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|
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* Copyright by The HDF Group. *
* 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 COPYING file, which can be found at the root of the source code *
* distribution tree, or in https://www.hdfgroup.org/licenses. *
* If you do not have access to either file, you may request a copy from *
* help@hdfgroup.org. *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/*
* Purpose: This file contains declarations which are visible only within
* the H5C package. Source files outside the H5C package should
* include H5Cprivate.h instead.
*/
/* clang-format off */
/* Maintain current format by disabling format for this file */
#if !(defined H5C_FRIEND || defined H5C_MODULE)
#error "Do not include this file outside the H5C package!"
#endif
#ifndef H5Cpkg_H
#define H5Cpkg_H
/* Get package's private header */
#include "H5Cprivate.h"
/* Other private headers needed by this file */
#include "H5Clog.h" /* Cache logging */
#include "H5SLprivate.h" /* Skip lists */
/**************************/
/* Package Private Macros */
/**************************/
/* Number of epoch markers active */
#define H5C__MAX_EPOCH_MARKERS 10
/* Cache configuration settings */
#define H5C__HASH_TABLE_LEN (64 * 1024) /* must be a power of 2 */
/* Initial allocated size of the "flush_dep_parent" array */
#define H5C_FLUSH_DEP_PARENT_INIT 8
/****************************************************************************
*
* We maintain doubly linked lists of instances of H5C_cache_entry_t for a
* variety of reasons -- protected list, LRU list, and the clean and dirty
* LRU lists at present. The following macros support linking and unlinking
* of instances of H5C_cache_entry_t by both their regular and auxiliary next
* and previous pointers.
*
* The size and length fields are also maintained.
*
* Note that the relevant pair of prev and next pointers are presumed to be
* NULL on entry in the insertion macros.
*
* Finally, observe that the sanity checking macros evaluate to the empty
* string when H5C_DO_SANITY_CHECKS is false. They also contain calls
* to the HGOTO_ERROR macro, which may not be appropriate in all cases.
* If so, we will need versions of the insertion and deletion macros which
* do not reference the sanity checking macros.
*
****************************************************************************/
#ifdef H5C_DO_SANITY_CHECKS
#define H5C__GEN_DLL_PRE_REMOVE_SC(entry_ptr, list_next, list_prev, head_ptr, tail_ptr, len, list_size, fail_val) \
do { if ((head_ptr) == NULL || (tail_ptr) == NULL || \
(entry_ptr) == NULL || (len) <= 0 || \
(list_size) < (entry_ptr)->size || \
((entry_ptr)->list_prev == NULL && (head_ptr) != (entry_ptr)) || \
((entry_ptr)->list_next == NULL && (tail_ptr) != (entry_ptr)) || \
((len) == 1 && \
!((head_ptr) == (entry_ptr) && (tail_ptr) == (entry_ptr) && \
(entry_ptr)->list_next == NULL && (entry_ptr)->list_prev == NULL && \
(list_size) == (entry_ptr)->size \
) \
) \
) { \
HGOTO_ERROR(H5E_CACHE, H5E_SYSTEM, (fail_val), "DLL pre remove SC failed"); \
} } while (0)
#define H5C__GEN_DLL_PRE_INSERT_SC(entry_ptr, list_next, list_prev, head_ptr, tail_ptr, len, list_size, fail_val) \
if ((entry_ptr) == NULL || (entry_ptr)->list_next != NULL || (entry_ptr)->list_prev != NULL || \
(((head_ptr) == NULL || (tail_ptr) == NULL) && (head_ptr) != (tail_ptr)) || \
((len) == 0 && \
((list_size) > 0 || (head_ptr) != NULL || (tail_ptr) != NULL) \
) || \
((len) == 1 && \
((head_ptr) != (tail_ptr) || (head_ptr) == NULL || \
(head_ptr)->size != (list_size)) \
) || \
((len) >= 1 && \
((head_ptr) == NULL || (head_ptr)->list_prev != NULL || \
(tail_ptr) == NULL || (tail_ptr)->list_next != NULL) \
) \
) { \
HGOTO_ERROR(H5E_CACHE, H5E_SYSTEM, (fail_val), "DLL pre insert SC failed"); \
}
#define H5C__GEN_DLL_PRE_SIZE_UPDATE_SC(dll_len, dll_size, old_size, new_size, fail_val) \
if ((dll_len) <= 0 || (dll_size) <= 0 || (old_size) <= 0 || \
(old_size) > (dll_size) || (new_size) <= 0 || \
((dll_len) == 1 && (old_size) != (dll_size)) \
) { \
HGOTO_ERROR(H5E_CACHE, H5E_SYSTEM, (fail_val), "DLL pre size update SC failed"); \
}
#define H5C__GEN_DLL_POST_SIZE_UPDATE_SC(dll_len, dll_size, old_size, new_size, fail_val) \
if ((new_size) > (dll_size) || ((dll_len) == 1 && (new_size) != (dll_size))) { \
HGOTO_ERROR(H5E_CACHE, H5E_SYSTEM, (fail_val), "DLL post size update SC failed"); \
}
#else /* H5C_DO_SANITY_CHECKS */
#define H5C__GEN_DLL_PRE_REMOVE_SC(entry_ptr, list_next, list_prev, head_ptr, tail_ptr, len, list_size, fail_val)
#define H5C__GEN_DLL_PRE_INSERT_SC(entry_ptr, list_next, list_prev, head_ptr, tail_ptr, len, list_size, fail_val)
#define H5C__GEN_DLL_PRE_SIZE_UPDATE_SC(dll_len, dll_size, old_size, new_size, fail_val)
#define H5C__GEN_DLL_POST_SIZE_UPDATE_SC(dll_len, dll_size, old_size, new_size, fail_val)
#endif /* H5C_DO_SANITY_CHECKS */
#define H5C__GEN_DLL_APPEND(entry_ptr, list_next, list_prev, head_ptr, tail_ptr, len, list_size, fail_val) \
{ \
H5C__GEN_DLL_PRE_INSERT_SC(entry_ptr, list_next, list_prev, head_ptr, tail_ptr, len, list_size, fail_val) \
if ((head_ptr) == NULL) { \
(head_ptr) = (entry_ptr); \
(tail_ptr) = (entry_ptr); \
} \
else { \
(tail_ptr)->list_next = (entry_ptr); \
(entry_ptr)->list_prev = (tail_ptr); \
(tail_ptr) = (entry_ptr); \
} \
(len)++; \
(list_size) += (entry_ptr)->size; \
} /* H5C__GEN_DLL_APPEND() */
#define H5C__GEN_DLL_PREPEND(entry_ptr, list_next, list_prev, head_ptr, tail_ptr, len, list_size, fail_val) \
{ \
H5C__GEN_DLL_PRE_INSERT_SC(entry_ptr, list_next, list_prev, head_ptr, tail_ptr, len, list_size, fail_val) \
if ((head_ptr) == NULL) { \
(head_ptr) = (entry_ptr); \
(tail_ptr) = (entry_ptr); \
} \
else { \
(head_ptr)->list_prev = (entry_ptr); \
(entry_ptr)->list_next = (head_ptr); \
(head_ptr) = (entry_ptr); \
} \
(len)++; \
(list_size) += (entry_ptr)->size; \
} /* H5C__GEN_DLL_PREPEND() */
#define H5C__GEN_DLL_REMOVE(entry_ptr, list_next, list_prev, head_ptr, tail_ptr, len, list_size, fail_val) \
{ \
H5C__GEN_DLL_PRE_REMOVE_SC(entry_ptr, list_next, list_prev, head_ptr, tail_ptr, len, list_size, fail_val); \
if ((head_ptr) == (entry_ptr)) { \
(head_ptr) = (entry_ptr)->list_next; \
if ((head_ptr) != NULL) \
(head_ptr)->list_prev = NULL; \
} \
else \
(entry_ptr)->list_prev->list_next = (entry_ptr)->list_next; \
if ((tail_ptr) == (entry_ptr)) { \
(tail_ptr) = (entry_ptr)->list_prev; \
if ((tail_ptr) != NULL) \
(tail_ptr)->list_next = NULL; \
} \
else \
(entry_ptr)->list_next->list_prev = (entry_ptr)->list_prev; \
(entry_ptr)->list_next = NULL; \
(entry_ptr)->list_prev = NULL; \
(len)--; \
(list_size) -= (entry_ptr)->size; \
} /* H5C__GEN_DLL_REMOVE() */
#define H5C__GEN_DLL_UPDATE_FOR_SIZE_CHANGE(dll_len, dll_size, old_size, new_size, fail_val) \
{ \
H5C__GEN_DLL_PRE_SIZE_UPDATE_SC(dll_len, dll_size, old_size, new_size, fail_val) \
(dll_size) -= (old_size); \
(dll_size) += (new_size); \
H5C__GEN_DLL_POST_SIZE_UPDATE_SC(dll_len, dll_size, old_size, new_size, fail_val) \
} /* H5C__GEN_DLL_UPDATE_FOR_SIZE_CHANGE() */
/* Macros that modify the LRU/protected/pinned lists */
#define H5C__DLL_APPEND(entry_ptr, head_ptr, tail_ptr, len, list_size, fail_val) \
H5C__GEN_DLL_APPEND(entry_ptr, next, prev, head_ptr, tail_ptr, len, list_size, fail_val)
#define H5C__DLL_PREPEND(entry_ptr, head_ptr, tail_ptr, len, list_size, fail_val) \
H5C__GEN_DLL_PREPEND(entry_ptr, next, prev, head_ptr, tail_ptr, len, list_size, fail_val)
#define H5C__DLL_REMOVE(entry_ptr, head_ptr, tail_ptr, len, list_size, fail_val) \
H5C__GEN_DLL_REMOVE(entry_ptr, next, prev, head_ptr, tail_ptr, len, list_size, fail_val)
#define H5C__DLL_UPDATE_FOR_SIZE_CHANGE(dll_len, dll_size, old_size, new_size, fail_val) \
H5C__GEN_DLL_UPDATE_FOR_SIZE_CHANGE(dll_len, dll_size, old_size, new_size, fail_val)
/* Macros that modify the "auxiliary" LRU list */
#define H5C__AUX_DLL_APPEND(entry_ptr, head_ptr, tail_ptr, len, list_size, fail_val) \
H5C__GEN_DLL_APPEND(entry_ptr, aux_next, aux_prev, head_ptr, tail_ptr, len, list_size, fail_val)
#define H5C__AUX_DLL_PREPEND(entry_ptr, head_ptr, tail_ptr, len, list_size, fail_val) \
H5C__GEN_DLL_PREPEND(entry_ptr, aux_next, aux_prev, head_ptr, tail_ptr, len, list_size, fail_val)
#define H5C__AUX_DLL_REMOVE(entry_ptr, head_ptr, tail_ptr, len, list_size, fail_val) \
H5C__GEN_DLL_REMOVE(entry_ptr, aux_next, aux_prev, head_ptr, tail_ptr, len, list_size, fail_val)
/* Macros that modify the "index" list */
#define H5C__IL_DLL_APPEND(entry_ptr, head_ptr, tail_ptr, len, list_size, fail_val) \
H5C__GEN_DLL_APPEND(entry_ptr, il_next, il_prev, head_ptr, tail_ptr, len, list_size, fail_val)
#define H5C__IL_DLL_REMOVE(entry_ptr, head_ptr, tail_ptr, len, list_size, fail_val) \
H5C__GEN_DLL_REMOVE(entry_ptr, il_next, il_prev, head_ptr, tail_ptr, len, list_size, fail_val)
/***********************************************************************
*
* Stats collection macros
*
* The following macros must handle stats collection when this collection
* is enabled, and evaluate to the empty string when it is not.
*
* The sole exception to this rule is
* H5C__UPDATE_CACHE_HIT_RATE_STATS(), which is always active as
* the cache hit rate stats are always collected and available.
