electronic HDF5 document set and *
* is linked from the top-level documents page. It can also be found at *
* http://hdfgroup.org/HDF5/doc/Copyright.html. If you do not have *
* access to either file, you may request a copy from help@hdfgroup.org. *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/*-------------------------------------------------------------------------
*
* Created: H5Cprivate.h
* 6/3/04
* John Mainzer
*
* Purpose: Constants and typedefs available to the rest of the
* library.
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
#ifndef _H5Cprivate_H
#define _H5Cprivate_H
#include "H5Cpublic.h" /* public prototypes */
/* Private headers needed by this header */
#include "H5private.h" /* Generic Functions */
#include "H5Fprivate.h" /* File access */
/**************************/
/* Library Private Macros */
/**************************/
/* Cache configuration settings */
#define H5C__MAX_NUM_TYPE_IDS 28
#define H5C__PREFIX_LEN 32
/* This sanity checking constant was picked out of the air. Increase
* or decrease it if appropriate. Its purposes is to detect corrupt
* object sizes, so it probably doesn't matter if it is a bit big.
*
* JRM - 5/17/04
*/
#define H5C_MAX_ENTRY_SIZE ((size_t)(32 * 1024 * 1024))
#ifdef H5_HAVE_PARALLEL
/* we must maintain the clean and dirty LRU lists when we are compiled
* with parallel support.
*/
#define H5C_MAINTAIN_CLEAN_AND_DIRTY_LRU_LISTS 1
#else /* H5_HAVE_PARALLEL */
/* The clean and dirty LRU lists don't buy us anything here -- we may
* want them on for testing on occasion, but in general they should be
* off.
*/
#define H5C_MAINTAIN_CLEAN_AND_DIRTY_LRU_LISTS 0
#endif /* H5_HAVE_PARALLEL */
/* Flags for cache client class behavior */
#define H5C__CLASS_NO_FLAGS_SET ((unsigned)0x0)
#define H5C__CLASS_SPECULATIVE_LOAD_FLAG ((unsigned)0x1)
/* The following flags may only appear in test code */
#define H5C__CLASS_SKIP_READS ((unsigned)0x2)
#define H5C__CLASS_SKIP_WRITES ((unsigned)0x4)
/* Flags for pre-serialize callback */
#define H5C__SERIALIZE_NO_FLAGS_SET ((unsigned)0)
#define H5C__SERIALIZE_RESIZED_FLAG ((unsigned)0x1)
#define H5C__SERIALIZE_MOVED_FLAG ((unsigned)0x2)
/* Upper and lower limits on cache size. These limits are picked
* out of a hat -- you should be able to change them as necessary.
*
* However, if you need a very big cache, you should also increase the
* size of the hash table (H5C__HASH_TABLE_LEN in H5Cpkg.h). The current
* upper bound on cache size is rather large for the current hash table
* size.
*/
#define H5C__MAX_MAX_CACHE_SIZE ((size_t)(128 * 1024 * 1024))
#define H5C__MIN_MAX_CACHE_SIZE ((size_t)(1024))
/* Default max cache size and min clean size are give here to make
* them generally accessable.
*/
#define H5C__DEFAULT_MAX_CACHE_SIZE ((size_t)(4 * 1024 * 1024))
#define H5C__DEFAULT_MIN_CLEAN_SIZE ((size_t)(2 * 1024 * 1024))
/* Values for cache entry magic field */
#define H5C__H5C_CACHE_ENTRY_T_MAGIC 0x005CAC0A
#define H5C__H5C_CACHE_ENTRY_T_BAD_MAGIC 0xDeadBeef
/* Cache configuration validation definitions */
#define H5C_RESIZE_CFG__VALIDATE_GENERAL 0x1
#define H5C_RESIZE_CFG__VALIDATE_INCREMENT 0x2
#define H5C_RESIZE_CFG__VALIDATE_DECREMENT 0x4
#define H5C_RESIZE_CFG__VALIDATE_INTERACTIONS 0x8
#define H5C_RESIZE_CFG__VALIDATE_ALL \
( \
H5C_RESIZE_CFG__VALIDATE_GENERAL | \
H5C_RESIZE_CFG__VALIDATE_INCREMENT | \
H5C_RESIZE_CFG__VALIDATE_DECREMENT | \
H5C_RESIZE_CFG__VALIDATE_INTERACTIONS \
)
/* Cache configuration versions */
#define H5C__CURR_AUTO_SIZE_CTL_VER 1
#define H5C__CURR_AUTO_RESIZE_RPT_FCN_VER 1
/* Number of epoch markers active */
#define H5C__MAX_EPOCH_MARKERS 10
/* Default configuration settings */
#define H5C__DEF_AR_UPPER_THRESHHOLD 0.9999f
#define H5C__DEF_AR_LOWER_THRESHHOLD 0.9f
#define H5C__DEF_AR_MAX_SIZE ((size_t)(16 * 1024 * 1024))
#define H5C__DEF_AR_INIT_SIZE ((size_t)( 1 * 1024 * 1024))
#define H5C__DEF_AR_MIN_SIZE ((size_t)( 1 * 1024 * 1024))
#define H5C__DEF_AR_MIN_CLEAN_FRAC 0.5f
#define H5C__DEF_AR_INCREMENT 2.0f
#define H5C__DEF_AR_MAX_INCREMENT ((size_t)( 2 * 1024 * 1024))
#define H5C__DEF_AR_FLASH_MULTIPLE 1.0f
#define H5C__DEV_AR_FLASH_THRESHOLD 0.25f
#define H5C__DEF_AR_DECREMENT 0.9f
#define H5C__DEF_AR_MAX_DECREMENT ((size_t)( 1 * 1024 * 1024))
#define H5C__DEF_AR_EPCHS_B4_EVICT 3
#define H5C__DEF_AR_EMPTY_RESERVE 0.05f
#define H5C__MIN_AR_EPOCH_LENGTH 100
#define H5C__DEF_AR_EPOCH_LENGTH 50000
#define H5C__MAX_AR_EPOCH_LENGTH 1000000
/* #defines of flags used in the flags parameters in some of the
* following function calls. Note that not all flags are applicable
* to all function calls. Flags that don't apply to a particular
* function are ignored in that function.
*
* These flags apply to all function calls:
* H5C__NO_FLAGS_SET (generic "no flags set" for all fcn calls)
*
*
* These flags apply to H5C_insert_entry():
* H5C__SET_FLUSH_MARKER_FLAG
* H5C__PIN_ENTRY_FLAG
* H5C__FLUSH_LAST_FLAG ; super block only
* H5C__FLUSH_COLLECTIVELY_FLAG ; super block only
*
* These flags apply to H5C_protect()
* H5C__READ_ONLY_FLAG
* H5C__FLUSH_LAST_FLAG ; super block only
* H5C__FLUSH_COLLECTIVELY_FLAG ; super block only
*
* These flags apply to H5C_unprotect():
* H5C__SET_FLUSH_MARKER_FLAG
* H5C__DELETED_FLAG
* H5C__DIRTIED_FLAG
* H5C__PIN_ENTRY_FLAG
* H5C__UNPIN_ENTRY_FLAG
* H5C__FREE_FILE_SPACE_FLAG
* H5C__TAKE_OWNERSHIP_FLAG
*
* These flags apply to H5C_expunge_entry():
* H5C__FREE_FILE_SPACE_FLAG
*
* These flags apply to H5C_flush_cache():
* H5C__FLUSH_INVALIDATE_FLAG
* H5C__FLUSH_CLEAR_ONLY_FLAG
* H5C__FLUSH_MARKED_ENTRIES_FLAG
* H5C__FLUSH_IGNORE_PROTECTED_FLAG (can't use this flag in combination
* with H5C__FLUSH_INVALIDATE_FLAG)
* H5C__DURING_FLUSH_FLAG
*
* These flags apply to H5C_flush_single_entry():
* H5C__FLUSH_INVALIDATE_FLAG
* H5C__FLUSH_CLEAR_ONLY_FLAG
* H5C__FLUSH_MARKED_ENTRIES_FLAG
* H5C__TAKE_OWNERSHIP_FLAG
* H5C__DEL_FROM_SLIST_ON_DESTROY_FLAG
*/
#define H5C__NO_FLAGS_SET 0x00000
#define H5C__SET_FLUSH_MARKER_FLAG 0x00001
#define H5C__DELETED_FLAG 0x00002
#define H5C__DIRTIED_FLAG 0x00004
#define H5C__PIN_ENTRY_FLAG 0x00008
#define H5C__UNPIN_ENTRY_FLAG 0x00010
#define H5C__FLUSH_INVALIDATE_FLAG 0x00020
#define H5C__FLUSH_CLEAR_ONLY_FLAG 0x00040
#define H5C__FLUSH_MARKED_ENTRIES_FLAG 0x00080
#define H5C__FLUSH_IGNORE_PROTECTED_FLAG 0x00100
#define H5C__READ_ONLY_FLAG 0x00200
#define H5C__FREE_FILE_SPACE_FLAG 0x00400
#define H5C__TAKE_OWNERSHIP_FLAG 0x00800
#define H5C__FLUSH_LAST_FLAG 0x01000
#define H5C__FLUSH_COLLECTIVELY_FLAG 0x02000
#define H5C__EVICT_ALLOW_LAST_PINS_FLAG 0x04000
#define H5C__DEL_FROM_SLIST_ON_DESTROY_FLAG 0x08000
#define H5C__DURING_FLUSH_FLAG 0x10000 /* Set when the entire cache is being flushed */
/* Debugging/sanity checking/statistics settings */
#ifndef NDEBUG
#define H5C_DO_SANITY_CHECKS 1
#define H5C_DO_SLIST_SANITY_CHECKS 0
#define H5C_DO_TAGGING_SANITY_CHECKS 1
#define H5C_DO_EXTREME_SANITY_CHECKS 0
#else /* NDEBUG */
/* With rare execptions, the following defines should be set
* to 0 if NDEBUG is defined
*/
#define H5C_DO_SANITY_CHECKS 0
#define H5C_DO_SLIST_SANITY_CHECKS 0
#define H5C_DO_TAGGING_SANITY_CHECKS 0
#define H5C_DO_EXTREME_SANITY_CHECKS 0
#endif /* NDEBUG */
/* Cork actions: cork/uncork/get cork status of an object */
#define H5C__SET_CORK 0x1
#define H5C__UNCORK 0x2
#define H5C__GET_CORKED 0x4
/* Note: The memory sanity checks aren't going to work until I/O filters are
* changed to call a particular alloc/free routine for their buffers,
* because the H5AC__SERIALIZE_RESIZED_FLAG set by the fractal heap
* direct block serialize callback calls H5Z_pipeline(). When the I/O
* filters are changed, then we should implement "cache image alloc/free"
* routines that the fractal heap direct block (and global heap) serialize
* calls can use when resizing (and re-allocating) their image in the
* cache. -QAK */
#define H5C_DO_MEMORY_SANITY_CHECKS 0
/* H5C_COLLECT_CACHE_STATS controls overall collection of statistics
* on cache activity. In general, this #define should be set to 1 in
* debug mode, and 0 in production mode..