*
***********************************************************************/
#define H5C__UPDATE_CACHE_HIT_RATE_STATS(cache_ptr, hit) \
do { \
(cache_ptr)->cache_accesses++; \
if (hit) \
(cache_ptr)->cache_hits++; \
} while (0)
#if H5C_COLLECT_CACHE_STATS
#define H5C__UPDATE_MAX_INDEX_SIZE_STATS(cache_ptr) \
do { \
if ((cache_ptr)->index_size > (cache_ptr)->max_index_size) \
(cache_ptr)->max_index_size = (cache_ptr)->index_size; \
if ((cache_ptr)->clean_index_size > (cache_ptr)->max_clean_index_size) \
(cache_ptr)->max_clean_index_size = (cache_ptr)->clean_index_size; \
if ((cache_ptr)->dirty_index_size > (cache_ptr)->max_dirty_index_size) \
(cache_ptr)->max_dirty_index_size = (cache_ptr)->dirty_index_size; \
} while (0)
#define H5C__UPDATE_STATS_FOR_DIRTY_PIN(cache_ptr, entry_ptr) \
do { \
(cache_ptr)->dirty_pins[(entry_ptr)->type->id]++; \
} while (0)
#define H5C__UPDATE_STATS_FOR_UNPROTECT(cache_ptr) \
do { \
if ((cache_ptr)->slist_len > (cache_ptr)->max_slist_len) \
(cache_ptr)->max_slist_len = (cache_ptr)->slist_len; \
if ((cache_ptr)->slist_size > (cache_ptr)->max_slist_size) \
(cache_ptr)->max_slist_size = (cache_ptr)->slist_size; \
if ((cache_ptr)->pel_len > (cache_ptr)->max_pel_len) \
(cache_ptr)->max_pel_len = (cache_ptr)->pel_len; \
if ((cache_ptr)->pel_size > (cache_ptr)->max_pel_size) \
(cache_ptr)->max_pel_size = (cache_ptr)->pel_size; \
} while (0)
#define H5C__UPDATE_STATS_FOR_MOVE(cache_ptr, entry_ptr) \
do { \
if ((cache_ptr)->flush_in_progress) \
(cache_ptr)->cache_flush_moves[(entry_ptr)->type->id]++; \
if ((entry_ptr)->flush_in_progress) \
(cache_ptr)->entry_flush_moves[(entry_ptr)->type->id]++; \
(cache_ptr)->moves[(entry_ptr)->type->id]++; \
(cache_ptr)->entries_relocated_counter++; \
} while (0)
#define H5C__UPDATE_STATS_FOR_ENTRY_SIZE_CHANGE(cache_ptr, entry_ptr, new_size) \
do { \
if ((cache_ptr)->flush_in_progress) \
(cache_ptr)->cache_flush_size_changes[(entry_ptr)->type->id]++; \
if ((entry_ptr)->flush_in_progress) \
(cache_ptr)->entry_flush_size_changes[(entry_ptr)->type->id]++; \
if ((entry_ptr)->size < (new_size)) { \
(cache_ptr)->size_increases[(entry_ptr)->type->id]++; \
H5C__UPDATE_MAX_INDEX_SIZE_STATS(cache_ptr); \
if ((cache_ptr)->slist_size > (cache_ptr)->max_slist_size) \
(cache_ptr)->max_slist_size = (cache_ptr)->slist_size; \
if ((cache_ptr)->pl_size > (cache_ptr)->max_pl_size) \
(cache_ptr)->max_pl_size = (cache_ptr)->pl_size; \
} else if ((entry_ptr)->size > (new_size)) { \
(cache_ptr)->size_decreases[(entry_ptr)->type->id]++; \
} \
} while (0)
#define H5C__UPDATE_STATS_FOR_HT_INSERTION(cache_ptr) \
do { \
(cache_ptr)->total_ht_insertions++; \
} while (0)
#define H5C__UPDATE_STATS_FOR_HT_DELETION(cache_ptr) \
do { \
(cache_ptr)->total_ht_deletions++; \
} while (0)
#define H5C__UPDATE_STATS_FOR_HT_SEARCH(cache_ptr, success, depth) \
do { \
if (success) { \
(cache_ptr)->successful_ht_searches++; \
(cache_ptr)->total_successful_ht_search_depth += depth; \
} else { \
(cache_ptr)->failed_ht_searches++; \
(cache_ptr)->total_failed_ht_search_depth += depth; \
} \
} while (0)
#define H5C__UPDATE_STATS_FOR_UNPIN(cache_ptr, entry_ptr) \
do { \
(cache_ptr)->unpins[(entry_ptr)->type->id]++; \
} while (0)
#define H5C__UPDATE_STATS_FOR_PREFETCH(cache_ptr, dirty) \
do { \
(cache_ptr)->prefetches++; \
if (dirty) \
(cache_ptr)->dirty_prefetches++; \
} while (0)
#define H5C__UPDATE_STATS_FOR_PREFETCH_HIT(cache_ptr) \
do { \
(cache_ptr)->prefetch_hits++; \
} while (0)
#define H5C__UPDATE_STATS_FOR_SLIST_SCAN_RESTART(cache_ptr) \
do { \
(cache_ptr)->slist_scan_restarts++; \
} while (0)
#define H5C__UPDATE_STATS_FOR_LRU_SCAN_RESTART(cache_ptr) \
do { \
(cache_ptr)->LRU_scan_restarts++; \
} while (0)
#define H5C__UPDATE_STATS_FOR_INDEX_SCAN_RESTART(cache_ptr) \
do { \
(cache_ptr)->index_scan_restarts++; \
} while (0)
#if H5C_COLLECT_CACHE_ENTRY_STATS
#define H5C__RESET_CACHE_ENTRY_STATS(entry_ptr) \
do { \
(entry_ptr)->accesses = 0; \
(entry_ptr)->clears = 0; \
(entry_ptr)->flushes = 0; \
(entry_ptr)->pins = 0; \
} while (0)
#define H5C__UPDATE_STATS_FOR_CLEAR(cache_ptr, entry_ptr) \
do { \
(cache_ptr)->clears[(entry_ptr)->type->id]++; \
if((entry_ptr)->is_pinned) \
(cache_ptr)->pinned_clears[(entry_ptr)->type->id]++; \
(entry_ptr)->clears++; \
} while (0)
#define H5C__UPDATE_STATS_FOR_FLUSH(cache_ptr, entry_ptr) \
do { \
(cache_ptr)->flushes[(entry_ptr)->type->id]++; \
if((entry_ptr)->is_pinned) \
(cache_ptr)->pinned_flushes[(entry_ptr)->type->id]++; \
(entry_ptr)->flushes++; \
} while (0)
#define H5C__UPDATE_STATS_FOR_EVICTION(cache_ptr, entry_ptr, take_ownership) \
do { \
if (take_ownership) \
(cache_ptr)->take_ownerships[(entry_ptr)->type->id]++; \
else \
(cache_ptr)->evictions[(entry_ptr)->type->id]++; \
if ((entry_ptr)->accesses > (cache_ptr)->max_accesses[(entry_ptr)->type->id]) \
(cache_ptr)->max_accesses[(entry_ptr)->type->id] = (entry_ptr)->accesses; \
if ((entry_ptr)->accesses < (cache_ptr)->min_accesses[(entry_ptr)->type->id]) \
(cache_ptr)->min_accesses[(entry_ptr)->type->id] = (entry_ptr)->accesses; \
if ((entry_ptr)->clears > (cache_ptr)->max_clears[(entry_ptr)->type->id]) \
(cache_ptr)->max_clears[(entry_ptr)->type->id] = (entry_ptr)->clears; \
if ((entry_ptr)->flushes > (cache_ptr)->max_flushes[(entry_ptr)->type->id]) \
(cache_ptr)->max_flushes[(entry_ptr)->type->id] = (entry_ptr)->flushes; \
if ((entry_ptr)->size > (cache_ptr)->max_size[(entry_ptr)->type->id]) \
(cache_ptr)->max_size[(entry_ptr)->type->id] = (entry_ptr)->size; \
if ((entry_ptr)->pins > (cache_ptr)->max_pins[(entry_ptr)->type->id]) \
(cache_ptr)->max_pins[(entry_ptr)->type->id] = (entry_ptr)->pins; \
} while (0)
#define H5C__UPDATE_STATS_FOR_INSERTION(cache_ptr, entry_ptr) \
do { \
(cache_ptr)->insertions[(entry_ptr)->type->id]++; \
if ((entry_ptr)->is_pinned) { \
(cache_ptr)->pinned_insertions[(entry_ptr)->type->id]++; \
(cache_ptr)->pins[(entry_ptr)->type->id]++; \
(entry_ptr)->pins++; \
if ((cache_ptr)->pel_len > (cache_ptr)->max_pel_len) \
(cache_ptr)->max_pel_len = (cache_ptr)->pel_len; \
if ((cache_ptr)->pel_size > (cache_ptr)->max_pel_size) \
(cache_ptr)->max_pel_size = (cache_ptr)->pel_size; \
} \
if ((cache_ptr)->index_len > (cache_ptr)->max_index_len) \
(cache_ptr)->max_index_len = (cache_ptr)->index_len; \
H5C__UPDATE_MAX_INDEX_SIZE_STATS(cache_ptr); \
if ((cache_ptr)->slist_len > (cache_ptr)->max_slist_len) \
(cache_ptr)->max_slist_len = (cache_ptr)->slist_len; \
if ((cache_ptr)->slist_size > (cache_ptr)->max_slist_size) \
(cache_ptr)->max_slist_size = (cache_ptr)->slist_size; \
if ((entry_ptr)->size > (cache_ptr)->max_size[(entry_ptr)->type->id]) \
(cache_ptr)->max_size[(entry_ptr)->type->id] = (entry_ptr)->size; \
(cache_ptr)->entries_inserted_counter++; \
} while (0)
#define H5C__UPDATE_STATS_FOR_PROTECT(cache_ptr, entry_ptr, hit) \
do { \
if (hit) \
(cache_ptr)->hits[(entry_ptr)->type->id]++; \
else \
(cache_ptr)->misses[(entry_ptr)->type->id]++; \
if (!(entry_ptr)->is_read_only) \
(cache_ptr)->write_protects[(entry_ptr)->type->id]++; \
else { \
(cache_ptr)->read_protects[(entry_ptr)->type->id]++; \
if ((entry_ptr)->ro_ref_count > (cache_ptr)->max_read_protects[(entry_ptr)->type->id]) \
(cache_ptr)->max_read_protects[(entry_ptr)->type->id] = (entry_ptr)->ro_ref_count; \
} \
if ((cache_ptr)->index_len > (cache_ptr)->max_index_len) \
(cache_ptr)->max_index_len = (cache_ptr)->index_len; \
H5C__UPDATE_MAX_INDEX_SIZE_STATS(cache_ptr); \
if ((cache_ptr)->pl_len > (cache_ptr)->max_pl_len) \
(cache_ptr)->max_pl_len = (cache_ptr)->pl_len; \
if ((cache_ptr)->pl_size > (cache_ptr)->max_pl_size) \
(cache_ptr)->max_pl_size = (cache_ptr)->pl_size; \
if ((entry_ptr)->size > (cache_ptr)->max_size[(entry_ptr)->type->id]) \
(cache_ptr)->max_size[(entry_ptr)->type->id] = (entry_ptr)->size; \
(entry_ptr)->accesses++; \
} while (0)
#define H5C__UPDATE_STATS_FOR_PIN(cache_ptr, entry_ptr) \
do { \
(cache_ptr)->pins[(entry_ptr)->type->id]++; \
(entry_ptr)->pins++; \
if ((cache_ptr)->pel_len > (cache_ptr)->max_pel_len) \
(cache_ptr)->max_pel_len = (cache_ptr)->pel_len; \
if ((cache_ptr)->pel_size > (cache_ptr)->max_pel_size) \
(cache_ptr)->max_pel_size = (cache_ptr)->pel_size; \
} while (0)
#else /* H5C_COLLECT_CACHE_ENTRY_STATS */
#define H5C__RESET_CACHE_ENTRY_STATS(entry_ptr)
#define H5C__UPDATE_STATS_FOR_CLEAR(cache_ptr, entry_ptr) \
do { \
(cache_ptr)->clears[(entry_ptr)->type->id]++; \
if((entry_ptr)->is_pinned) \
(cache_ptr)->pinned_clears[(entry_ptr)->type->id]++; \
} while (0)
#define H5C__UPDATE_STATS_FOR_FLUSH(cache_ptr, entry_ptr) \
do { \
(cache_ptr)->flushes[(entry_ptr)->type->id]++; \
if ((entry_ptr)->is_pinned) \
(cache_ptr)->pinned_flushes[(entry_ptr)->type->id]++; \
} while (0)
#define H5C__UPDATE_STATS_FOR_EVICTION(cache_ptr, entry_ptr, take_ownership) \
do { \
if (take_ownership) \
(cache_ptr)->take_ownerships[(entry_ptr)->type->id]++; \
else \
(cache_ptr)->evictions[(entry_ptr)->type->id]++; \
} while (0)
#define H5C__UPDATE_STATS_FOR_INSERTION(cache_ptr, entry_ptr) \
do { \
(cache_ptr)->insertions[(entry_ptr)->type->id]++; \
if ((entry_ptr)->is_pinned) { \
(cache_ptr)->pinned_insertions[(entry_ptr)->type->id]++; \
(cache_ptr)->pins[(entry_ptr)->type->id]++; \
if ((cache_ptr)->pel_len > (cache_ptr)->max_pel_len) \
(cache_ptr)->max_pel_len = (cache_ptr)->pel_len; \
if ((cache_ptr)->pel_size > (cache_ptr)->max_pel_size) \
(cache_ptr)->max_pel_size = (cache_ptr)->pel_size; \
} \
if ((cache_ptr)->index_len > (cache_ptr)->max_index_len) \
(cache_ptr)->max_index_len = (cache_ptr)->index_len; \
H5C__UPDATE_MAX_INDEX_SIZE_STATS(cache_ptr) \
if ((cache_ptr)->slist_len > (cache_ptr)->max_slist_len) \
(cache_ptr)->max_slist_len = (cache_ptr)->slist_len; \
if ((cache_ptr)->slist_size > (cache_ptr)->max_slist_size) \
(cache_ptr)->max_slist_size = (cache_ptr)->slist_size; \
(cache_ptr)->entries_inserted_counter++; \
} while (0)
#define H5C__UPDATE_STATS_FOR_PROTECT(cache_ptr, entry_ptr, hit) \
do { \
if (hit) \
(cache_ptr)->hits[(entry_ptr)->type->id]++; \
else \
(cache_ptr)->misses[(entry_ptr)->type->id]++; \
if (!(entry_ptr)->is_read_only) \
(cache_ptr)->write_protects[(entry_ptr)->type->id]++; \
else { \
(cache_ptr)->read_protects[(entry_ptr)->type->id]++; \
if ((entry_ptr)->ro_ref_count > \
(cache_ptr)->max_read_protects[(entry_ptr)->type->id]) \
(cache_ptr)->max_read_protects[(entry_ptr)->type->id] = \
(entry_ptr)->ro_ref_count; \
} \
if ((cache_ptr)->index_len > (cache_ptr)->max_index_len) \
(cache_ptr)->max_index_len = (cache_ptr)->index_len; \
H5C__UPDATE_MAX_INDEX_SIZE_STATS(cache_ptr) \
if ((cache_ptr)->pl_len > (cache_ptr)->max_pl_len) \
(cache_ptr)->max_pl_len = (cache_ptr)->pl_len; \
if ((cache_ptr)->pl_size > (cache_ptr)->max_pl_size) \
(cache_ptr)->max_pl_size = (cache_ptr)->pl_size; \
} while (0)
#define H5C__UPDATE_STATS_FOR_PIN(cache_ptr, entry_ptr) \
do { \
(cache_ptr)->pins[(entry_ptr)->type->id]++; \
if ((cache_ptr)->pel_len > (cache_ptr)->max_pel_len) \
(cache_ptr)->max_pel_len = (cache_ptr)->pel_len; \
if ((cache_ptr)->pel_size > (cache_ptr)->max_pel_size) \
(cache_ptr)->max_pel_size = (cache_ptr)->pel_size; \
} while (0)
#endif /* H5C_COLLECT_CACHE_ENTRY_STATS */
#else /* H5C_COLLECT_CACHE_STATS */
#define H5C__RESET_CACHE_ENTRY_STATS(entry_ptr) do {} while(0)
#define H5C__UPDATE_STATS_FOR_DIRTY_PIN(cache_ptr, entry_ptr) do {} while(0)
#define H5C__UPDATE_STATS_FOR_UNPROTECT(cache_ptr) do {} while(0)
#define H5C__UPDATE_STATS_FOR_MOVE(cache_ptr, entry_ptr) do {} while(0)
#define H5C__UPDATE_STATS_FOR_ENTRY_SIZE_CHANGE(cache_ptr, entry_ptr, new_size) do {} while(0)
#define H5C__UPDATE_STATS_FOR_HT_INSERTION(cache_ptr) do {} while(0)
#define H5C__UPDATE_STATS_FOR_HT_DELETION(cache_ptr) do {} while(0)
#define H5C__UPDATE_STATS_FOR_HT_SEARCH(cache_ptr, success, depth) do {} while(0)
#define H5C__UPDATE_STATS_FOR_INSERTION(cache_ptr, entry_ptr) do {} while(0)
#define H5C__UPDATE_STATS_FOR_CLEAR(cache_ptr, entry_ptr) do {} while(0)
#define H5C__UPDATE_STATS_FOR_FLUSH(cache_ptr, entry_ptr) do {} while(0)
#define H5C__UPDATE_STATS_FOR_EVICTION(cache_ptr, entry_ptr, take_ownership) do {} while(0)
#define H5C__UPDATE_STATS_FOR_PROTECT(cache_ptr, entry_ptr, hit) do {} while(0)
#define H5C__UPDATE_STATS_FOR_PIN(cache_ptr, entry_ptr) do {} while(0)
#define H5C__UPDATE_STATS_FOR_UNPIN(cache_ptr, entry_ptr) do {} while(0)
#define H5C__UPDATE_STATS_FOR_PREFETCH(cache_ptr, dirty) do {} while(0)
#define H5C__UPDATE_STATS_FOR_PREFETCH_HIT(cache_ptr) do {} while(0)
#define H5C__UPDATE_STATS_FOR_SLIST_SCAN_RESTART(cache_ptr) do {} while(0)
#define H5C__UPDATE_STATS_FOR_LRU_SCAN_RESTART(cache_ptr) do {} while(0)
#define H5C__UPDATE_STATS_FOR_INDEX_SCAN_RESTART(cache_ptr) do {} while(0)
#endif /* H5C_COLLECT_CACHE_STATS */
/***********************************************************************
*
* Hash table access and manipulation macros:
*
* The following macros handle searches, insertions, and deletion in
* the hash table.
*
***********************************************************************/
#define H5C__HASH_MASK ((size_t)(H5C__HASH_TABLE_LEN - 1) << 3)
#define H5C__HASH_FCN(x) (int)((unsigned)((x) & H5C__HASH_MASK) >> 3)
#define H5C__POST_HT_SHIFT_TO_FRONT_SC_CMP(cache_ptr, entry_ptr, k) \
((cache_ptr) == NULL || (cache_ptr)->index[k] != (entry_ptr) || \
(entry_ptr)->ht_prev != NULL \
)
#define H5C__PRE_HT_SEARCH_SC_CMP(cache_ptr, entry_addr) \
((cache_ptr) == NULL || \
(cache_ptr)->index_size != \
((cache_ptr)->clean_index_size + (cache_ptr)->dirty_index_size) || \
!H5_addr_defined(entry_addr) || \
H5C__HASH_FCN(entry_addr) < 0 || \
H5C__HASH_FCN(entry_addr) >= H5C__HASH_TABLE_LEN \
)
#define H5C__POST_SUC_HT_SEARCH_SC_CMP(cache_ptr, entry_ptr, k) \
((cache_ptr) == NULL || (cache_ptr)->index_len < 1 || \
(entry_ptr) == NULL || \
(cache_ptr)->index_size < (entry_ptr)->size || \
(cache_ptr)->index_size != \
((cache_ptr)->clean_index_size + (cache_ptr)->dirty_index_size) || \
(entry_ptr)->size <= 0 || \
(cache_ptr)->index[k] == NULL || \
((cache_ptr)->index[k] != (entry_ptr) && (entry_ptr)->ht_prev == NULL) || \
((cache_ptr)->index[k] == (entry_ptr) && (entry_ptr)->ht_prev != NULL) || \
((entry_ptr)->ht_prev != NULL && (entry_ptr)->ht_prev->ht_next != (entry_ptr)) || \
((entry_ptr)->ht_next != NULL && (entry_ptr)->ht_next->ht_prev != (entry_ptr)) \
)
#ifdef H5C_DO_SANITY_CHECKS
#define H5C__PRE_HT_INSERT_SC(cache_ptr, entry_ptr, fail_val) \
if ((cache_ptr) == NULL || \
(entry_ptr) == NULL || !H5_addr_defined((entry_ptr)->addr) || \
(entry_ptr)->ht_next != NULL || (entry_ptr)->ht_prev != NULL || \
(entry_ptr)->size <= 0 || \
H5C__HASH_FCN((entry_ptr)->addr) < 0 || \
H5C__HASH_FCN((entry_ptr)->addr) >= H5C__HASH_TABLE_LEN || \
(cache_ptr)->index_size != \
((cache_ptr)->clean_index_size + (cache_ptr)->dirty_index_size) || \
(cache_ptr)->index_size < (cache_ptr)->clean_index_size || \
(cache_ptr)->index_size < (cache_ptr)->dirty_index_size || \
(entry_ptr)->ring <= H5C_RING_UNDEFINED || \
(entry_ptr)->ring >= H5C_RING_NTYPES || \
(cache_ptr)->index_ring_len[(entry_ptr)->ring] > (cache_ptr)->index_len || \
(cache_ptr)->index_ring_size[(entry_ptr)->ring] > (cache_ptr)->index_size || \
(cache_ptr)->index_ring_size[(entry_ptr)->ring] != \
((cache_ptr)->clean_index_ring_size[(entry_ptr)->ring] + \
(cache_ptr)->dirty_index_ring_size[(entry_ptr)->ring]) || \
(cache_ptr)->index_len != (cache_ptr)->il_len || \
(cache_ptr)->index_size != (cache_ptr)->il_size \
) { \
HGOTO_ERROR(H5E_CACHE, H5E_SYSTEM, fail_val, "pre HT insert SC failed"); \
}
#define H5C__POST_HT_INSERT_SC(cache_ptr, entry_ptr, fail_val) \
if ((cache_ptr) == NULL || \
(cache_ptr)->index_size != \
((cache_ptr)->clean_index_size + (cache_ptr)->dirty_index_size) || \
(cache_ptr)->index_size < (cache_ptr)->clean_index_size || \
(cache_ptr)->index_size < (cache_ptr)->dirty_index_size || \
(cache_ptr)->index_ring_len[(entry_ptr)->ring] == 0 || \
(cache_ptr)->index_ring_len[(entry_ptr)->ring] > (cache_ptr)->index_len || \
(cache_ptr)->index_ring_size[(entry_ptr)->ring] > (cache_ptr)->index_size || \
(cache_ptr)->index_ring_size[(entry_ptr)->ring] != \
((cache_ptr)->clean_index_ring_size[(entry_ptr)->ring] + \
(cache_ptr)->dirty_index_ring_size[(entry_ptr)->ring]) || \
(cache_ptr)->index_len != (cache_ptr)->il_len || \
(cache_ptr)->index_size != (cache_ptr)->il_size \
) { \
HGOTO_ERROR(H5E_CACHE, H5E_SYSTEM, fail_val, "post HT insert SC failed"); \
}
#define H5C__PRE_HT_REMOVE_SC(cache_ptr, entry_ptr, fail_val) \
if ( (cache_ptr) == NULL || (cache_ptr)->index_len < 1 || \
(entry_ptr) == NULL || \
(cache_ptr)->index_size < (entry_ptr)->size || \
!H5_addr_defined((entry_ptr)->addr) || \
(entry_ptr)->size <= 0 || \
H5C__HASH_FCN((entry_ptr)->addr) < 0 || \
H5C__HASH_FCN((entry_ptr)->addr) >= H5C__HASH_TABLE_LEN || \
(cache_ptr)->index[H5C__HASH_FCN((entry_ptr)->addr)] == NULL || \
((cache_ptr)->index[H5C__HASH_FCN((entry_ptr)->addr)] != (entry_ptr) && \
(entry_ptr)->ht_prev == NULL) || \
((cache_ptr)->index[H5C__HASH_FCN((entry_ptr)->addr)] == (entry_ptr) && \
(entry_ptr)->ht_prev != NULL) || \
(cache_ptr)->index_size != \
((cache_ptr)->clean_index_size + (cache_ptr)->dirty_index_size) || \
(cache_ptr)->index_size < (cache_ptr)->clean_index_size || \
(cache_ptr)->index_size < (cache_ptr)->dirty_index_size || \
(entry_ptr)->ring <= H5C_RING_UNDEFINED || \
(entry_ptr)->ring >= H5C_RING_NTYPES || \
(cache_ptr)->index_ring_len[(entry_ptr)->ring] <= 0 || \
(cache_ptr)->index_ring_len[(entry_ptr)->ring] > (cache_ptr)->index_len || \
(cache_ptr)->index_ring_size[(entry_ptr)->ring] < (entry_ptr)->size || \
(cache_ptr)->index_ring_size[(entry_ptr)->ring] > (cache_ptr)->index_size || \
(cache_ptr)->index_ring_size[(entry_ptr)->ring] != \
((cache_ptr)->clean_index_ring_size[(entry_ptr)->ring] + \
(cache_ptr)->dirty_index_ring_size[(entry_ptr)->ring]) || \
(cache_ptr)->index_len != (cache_ptr)->il_len || \
(cache_ptr)->index_size != (cache_ptr)->il_size \
) { \
HGOTO_ERROR(H5E_CACHE, H5E_SYSTEM, (fail_val), "pre HT remove SC failed"); \
}
#define H5C__POST_HT_REMOVE_SC(cache_ptr, entry_ptr, fail_val) \
if ((cache_ptr) == NULL || \
(entry_ptr) == NULL || !H5_addr_defined((entry_ptr)->addr) || \
(entry_ptr)->size <= 0 || \
(entry_ptr)->ht_next != NULL || \
(entry_ptr)->ht_prev != NULL || \
(cache_ptr)->index_size != \
((cache_ptr)->clean_index_size + (cache_ptr)->dirty_index_size) || \
(cache_ptr)->index_size < (cache_ptr)->clean_index_size || \
(cache_ptr)->index_size < (cache_ptr)->dirty_index_size || \
(cache_ptr)->index_ring_len[(entry_ptr)->ring] > (cache_ptr)->index_len || \
(cache_ptr)->index_ring_size[(entry_ptr)->ring] > (cache_ptr)->index_size || \
(cache_ptr)->index_ring_size[(entry_ptr)->ring] != \
((cache_ptr)->clean_index_ring_size[(entry_ptr)->ring] + \
(cache_ptr)->dirty_index_ring_size[(entry_ptr)->ring]) || \
(cache_ptr)->index_len != (cache_ptr)->il_len || \
(cache_ptr)->index_size != (cache_ptr)->il_size \
) { \
HGOTO_ERROR(H5E_CACHE, H5E_SYSTEM, (fail_val), "post HT remove SC failed"); \
}
#define H5C__PRE_HT_SEARCH_SC(cache_ptr, entry_addr, fail_val) \
if (H5C__PRE_HT_SEARCH_SC_CMP(cache_ptr, entry_addr)) { \
HGOTO_ERROR(H5E_CACHE, H5E_SYSTEM, (fail_val), "pre HT search SC failed"); \
}
#define H5C__POST_SUC_HT_SEARCH_SC(cache_ptr, entry_ptr, k, fail_val) \
if(H5C__POST_SUC_HT_SEARCH_SC_CMP(cache_ptr, entry_ptr, k)) { \
HGOTO_ERROR(H5E_CACHE, H5E_SYSTEM, (fail_val), "post successful HT search SC failed"); \
}
#define H5C__POST_HT_SHIFT_TO_FRONT_SC(cache_ptr, entry_ptr, k, fail_val) \
if(H5C__POST_HT_SHIFT_TO_FRONT_SC_CMP(cache_ptr, entry_ptr, k)) { \
HGOTO_ERROR(H5E_CACHE, H5E_SYSTEM, (fail_val), "post HT shift to front SC failed"); \
}
#define H5C__PRE_HT_ENTRY_SIZE_CHANGE_SC(cache_ptr, old_size, new_size, \
entry_ptr, was_clean, fail_val) \
if ((cache_ptr) == NULL || \
(cache_ptr)->index_len <= 0 || (cache_ptr)->index_size <= 0 || \
(new_size) <= 0 || (old_size) > (cache_ptr)->index_size || \
((cache_ptr)->index_len == 1 && (cache_ptr)->index_size != (old_size)) || \
(cache_ptr)->index_size != \
((cache_ptr)->clean_index_size + (cache_ptr)->dirty_index_size) || \
(cache_ptr)->index_size < (cache_ptr)->clean_index_size || \
(cache_ptr)->index_size < (cache_ptr)->dirty_index_size || \
((!(was_clean) || (cache_ptr)->clean_index_size < (old_size)) && \
((was_clean) || (cache_ptr)->dirty_index_size < (old_size))) || \
(entry_ptr) == NULL || \
(entry_ptr)->ring <= H5C_RING_UNDEFINED || \
(entry_ptr)->ring >= H5C_RING_NTYPES || \
(cache_ptr)->index_ring_len[(entry_ptr)->ring] <= 0 || \
(cache_ptr)->index_ring_len[(entry_ptr)->ring] > (cache_ptr)->index_len || \
(cache_ptr)->index_ring_size[(entry_ptr)->ring] > (cache_ptr)->index_size || \
(cache_ptr)->index_ring_size[(entry_ptr)->ring] != \
((cache_ptr)->clean_index_ring_size[(entry_ptr)->ring] + \
(cache_ptr)->dirty_index_ring_size[(entry_ptr)->ring]) || \
(cache_ptr)->index_len != (cache_ptr)->il_len || \
(cache_ptr)->index_size != (cache_ptr)->il_size \
) { \
HGOTO_ERROR(H5E_CACHE, H5E_SYSTEM, (fail_val), "pre HT entry size change SC failed"); \
}
#define H5C__POST_HT_ENTRY_SIZE_CHANGE_SC(cache_ptr, old_size, new_size, \
entry_ptr, fail_val) \
if ((cache_ptr) == NULL || \
(cache_ptr)->index_len <= 0 || (cache_ptr)->index_size <= 0 || \
(new_size) > (cache_ptr)->index_size || \
(cache_ptr)->index_size != \
((cache_ptr)->clean_index_size + (cache_ptr)->dirty_index_size) || \
(cache_ptr)->index_size < (cache_ptr)->clean_index_size || \
(cache_ptr)->index_size < (cache_ptr)->dirty_index_size || \
((!((entry_ptr)->is_dirty ) || (cache_ptr)->dirty_index_size < (new_size)) && \
((entry_ptr)->is_dirty || (cache_ptr)->clean_index_size < (new_size)) \
) || \
((cache_ptr)->index_len == 1 && (cache_ptr)->index_size != (new_size)) || \
(cache_ptr)->index_ring_len[(entry_ptr)->ring] > (cache_ptr)->index_len || \
(cache_ptr)->index_ring_size[(entry_ptr)->ring] > (cache_ptr)->index_size || \
(cache_ptr)->index_ring_size[(entry_ptr)->ring] != \
((cache_ptr)->clean_index_ring_size[(entry_ptr)->ring] + \
(cache_ptr)->dirty_index_ring_size[(entry_ptr)->ring]) || \
(cache_ptr)->index_len != (cache_ptr)->il_len || \
(cache_ptr)->index_size != (cache_ptr)->il_size \
) { \
HGOTO_ERROR(H5E_CACHE, H5E_SYSTEM, (fail_val), "post HT entry size change SC failed"); \
}
#define H5C__PRE_HT_UPDATE_FOR_ENTRY_CLEAN_SC(cache_ptr, entry_ptr, fail_val) \
if ((cache_ptr) == NULL || (cache_ptr)->index_len <= 0 || \
(entry_ptr) == NULL || (entry_ptr)->is_dirty != false || \
(cache_ptr)->index_size < (entry_ptr)->size || \
(cache_ptr)->dirty_index_size < (entry_ptr)->size || \
(cache_ptr)->index_size != ((cache_ptr)->clean_index_size + (cache_ptr)->dirty_index_size) || \
(cache_ptr)->index_size < ((cache_ptr)->clean_index_size) || \
(cache_ptr)->index_size < ((cache_ptr)->dirty_index_size) || \
(entry_ptr)->ring <= H5C_RING_UNDEFINED || \
(entry_ptr)->ring >= H5C_RING_NTYPES || \
(cache_ptr)->index_ring_len[(entry_ptr)->ring] <= 0 || \
(cache_ptr)->index_ring_len[(entry_ptr)->ring] > (cache_ptr)->index_len || \
(cache_ptr)->index_ring_size[(entry_ptr)->ring] > (cache_ptr)->index_size || \
(cache_ptr)->index_ring_size[(entry_ptr)->ring] != \
((cache_ptr)->clean_index_ring_size[(entry_ptr)->ring] + \
(cache_ptr)->dirty_index_ring_size[(entry_ptr)->ring]) \
) { \
HGOTO_ERROR(H5E_CACHE, H5E_SYSTEM, (fail_val), "pre HT update for entry clean SC failed"); \
}
#define H5C__PRE_HT_UPDATE_FOR_ENTRY_DIRTY_SC(cache_ptr, entry_ptr, fail_val) \
if ((cache_ptr) == NULL || (cache_ptr)->index_len <= 0 || \
(entry_ptr) == NULL || (entry_ptr)->is_dirty != true || \
(cache_ptr)->index_size < (entry_ptr)->size || \
(cache_ptr)->clean_index_size < (entry_ptr)->size || \