*/
#ifndef NDEBUG
#define H5C_COLLECT_CACHE_STATS 1
#else /* NDEBUG */
#define H5C_COLLECT_CACHE_STATS 0
#endif /* NDEBUG */
/* H5C_COLLECT_CACHE_ENTRY_STATS controls collection of statistics
* in individual cache entries.
*
* H5C_COLLECT_CACHE_ENTRY_STATS should only be defined to true if
* H5C_COLLECT_CACHE_STATS is also defined to true.
*/
#if H5C_COLLECT_CACHE_STATS
#define H5C_COLLECT_CACHE_ENTRY_STATS 1
#else
#define H5C_COLLECT_CACHE_ENTRY_STATS 0
#endif /* H5C_COLLECT_CACHE_STATS */
/****************************/
/* Library Private Typedefs */
/****************************/
/* Typedef for the main structure for the cache (defined in H5Cpkg.h) */
typedef struct H5C_t H5C_t;
/*
*
* Struct H5C_class_t
*
* Instances of H5C_class_t are used to specify the callback functions
* used by the metadata cache for each class of metadata cache entry.
* The fields of the structure are discussed below:
*
* id: Integer field containing the unique ID of the class of metadata
* cache entries.
*
* name: Pointer to a string containing the name of the class of metadata
* cache entries.
*
* mem_type: Instance of H5FD_mem_t, that is used to supply the
* mem type passed into H5F_block_read().
*
* flags: Flags indicating class-specific behavior.
*
* Possible flags are:
*
* H5C__CLASS_NO_FLAGS_SET: No special processing.
*
* H5C__CLASS_SPECULATIVE_LOAD_FLAG: This flag is used only in
* H5C_load_entry(). When it is set, entries are
* permitted to change their sizes on the first attempt
* to load.
*
* If the new size is larger than the old, the read buffer
* is reallocated to the new size, loaded from file, and the
* deserialize routine is called a second time on the
* new buffer. The entry returned by the first call to
* the deserialize routine is discarded (via the free_icr
* call) after the new size is retrieved (via the image_len
* call). Note that the new size is used as the size of the
* entry in the cache.
*
* If the new size is smaller than the old, no new loads
* or deserializes are performed, but the new size becomes
* the size of the entry in the cache.
*
* When this flag is set, an attempt to read past the
* end of file could occur. In this case, if the size
* returned get_load_size callback would result in a
* read past the end of file, the size is truncated to
* avoid this, and processing proceeds as normal.
*
* The following flags may only appear in test code.
*
* H5C__CLASS_SKIP_READS: This flags is intended only for use in test
* code. When it is set, reads on load will be skipped,
* and an uninitialize buffer will be passed to the
* deserialize function.
*
* H5C__CLASS_SKIP_WRITES: This flags is intended only for use in test
* code. When it is set, writes of buffers prepared by the
* serialize callback will be skipped.
*
* GET_INITIAL_LOAD_SIZE: Pointer to the 'get initial load size' function.
*
* This function determines the size based on the information in the
* parameter "udata" or an initial speculative guess. The size is
* returned in the parameter "image_len_ptr".
*
* For an entry with H5C__CLASS_NO_FLAGS_SET:
* This function returns in "image_len_ptr" the on disk size of the
* entry.
*
* For an entry with H5C__CLASS_SPECULATIVE_LOAD_FLAG:
* This function returns in "image_len_ptr" an initial guess of the
* entry's on disk size. This many bytes will be loaded from
* the file and then passed to 'get_final_load_size' callback
* for the actual (final) image length to be determined.
*
* The typedef for the get_initial_load_size callback is as follows:
*
* typedef herr_t (*H5C_get_initial_load_size_func_t)(void *udata_ptr,
* size_t *image_len_ptr);
*
* The parameters of the get_initial_load_size callback are as follows:
*
* udata_ptr: Pointer to user data provided in the protect call, which
* will also be passed through to the 'get_final_load_size',
* 'verify_chksum', and 'deserialize' callbacks.
*
* image_len_ptr: Pointer to the length in bytes of the in-file image to
* be deserialized is to be returned.
*
* This value is used by the cache to determine the size of
* the disk image for the metadata, in order to read the disk
* image from the file.
*
* Processing in the get_load_size function should proceed as follows:
*
* If successful, the function will place the length in the *image_len_ptr
* associated with supplied user data and then return SUCCEED.
*
* On failure, the function must return FAIL and push error information
* onto the error stack with the error API routines, without modifying
* the value pointed to by image_len_ptr.
*
*
* GET_FINAL_LOAD_SIZE: Pointer to the 'get final load size' function.
*
* This function determines the final size of a speculatively loaded
* metadata cache entry based on the parameter "image" and the "udata"
* parameters. This callback _must_ be implemented for cache clients
* which set the H5C__CLASS_SPECULATIVE_LOAD_FLAG and must return the
* actual length of on-disk image after being called once.
*
* This function might deserialize the needed metadata information to
* determine the actual size. The size is returned in the parameter
* "actual_len_ptr".
*
* The typedef for the get_load_size callback is as follows:
*
* typedef herr_t (*H5C_get_final_load_size_func_t)(const void *image_ptr,
* size_t image_len,
* void *udata_ptr,
* size_t *actual_len_ptr);
*
* The parameters of the get_load_size callback are as follows:
*
* image_ptr: Pointer to a buffer containing the (possibly partial)
* metadata read in.
*
* image_len: The length in bytes of the (possibly partial) in-file image
* to be queried for an actual length.
*
* udata_ptr: Pointer to user data provided in the protect call, which
* will also be passed through to the 'verify_chksum' and
* 'deserialize' callbacks.
*
* actual_len_ptr: Pointer to the location containing the actual length
* of the metadata entry on disk.
*
* Processing in the get_final_load_size function should proceed as follows:
*
* If successful, the function will place the length in the *actual_len_ptr
* associated with supplied image and/or user data and then return SUCCEED.
*
* On failure, the function must return FAIL and push error information
* onto the error stack with the error API routines, without modifying
* the value pointed to by actual_len_ptr.
*
*
* VERIFY_CHKSUM: Pointer to the verify_chksum function.
*
* This function verifies the checksum computed for the metadata is
* the same as the checksum stored in the metadata.
*
* It computes the checksum based on the metadata stored in the
* parameter "image_ptr" and the actual length of the metadata in the
* parameter "len" which is obtained from the "get_load_size" callback.
*
* The typedef for the verify_chksum callback is as follows:
*
* typedef htri_t (*H5C_verify_chksum_func_t)(const void *image_ptr,
* size_t len,
* void *udata_ptr);
*
* The parameters of the verify_chksum callback are as follows:
*
* image_ptr: Pointer to a buffer containing the metadata read in.
*
* len: The actual length of the metadata.
*
* udata_ptr: Pointer to user data.
*
*
* DESERIALIZE: Pointer to the deserialize function.
*
* This function must be able to deserialize a buffer containing the
* on-disk image of a metadata cache entry, allocate and initialize the
* equivalent in core representation, and return a pointer to that
* representation.
*
* The typedef for the deserialize callback is as follows:
*
* typedef void *(*H5C_deserialize_func_t)(const void * image_ptr,
* size_t len,
* void * udata_ptr,
* boolean * dirty_ptr);
*
* The parameters of the deserialize callback are as follows:
*
* image_ptr: Pointer to a buffer of length len containing the
* contents of the file starting at addr and continuing
* for len bytes.
*
* len: Length in bytes of the in file image to be deserialized.
*
* This parameter is supplied mainly for sanity checking.
* Sanity checks should be performed when compiled in debug
* mode, but the parameter may be unused when compiled in
* production mode.
*
* udata_ptr: Pointer to user data provided in the protect call, which
* must be passed through to the deserialize callback.
*
* dirty_ptr: Pointer to boolean which the deserialize function
* must use to mark the entry dirty if it has to modify
* the entry to clean up file corruption left over from
* an old bug in the HDF5 library.
*
* Processing in the deserialize function should proceed as follows:
*
* If the image contains valid data, and is of the correct length,
* the deserialize function must allocate space for an in-core
* representation of that data, deserialize the contents of the image
* into the space allocated for the in-core representation, and return
* a pointer to the in core representation. Observe that an
* instance of H5C_cache_entry_t must be the first item in this
* representation. The cache will initialize it after the callback
* returns.
*
* Note that the structure of the in-core representation is otherwise
* up to the cache client. All that is required is that the pointer
* returned be sufficient for the client's purposes when it is returned
* on a protect call.
*
* If the deserialize function has to clean up file corruption
* left over from an old bug in the HDF5 library, it must set
* *dirty_ptr to TRUE. If it doesn't, no action is needed as
* *dirty_ptr will be set to FALSE before the deserialize call.
*
* If the operation fails for any reason (i.e. bad data in buffer, bad
* buffer length, malloc failure, etc.) the function must return NULL and
* push error information on the error stack with the error API routines.
*
*
* IMAGE_LEN: Pointer to the image length callback.
*
* The image_len callback is used to obtain the size of newly inserted
* entries and assert verification.
*
* The typedef for the image_len callback is as follows:
*
* typedef herr_t (*H5C_image_len_func_t)(void *thing,
* size_t *image_len_ptr);
*
* The parameters of the image_len callback are as follows:
*
* thing: Pointer to the in core representation of the entry.
*
* image_len_ptr: Pointer to size_t in which the callback will return
* the length (in bytes) of the cache entry.
*
* Processing in the image_len function should proceed as follows:
*
* If successful, the function will place the length of the on disk
* image associated with the in core representation provided in the
* thing parameter in *image_len_ptr, and then return SUCCEED.
*
* If the function fails, it must return FAIL and push error information
* onto the error stack with the error API routines, and return without
* modifying the values pointed to by the image_len_ptr parameter.
*
*
* PRE_SERIALIZE: Pointer to the pre-serialize callback.
*
* The pre-serialize callback is invoked by the metadata cache before
* it needs a current on-disk image of the metadata entry for purposes
* either constructing a journal or flushing the entry to disk.
*
* If the client needs to change the address or length of the entry prior
* to flush, the pre-serialize callback is responsible for these actions,
* so that the actual serialize callback (described below) is only
* responsible for serializing the data structure, not moving it on disk
* or resizing it.
*
* In addition, the client may use the pre-serialize callback to
* ensure that the entry is ready to be flushed -- in particular,
* if the entry contains references to other entries that are in
* temporary file space, the pre-serialize callback must move those
* entries into real file space so that the serialzed entry will
* contain no invalid data.
*
* One would think that the base address and length of
* the length of the entry's image on disk would be well known.
* However, that need not be the case as free space section info
* entries will change size (and possibly location) depending on the
* number of blocks of free space being manages, and fractal heap
* direct blocks can change compressed size (and possibly location)
* on serialization if compression is enabled. Similarly, it may
* be necessary to move entries from temporary to real file space.
*
* The pre-serialize callback must report any such changes to the
* cache, which must then update its internal structures as needed.
*
* The typedef for the pre-serialize callback is as follows:
*
* typedef herr_t (*H5C_pre_serialize_func_t)(const H5F_t *f,
* hid_t dxpl_id,
* void * thing,
* haddr_t addr,
* size_t len,
* haddr_t * new_addr_ptr,
* size_t * new_len_ptr,
* unsigned * flags_ptr);
*
* The parameters of the pre-serialize callback are as follows:
*
* f: File pointer -- needed if other metadata cache entries
* must be modified in the process of serializing the
* target entry.
*
* dxpl_id: dxpl_id passed with the file pointer to the cache, and
* passed on to the callback. Necessary as some callbacks
* revise the size and location of the target entry, or
* possibly other entries on pre-serialize.
*
* thing: Pointer to void containing the address of the in core
* representation of the target metadata cache entry.
* This is the same pointer returned by a protect of the
* addr and len given above.
*
* addr: Base address in file of the entry to be serialized.
*
* This parameter is supplied mainly for sanity checking.
* Sanity checks should be performed when compiled in debug
* mode, but the parameter may be unused when compiled in
* production mode.
*
* len: Length in bytes of the in file image of the entry to be
* serialized. Also the size the image passed to the
* serialize callback (discussed below) unless that
* value is altered by this function.
*
* This parameter is supplied mainly for sanity checking.
* Sanity checks should be performed when compiled in debug
* mode, but the parameter may be unused when compiled in
* production mode.
*
* new_addr_ptr: Pointer to haddr_t. If the entry is moved by
* the serialize function, the new on disk base address must
* be stored in *new_addr_ptr, and the appropriate flag set
* in *flags_ptr.
*
* If the entry is not moved by the serialize function,
* *new_addr_ptr is undefined on pre-serialize callback
* return.
*
* new_len_ptr: Pointer to size_t. If the entry is resized by the
* serialize function, the new length of the on disk image
* must be stored in *new_len_ptr, and the appropriate flag set
* in *flags_ptr.
*
* If the entry is not resized by the pre-serialize function,
* *new_len_ptr is undefined on pre-serialize callback
* return.
*
* flags_ptr: Pointer to an unsigned integer used to return flags
* indicating whether the preserialize function resized or moved
* the entry. If the entry was neither resized or moved, the
* serialize function must set *flags_ptr to zero. The
* H5C__SERIALIZE_RESIZED_FLAG or H5C__SERIALIZE_MOVED_FLAG must
* be set to indicate a resize or move respectively.
*
* If the H5C__SERIALIZE_RESIZED_FLAG is set, the new length
* must be stored in *new_len_ptr.
*
* If the H5C__SERIALIZE_MOVED_FLAG flag is set, the
* new image base address must be stored in *new_addr_ptr.
*
* Processing in the pre-serialize function should proceed as follows:
*
* The pre-serialize function must examine the in core representation
* indicated by the thing parameter, if the pre-serialize function does
* not need to change the size or location of the on-disk image, it must
* set *flags_ptr to zero.
*
* If the size of the on-disk image must be changed, the pre-serialize
* function must load the length of the new image into *new_len_ptr, and
* set the H5C__SERIALIZE_RESIZED_FLAG in *flags_ptr.
*
* If the base address of the on disk image must be changed, the
* pre-serialize function must set *new_addr_ptr to the new base address,
* and set the H5C__SERIALIZE_MOVED_FLAG in *flags_ptr.
*
* In addition, the pre-serialize callback may perform any other
* processing required before the entry is written to disk
*
* If it is successful, the function must return SUCCEED.
*
* If it fails for any reason, the function must return FAIL and
* push error information on the error stack with the error API
* routines.
*
*
* SERIALIZE: Pointer to the serialize callback.
*
* The serialize callback is invoked by the metadata cache whenever
* it needs a current on disk image of the metadata entry for purposes
* either constructing a journal entry or flushing the entry to disk.
*
* At this point, the base address and length of the entry's image on
* disk must be well known and not change during the serialization
* process.
*
* While any size and/or location changes must have been handled
* by a pre-serialize call, the client may elect to handle any other
* changes to the entry required to place it in correct form for
* writing to disk in this call.
*
* The typedef for the serialize callback is as follows:
*
* typedef herr_t (*H5C_serialize_func_t)(const H5F_t *f,
* void * image_ptr,
* size_t len,
* void * thing);
*
* The parameters of the serialize callback are as follows:
*
* f: File pointer -- needed if other metadata cache entries
* must be modified in the process of serializing the
* target entry.