(cache_ptr)->index_size != ((cache_ptr)->clean_index_size + (cache_ptr)->dirty_index_size) || \
(cache_ptr)->index_size < (cache_ptr)->clean_index_size || \
(cache_ptr)->index_size < (cache_ptr)->dirty_index_size || \
(entry_ptr)->ring <= H5C_RING_UNDEFINED || \
(entry_ptr)->ring >= H5C_RING_NTYPES || \
(cache_ptr)->index_ring_len[(entry_ptr)->ring] <= 0 || \
(cache_ptr)->index_ring_len[(entry_ptr)->ring] > (cache_ptr)->index_len || \
(cache_ptr)->index_ring_size[(entry_ptr)->ring] > (cache_ptr)->index_size || \
(cache_ptr)->index_ring_size[(entry_ptr)->ring] != \
((cache_ptr)->clean_index_ring_size[(entry_ptr)->ring] + \
(cache_ptr)->dirty_index_ring_size[(entry_ptr)->ring]) \
) { \
HGOTO_ERROR(H5E_CACHE, H5E_SYSTEM, (fail_val), "pre HT update for entry dirty SC failed"); \
}
#define H5C__POST_HT_UPDATE_FOR_ENTRY_CLEAN_SC(cache_ptr, entry_ptr, fail_val) \
if ((cache_ptr)->index_size != ((cache_ptr)->clean_index_size + (cache_ptr)->dirty_index_size) || \
(cache_ptr)->index_size < (cache_ptr)->clean_index_size || \
(cache_ptr)->index_size < (cache_ptr)->dirty_index_size || \
(cache_ptr)->index_ring_len[(entry_ptr)->ring] > (cache_ptr)->index_len || \
(cache_ptr)->index_ring_size[(entry_ptr)->ring] > (cache_ptr)->index_size || \
(cache_ptr)->index_ring_size[(entry_ptr)->ring] != \
((cache_ptr)->clean_index_ring_size[(entry_ptr)->ring] + \
(cache_ptr)->dirty_index_ring_size[(entry_ptr)->ring]) \
) { \
HGOTO_ERROR(H5E_CACHE, H5E_SYSTEM, (fail_val), "post HT update for entry clean SC failed"); \
}
#define H5C__POST_HT_UPDATE_FOR_ENTRY_DIRTY_SC(cache_ptr, entry_ptr, fail_val) \
if ((cache_ptr)->index_size != ((cache_ptr)->clean_index_size + (cache_ptr)->dirty_index_size) || \
(cache_ptr)->index_size < (cache_ptr)->clean_index_size || \
(cache_ptr)->index_size < (cache_ptr)->dirty_index_size || \
(cache_ptr)->index_ring_len[(entry_ptr)->ring] > (cache_ptr)->index_len || \
(cache_ptr)->index_ring_size[(entry_ptr)->ring] > (cache_ptr)->index_size || \
(cache_ptr)->index_ring_size[(entry_ptr)->ring] != \
((cache_ptr)->clean_index_ring_size[(entry_ptr)->ring] + \
(cache_ptr)->dirty_index_ring_size[(entry_ptr)->ring]) \
) { \
HGOTO_ERROR(H5E_CACHE, H5E_SYSTEM, (fail_val), "post HT update for entry dirty SC failed"); \
}
#else /* H5C_DO_SANITY_CHECKS */
#define H5C__PRE_HT_INSERT_SC(cache_ptr, entry_ptr, fail_val)
#define H5C__POST_HT_INSERT_SC(cache_ptr, entry_ptr, fail_val)
#define H5C__PRE_HT_REMOVE_SC(cache_ptr, entry_ptr, fail_val)
#define H5C__POST_HT_REMOVE_SC(cache_ptr, entry_ptr, fail_val)
#define H5C__PRE_HT_SEARCH_SC(cache_ptr, entry_addr, fail_val)
#define H5C__POST_SUC_HT_SEARCH_SC(cache_ptr, entry_ptr, k, fail_val)
#define H5C__POST_HT_SHIFT_TO_FRONT_SC(cache_ptr, entry_ptr, k, fail_val)
#define H5C__PRE_HT_UPDATE_FOR_ENTRY_CLEAN_SC(cache_ptr, entry_ptr, fail_val)
#define H5C__PRE_HT_UPDATE_FOR_ENTRY_DIRTY_SC(cache_ptr, entry_ptr, fail_val)
#define H5C__PRE_HT_ENTRY_SIZE_CHANGE_SC(cache_ptr, old_size, new_size, entry_ptr, was_clean, fail_val)
#define H5C__POST_HT_ENTRY_SIZE_CHANGE_SC(cache_ptr, old_size, new_size, entry_ptr, fail_val)
#define H5C__POST_HT_UPDATE_FOR_ENTRY_CLEAN_SC(cache_ptr, entry_ptr, fail_val)
#define H5C__POST_HT_UPDATE_FOR_ENTRY_DIRTY_SC(cache_ptr, entry_ptr, fail_val)
#endif /* H5C_DO_SANITY_CHECKS */
#define H5C__INSERT_IN_INDEX(cache_ptr, entry_ptr, fail_val) \
do { \
int k; \
H5C__PRE_HT_INSERT_SC(cache_ptr, entry_ptr, fail_val) \
k = H5C__HASH_FCN((entry_ptr)->addr); \
if((cache_ptr)->index[k] != NULL) { \
(entry_ptr)->ht_next = (cache_ptr)->index[k]; \
(entry_ptr)->ht_next->ht_prev = (entry_ptr); \
} \
(cache_ptr)->index[k] = (entry_ptr); \
(cache_ptr)->index_len++; \
(cache_ptr)->index_size += (entry_ptr)->size; \
(cache_ptr)->index_ring_len[(entry_ptr)->ring]++; \
(cache_ptr)->index_ring_size[(entry_ptr)->ring] += (entry_ptr)->size; \
if((entry_ptr)->is_dirty) { \
(cache_ptr)->dirty_index_size += (entry_ptr)->size; \
(cache_ptr)->dirty_index_ring_size[(entry_ptr)->ring] += (entry_ptr)->size; \
} else { \
(cache_ptr)->clean_index_size += (entry_ptr)->size; \
(cache_ptr)->clean_index_ring_size[(entry_ptr)->ring] += (entry_ptr)->size; \
} \
if((entry_ptr)->flush_me_last) { \
(cache_ptr)->num_last_entries++; \
assert((cache_ptr)->num_last_entries <= 2); \
} \
H5C__IL_DLL_APPEND((entry_ptr), (cache_ptr)->il_head, \
(cache_ptr)->il_tail, (cache_ptr)->il_len, \
(cache_ptr)->il_size, fail_val); \
H5C__UPDATE_STATS_FOR_HT_INSERTION(cache_ptr); \
H5C__POST_HT_INSERT_SC(cache_ptr, entry_ptr, fail_val); \
} while (0)
#define H5C__DELETE_FROM_INDEX(cache_ptr, entry_ptr, fail_val) \
do { \
int k; \
H5C__PRE_HT_REMOVE_SC(cache_ptr, entry_ptr, fail_val) \
k = H5C__HASH_FCN((entry_ptr)->addr); \
if((entry_ptr)->ht_next) \
(entry_ptr)->ht_next->ht_prev = (entry_ptr)->ht_prev; \
if((entry_ptr)->ht_prev) \
(entry_ptr)->ht_prev->ht_next = (entry_ptr)->ht_next; \
if((cache_ptr)->index[k] == (entry_ptr)) \
(cache_ptr)->index[k] = (entry_ptr)->ht_next; \
(entry_ptr)->ht_next = NULL; \
(entry_ptr)->ht_prev = NULL; \
(cache_ptr)->index_len--; \
(cache_ptr)->index_size -= (entry_ptr)->size; \
(cache_ptr)->index_ring_len[(entry_ptr)->ring]--; \
(cache_ptr)->index_ring_size[(entry_ptr)->ring] -= (entry_ptr)->size; \
if((entry_ptr)->is_dirty) { \
(cache_ptr)->dirty_index_size -= (entry_ptr)->size; \
(cache_ptr)->dirty_index_ring_size[(entry_ptr)->ring] -= (entry_ptr)->size; \
} else { \
(cache_ptr)->clean_index_size -= (entry_ptr)->size; \
(cache_ptr)->clean_index_ring_size[(entry_ptr)->ring] -= (entry_ptr)->size; \
} \
if((entry_ptr)->flush_me_last) { \
(cache_ptr)->num_last_entries--; \
assert((cache_ptr)->num_last_entries <= 1); \
} \
H5C__IL_DLL_REMOVE((entry_ptr), (cache_ptr)->il_head, \
(cache_ptr)->il_tail, (cache_ptr)->il_len, \
(cache_ptr)->il_size, fail_val); \
H5C__UPDATE_STATS_FOR_HT_DELETION(cache_ptr); \
H5C__POST_HT_REMOVE_SC(cache_ptr, entry_ptr, fail_val); \
} while (0)
#define H5C__SEARCH_INDEX(cache_ptr, entry_addr, entry_ptr, fail_val) \
do { \
int k; \
int depth = 0; \
H5C__PRE_HT_SEARCH_SC(cache_ptr, entry_addr, fail_val); \
k = H5C__HASH_FCN(entry_addr); \
(entry_ptr) = (cache_ptr)->index[k]; \
while(entry_ptr) { \
if(H5_addr_eq(entry_addr, (entry_ptr)->addr)) { \
H5C__POST_SUC_HT_SEARCH_SC(cache_ptr, entry_ptr, k, fail_val); \
if((entry_ptr) != (cache_ptr)->index[k]) { \
if((entry_ptr)->ht_next) \
(entry_ptr)->ht_next->ht_prev = (entry_ptr)->ht_prev; \
assert((entry_ptr)->ht_prev != NULL); \
(entry_ptr)->ht_prev->ht_next = (entry_ptr)->ht_next; \
(cache_ptr)->index[k]->ht_prev = (entry_ptr); \
(entry_ptr)->ht_next = (cache_ptr)->index[k]; \
(entry_ptr)->ht_prev = NULL; \
(cache_ptr)->index[k] = (entry_ptr); \
H5C__POST_HT_SHIFT_TO_FRONT_SC(cache_ptr, entry_ptr, k, fail_val); \
} \
break; \
} \
(entry_ptr) = (entry_ptr)->ht_next; \
(depth)++; \
} \
H5C__UPDATE_STATS_FOR_HT_SEARCH(cache_ptr, ((entry_ptr) != NULL), depth); \
} while (0)
#define H5C__UPDATE_INDEX_FOR_ENTRY_CLEAN(cache_ptr, entry_ptr, fail_val) \
do { \
H5C__PRE_HT_UPDATE_FOR_ENTRY_CLEAN_SC(cache_ptr, entry_ptr, fail_val); \
(cache_ptr)->dirty_index_size -= (entry_ptr)->size; \
(cache_ptr)->dirty_index_ring_size[(entry_ptr)->ring] -= (entry_ptr)->size; \
(cache_ptr)->clean_index_size += (entry_ptr)->size; \
(cache_ptr)->clean_index_ring_size[(entry_ptr)->ring] += (entry_ptr)->size; \
H5C__POST_HT_UPDATE_FOR_ENTRY_CLEAN_SC(cache_ptr, entry_ptr, fail_val); \
} while (0)
#define H5C__UPDATE_INDEX_FOR_ENTRY_DIRTY(cache_ptr, entry_ptr, fail_val) \
do { \
H5C__PRE_HT_UPDATE_FOR_ENTRY_DIRTY_SC(cache_ptr, entry_ptr, fail_val); \
(cache_ptr)->clean_index_size -= (entry_ptr)->size; \
(cache_ptr)->clean_index_ring_size[(entry_ptr)->ring] -= (entry_ptr)->size; \
(cache_ptr)->dirty_index_size += (entry_ptr)->size; \
(cache_ptr)->dirty_index_ring_size[(entry_ptr)->ring] += (entry_ptr)->size; \
H5C__POST_HT_UPDATE_FOR_ENTRY_DIRTY_SC(cache_ptr, entry_ptr, fail_val); \
} while (0)
#define H5C__UPDATE_INDEX_FOR_SIZE_CHANGE(cache_ptr, old_size, new_size, \
entry_ptr, was_clean, fail_val) \
do { \
H5C__PRE_HT_ENTRY_SIZE_CHANGE_SC(cache_ptr, old_size, new_size, \
entry_ptr, was_clean, fail_val); \
(cache_ptr)->index_size -= (old_size); \
(cache_ptr)->index_size += (new_size); \
(cache_ptr)->index_ring_size[(entry_ptr)->ring] -= (old_size); \
(cache_ptr)->index_ring_size[(entry_ptr)->ring] += (new_size); \
if(was_clean) { \
(cache_ptr)->clean_index_size -= (old_size); \
(cache_ptr)->clean_index_ring_size[(entry_ptr)->ring] -= (old_size); \
} else { \
(cache_ptr)->dirty_index_size -= (old_size); \
(cache_ptr)->dirty_index_ring_size[(entry_ptr)->ring] -= (old_size); \
} \
if((entry_ptr)->is_dirty) { \
(cache_ptr)->dirty_index_size += (new_size); \
(cache_ptr)->dirty_index_ring_size[(entry_ptr)->ring] += (new_size); \
} else { \
(cache_ptr)->clean_index_size += (new_size); \
(cache_ptr)->clean_index_ring_size[(entry_ptr)->ring] += (new_size); \
} \
H5C__DLL_UPDATE_FOR_SIZE_CHANGE((cache_ptr)->il_len, \
(cache_ptr)->il_size, \
(old_size), (new_size), (fail_val)); \
H5C__POST_HT_ENTRY_SIZE_CHANGE_SC(cache_ptr, old_size, new_size, \
entry_ptr, fail_val); \
} while (0)
/**************************************************************************
*
* Skip list modification macros
*
**************************************************************************/
#ifdef H5C_DO_SLIST_SANITY_CHECKS
#define H5C__ENTRY_IN_SLIST(cache_ptr, entry_ptr) \
H5C__entry_in_skip_list((cache_ptr), (entry_ptr))
#else /* H5C_DO_SLIST_SANITY_CHECKS */
#define H5C__ENTRY_IN_SLIST(cache_ptr, entry_ptr) false
#endif /* H5C_DO_SLIST_SANITY_CHECKS */
#ifdef H5C_DO_SANITY_CHECKS
#define H5C__SLIST_INSERT_ENTRY_SC(cache_ptr, entry_ptr) \
do { \
(cache_ptr)->slist_len_increase++; \
(cache_ptr)->slist_size_increase += (int64_t)((entry_ptr)->size); \
} while (0) /* H5C__SLIST_INSERT_ENTRY_SC() */
#define H5C__SLIST_REMOVE_ENTRY_SC(cache_ptr, entry_ptr) \
do { \
(cache_ptr)->slist_len_increase--; \
(cache_ptr)->slist_size_increase -= (int64_t)((entry_ptr)->size); \
} while (0) /* H5C__SLIST_REMOVE_ENTRY_SC() */
#define H5C__SLIST_UPDATE_FOR_ENTRY_SIZE_CHANGE_SC(cache_ptr, old_size, new_size) \
do { \
(cache_ptr)->slist_size_increase -= (int64_t)(old_size); \
(cache_ptr)->slist_size_increase += (int64_t)(new_size); \
} while (0) /* H5C__SLIST_UPDATE_FOR_ENTRY_SIZE_CHANGE_SC() */
#else /* H5C_DO_SANITY_CHECKS */
#define H5C__SLIST_INSERT_ENTRY_SC(cache_ptr, entry_ptr)
#define H5C__SLIST_REMOVE_ENTRY_SC(cache_ptr, entry_ptr)
#define H5C__SLIST_UPDATE_FOR_ENTRY_SIZE_CHANGE_SC(cache_ptr, old_size, new_size)
#endif /* H5C_DO_SANITY_CHECKS */
/*-------------------------------------------------------------------------
*
* Macro: H5C__INSERT_ENTRY_IN_SLIST
*
* Purpose: Insert a cache entry into a cache's skip list. Updates
* the associated length and size fields.