*
* image_ptr: Pointer to a buffer of length len bytes into which a
* serialized image of the target metadata cache entry is
* to be written.
*
* Note that this buffer will not in general be initialized
* to any particular value. Thus the serialize function may
* not assume any initial value and must set each byte in
* the buffer.
*
* len: Length in bytes of the in file image of the entry to be
* serialized. Also the size of *image_ptr (below).
*
* This parameter is supplied mainly for sanity checking.
* Sanity checks should be performed when compiled in debug
* mode, but the parameter may be unused when compiled in
* production mode.
*
* thing: Pointer to void containing the address of the in core
* representation of the target metadata cache entry.
* This is the same pointer returned by a protect of the
* addr and len given above.
*
* Processing in the serialize function should proceed as follows:
*
* If there are any remaining changes to the entry required before
* write to disk, they must be dealt with first.
*
* The serialize function must then examine the in core
* representation indicated by the thing parameter, and write a
* serialized image of its contents into the provided buffer.
*
* If it is successful, the function must return SUCCEED.
*
* If it fails for any reason, the function must return FAIL and
* push error information on the error stack with the error API
* routines.
*
*
* NOTIFY: Pointer to the notify callback.
*
* The notify callback is invoked by the metadata cache when a cache
* action on an entry has taken/will take place and the client indicates
* it wishes to be notified about the action.
*
* The typedef for the notify callback is as follows:
*
* typedef herr_t (*H5C_notify_func_t)(H5C_notify_action_t action,
* void *thing);
*
* The parameters of the notify callback are as follows:
*
* action: An enum indicating the metadata cache action that has taken/
* will take place.
*
* thing: Pointer to void containing the address of the in core
* representation of the target metadata cache entry. This
* is the same pointer that would be returned by a protect
* of the addr and len of the entry.
*
* Processing in the notify function should proceed as follows:
*
* The notify function may perform any action it would like, including
* metadata cache calls.
*
* If the function is successful, it must return SUCCEED.
*
* If it fails for any reason, the function must return FAIL and
* push error information on the error stack with the error API
* routines.
*
*
* FREE_ICR: Pointer to the free ICR callback.
*
* The free ICR callback is invoked by the metadata cache when it
* wishes to evict an entry, and needs the client to free the memory
* allocated for the in core representation.
*
* The typedef for the free ICR callback is as follows:
*
* typedef herr_t (*H5C_free_icr_func_t)(void * thing));
*
* The parameters of the free ICR callback are as follows:
*
* thing: Pointer to void containing the address of the in core
* representation of the target metadata cache entry. This
* is the same pointer that would be returned by a protect
* of the addr and len of the entry.
*
* Processing in the free ICR function should proceed as follows:
*
* The free ICR function must free all memory allocated to the
* in core representation.
*
* If the function is successful, it must return SUCCEED.
*
* If it fails for any reason, the function must return FAIL and
* push error information on the error stack with the error API
* routines.
*
* At least when compiled with debug, it would be useful if the
* free ICR call would fail if the in core representation has been
* modified since the last serialize callback.
*
* GET_FSF_SIZE: Pointer to the get file space free size callback.
*
* In principle, there is no need for the get file space free size
* callback. However, as an optimization, it is sometimes convenient
* to allocate and free file space for a number of cache entries
* simultaneously in a single contiguous block of file space.
*
* File space allocation is done by the client, so the metadata cache
* need not be involved. However, since the metadata cache typically
* handles file space release when an entry is destroyed, some
* adjustment on the part of the metadata cache is required for this
* operation.
*
* The get file space free size callback exists to support this
* operation.
*
* If a group of cache entries that were allocated as a group are to
* be discarded and their file space released, the type of the first
* (i.e. lowest address) entry in the group must implement the
* get free file space size callback.
*
* To free the file space of all entries in the group in a single
* operation, first expunge all entries other than the first without
* the free file space flag.
*
* Then, to complete the operation, unprotect or expunge the first
* entry in the block with the free file space flag set. Since
* the get free file space callback is implemented, the metadata
* cache will use this callback to get the size of the block to be
* freed, instead of using the size of the entry as is done otherwise.
*
* At present this callback is used only by the H5FA and H5EA dblock
* and dblock page client classes.
*
* The typedef for the get_fsf_size callback is as follows:
*
* typedef herr_t (*H5C_get_fsf_size_t)(const void * thing,
* size_t *fsf_size_ptr);
*
* The parameters of the get_fsf_size callback are as follows:
*
* thing: Pointer to void containing the address of the in core
* representation of the target metadata cache entry. This
* is the same pointer that would be returned by a protect()
* call of the associated addr and len.
*
* fs_size_ptr: Pointer to size_t in which the callback will return
* the size of the piece of file space to be freed. Note
* that the space to be freed is presumed to have the same
* base address as the cache entry.
*
* The function simply returns the size of the block of file space
* to be freed in *fsf_size_ptr.
*
* If the function is successful, it must return SUCCEED.
*
* If it fails for any reason, the function must return FAIL and
* push error information on the error stack with the error API
* routines.
*
***************************************************************************/
/* Actions that can be reported to 'notify' client callback */
typedef enum H5C_notify_action_t {
H5C_NOTIFY_ACTION_AFTER_INSERT, /* Entry has been added to the cache
* via the insert call
*/
H5C_NOTIFY_ACTION_AFTER_LOAD, /* Entry has been loaded into the
* from file via the protect call
*/
H5C_NOTIFY_ACTION_AFTER_FLUSH, /* Entry has just been flushed to
* file.
*/
H5C_NOTIFY_ACTION_BEFORE_EVICT, /* Entry is about to be evicted
* from cache.
*/
H5C_NOTIFY_ACTION_ENTRY_DIRTIED, /* Entry has been marked dirty. */
H5C_NOTIFY_ACTION_ENTRY_CLEANED, /* Entry has been marked clean. */
H5C_NOTIFY_ACTION_CHILD_DIRTIED, /* Dependent child has been marked dirty. */
H5C_NOTIFY_ACTION_CHILD_CLEANED /* Dependent child has been marked clean. */
} H5C_notify_action_t;
/* Cache client callback function pointers */
typedef herr_t (*H5C_get_initial_load_size_func_t)(void *udata_ptr, size_t *image_len_ptr);
typedef herr_t (*H5C_get_final_load_size_func_t)(const void *image_ptr,
size_t image_len, void *udata_ptr, size_t *actual_len_ptr);
typedef htri_t (*H5C_verify_chksum_func_t)(const void *image_ptr, size_t len, void *udata_ptr);
typedef void *(*H5C_deserialize_func_t)(const void *image_ptr,
size_t len, void *udata_ptr, hbool_t *dirty_ptr);
typedef herr_t (*H5C_image_len_func_t)(const void *thing, size_t *image_len_ptr);
typedef herr_t (*H5C_pre_serialize_func_t)(const H5F_t *f, hid_t dxpl_id,
void *thing, haddr_t addr, size_t len, haddr_t *new_addr_ptr,
size_t *new_len_ptr, unsigned *flags_ptr);
typedef herr_t (*H5C_serialize_func_t)(const H5F_t *f, void *image_ptr,
size_t len, void *thing);
typedef herr_t (*H5C_notify_func_t)(H5C_notify_action_t action, void *thing);
typedef herr_t (*H5C_free_icr_func_t)(void *thing);
typedef herr_t (*H5C_get_fsf_size_t)(const void * thing, size_t *fsf_size_ptr);
/* Metadata cache client class definition */
typedef struct H5C_class_t {
int id;
const char * name;
H5FD_mem_t mem_type;
unsigned flags;
H5C_get_initial_load_size_func_t get_initial_load_size;
H5C_get_final_load_size_func_t get_final_load_size;
H5C_verify_chksum_func_t verify_chksum;
H5C_deserialize_func_t deserialize;
H5C_image_len_func_t image_len;
H5C_pre_serialize_func_t pre_serialize;
H5C_serialize_func_t serialize;
H5C_notify_func_t notify;
H5C_free_icr_func_t free_icr;
H5C_get_fsf_size_t fsf_size;
} H5C_class_t;
/* Type defintions of callback functions used by the cache as a whole */
typedef herr_t (*H5C_write_permitted_func_t)(const H5F_t *f,
hbool_t *write_permitted_ptr);
typedef herr_t (*H5C_log_flush_func_t)(H5C_t *cache_ptr, haddr_t addr,
hbool_t was_dirty, unsigned flags);
/****************************************************************************
*
* H5C_ring_t & associated #defines
*
* The metadata cache uses the concept of rings to order the flushes of
* classes of entries. In this arrangement, each entry in the cache is
* assigned to a ring, and on flush, the members of the outermost ring
* are flushed first, followed by the next outermost, and so on with the
* members of the innermost ring being flushed last.
*
* Note that flush dependencies are used to order flushes within rings.
*
* Note also that at the conceptual level, rings are argueably superfluous,
* as a similar effect could be obtained via the flush dependency mechanism.
* However, this would require all entries in the cache to participate in a
* flush dependency -- with the implied setup and takedown overhead and
* added complexity. Further, the flush ordering between rings need only
* be enforced on flush operations, and thus the use of flush dependencies
* instead would apply unecessary constraints on flushes under normal
* operating circumstances.
*
* As of this writing, all metadata entries pretaining to data sets and
* groups must be flushed first, and are thus assigned to the outermost
* ring.
*
* Free space managers managing file space must be flushed next,
* and are assigned to the second outermost ring.
*
* The object header and associated chunks used to implement superblock
* extension messages must be flushed next, and are thus assigned to
* the third outermost ring.
*
* The superblock proper must be flushed last, and is thus assigned to
* the innermost ring.
*
* The H5C_ring_t and the associated #defines below are used to define
* the rings. Each entry must be assigned to the appropriate ring on
* insertion or protect.
*
* Note that H5C_ring_t was originally an enumerated type. It was
* converted to an integer and a set of #defines for convenience in
* debugging.
*/
#define H5C_RING_UNDEFINED 0 /* shouldn't appear in the cache */
#define H5C_RING_USER 1 /* outermost ring */
#define H5C_RING_FSM 2
#define H5C_RING_SBE 4 /* temporarily merged with H5C_RING_SB */
#define H5C_RING_SB 4 /* innermost ring */
#define H5C_RING_NTYPES 5
typedef int H5C_ring_t;
/****************************************************************************
*
* structure H5C_cache_entry_t
*
* Instances of the H5C_cache_entry_t structure are used to store cache
* entries in a hash table and sometimes in a skip list.
* See H5SL.c for the particulars of the skip list.
*
* In typical application, this structure is the first field in a
* structure to be cached. For historical reasons, the external module
* is responsible for managing the is_dirty field (this is no longer
* completely true. See the comment on the is_dirty field for details).
* All other fields are managed by the cache.
*
* The fields of this structure are discussed individually below:
*
* JRM - 4/26/04
*
* magic: Unsigned 32 bit integer that must always be set to
* H5C__H5C_CACHE_ENTRY_T_MAGIC when the entry is valid.
* The field must be set to H5C__H5C_CACHE_ENTRY_T_BAD_MAGIC
* just before the entry is freed.
*
* This is necessary, as the LRU list can be changed out
* from under H5C_make_space_in_cache() by the serialize
* callback which may change the size of an existing entry,
* and/or load a new entry while serializing the target entry.
*
* This in turn can cause a recursive call to
* H5C_make_space_in_cache() which may either flush or evict
* the next entry that the first invocation of that function
* was about to examine.
*
* The magic field allows H5C_make_space_in_cache() to
* detect this case, and re-start its scan from the bottom
* of the LRU when this situation occurs.
*
* cache_ptr: Pointer to the cache that this entry is contained within.
*
* addr: Base address of the cache entry on disk.
*
* size: Length of the cache entry on disk in bytes Note that unlike
* normal caches, the entries in this cache are of arbitrary size.
*
* The file space allocations for cache entries implied by the
* addr and size fields must be disjoint.
*
* image_ptr: Pointer to void. When not NULL, this field points to a
* dynamically allocated block of size bytes in which the
* on disk image of the metadata cache entry is stored.
*
* If the entry is dirty, the pre-serialize and serialize
* callbacks must be used to update this image before it is
* written to disk
*
* image_up_to_date: Boolean flag that is set to TRUE when *image_ptr
* is up to date, and set to false when the entry is dirtied.
*
* type: Pointer to the instance of H5C_class_t containing pointers
* to the methods for cache entries of the current type. This
* field should be NULL when the instance of H5C_cache_entry_t
* is not in use.
*
* The name is not particularly descriptive, but is retained
* to avoid changes in existing code.
*
* is_dirty: Boolean flag indicating whether the contents of the cache
* entry has been modified since the last time it was written
* to disk.
*
* dirtied: Boolean flag used to indicate that the entry has been
* dirtied while protected.
*
* This field is set to FALSE in the protect call, and may
* be set to TRUE by the H5C_mark_entry_dirty() call at any
* time prior to the unprotect call.
*
* The H5C_mark_entry_dirty() call exists as a convenience
* function for the fractal heap code which may not know if
* an entry is protected or pinned, but knows that is either
* protected or pinned. The dirtied field was added as in
* the parallel case, it is necessary to know whether a
* protected entry is dirty prior to the protect call.
*
* is_protected: Boolean flag indicating whether this entry is protected
* (or locked, to use more conventional terms). When it is
* protected, the entry cannot be flushed or accessed until
* it is unprotected (or unlocked -- again to use more
* conventional terms).
*
* Note that protected entries are removed from the LRU lists
* and inserted on the protected list.
*
* is_read_only: Boolean flag that is only meaningful if is_protected is
* TRUE. In this circumstance, it indicates whether the
* entry has been protected read only, or read/write.
*
* If the entry has been protected read only (i.e. is_protected
* and is_read_only are both TRUE), we allow the entry to be
* protected more than once.
*
* In this case, the number of readers is maintained in the
* ro_ref_count field (see below), and unprotect calls simply
* decrement that field until it drops to zero, at which point
* the entry is actually unprotected.
*
* ro_ref_count: Integer field used to maintain a count of the number of
* outstanding read only protects on this entry. This field
* must be zero whenever either is_protected or is_read_only
* are TRUE.
*
* is_pinned: Boolean flag indicating whether the entry has been pinned
* in the cache.
*
* For very hot entries, the protect / unprotect overhead
* can become excessive. Thus the cache has been extended
* to allow an entry to be "pinned" in the cache.
*
* Pinning an entry in the cache has several implications:
*
* 1) A pinned entry cannot be evicted. Thus unprotected
* pinned entries must be stored in the pinned entry
* list, instead of being managed by the replacement
* policy code (LRU at present).
*
* 2) A pinned entry can be accessed or modified at any time.
* This places an extra burden on the pre-serialize and
* serialize callbacks, which must ensure that a pinned
* entry is consistant and ready to write to disk before
* generating an image.
*
* 3) A pinned entry can be marked as dirty (and possibly
* change size) while it is unprotected.
*
* 4) The flush-destroy code must allow pinned entries to
* be unpinned (and possibly unprotected) during the
* flush.
*
* JRM -- 3/16/06
*
* in_slist: Boolean flag indicating whether the entry is in the skip list
* As a general rule, entries are placed in the list when they
* are marked dirty. However they may remain in the list after
* being flushed.
*
* Update: Dirty entries are now removed from the skip list
* when they are flushed.
*
* flush_marker: Boolean flag indicating that the entry is to be flushed
* the next time H5C_flush_cache() is called with the
* H5C__FLUSH_MARKED_ENTRIES_FLAG. The flag is reset when
* the entry is flushed for whatever reason.
*
* flush_me_last: Boolean flag indicating that this entry should not be
* flushed from the cache until all other entries without
* the flush_me_last flag set have been flushed.
*
* Note:
*
* At this time, the flush_me_last
* flag will only be applied to one entry, the superblock,
* and the code utilizing these flags is protected with HDasserts
* to enforce this. This restraint can certainly be relaxed in
* the future if the the need for multiple entries getting flushed
* last or collectively arises, though the code allowing for that
* will need to be expanded and tested appropriately if that
* functionality is desired.
*
* Update: There are now two possible last entries
* (superblock and file driver info message). This
* number will probably increase as we add superblock
* messages. JRM -- 11/18/14
*
* clear_on_unprotect: Boolean flag used only in PHDF5. When H5C is used
* to implement the metadata cache In the parallel case, only
* the cache with mpi rank 0 is allowed to actually write to
* file -- all other caches must retain dirty entries until they
* are advised that the entry is clean.
*
* This flag is used in the case that such an advisory is
* received when the entry is protected. If it is set when an
* entry is unprotected, and the dirtied flag is not set in
* the unprotect, the entry's is_dirty flag is reset by flushing
* it with the H5C__FLUSH_CLEAR_ONLY_FLAG.
*
* flush_immediately: Boolean flag used only in Phdf5 -- and then only
* for H5AC_METADATA_WRITE_STRATEGY__DISTRIBUTED.
*
* When a destributed metadata write is triggered at a
* sync point, this field is used to mark entries that
* must be flushed before leaving the sync point. At all
* other times, this field should be set to FALSE.
*
* flush_in_progress: Boolean flag that is set to true iff the entry
* is in the process of being flushed. This allows the cache
* to detect when a call is the result of a flush callback.
*
* destroy_in_progress: Boolean flag that is set to true iff the entry
* is in the process of being flushed and destroyed.