*
* Note: This macro is set up so that H5C_DO_SANITY_CHECKS and
* H5C_DO_SLIST_SANITY_CHECKS can be selected independently.
*
*-------------------------------------------------------------------------
*/
#define H5C__INSERT_ENTRY_IN_SLIST(cache_ptr, entry_ptr, fail_val) \
do { \
assert(cache_ptr); \
\
if((cache_ptr)->slist_enabled) { \
assert(entry_ptr); \
assert((entry_ptr)->size > 0); \
assert(H5_addr_defined((entry_ptr)->addr)); \
assert(!(entry_ptr)->in_slist); \
assert(!H5C__ENTRY_IN_SLIST((cache_ptr), (entry_ptr))); \
assert((entry_ptr)->ring > H5C_RING_UNDEFINED); \
assert((entry_ptr)->ring < H5C_RING_NTYPES); \
assert((cache_ptr)->slist_ring_len[(entry_ptr)->ring] <= \
(cache_ptr)->slist_len); \
assert((cache_ptr)->slist_ring_size[(entry_ptr)->ring] <= \
(cache_ptr)->slist_size); \
assert((cache_ptr)->slist_ptr); \
\
if(H5SL_insert((cache_ptr)->slist_ptr, entry_ptr, &((entry_ptr)->addr)) < 0) \
HGOTO_ERROR(H5E_CACHE, H5E_BADVALUE, (fail_val), "can't insert entry in skip list"); \
\
(entry_ptr)->in_slist = true; \
(cache_ptr)->slist_changed = true; \
(cache_ptr)->slist_len++; \
(cache_ptr)->slist_size += (entry_ptr)->size; \
((cache_ptr)->slist_ring_len[(entry_ptr)->ring])++; \
((cache_ptr)->slist_ring_size[(entry_ptr)->ring]) += (entry_ptr)->size;\
H5C__SLIST_INSERT_ENTRY_SC(cache_ptr, entry_ptr); \
\
assert((cache_ptr)->slist_len > 0); \
assert((cache_ptr)->slist_size > 0); \
} else { /* slist disabled */ \
assert((cache_ptr)->slist_len == 0); \
assert((cache_ptr)->slist_size == 0); \
} \
} while (0) /* H5C__INSERT_ENTRY_IN_SLIST */
/*-------------------------------------------------------------------------
*
* Macro: H5C__REMOVE_ENTRY_FROM_SLIST
*
* Purpose: Insert a cache entry into a cache's skip list. Updates
* the associated length and size fields.
*
*-------------------------------------------------------------------------
*/
#define H5C__REMOVE_ENTRY_FROM_SLIST(cache_ptr, entry_ptr, during_flush, fail_val) \
do { \
assert(cache_ptr); \
\
if((cache_ptr)->slist_enabled) { \
assert(entry_ptr); \
assert(!(entry_ptr)->is_read_only); \
assert((entry_ptr)->ro_ref_count == 0); \
assert((entry_ptr)->size > 0); \
assert((entry_ptr)->in_slist); \
assert((cache_ptr)->slist_ptr); \
assert((entry_ptr)->ring > H5C_RING_UNDEFINED); \
assert((entry_ptr)->ring < H5C_RING_NTYPES); \
assert((cache_ptr)->slist_ring_len[(entry_ptr)->ring] <= \
(cache_ptr)->slist_len); \
assert((cache_ptr)->slist_ring_size[(entry_ptr)->ring] <= \
(cache_ptr)->slist_size); \
assert((cache_ptr)->slist_size >= (entry_ptr)->size); \
\
if(H5SL_remove((cache_ptr)->slist_ptr, &(entry_ptr)->addr) != (entry_ptr) ) \
HGOTO_ERROR(H5E_CACHE, H5E_BADVALUE, (fail_val), "can't delete entry from skip list"); \
\
assert((cache_ptr)->slist_len > 0); \
if(!(during_flush)) \
(cache_ptr)->slist_changed = true; \
(cache_ptr)->slist_len--; \
assert((cache_ptr)->slist_size >= (entry_ptr)->size); \
(cache_ptr)->slist_size -= (entry_ptr)->size; \
(cache_ptr)->slist_ring_len[(entry_ptr)->ring]--; \
assert((cache_ptr)->slist_ring_size[(entry_ptr)->ring] >= (entry_ptr)->size); \
((cache_ptr)->slist_ring_size[(entry_ptr)->ring]) -= (entry_ptr)->size;\
H5C__SLIST_REMOVE_ENTRY_SC(cache_ptr, entry_ptr); \
(entry_ptr)->in_slist = false; \
} else { /* slist disabled */ \
assert((cache_ptr)->slist_len == 0); \
assert((cache_ptr)->slist_size == 0); \
} \
} while (0) /* H5C__REMOVE_ENTRY_FROM_SLIST */
/*-------------------------------------------------------------------------
*
* Macro: H5C__UPDATE_SLIST_FOR_SIZE_CHANGE
*
* Purpose: Update cache_ptr->slist_size for a change in the size of
* and entry in the slist.
*
*-------------------------------------------------------------------------
*/
#define H5C__UPDATE_SLIST_FOR_SIZE_CHANGE(cache_ptr, old_size, new_size) \
do { \
assert(cache_ptr); \
\
if((cache_ptr)->slist_enabled) { \
assert((old_size) > 0); \
assert((new_size) > 0); \
assert((old_size) <= (cache_ptr)->slist_size); \
assert((cache_ptr)->slist_len > 0); \
assert((cache_ptr)->slist_len > 1 || \
(cache_ptr)->slist_size == (old_size)); \
assert((entry_ptr)->ring > H5C_RING_UNDEFINED); \
assert((entry_ptr)->ring < H5C_RING_NTYPES); \
assert((cache_ptr)->slist_ring_len[(entry_ptr)->ring] <= \
(cache_ptr)->slist_len); \
assert((cache_ptr)->slist_ring_size[(entry_ptr)->ring] <= \
(cache_ptr)->slist_size); \
\
(cache_ptr)->slist_size -= (old_size); \
(cache_ptr)->slist_size += (new_size); \
\
assert((cache_ptr)->slist_ring_size[(entry_ptr)->ring] >= (old_size)); \
\
(cache_ptr)->slist_ring_size[(entry_ptr)->ring] -= (old_size); \
(cache_ptr)->slist_ring_size[(entry_ptr)->ring] += (new_size); \
\
H5C__SLIST_UPDATE_FOR_ENTRY_SIZE_CHANGE_SC(cache_ptr, old_size, new_size); \
\
assert((new_size) <= (cache_ptr)->slist_size); \
assert((cache_ptr)->slist_len > 1 || \
(cache_ptr)->slist_size == (new_size)); \
} else { /* slist disabled */ \
assert((cache_ptr)->slist_len == 0); \
assert((cache_ptr)->slist_size == 0); \
} \
} while (0) /* H5C__UPDATE_SLIST_FOR_SIZE_CHANGE */
/**************************************************************************
*
* Replacement policy update macros
*
**************************************************************************/
#if H5C_MAINTAIN_CLEAN_AND_DIRTY_LRU_LISTS
#define H5C__UPDATE_RP_FOR_EVICTION_CD_LRU(cache_ptr, entry_ptr, fail_val) \
do { \
/* If the entry is clean when it is evicted, it should be on the \
* clean LRU list, if it was dirty, it should be on the dirty LRU list. \
* Remove it from the appropriate list according to the value of the \
* dirty flag. \
*/ \
if((entry_ptr)->is_dirty) { \
H5C__AUX_DLL_REMOVE((entry_ptr), (cache_ptr)->dLRU_head_ptr, \
(cache_ptr)->dLRU_tail_ptr, \
(cache_ptr)->dLRU_list_len, \
(cache_ptr)->dLRU_list_size, (fail_val)) \
} else { \
H5C__AUX_DLL_REMOVE((entry_ptr), (cache_ptr)->cLRU_head_ptr, \
(cache_ptr)->cLRU_tail_ptr, \
(cache_ptr)->cLRU_list_len, \
(cache_ptr)->cLRU_list_size, (fail_val)) \
} \
} while (0) /* H5C__UPDATE_RP_FOR_EVICTION_CD_LRU() */
#define H5C__UPDATE_RP_FOR_FLUSH_CD_LRU(cache_ptr, entry_ptr, fail_val) \
do { \
/* An entry being flushed or cleared, may not be dirty. Use the \
* dirty flag to infer whether the entry is on the clean or dirty \
* LRU list, and remove it. Then insert it at the head of the \
* clean LRU list. \
* \
* The function presumes that a dirty entry will be either cleared \
* or flushed shortly, so it is OK if we put a dirty entry on the \
* clean LRU list. \
*/ \
if((entry_ptr)->is_dirty) { \
H5C__AUX_DLL_REMOVE((entry_ptr), (cache_ptr)->dLRU_head_ptr, \
(cache_ptr)->dLRU_tail_ptr, \
(cache_ptr)->dLRU_list_len, \
(cache_ptr)->dLRU_list_size, (fail_val)) \
} else { \
H5C__AUX_DLL_REMOVE((entry_ptr), (cache_ptr)->cLRU_head_ptr, \
(cache_ptr)->cLRU_tail_ptr, \
(cache_ptr)->cLRU_list_len, \
(cache_ptr)->cLRU_list_size, (fail_val)) \
} \
\
H5C__AUX_DLL_PREPEND((entry_ptr), (cache_ptr)->cLRU_head_ptr, \
(cache_ptr)->cLRU_tail_ptr, \
(cache_ptr)->cLRU_list_len, \
(cache_ptr)->cLRU_list_size, (fail_val)) \
} while (0) /* H5C__UPDATE_RP_FOR_FLUSH_CD_LRU() */
#define H5C__UPDATE_RP_FOR_INSERT_APPEND_CD_LRU(cache_ptr, entry_ptr, fail_val) \
do { \
/* Insert the entry at the _tail_ of the clean or dirty LRU list as \
* appropriate. \
*/ \
if((entry_ptr)->is_dirty) { \
H5C__AUX_DLL_APPEND((entry_ptr), (cache_ptr)->dLRU_head_ptr, \
(cache_ptr)->dLRU_tail_ptr, \
(cache_ptr)->dLRU_list_len, \
(cache_ptr)->dLRU_list_size, (fail_val)); \
} else { \
H5C__AUX_DLL_APPEND((entry_ptr), (cache_ptr)->cLRU_head_ptr, \
(cache_ptr)->cLRU_tail_ptr, \
(cache_ptr)->cLRU_list_len, \
(cache_ptr)->cLRU_list_size, (fail_val)); \
} \
} while (0) /* H5C__UPDATE_RP_FOR_INSERT_APPEND_CD_LRU() */
#define H5C__UPDATE_RP_FOR_INSERTION_CD_LRU(cache_ptr, entry_ptr, fail_val) \
do { \
/* Insert the entry at the head of the clean or dirty LRU list as \
* appropriate. \
*/ \
if((entry_ptr)->is_dirty) { \
H5C__AUX_DLL_PREPEND((entry_ptr), (cache_ptr)->dLRU_head_ptr, \
(cache_ptr)->dLRU_tail_ptr, \
(cache_ptr)->dLRU_list_len, \
(cache_ptr)->dLRU_list_size, (fail_val)) \
} else { \
H5C__AUX_DLL_PREPEND((entry_ptr), (cache_ptr)->cLRU_head_ptr, \
(cache_ptr)->cLRU_tail_ptr, \
(cache_ptr)->cLRU_list_len, \
(cache_ptr)->cLRU_list_size, (fail_val)) \
} \
} while(0) /* H5C__UPDATE_RP_FOR_INSERTION_CD_LRU() */
#define H5C__UPDATE_RP_FOR_PROTECT_CD_LRU(cache_ptr, entry_ptr, fail_val) \
{ \
/* Remove the entry from the clean or dirty LRU list as appropriate */ \
if((entry_ptr)->is_dirty) { \
H5C__AUX_DLL_REMOVE((entry_ptr), (cache_ptr)->dLRU_head_ptr, \
(cache_ptr)->dLRU_tail_ptr, \
(cache_ptr)->dLRU_list_len, \
(cache_ptr)->dLRU_list_size, (fail_val)) \
} else { \
H5C__AUX_DLL_REMOVE((entry_ptr), (cache_ptr)->cLRU_head_ptr, \
(cache_ptr)->cLRU_tail_ptr, \
(cache_ptr)->cLRU_list_len, \
(cache_ptr)->cLRU_list_size, (fail_val)) \
} \
} while (0) /* H5C__UPDATE_RP_FOR_PROTECT_CD_LRU() */
#define H5C__UPDATE_RP_FOR_MOVE_CD_LRU(cache_ptr, entry_ptr, was_dirty, fail_val) \
do { \
/* Remove the entry from either the clean or dirty LRU list as \
* indicated by the was_dirty parameter \
*/ \
if(was_dirty) { \
H5C__AUX_DLL_REMOVE((entry_ptr), \
(cache_ptr)->dLRU_head_ptr, \
(cache_ptr)->dLRU_tail_ptr, \
(cache_ptr)->dLRU_list_len, \
(cache_ptr)->dLRU_list_size, (fail_val)); \
\
} else { \
H5C__AUX_DLL_REMOVE((entry_ptr), \
(cache_ptr)->cLRU_head_ptr, \
(cache_ptr)->cLRU_tail_ptr, \
(cache_ptr)->cLRU_list_len, \
(cache_ptr)->cLRU_list_size, (fail_val)); \
} \
\
/* Insert the entry at the head of either the clean or dirty \
* LRU list as appropriate. \
*/ \
if((entry_ptr)->is_dirty) { \
H5C__AUX_DLL_PREPEND((entry_ptr), \
(cache_ptr)->dLRU_head_ptr, \
(cache_ptr)->dLRU_tail_ptr, \
(cache_ptr)->dLRU_list_len, \
(cache_ptr)->dLRU_list_size, (fail_val)); \
} else { \
H5C__AUX_DLL_PREPEND((entry_ptr), \
(cache_ptr)->cLRU_head_ptr, \
(cache_ptr)->cLRU_tail_ptr, \
(cache_ptr)->cLRU_list_len, \
(cache_ptr)->cLRU_list_size, (fail_val)); \
} \
} while (0) /* H5C__UPDATE_RP_FOR_MOVE_CD_LRU() */
#define H5C__UPDATE_RP_FOR_SIZE_CHANGE_CD_LRU(cache_ptr, entry_ptr, new_size, fail_val) \
do { \
/* Update the size of the clean or dirty LRU list as \
* appropriate. \
*/ \
if((entry_ptr)->is_dirty) { \
H5C__DLL_UPDATE_FOR_SIZE_CHANGE((cache_ptr)->dLRU_list_len, \
(cache_ptr)->dLRU_list_size, \
(entry_ptr)->size, \
(new_size), (fail_val)) \
\
} else { \
H5C__DLL_UPDATE_FOR_SIZE_CHANGE((cache_ptr)->cLRU_list_len, \
(cache_ptr)->cLRU_list_size, \
(entry_ptr)->size, \
(new_size), (fail_val)) \
} \
} while (0) /* H5C__UPDATE_RP_FOR_SIZE_CHANGE_CD_LRU() */
#define H5C__UPDATE_RP_FOR_UNPIN_CD_LRU(cache_ptr, entry_ptr, fail_val) \
do { \
/* Insert the entry at the head of either the clean \
* or dirty LRU list as appropriate. \
*/ \
if((entry_ptr)->is_dirty) { \
H5C__AUX_DLL_PREPEND((entry_ptr), \
(cache_ptr)->dLRU_head_ptr, \
(cache_ptr)->dLRU_tail_ptr, \
(cache_ptr)->dLRU_list_len, \
(cache_ptr)->dLRU_list_size, (fail_val)) \
} else { \
H5C__AUX_DLL_PREPEND((entry_ptr), \
(cache_ptr)->cLRU_head_ptr, \
(cache_ptr)->cLRU_tail_ptr, \
(cache_ptr)->cLRU_list_len, \
(cache_ptr)->cLRU_list_size, (fail_val)) \
} \
} while (0) /* H5C__UPDATE_RP_FOR_UNPIN_CD_LRU() */
#define H5C__UPDATE_RP_FOR_UNPROTECT_CD_LRU(cache_ptr, entry_ptr, fail_val) \
do { \
/* Insert the entry at the head of either the clean or \
* dirty LRU list as appropriate. \
*/ \
if((entry_ptr)->is_dirty) { \
H5C__AUX_DLL_PREPEND((entry_ptr), (cache_ptr)->dLRU_head_ptr, \
(cache_ptr)->dLRU_tail_ptr, \
(cache_ptr)->dLRU_list_len, \
(cache_ptr)->dLRU_list_size, (fail_val)) \
} else { \
H5C__AUX_DLL_PREPEND((entry_ptr), (cache_ptr)->cLRU_head_ptr, \
(cache_ptr)->cLRU_tail_ptr, \
(cache_ptr)->cLRU_list_len, \
(cache_ptr)->cLRU_list_size, (fail_val)) \
} \
} while (0) /* H5C__UPDATE_RP_FOR_UNPROTECT_CD_LRU() */
#else /* H5C_MAINTAIN_CLEAN_AND_DIRTY_LRU_LISTS */
#define H5C__UPDATE_RP_FOR_EVICTION_CD_LRU(cache_ptr, entry_ptr, fail_val)
#define H5C__UPDATE_RP_FOR_FLUSH_CD_LRU(cache_ptr, entry_ptr, fail_val)
#define H5C__UPDATE_RP_FOR_INSERT_APPEND_CD_LRU(cache_ptr, entry_ptr, fail_val)
#define H5C__UPDATE_RP_FOR_INSERTION_CD_LRU(cache_ptr, entry_ptr, fail_val)
#define H5C__UPDATE_RP_FOR_PROTECT_CD_LRU(cache_ptr, entry_ptr, fail_val)
#define H5C__UPDATE_RP_FOR_MOVE_CD_LRU(cache_ptr, entry_ptr, was_dirty, fail_val)
#define H5C__UPDATE_RP_FOR_SIZE_CHANGE_CD_LRU(cache_ptr, entry_ptr, new_size, fail_val)
#define H5C__UPDATE_RP_FOR_UNPIN_CD_LRU(cache_ptr, entry_ptr, fail_val)
#define H5C__UPDATE_RP_FOR_UNPROTECT_CD_LRU(cache_ptr, entry_ptr, fail_val)
#endif /* H5C_MAINTAIN_CLEAN_AND_DIRTY_LRU_LISTS */
/*-------------------------------------------------------------------------
*
* Macro: H5C__UPDATE_RP_FOR_EVICTION
*
* Purpose: Update the replacement policy data structures for an
* eviction of the specified cache entry.
*
*-------------------------------------------------------------------------
*/
#define H5C__UPDATE_RP_FOR_EVICTION(cache_ptr, entry_ptr, fail_val) \
do { \
assert(cache_ptr); \
assert(entry_ptr); \
assert(!(entry_ptr)->is_protected); \
assert(!(entry_ptr)->is_read_only); \
assert((entry_ptr)->ro_ref_count == 0); \
assert(!(entry_ptr)->is_pinned); \
assert((entry_ptr)->size > 0); \
\
/* Remove the entry from the LRU list */ \
H5C__DLL_REMOVE((entry_ptr), (cache_ptr)->LRU_head_ptr, \
(cache_ptr)->LRU_tail_ptr, (cache_ptr)->LRU_list_len, \
(cache_ptr)->LRU_list_size, (fail_val)) \
\
/* Remove the entry from the clean & dirty LRU lists, if enabled */ \
H5C__UPDATE_RP_FOR_EVICTION_CD_LRU(cache_ptr, entry_ptr, fail_val); \
} while (0) /* H5C__UPDATE_RP_FOR_EVICTION */
/*-------------------------------------------------------------------------
*
* Macro: H5C__UPDATE_RP_FOR_FLUSH
*
* Purpose: Update the replacement policy data structures for a flush
* of the specified cache entry.
*
*-------------------------------------------------------------------------
*/
#define H5C__UPDATE_RP_FOR_FLUSH(cache_ptr, entry_ptr, fail_val) \
do { \
assert(cache_ptr); \
assert(entry_ptr); \
assert(!(entry_ptr)->is_protected); \
assert(!(entry_ptr)->is_read_only); \
assert((entry_ptr)->ro_ref_count == 0); \
assert((entry_ptr)->size > 0); \
\
if(!(entry_ptr)->is_pinned) { \
/* Remove the entry from its location in the LRU list \
* and re-insert it at the head of the list. \
*/ \
H5C__DLL_REMOVE((entry_ptr), (cache_ptr)->LRU_head_ptr, \
(cache_ptr)->LRU_tail_ptr, \
(cache_ptr)->LRU_list_len, \
(cache_ptr)->LRU_list_size, (fail_val)) \
\
H5C__DLL_PREPEND((entry_ptr), (cache_ptr)->LRU_head_ptr, \
(cache_ptr)->LRU_tail_ptr, \
(cache_ptr)->LRU_list_len, \
(cache_ptr)->LRU_list_size, (fail_val)) \
\
/* Maintain the clean & dirty LRU lists, if enabled */ \
H5C__UPDATE_RP_FOR_FLUSH_CD_LRU(cache_ptr, entry_ptr, fail_val); \
} \
} while (0) /* H5C__UPDATE_RP_FOR_FLUSH */
/*-------------------------------------------------------------------------
*
* Macro: H5C__UPDATE_RP_FOR_INSERT_APPEND
*
* Purpose: Update the replacement policy data structures for an
* insertion of the specified cache entry.
*
* Unlike H5C__UPDATE_RP_FOR_INSERTION below, insert a non-pinned
* new entry as the LEAST recently used entry, not the
* most recently used.
*
*-------------------------------------------------------------------------
*/
#define H5C__UPDATE_RP_FOR_INSERT_APPEND(cache_ptr, entry_ptr, fail_val) \
do { \
assert(cache_ptr); \
assert(entry_ptr); \
assert(!(entry_ptr)->is_protected); \
assert(!(entry_ptr)->is_read_only); \
assert((entry_ptr)->ro_ref_count == 0 ); \
assert((entry_ptr)->size > 0 ); \
\
if((entry_ptr)->is_pinned) { \
H5C__DLL_PREPEND((entry_ptr), (cache_ptr)->pel_head_ptr, \
(cache_ptr)->pel_tail_ptr, \
(cache_ptr)->pel_len, \
(cache_ptr)->pel_size, (fail_val)) \
} else { \
/* Insert the entry at the tail of the LRU list. */ \
H5C__DLL_APPEND((entry_ptr), (cache_ptr)->LRU_head_ptr, \
(cache_ptr)->LRU_tail_ptr, \
(cache_ptr)->LRU_list_len, \
(cache_ptr)->LRU_list_size, (fail_val)) \
\
/* Maintain the clean & dirty LRU lists, if enabled */ \
H5C__UPDATE_RP_FOR_INSERT_APPEND_CD_LRU(cache_ptr, entry_ptr, fail_val); \
} \
} while (0)
/*-------------------------------------------------------------------------
*
* Macro: H5C__UPDATE_RP_FOR_INSERTION
*
* Purpose: Update the replacement policy data structures for an
* insertion of the specified cache entry.
*
*-------------------------------------------------------------------------
*/
#define H5C__UPDATE_RP_FOR_INSERTION(cache_ptr, entry_ptr, fail_val) \
do { \
assert(cache_ptr); \
assert(entry_ptr); \
assert(!(entry_ptr)->is_protected); \
assert(!(entry_ptr)->is_read_only); \
assert((entry_ptr)->ro_ref_count == 0); \
assert((entry_ptr)->size > 0); \
\
if((entry_ptr)->is_pinned) { \
H5C__DLL_PREPEND((entry_ptr), (cache_ptr)->pel_head_ptr, \
(cache_ptr)->pel_tail_ptr, \
(cache_ptr)->pel_len, \
(cache_ptr)->pel_size, (fail_val)) \
\
} else { \
/* Insert the entry at the head of the LRU list. */ \
H5C__DLL_PREPEND((entry_ptr), (cache_ptr)->LRU_head_ptr, \
(cache_ptr)->LRU_tail_ptr, \
(cache_ptr)->LRU_list_len, \
(cache_ptr)->LRU_list_size, (fail_val)) \
\
/* Maintain the clean & dirty LRU lists, if enabled */ \
H5C__UPDATE_RP_FOR_INSERTION_CD_LRU(cache_ptr, entry_ptr, fail_val); \
} \
} while (0)
/*-------------------------------------------------------------------------
*
* Macro: H5C__UPDATE_RP_FOR_PROTECT
*
* Purpose: Update the replacement policy data structures for a
* protect of the specified cache entry.
*
* To do this, unlink the specified entry from any data
* structures used by the replacement policy (or the pinned list,
* which is outside of the replacement policy), and add the
* entry to the protected list.