*
*
* Fields supporting rings for flush ordering:
*
* All entries in the metadata cache are assigned to a ring. On cache
* flush, all entries in the outermost ring are flushed first, followed
* by all members of the next outermost ring, and so on until the
* innermost ring is flushed. Note that this ordering is ONLY applied
* in flush and serialize calls. Rings are ignored during normal operations
* in which entries are flushed as directed by the replacement policy.
*
* See the header comment on H5C_ring_t above for further details.
*
* Note that flush dependencies (see below) are used to order flushes
* within rings. Unlike rings, flush dependencies are applied to ALL
* writes, not just those triggered by flush or serialize calls.
*
* ring: Instance of H5C_ring_t indicating the ring to which this
* entry is assigned.
*
*
* Fields supporting the 'flush dependency' feature:
*
* Entries in the cache may have 'flush dependencies' on other entries in the
* cache. A flush dependency requires that all dirty child entries be flushed
* to the file before a dirty parent entry (of those child entries) can be
* flushed to the file. This can be used by cache clients to create data
* structures that allow Single-Writer/Multiple-Reader (SWMR) access for the
* data structure.
*
* flush_dep_parent: Pointer to the array of flush dependency parent entries
* for this entry.
*
* flush_dep_nparents: Number of flush dependency parent entries for this
* entry, i.e. the number of valid elements in flush_dep_parent.
*
* flush_dep_parent_nalloc: The number of allocated elements in
* flush_dep_parent_nalloc.
*
* flush_dep_nchildren: Number of flush dependency children for this entry. If
* this field is nonzero, then this entry must be pinned and
* therefore cannot be evicted.
*
* flush_dep_ndirty_children: Number of flush dependency children that are
* either dirty or have a nonzero flush_dep_ndirty_children. If
* this field is nonzero, then this entry cannot be flushed.
*
*
* Fields supporting the hash table:
*
* Entries in the cache are indexed by a more or less conventional hash table.
* If there are multiple entries in any hash bin, they are stored in a doubly
* linked list.
*
* ht_next: Next pointer used by the hash table to store multiple
* entries in a single hash bin. This field points to the
* next entry in the doubly linked list of entries in the
* hash bin, or NULL if there is no next entry.
*
* ht_prev: Prev pointer used by the hash table to store multiple
* entries in a single hash bin. This field points to the
* previous entry in the doubly linked list of entries in
* the hash bin, or NULL if there is no previuos entry.
*
*
* Fields supporting replacement policies:
*
* The cache must have a replacement policy, and it will usually be
* necessary for this structure to contain fields supporting that policy.
*
* While there has been interest in several replacement policies for
* this cache, the initial development schedule is tight. Thus I have
* elected to support only a modified LRU policy for the first cut.
*
* When additional replacement policies are added, the fields in this
* section will be used in different ways or not at all. Thus the
* documentation of these fields is repeated for each replacement policy.
*
* Modified LRU:
*
* When operating in parallel mode, we must ensure that a read does not
* cause a write. If it does, the process will hang, as the write will
* be collective and the other processes will not know to participate.
*
* To deal with this issue, I have modified the usual LRU policy by adding
* clean and dirty LRU lists to the usual LRU list. When reading in
* parallel mode, we evict from the clean LRU list only. This implies
* that we must try to ensure that the clean LRU list is reasonably well
* stocked. See the comments on H5C_t in H5Cpkg.h for more details.
*
* Note that even if we start with a completely clean cache, a sequence
* of protects without unprotects can empty the clean LRU list. In this
* case, the cache must grow temporarily. At the next write, we will
* attempt to evict enough entries to get the cache down to its nominal
* maximum size.
*
* The use of the replacement policy fields under the Modified LRU policy
* is discussed below:
*
* next: Next pointer in either the LRU, the protected list, or
* the pinned list depending on the current values of
* is_protected and is_pinned. If there is no next entry
* on the list, this field should be set to NULL.
*
* prev: Prev pointer in either the LRU, the protected list,
* or the pinned list depending on the current values of
* is_protected and is_pinned. If there is no previous
* entry on the list, this field should be set to NULL.
*
* aux_next: Next pointer on either the clean or dirty LRU lists.
* This entry should be NULL when either is_protected or
* is_pinned is true.
*
* When is_protected and is_pinned are false, and is_dirty is
* true, it should point to the next item on the dirty LRU
* list.
*
* When is_protected and is_pinned are false, and is_dirty is
* false, it should point to the next item on the clean LRU
* list. In either case, when there is no next item, it
* should be NULL.
*
* aux_prev: Previous pointer on either the clean or dirty LRU lists.
* This entry should be NULL when either is_protected or
* is_pinned is true.
*
* When is_protected and is_pinned are false, and is_dirty is
* true, it should point to the previous item on the dirty
* LRU list.
*
* When is_protected and is_pinned are false, and is_dirty
* is false, it should point to the previous item on the
* clean LRU list.
*
* In either case, when there is no previous item, it should
* be NULL.
*
*
* Fields supporting tagged entries:
*
* Entries in the cache that belong to a single object in the file are
* joined into a doubly-linked list, and are "tagged" with the object header
* address for that object's base header "chunk" (which is used as the
* canonical address for the object). Global and shared entries are
* not tagged. Tagged entries have a pointer to the tag info for the object,
* which is shared state for all the entries for that object.
*
* tl_next: Pointer to the next entry in the tag list for an object.
* NULL for the tail entry in the list, as well as untagged
* entries.
*
* tl_prev: Pointer to the previous entry in the tag list for an object.
* NULL for the head entry in the list, as well as untagged
* entries.
*
* tag_info: Pointer to the common tag state for all entries belonging to
* an object. NULL for untagged entries.
*
*
* Cache entry stats collection fields:
*
* These fields should only be compiled in when both H5C_COLLECT_CACHE_STATS
* and H5C_COLLECT_CACHE_ENTRY_STATS are true. When present, they allow
* collection of statistics on individual cache entries.
*
* accesses: int32_t containing the number of times this cache entry has
* been referenced in its lifetime.
*
* clears: int32_t containing the number of times this cache entry has
* been cleared in its life time.
*
* flushes: int32_t containing the number of times this cache entry has
* been flushed to file in its life time.
*
* pins: int32_t containing the number of times this cache entry has
* been pinned in cache in its life time.
*
****************************************************************************/
typedef struct H5C_cache_entry_t {
uint32_t magic;
H5C_t * cache_ptr;
haddr_t addr;
size_t size;
void * image_ptr;
hbool_t image_up_to_date;
const H5C_class_t * type;
hbool_t is_dirty;
hbool_t dirtied;
hbool_t is_protected;
hbool_t is_read_only;
int ro_ref_count;
hbool_t is_pinned;
hbool_t in_slist;
hbool_t flush_marker;
hbool_t flush_me_last;
#ifdef H5_HAVE_PARALLEL
hbool_t clear_on_unprotect;
hbool_t flush_immediately;
hbool_t coll_access;
#endif /* H5_HAVE_PARALLEL */
hbool_t flush_in_progress;
hbool_t destroy_in_progress;
/* fields supporting rings for purposes of flush ordering */
H5C_ring_t ring;
/* fields supporting the 'flush dependency' feature: */
struct H5C_cache_entry_t ** flush_dep_parent;
unsigned flush_dep_nparents;
unsigned flush_dep_parent_nalloc;
unsigned flush_dep_nchildren;
unsigned flush_dep_ndirty_children;
hbool_t pinned_from_client;
hbool_t pinned_from_cache;
/* fields supporting the hash table: */
struct H5C_cache_entry_t * ht_next;
struct H5C_cache_entry_t * ht_prev;
/* fields supporting replacement policies: */
struct H5C_cache_entry_t * next;
struct H5C_cache_entry_t * prev;
struct H5C_cache_entry_t * aux_next;
struct H5C_cache_entry_t * aux_prev;
#ifdef H5_HAVE_PARALLEL
struct H5C_cache_entry_t * coll_next;
struct H5C_cache_entry_t * coll_prev;
#endif /* H5_HAVE_PARALLEL */
/* fields supporting tag lists */
struct H5C_cache_entry_t * tl_next;
struct H5C_cache_entry_t * tl_prev;
struct H5C_tag_info_t * tag_info;
#if H5C_COLLECT_CACHE_ENTRY_STATS
/* cache entry stats fields */
int32_t accesses;
int32_t clears;
int32_t flushes;
int32_t pins;
#endif /* H5C_COLLECT_CACHE_ENTRY_STATS */
} H5C_cache_entry_t;
/****************************************************************************
*
* structure H5C_auto_size_ctl_t
*
* Instances of H5C_auto_size_ctl_t are used to get and set the control
* fields for automatic cache re-sizing.
*
* The fields of the structure are discussed individually below:
*
* version: Integer field containing the version number of this version
* of the H5C_auto_size_ctl_t structure. Any instance of
* H5C_auto_size_ctl_t passed to the cache must have a known
* version number, or an error will be flagged.