*
*-------------------------------------------------------------------------
*/
#define H5C__UPDATE_RP_FOR_PROTECT(cache_ptr, entry_ptr, fail_val) \
do { \
assert(cache_ptr); \
assert(entry_ptr); \
assert(!(entry_ptr)->is_protected); \
assert(!(entry_ptr)->is_read_only); \
assert((entry_ptr)->ro_ref_count == 0); \
assert((entry_ptr)->size > 0); \
\
if((entry_ptr)->is_pinned) { \
H5C__DLL_REMOVE((entry_ptr), (cache_ptr)->pel_head_ptr, \
(cache_ptr)->pel_tail_ptr, \
(cache_ptr)->pel_len, \
(cache_ptr)->pel_size, (fail_val)) \
} else { \
/* Remove the entry from the LRU list. */ \
H5C__DLL_REMOVE((entry_ptr), (cache_ptr)->LRU_head_ptr, \
(cache_ptr)->LRU_tail_ptr, \
(cache_ptr)->LRU_list_len, \
(cache_ptr)->LRU_list_size, (fail_val)) \
\
/* Maintain the clean & dirty LRU lists, if enabled */ \
H5C__UPDATE_RP_FOR_PROTECT_CD_LRU(cache_ptr, entry_ptr, fail_val); \
} \
\
/* Regardless of whether the entry is pinned, add it to the protected \
* list. \
*/ \
H5C__DLL_APPEND((entry_ptr), (cache_ptr)->pl_head_ptr, \
(cache_ptr)->pl_tail_ptr, \
(cache_ptr)->pl_len, \
(cache_ptr)->pl_size, (fail_val)) \
} while (0) /* H5C__UPDATE_RP_FOR_PROTECT */
/*-------------------------------------------------------------------------
*
* Macro: H5C__UPDATE_RP_FOR_MOVE
*
* Purpose: Update the replacement policy data structures for a
* move of the specified cache entry.
*
*-------------------------------------------------------------------------
*/
#define H5C__UPDATE_RP_FOR_MOVE(cache_ptr, entry_ptr, was_dirty, fail_val) \
do { \
assert(cache_ptr); \
assert(entry_ptr); \
assert(!(entry_ptr)->is_read_only); \
assert((entry_ptr)->ro_ref_count == 0); \
assert((entry_ptr)->size > 0); \
\
if(!(entry_ptr)->is_pinned && !(entry_ptr)->is_protected) { \
/* Remove the entry from the LRU list, and re-insert it at the head. \
*/ \
H5C__DLL_REMOVE((entry_ptr), (cache_ptr)->LRU_head_ptr, \
(cache_ptr)->LRU_tail_ptr, \
(cache_ptr)->LRU_list_len, \
(cache_ptr)->LRU_list_size, (fail_val)) \
\
H5C__DLL_PREPEND((entry_ptr), (cache_ptr)->LRU_head_ptr, \
(cache_ptr)->LRU_tail_ptr, \
(cache_ptr)->LRU_list_len, \
(cache_ptr)->LRU_list_size, (fail_val)) \
\
/* Maintain the clean & dirty LRU lists, if enabled */ \
H5C__UPDATE_RP_FOR_MOVE_CD_LRU(cache_ptr, entry_ptr, was_dirty, fail_val); \
} \
} while (0) /* H5C__UPDATE_RP_FOR_MOVE */
/*-------------------------------------------------------------------------
*
* Macro: H5C__UPDATE_RP_FOR_SIZE_CHANGE
*
* Purpose: Update the replacement policy data structures for a
* size change of the specified cache entry.
*
* To do this, determine if the entry is pinned. If it is,
* update the size of the pinned entry list.
*
* If it isn't pinned, the entry must handled by the
* replacement policy. Update the appropriate replacement
* policy data structures.
*
* If the entry is accessed with collective operations for
* parallel I/O, update that list.
*
*-------------------------------------------------------------------------
*/
#ifdef H5_HAVE_PARALLEL
#define H5C__UPDATE_RP_FOR_SIZE_CHANGE_COLL(cache_ptr, entry_ptr, new_size, fail_val) \
do { \
if((entry_ptr)->coll_access) { \
H5C__DLL_UPDATE_FOR_SIZE_CHANGE((cache_ptr)->coll_list_len, \
(cache_ptr)->coll_list_size, \
(entry_ptr)->size, \
(new_size), (fail_val)); \
\
} \
} while (0) /* H5C__UPDATE_RP_FOR_SIZE_CHANGE_COLL() */
#else /* H5_HAVE_PARALLEL */
#define H5C__UPDATE_RP_FOR_SIZE_CHANGE_COLL(cache_ptr, entry_ptr, new_size, fail_val)
#endif /* H5_HAVE_PARALLEL */
#define H5C__UPDATE_RP_FOR_SIZE_CHANGE(cache_ptr, entry_ptr, new_size, fail_val) \
do { \
assert(cache_ptr); \
assert(entry_ptr); \
assert(!(entry_ptr)->is_protected); \
assert(!(entry_ptr)->is_read_only); \
assert((entry_ptr)->ro_ref_count == 0); \
assert((entry_ptr)->size > 0 ); \
assert(new_size > 0 ); \
\
/* Maintain the collective access list, if enabled */ \
H5C__UPDATE_RP_FOR_SIZE_CHANGE_COLL(cache_ptr, entry_ptr, new_size, fail_val); \
\
if((entry_ptr)->is_pinned) { \
H5C__DLL_UPDATE_FOR_SIZE_CHANGE((cache_ptr)->pel_len, \
(cache_ptr)->pel_size, \
(entry_ptr)->size, \
(new_size), (fail_val)) \
} else { \
/* Update the size of the LRU list */ \
H5C__DLL_UPDATE_FOR_SIZE_CHANGE((cache_ptr)->LRU_list_len, \
(cache_ptr)->LRU_list_size, \
(entry_ptr)->size, \
(new_size), (fail_val)) \
\
/* Maintain the clean & dirty LRU lists, if enabled */ \
H5C__UPDATE_RP_FOR_SIZE_CHANGE_CD_LRU(cache_ptr, entry_ptr, new_size, fail_val); \
} \
} while (0) /* H5C__UPDATE_RP_FOR_SIZE_CHANGE */
/*-------------------------------------------------------------------------
*
* Macro: H5C__UPDATE_RP_FOR_UNPIN
*
* Purpose: Update the replacement policy data structures for an
* unpin of the specified cache entry.
*
* To do this, unlink the specified entry from the pinned
* entry list, and re-insert it in the data structures used
* by the current replacement policy.
*
*-------------------------------------------------------------------------
*/
#define H5C__UPDATE_RP_FOR_UNPIN(cache_ptr, entry_ptr, fail_val) \
do { \
assert(cache_ptr); \
assert(entry_ptr); \
assert(!(entry_ptr)->is_protected); \
assert(!(entry_ptr)->is_read_only); \
assert((entry_ptr)->ro_ref_count == 0 ); \
assert((entry_ptr)->is_pinned); \
assert((entry_ptr)->size > 0); \
\
/* Regardless of the replacement policy, remove the entry from the \
* pinned entry list. \
*/ \
H5C__DLL_REMOVE((entry_ptr), (cache_ptr)->pel_head_ptr, \
(cache_ptr)->pel_tail_ptr, (cache_ptr)->pel_len, \
(cache_ptr)->pel_size, (fail_val)); \
\
/* Insert the entry at the head of the LRU list. */ \
H5C__DLL_PREPEND((entry_ptr), (cache_ptr)->LRU_head_ptr, \
(cache_ptr)->LRU_tail_ptr, \
(cache_ptr)->LRU_list_len, \
(cache_ptr)->LRU_list_size, (fail_val)); \
\
/* Maintain the clean & dirty LRU lists, if enabled */ \
H5C__UPDATE_RP_FOR_UNPIN_CD_LRU(cache_ptr, entry_ptr, fail_val); \
} while(0) /* H5C__UPDATE_RP_FOR_UNPIN */
/*-------------------------------------------------------------------------
*
* Macro: H5C__UPDATE_RP_FOR_UNPROTECT
*
* Purpose: Update the replacement policy data structures for an
* unprotect of the specified cache entry.
*
* To do this, unlink the specified entry from the protected
* list, and re-insert it in the data structures used by the
* current replacement policy.
*
*-------------------------------------------------------------------------
*/
#define H5C__UPDATE_RP_FOR_UNPROTECT(cache_ptr, entry_ptr, fail_val) \
do { \
assert(cache_ptr); \
assert(entry_ptr); \
assert((entry_ptr)->is_protected); \
assert((entry_ptr)->size > 0); \
\
/* Regardless of the replacement policy, remove the entry from the \
* protected list. \
*/ \
H5C__DLL_REMOVE((entry_ptr), (cache_ptr)->pl_head_ptr, \
(cache_ptr)->pl_tail_ptr, (cache_ptr)->pl_len, \
(cache_ptr)->pl_size, (fail_val)) \
\
if((entry_ptr)->is_pinned) { \
H5C__DLL_PREPEND((entry_ptr), (cache_ptr)->pel_head_ptr, \
(cache_ptr)->pel_tail_ptr, \
(cache_ptr)->pel_len, \
(cache_ptr)->pel_size, (fail_val)) \
} else { \
/* Insert the entry at the head of the LRU list. */ \
H5C__DLL_PREPEND((entry_ptr), (cache_ptr)->LRU_head_ptr, \
(cache_ptr)->LRU_tail_ptr, \
(cache_ptr)->LRU_list_len, \
(cache_ptr)->LRU_list_size, (fail_val)) \
\
/* Maintain the clean & dirty LRU lists, if enabled */ \
H5C__UPDATE_RP_FOR_UNPROTECT_CD_LRU(cache_ptr, entry_ptr, fail_val); \
} \
} while (0) /* H5C__UPDATE_RP_FOR_UNPROTECT */
#ifdef H5_HAVE_PARALLEL
/* Macros that modify the "collective I/O" LRU list */
#define H5C__COLL_DLL_PREPEND(entry_ptr, head_ptr, tail_ptr, len, list_size, fail_val) \
H5C__GEN_DLL_PREPEND(entry_ptr, coll_next, coll_prev, head_ptr, tail_ptr, len, list_size, fail_val)
#define H5C__COLL_DLL_REMOVE(entry_ptr, head_ptr, tail_ptr, len, list_size, fail_val) \
H5C__GEN_DLL_REMOVE(entry_ptr, coll_next, coll_prev, head_ptr, tail_ptr, len, list_size, fail_val)
/*-------------------------------------------------------------------------
*
* Macro: H5C__INSERT_IN_COLL_LIST
*
* Purpose: Insert entry into collective entries list
*
*-------------------------------------------------------------------------
*/
#define H5C__INSERT_IN_COLL_LIST(cache_ptr, entry_ptr, fail_val) \
do { \
assert(cache_ptr); \
assert(entry_ptr); \
\
/* Insert the entry at the head of the list. */ \
H5C__COLL_DLL_PREPEND((entry_ptr), (cache_ptr)->coll_head_ptr, \
(cache_ptr)->coll_tail_ptr, \
(cache_ptr)->coll_list_len, \
(cache_ptr)->coll_list_size, (fail_val)) \
} while (0) /* H5C__INSERT_IN_COLL_LIST */
/*-------------------------------------------------------------------------
*
* Macro: H5C__REMOVE_FROM_COLL_LIST
*
* Purpose: Remove entry from collective entries list
*
*-------------------------------------------------------------------------
*/
#define H5C__REMOVE_FROM_COLL_LIST(cache_ptr, entry_ptr, fail_val) \
do { \
assert(cache_ptr); \
assert(entry_ptr); \
\
/* Remove the entry from the list. */ \
H5C__COLL_DLL_REMOVE((entry_ptr), (cache_ptr)->coll_head_ptr, \
(cache_ptr)->coll_tail_ptr, \
(cache_ptr)->coll_list_len, \
(cache_ptr)->coll_list_size, (fail_val)) \
} while (0) /* H5C__REMOVE_FROM_COLL_LIST */
/*-------------------------------------------------------------------------
*
* Macro: H5C__MOVE_TO_TOP_IN_COLL_LIST
*
* Purpose: Update entry position in collective entries list
*
*-------------------------------------------------------------------------
*/
#define H5C__MOVE_TO_TOP_IN_COLL_LIST(cache_ptr, entry_ptr, fail_val) \
do { \
assert(cache_ptr); \
assert(entry_ptr); \
\
/* Remove entry and insert at the head of the list. */ \
H5C__COLL_DLL_REMOVE((entry_ptr), (cache_ptr)->coll_head_ptr, \
(cache_ptr)->coll_tail_ptr, \
(cache_ptr)->coll_list_len, \
(cache_ptr)->coll_list_size, (fail_val)) \
\
H5C__COLL_DLL_PREPEND((entry_ptr), (cache_ptr)->coll_head_ptr, \
(cache_ptr)->coll_tail_ptr, \
(cache_ptr)->coll_list_len, \
(cache_ptr)->coll_list_size, (fail_val)) \
\
} while (0) /* H5C__MOVE_TO_TOP_IN_COLL_LIST */
#endif /* H5_HAVE_PARALLEL */
/****************************/
/* Package Private Typedefs */
/****************************/
/****************************************************************************
*
* structure H5C_tag_info_t
*
* Structure about each set of tagged entries for an object in the file.
*
* Each H5C_tag_info_t struct corresponds to a particular object in the file.
*
* Each H5C_cache_entry struct in the linked list of entries for this tag
* also contains a pointer back to the H5C_tag_info_t struct for the
* overall object.
*
*
* The fields of this structure are discussed individually below:
*
* tag: Address (i.e. "tag") of the object header for all the entries
* corresponding to parts of that object.
*
* head: Head of doubly-linked list of all entries belonging to the tag.
*
* entry_cnt: Number of entries on linked list of entries for this tag.
*
* corked: Boolean flag indicating whether entries for this object can be
* evicted.
*
* hh: uthash hash table handle (must be last)
*
****************************************************************************/
typedef struct H5C_tag_info_t {
haddr_t tag; /* Tag (address) of the entries (must be first, for skiplist) */
H5C_cache_entry_t *head; /* Head of the list of entries for this tag */
size_t entry_cnt; /* Number of entries on list */
bool corked; /* Whether this object is corked */
/* Hash table fields */
UT_hash_handle hh; /* Hash table handle (must be LAST) */
} H5C_tag_info_t;
/****************************************************************************
*
* structure H5C_t
*
* Structure for all information specific to an instance of the cache.
*
* While the cache was designed with multiple replacement policies in mind,
* at present only a modified form of LRU is supported.
*
* The cache has a hash table in which all entries are stored. Given the
* advantages of flushing entries in increasing address order, a skip list
* is used to track dirty entries.
*
* flush_in_progress: Boolean flag indicating whether a flush is in progress.
*
* log_info: Information used by the cache logging functionality.
* Described in H5Clog.h.
*
* aux_ptr: Pointer to void used to allow wrapper code to associate
* its data with an instance of H5C_t. The H5C cache code
* sets this field to NULL, and otherwise leaves it alone.