*
* report_fcn: Pointer to the function that is to be called to report
* activities each time the auto cache resize code is executed. If the
* field is NULL, no call is made.
*
* If the field is not NULL, it must contain the address of a function
* of type H5C_auto_resize_report_fcn.
*
* set_initial_size: Boolean flag indicating whether the size of the
* initial size of the cache is to be set to the value given in
* the initial_size field. If set_initial_size is FALSE, the
* initial_size field is ignored.
*
* initial_size: If enabled, this field contain the size the cache is
* to be set to upon receipt of this structure. Needless to say,
* initial_size must lie in the closed interval [min_size, max_size].
*
* min_clean_fraction: double in the range 0 to 1 indicating the fraction
* of the cache that is to be kept clean. This field is only used
* in parallel mode. Typical values are 0.1 to 0.5.
*
* max_size: Maximum size to which the cache can be adjusted. The
* supplied value must fall in the closed interval
* [MIN_MAX_CACHE_SIZE, MAX_MAX_CACHE_SIZE]. Also, max_size must
* be greater than or equal to min_size.
*
* min_size: Minimum size to which the cache can be adjusted. The
* supplied value must fall in the closed interval
* [MIN_MAX_CACHE_SIZE, MAX_MAX_CACHE_SIZE]. Also, min_size must
* be less than or equal to max_size.
*
* epoch_length: Number of accesses on the cache over which to collect
* hit rate stats before running the automatic cache resize code,
* if it is enabled.
*
* At the end of an epoch, we discard prior hit rate data and start
* collecting afresh. The epoch_length must lie in the closed
* interval [H5C__MIN_AR_EPOCH_LENGTH, H5C__MAX_AR_EPOCH_LENGTH].
*
*
* Cache size increase control fields:
*
* incr_mode: Instance of the H5C_cache_incr_mode enumerated type whose
* value indicates how we determine whether the cache size should be
* increased. At present there are two possible values:
*
* H5C_incr__off: Don't attempt to increase the size of the cache
* automatically.
*
* When this increment mode is selected, the remaining fields
* in the cache size increase section ar ignored.
*
* H5C_incr__threshold: Attempt to increase the size of the cache
* whenever the average hit rate over the last epoch drops
* below the value supplied in the lower_hr_threshold
* field.
*
* Note that this attempt will fail if the cache is already
* at its maximum size, or if the cache is not already using
* all available space.
*
* lower_hr_threshold: Lower hit rate threshold. If the increment mode
* (incr_mode) is H5C_incr__threshold and the hit rate drops below the
* value supplied in this field in an epoch, increment the cache size by
* size_increment. Note that cache size may not be incremented above
* max_size, and that the increment may be further restricted by the
* max_increment field if it is enabled.
*
* When enabled, this field must contain a value in the range [0.0, 1.0].
* Depending on the incr_mode selected, it may also have to be less than
* upper_hr_threshold.
*
* increment: Double containing the multiplier used to derive the new
* cache size from the old if a cache size increment is triggered.
* The increment must be greater than 1.0, and should not exceed 2.0.
*
* The new cache size is obtained by multiplying the current max cache
* size by the increment, and then clamping to max_size and to stay
* within the max_increment as necessary.
*
* apply_max_increment: Boolean flag indicating whether the max_increment
* field should be used to limit the maximum cache size increment.
*
* max_increment: If enabled by the apply_max_increment field described
* above, this field contains the maximum number of bytes by which the
* cache size can be increased in a single re-size.
*
* flash_incr_mode: Instance of the H5C_cache_flash_incr_mode enumerated
* type whose value indicates whether and by what algorithm we should
* make flash increases in the size of the cache to accomodate insertion
* of large entries and large increases in the size of a single entry.
*
* The addition of the flash increment mode was occasioned by performance
* problems that appear when a local heap is increased to a size in excess
* of the current cache size. While the existing re-size code dealt with
* this eventually, performance was very bad for the remainder of the
* epoch.
*
* At present, there are two possible values for the flash_incr_mode:
*
* H5C_flash_incr__off: Don't perform flash increases in the size of
* the cache.
*
* H5C_flash_incr__add_space: Let x be either the size of a newly
* newly inserted entry, or the number of bytes by which the
* size of an existing entry has been increased.
*
* If
* x > flash_threshold * current max cache size,
*
* increase the current maximum cache size by x * flash_multiple
* less any free space in the cache, and start a new epoch. For
* now at least, pay no attention to the maximum increment.
*
*
* With a little thought, it should be obvious that the above flash
* cache size increase algorithm is not sufficient for all
* circumstances -- for example, suppose the user round robins through
* (1/flash_threshold) +1 groups, adding one data set to each on each
* pass. Then all will increase in size at about the same time, requiring
* the max cache size to at least double to maintain acceptable
* performance, however the above flash increment algorithm will not be
* triggered.
*
* Hopefully, the add space algorithm detailed above will be sufficient
* for the performance problems encountered to date. However, we should
* expect to revisit the issue.
*
* flash_multiple: Double containing the multiple described above in the
* H5C_flash_incr__add_space section of the discussion of the
* flash_incr_mode section. This field is ignored unless flash_incr_mode
* is H5C_flash_incr__add_space.
*
* flash_threshold: Double containing the factor by which current max cache
* size is multiplied to obtain the size threshold for the add_space
* flash increment algorithm. The field is ignored unless
* flash_incr_mode is H5C_flash_incr__add_space.
*
*
* Cache size decrease control fields:
*
* decr_mode: Instance of the H5C_cache_decr_mode enumerated type whose
* value indicates how we determine whether the cache size should be
* decreased. At present there are four possibilities.
*
* H5C_decr__off: Don't attempt to decrease the size of the cache
* automatically.
*
* When this increment mode is selected, the remaining fields
* in the cache size decrease section are ignored.
*
* H5C_decr__threshold: Attempt to decrease the size of the cache
* whenever the average hit rate over the last epoch rises
* above the value supplied in the upper_hr_threshold
* field.
*
* H5C_decr__age_out: At the end of each epoch, search the cache for
* entries that have not been accessed for at least the number
* of epochs specified in the epochs_before_eviction field, and
* evict these entries. Conceptually, the maximum cache size
* is then decreased to match the new actual cache size. However,
* this reduction may be modified by the min_size, the
* max_decrement, and/or the empty_reserve.
*
* H5C_decr__age_out_with_threshold: Same as age_out, but we only
* attempt to reduce the cache size when the hit rate observed
* over the last epoch exceeds the value provided in the
* upper_hr_threshold field.
*
* upper_hr_threshold: Upper hit rate threshold. The use of this field
* varies according to the current decr_mode:
*
* H5C_decr__off or H5C_decr__age_out: The value of this field is
* ignored.
*
* H5C_decr__threshold: If the hit rate exceeds this threshold in any
* epoch, attempt to decrement the cache size by size_decrement.
*
* Note that cache size may not be decremented below min_size.
*
* Note also that if the upper_threshold is 1.0, the cache size
* will never be reduced.
*
* H5C_decr__age_out_with_threshold: If the hit rate exceeds this
* threshold in any epoch, attempt to reduce the cache size
* by evicting entries that have not been accessed for more
* than the specified number of epochs.
*
* decrement: This field is only used when the decr_mode is
* H5C_decr__threshold.
*
* The field is a double containing the multiplier used to derive the
* new cache size from the old if a cache size decrement is triggered.
* The decrement must be in the range 0.0 (in which case the cache will
* try to contract to its minimum size) to 1.0 (in which case the
* cache will never shrink).
*
* apply_max_decrement: Boolean flag used to determine whether decrements
* in cache size are to be limited by the max_decrement field.
*
* max_decrement: Maximum number of bytes by which the cache size can be
* decreased in a single re-size. Note that decrements may also be
* restricted by the min_size of the cache, and (in age out modes) by
* the empty_reserve field.
*
* epochs_before_eviction: Integer field used in H5C_decr__age_out and
* H5C_decr__age_out_with_threshold decrement modes.
*
* This field contains the number of epochs an entry must remain
* unaccessed before it is evicted in an attempt to reduce the
* cache size. If applicable, this field must lie in the range
* [1, H5C__MAX_EPOCH_MARKERS].
*
* apply_empty_reserve: Boolean field controlling whether the empty_reserve
* field is to be used in computing the new cache size when the
* decr_mode is H5C_decr__age_out or H5C_decr__age_out_with_threshold.
*
* empty_reserve: To avoid a constant racheting down of cache size by small
* amounts in the H5C_decr__age_out and H5C_decr__age_out_with_threshold
* modes, this field allows one to require that any cache size
* reductions leave the specified fraction of unused space in the cache.
*
* The value of this field must be in the range [0.0, 1.0]. I would
* expect typical values to be in the range of 0.01 to 0.1.
*
****************************************************************************/
enum H5C_resize_status
{
in_spec,
increase,
flash_increase,
decrease,
at_max_size,
at_min_size,
increase_disabled,
decrease_disabled,
not_full
}; /* enum H5C_resize_conditions */
typedef void (*H5C_auto_resize_rpt_fcn)(H5C_t * cache_ptr, int32_t version,
double hit_rate, enum H5C_resize_status status, size_t old_max_cache_size,
size_t new_max_cache_size, size_t old_min_clean_size, size_t new_min_clean_size);
typedef struct H5C_auto_size_ctl_t {
/* general configuration fields: */
int32_t version;
H5C_auto_resize_rpt_fcn rpt_fcn;
hbool_t set_initial_size;
size_t initial_size;
double min_clean_fraction;
size_t max_size;
size_t min_size;
int64_t epoch_length;
/* size increase control fields: */
enum H5C_cache_incr_mode incr_mode;
double lower_hr_threshold;
double increment;
hbool_t apply_max_increment;
size_t max_increment;
enum H5C_cache_flash_incr_mode flash_incr_mode;
double flash_multiple;
double flash_threshold;
/* size decrease control fields: */
enum H5C_cache_decr_mode decr_mode;
double upper_hr_threshold;
double decrement;
hbool_t apply_max_decrement;
size_t max_decrement;
int32_t epochs_before_eviction;
hbool_t apply_empty_reserve;
double empty_reserve;
} H5C_auto_size_ctl_t;
/***************************************/
/* Library-private Function Prototypes */
/***************************************/
H5_DLL H5C_t *H5C_create(size_t max_cache_size, size_t min_clean_size,
int max_type_id, const char *(*type_name_table_ptr),
H5C_write_permitted_func_t check_write_permitted, hbool_t write_permitted,
H5C_log_flush_func_t log_flush, void *aux_ptr);
H5_DLL herr_t H5C_set_up_logging(H5C_t *cache_ptr, const char log_location[], hbool_t start_immediately);
H5_DLL herr_t H5C_tear_down_logging(H5C_t *cache_ptr);
H5_DLL herr_t H5C_start_logging(H5C_t *cache_ptr);
H5_DLL herr_t H5C_stop_logging(H5C_t *cache_ptr);
H5_DLL herr_t H5C_get_logging_status(const H5C_t *cache_ptr, /*OUT*/ hbool_t *is_enabled,
/*OUT*/ hbool_t *is_currently_logging);
H5_DLL herr_t H5C_write_log_message(const H5C_t *cache_ptr, const char message[]);
H5_DLL void H5C_def_auto_resize_rpt_fcn(H5C_t *cache_ptr, int32_t version,
double hit_rate, enum H5C_resize_status status,
size_t old_max_cache_size, size_t new_max_cache_size,
size_t old_min_clean_size, size_t new_min_clean_size);
H5_DLL herr_t H5C_dest(H5F_t *f, hid_t dxpl_id);
H5_DLL herr_t H5C_expunge_entry(H5F_t *f, hid_t dxpl_id,
const H5C_class_t *type, haddr_t addr, unsigned flags);
H5_DLL herr_t H5C_flush_cache(H5F_t *f, hid_t dxpl_id, unsigned flags);
H5_DLL herr_t H5C_flush_tagged_entries(H5F_t * f, hid_t dxpl_id, haddr_t tag);
H5_DLL herr_t H5C_evict_tagged_entries(H5F_t * f, hid_t dxpl_id, haddr_t tag, hbool_t match_global);
H5_DLL herr_t H5C_expunge_tag_type_metadata(H5F_t *f, hid_t dxpl_id, haddr_t tag, int type_id, unsigned flags);
#if H5C_DO_TAGGING_SANITY_CHECKS
herr_t H5C_verify_tag(int id, haddr_t tag);
#endif
H5_DLL herr_t H5C_flush_to_min_clean(H5F_t *f, hid_t dxpl_id);
H5_DLL herr_t H5C_get_cache_auto_resize_config(const H5C_t *cache_ptr,
H5C_auto_size_ctl_t *config_ptr);
H5_DLL herr_t H5C_get_cache_size(H5C_t *cache_ptr, size_t *max_size_ptr,
size_t *min_clean_size_ptr, size_t *cur_size_ptr,
int32_t *cur_num_entries_ptr);
H5_DLL herr_t H5C_get_cache_hit_rate(H5C_t *cache_ptr, double *hit_rate_ptr);
H5_DLL herr_t H5C_get_entry_status(const H5F_t *f, haddr_t addr,
size_t *size_ptr, hbool_t *in_cache_ptr, hbool_t *is_dirty_ptr,
hbool_t *is_protected_ptr, hbool_t *is_pinned_ptr, hbool_t *is_corked_ptr,
hbool_t *is_flush_dep_parent_ptr, hbool_t *is_flush_dep_child_ptr);
H5_DLL herr_t H5C_get_evictions_enabled(const H5C_t *cache_ptr, hbool_t *evictions_enabled_ptr);
H5_DLL void * H5C_get_aux_ptr(const H5C_t *cache_ptr);
H5_DLL FILE *H5C_get_trace_file_ptr(const H5C_t *cache_ptr);
H5_DLL FILE *H5C_get_trace_file_ptr_from_entry(const H5C_cache_entry_t *entry_ptr);
H5_DLL herr_t H5C_insert_entry(H5F_t *f, hid_t dxpl_id, const H5C_class_t *type,
haddr_t addr, void *thing, unsigned int flags);
H5_DLL herr_t H5C_mark_entry_dirty(void *thing);
H5_DLL herr_t H5C_move_entry(H5C_t *cache_ptr, const H5C_class_t *type,
haddr_t old_addr, haddr_t new_addr);
H5_DLL herr_t H5C_pin_protected_entry(void *thing);
H5_DLL herr_t H5C_create_flush_dependency(void *parent_thing, void *child_thing);
H5_DLL void * H5C_protect(H5F_t *f, hid_t dxpl_id, const H5C_class_t *type,
haddr_t addr, void *udata, unsigned flags);
H5_DLL herr_t H5C_reset_cache_hit_rate_stats(H5C_t *cache_ptr);
H5_DLL herr_t H5C_resize_entry(void *thing, size_t new_size);
H5_DLL herr_t H5C_set_cache_auto_resize_config(H5C_t *cache_ptr, H5C_auto_size_ctl_t *config_ptr);
H5_DLL herr_t H5C_set_evictions_enabled(H5C_t *cache_ptr, hbool_t evictions_enabled);
H5_DLL herr_t H5C_set_prefix(H5C_t *cache_ptr, char *prefix);
H5_DLL herr_t H5C_set_trace_file_ptr(H5C_t *cache_ptr, FILE *trace_file_ptr);
H5_DLL herr_t H5C_stats(H5C_t *cache_ptr, const char *cache_name,
hbool_t display_detailed_stats);
H5_DLL void H5C_stats__reset(H5C_t *cache_ptr);
H5_DLL herr_t H5C_dump_cache(H5C_t *cache_ptr, const char *cache_name);
H5_DLL herr_t H5C_unpin_entry(void *thing);
H5_DLL herr_t H5C_destroy_flush_dependency(void *parent_thing, void *child_thing);
H5_DLL herr_t H5C_unprotect(H5F_t *f, hid_t dxpl_id, haddr_t addr, void *thing,
unsigned int flags);
H5_DLL herr_t H5C_validate_resize_config(H5C_auto_size_ctl_t *config_ptr,
unsigned int tests);
H5_DLL herr_t H5C_ignore_tags(H5C_t *cache_ptr);
H5_DLL hbool_t H5C_get_ignore_tags(const H5C_t *cache_ptr);
H5_DLL herr_t H5C_retag_entries(H5C_t * cache_ptr, haddr_t src_tag, haddr_t dest_tag);
H5_DLL herr_t H5C_cork(H5C_t *cache_ptr, haddr_t obj_addr, unsigned action, hbool_t *corked);
H5_DLL herr_t H5C_get_entry_ring(const H5F_t *f, haddr_t addr, H5C_ring_t *ring);
#ifdef H5_HAVE_PARALLEL
H5_DLL herr_t H5C_apply_candidate_list(H5F_t *f, hid_t dxpl_id,
H5C_t *cache_ptr, int num_candidates, haddr_t *candidates_list_ptr,
int mpi_rank, int mpi_size);
H5_DLL herr_t H5C_construct_candidate_list__clean_cache(H5C_t *cache_ptr);
H5_DLL herr_t H5C_construct_candidate_list__min_clean(H5C_t *cache_ptr);
H5_DLL herr_t H5C_clear_coll_entries(H5C_t * cache_ptr, hbool_t partial);
H5_DLL herr_t H5C_mark_entries_as_clean(H5F_t *f, hid_t dxpl_id, int32_t ce_array_len,
haddr_t *ce_array_ptr);
#endif /* H5_HAVE_PARALLEL */
#endif /* !_H5Cprivate_H */
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