*
* max_type_id: Integer field containing the maximum type id number assigned
* to a type of entry in the cache. All type ids from 0 to
* max_type_id inclusive must be defined.
*
* class_table_ptr: Pointer to an array of H5C_class_t of length
* max_type_id + 1. Entry classes for the cache.
*
* max_cache_size: Nominal maximum number of bytes that may be stored in the
* cache. This value should be viewed as a soft limit, as the
* cache can exceed this value under the following circumstances:
*
* a) All entries in the cache are protected, and the cache is
* asked to insert a new entry. In this case the new entry
* will be created. If this causes the cache to exceed
* max_cache_size, it will do so. The cache will attempt
* to reduce its size as entries are unprotected.
*
* b) When running in parallel mode, the cache may not be
* permitted to flush a dirty entry in response to a read.
* If there are no clean entries available to evict, the
* cache will exceed its maximum size. Again the cache
* will attempt to reduce its size to the max_cache_size
* limit on the next cache write.
*
* c) When an entry increases in size, the cache may exceed
* the max_cache_size limit until the next time the cache
* attempts to load or insert an entry.
*
* d) When the evictions_enabled field is false (see below),
* the cache size will increase without limit until the
* field is set to true.
*
* min_clean_size: Nominal minimum number of clean bytes in the cache.
* The cache attempts to maintain this number of bytes of clean
* data so as to avoid case b) above. Again, this is a soft limit.
*
* close_warning_received: Boolean flag indicating that a file closing
* warning has been received.
*
*
* In addition to the callback functions required for each entry's class,
* the cache requires the following callback functions for an instance of
* the cache as a whole:
*
* check_write_permitted: In certain applications, the cache may not
* be allowed to write to disk at certain time. If specified,
* the check_write_permitted function is used to determine if
* a write is permissible at any given point in time.
*
* If no such function is specified (i.e. this field is NULL),
* the cache uses the following write_permitted field to
* determine whether writes are permitted.
*
* write_permitted: If check_write_permitted is NULL, this boolean flag
* indicates whether writes are permitted.
*
* log_flush: If provided, this function is called whenever a dirty
* entry is flushed to disk.
*
*
* In cases where memory is plentiful, and performance is an issue, it may
* be useful to disable all cache evictions, and thereby postpone metadata
* writes. The following field is used to implement this.
*
* evictions_enabled: Boolean flag that is initialized to true. When
* this flag is set to false, the metadata cache will not
* attempt to evict entries to make space for newly protected
* entries, and instead the will grow without limit.
*
* Needless to say, this feature must be used with care.
*
*
* The cache requires an index to facilitate searching for entries. The
* following fields support that index.
*
* We sometimes need to visit all entries in the cache, they are stored in
* an index list.
*
* The index list is maintained by the same macros that maintain the
* index, and must have the same length and size as the index proper.
*
* index_len: Number of entries currently in the hash table used to index
* the cache.
*
* index_size: Number of bytes of cache entries currently stored in the
* hash table used to index the cache.
*
* This value should not be mistaken for footprint of the
* cache in memory. The average cache entry is small, and
* the cache has a considerable overhead. Multiplying the
* index_size by three should yield a conservative estimate
* of the cache's memory footprint.
*
* index_ring_len: Array of integer of length H5C_RING_NTYPES used to
* maintain a count of entries in the index by ring. Note
* that the sum of all the cells in this array must equal
* the value stored in index_len above.
*
* index_ring_size: Array of size_t of length H5C_RING_NTYPES used to
* maintain the sum of the sizes of all entries in the index
* by ring. Note that the sum of all cells in this array must
* equal the value stored in index_size above.
*
* clean_index_size: Number of bytes of clean entries currently stored in
* the hash table. Note that the index_size field (above)
* is also the sum of the sizes of all entries in the cache.
* Thus we should have the invariant that clean_index_size +
* dirty_index_size == index_size.
*
* WARNING:
* The value of the clean_index_size must not be mistaken for
* the current clean size of the cache. Rather, the clean size
* of the cache is the current value of clean_index_size plus
* the amount of empty space (if any) in the cache.
*
* clean_index_ring_size: Array of size_t of length H5C_RING_NTYPES used to
* maintain the sum of the sizes of all clean entries in the
* index by ring. Note that the sum of all cells in this array
* must equal the value stored in clean_index_size above.
*
* dirty_index_size: Number of bytes of dirty entries currently stored in
* the hash table. Note that the index_size field (above)
* is also the sum of the sizes of all entries in the cache.
* Thus we should have the invariant that clean_index_size +
* dirty_index_size == index_size.
*
* dirty_index_ring_size: Array of size_t of length H5C_RING_NTYPES used to
* maintain the sum of the sizes of all dirty entries in the
* index by ring. Note that the sum of all cells in this array
* must equal the value stored in dirty_index_size above.
*
* index: Array of pointers to H5C_cache_entry_t of size
* H5C__HASH_TABLE_LEN. At present, this value is a power
* of two, not the usual prime number.
*
* Hopefully the variable size of cache elements, the large
* hash table size, and the way in which HDF5 allocates space
* will combine to avoid problems with periodicity. If so, we
* can use a trivial hash function (a bit-and and a 3 bit left
* shift) with some small savings.
*
* If not, it will become evident in the statistics. Changing
* to the usual prime number length hash table will require
* changing the H5C__HASH_FCN macro and the deletion of the
* H5C__HASH_MASK #define. No other changes should be required.
*
* il_len: Number of entries on the index list.
*
* This must always be equal to index_len. As such, this
* field is redundant. However, the existing linked list
* management macros expect to maintain a length field, so
* this field exists primarily to avoid adding complexity to
* these macros.
*
* il_size: Number of bytes of cache entries currently stored in the
* index list.
*
* This must always be equal to index_size. As such, this
* field is redundant. However, the existing linked list
* management macros expect to maintain a size field, so
* this field exists primarily to avoid adding complexity to
* these macros.
*
* il_head: Pointer to the head of the doubly linked list of entries in
* the index list. Note that cache entries on this list are
* linked by their il_next and il_prev fields.
*
* This field is NULL if the index is empty.
*
* il_tail: Pointer to the tail of the doubly linked list of entries in
* the index list. Note that cache entries on this list are
* linked by their il_next and il_prev fields.
*
* This field is NULL if the index is empty.
*
*
* It is possible that an entry may be removed from the cache as the result
* of the flush of a second entry. In general, this causes little trouble,
* but it is possible that the entry removed may be the next entry in the
* scan of a list. In this case, we must be able to detect the fact that the
* entry has been removed, so that the scan doesn't attempt to proceed with
* an entry that is no longer in the cache.
*
* The following fields are maintained to facilitate this.
*
* entries_removed_counter: Counter that is incremented each time an
* entry is removed from the cache by any means (eviction,
* expungement, or take ownership at this point in time).
* Functions that perform scans on lists may set this field
* to zero prior to calling H5C__flush_single_entry().
* Unexpected changes to the counter indicate that an entry
* was removed from the cache as a side effect of the flush.
*
* last_entry_removed_ptr: Pointer to the instance of H5C_cache_entry_t
* which contained the last entry to be removed from the cache,
* or NULL if there either is no such entry, or if a function
* performing a scan of a list has set this field to NULL prior
* to calling H5C__flush_single_entry().
*
* WARNING!!! This field must NEVER be dereferenced. It is
* maintained to allow functions that perform scans of lists
* to compare this pointer with their pointers to next, thus
* allowing them to avoid unnecessary restarts of scans if the
* pointers don't match, and if entries_removed_counter is one.
*
* entry_watched_for_removal: Pointer to an instance of H5C_cache_entry_t
* which contains the 'next' entry for an iteration. Removing
* this entry must trigger a rescan of the iteration, so each
* entry removed from the cache is compared against this pointer
* and the pointer is reset to NULL if the watched entry is
* removed. (This functions similarly to a "dead man's switch")
*
*
* When we flush the cache, we need to write entries out in increasing
* address order. An instance of a skip list is used to store dirty entries in
* sorted order.
*
* The cost of maintaining the skip list is significant. As it is only used
* on flush and close, it is maintained only when needed.
*
* To do this, we add a flag to control maintenanace of the skip list.
* This flag is initially set to false, which disables all operations
* on the skip list.
*
* At the beginning of either flush or close, we scan the index list,
* insert all dirtly entries in the skip list, and enable operations
* on skip list by setting above control flag to true.
*
* At the end of a complete flush, we verify that the skip list is empty,
* and set the control flag back to false, so as to avoid skip list
* maintenance overhead until the next flush or close.
*
* In the case of a partial flush (i.e. flush marked entries), we remove
* all remaining entries from the skip list, and then set the control flag
* back to false -- again avoiding skip list maintenance overhead until
* the next flush or close.
*
* slist_enabled: Boolean flag used to control operation of the skip
* list. If this filed is false, operations on the slist are
* no-ops, and the slist must be empty. If it is true,
* operations on the skip list proceed as usual, and all dirty
* entries in the metadata cache must be listed in the skip list.
*
* slist_changed: Boolean flag used to indicate whether the contents of
* the skip list has changed since the last time this flag was
* reset. This is used in the cache flush code to detect
* conditions in which pre-serialize or serialize callbacks
* have modified the skip list -- which obliges us to restart
* the scan of the skip list from the beginning.
*
* slist_len: Number of entries currently in the skip list. Used to
* maintain a sorted list of dirty entries in the cache.
*
* slist_size: Number of bytes of cache entries currently stored in the
* skip list used to maintain a sorted list of dirty entries in
* the cache.
*
* slist_ring_len: Array of integer of length H5C_RING_NTYPES used to
* maintain a count of entries in the skip list by ring. Note
* that the sum of all the cells in this array must equal
* the value stored in slist_len above.
*
* slist_ring_size: Array of size_t of length H5C_RING_NTYPES used to
* maintain the sum of the sizes of all entries in the skip list
* by ring. Note that the sum of all cells in this array must
* equal the value stored in slist_size above.
*
* slist_ptr: Pointer to the instance of H5SL_t used maintain a sorted
* list of dirty entries in the cache. This sorted list has
* two uses:
*
* a) It allows us to flush dirty entries in increasing address
* order, which results in significant savings.
*
* b) It facilitates checking for adjacent dirty entries when
* attempting to evict entries from the cache.
*
* num_last_entries: The number of entries in the cache that can only be
* flushed after all other entries in the cache have been flushed.
*
* Note: At this time, the this field will only be applied to
* two types of entries: the superblock and the file driver info
* message. The code utilizing these flags is protected with
* asserts to enforce this.
*
* The cache must deal with the case in which entries may be dirtied, moved,
* or have their sizes changed during a flush. To allow sanity checks in this
* situation, the following two fields have been added. They are only
* compiled in when H5C_DO_SANITY_CHECKS is true.
*
* slist_len_increase: Number of entries that have been added to the
* skip list since the last time this field was set to zero.
* Note that this value can be negative.
*
* slist_size_increase: Total size of all entries that have been added
* to the skip list since the last time this field was set to
* zero. Note that this value can be negative.
*
* Cache entries belonging to a particular object are "tagged" with that
* object's base object header address.
*
* The following fields are maintained to facilitate this.
*
* tag_list: A collection to track entries that belong to an object.
* Each H5C_tag_info_t struct on the tag list corresponds to a
* particular object in the file. Tagged entries can be flushed
* or evicted as a group, or corked to prevent entries from being
* evicted from the cache.
*
* "Global" entries, like the superblock and the file's freelist,
* as well as shared entries like global heaps and shared object
* header messages, are not tagged.
*
* ignore_tags: Boolean flag to disable tag validation during entry insertion.
*
* num_objs_corked: Unsigned integer field containing the number of objects
* that are "corked". The "corked" status of an object is found by
* searching the "tag_list". This field is added for optimization
* so that the skip list search on "tag_list" can be skipped if this
* field is zero, i.e. no "corked" objects.
*
* When a cache entry is protected, it must be removed from the LRU
* list(s), as it cannot be either flushed or evicted until it is unprotected.
* The following fields are used to implement the protected list (pl).
*
* pl_len: Number of entries currently residing on the protected list.
*
* pl_size: Number of bytes of cache entries currently residing on the
* protected list.
*
* pl_head_ptr: Pointer to the head of the doubly linked list of protected
* entries. Note that cache entries on this list are linked
* by their next and prev fields.
*
* This field is NULL if the list is empty.
*
* pl_tail_ptr: Pointer to the tail of the doubly linked list of protected
* entries. Note that cache entries on this list are linked
* by their next and prev fields.
*
* This field is NULL if the list is empty.
*
*
* For very frequently used entries, the protect/unprotect overhead can
* become burdensome. To avoid this overhead, the cache allows entries to
* be "pinned". A pinned entry is similar to a protected entry, in the
* sense that it cannot be evicted, and that the entry can be modified at
* any time.
*
* Pinning an entry has the following implications:
*
* 1) A pinned entry cannot be evicted. Thus unprotected pinned
* entries reside in the pinned entry list, instead of the LRU
* list(s) or other lists maintained by the current replacement
* policy code.
*
* 2) A pinned entry can be accessed or modified at any time.
* This places an additional burden on the associated pre-serialize
* and serialize callbacks, which must ensure the entry is in
* a consistent state before creating an image of it.
*
* 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.
*
* Since pinned entries cannot be evicted, they must be kept on a pinned
* entry list (pel), instead of being entrusted to the replacement policy
* code.
*
* Maintaining the pinned entry list requires the following fields:
*
* pel_len: Number of entries currently residing on the pinned entry list.
*
* pel_size: Number of bytes of cache entries currently residing on
* the pinned entry list.
*
* pel_head_ptr: Pointer to the head of the doubly linked list of pinned
* but not protected entries. Note that cache entries on
* this list are linked by their next and prev fields.
*
* This field is NULL if the list is empty.
*
* pel_tail_ptr: Pointer to the tail of the doubly linked list of pinned
* but not protected entries. Note that cache entries on
* this list are linked by their next and prev fields.
*
* This field is NULL if the list is empty.
*
*
* The cache must have a replacement policy, and the fields supporting this
* policy must be accessible from this structure.
*
* Fields supporting the modified LRU policy:
*
* 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, the usual LRU policy has been modified by adding
* clean and dirty LRU lists to the usual LRU list. In general, these
* lists only exist in parallel builds.
*
* The clean LRU list is simply the regular LRU list with all dirty cache
* entries removed.
*
* Similarly, the dirty LRU list is the regular LRU list with all the clean
* cache entries removed.
*
* 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 at all times. We attempt to do this by trying
* to flush enough entries on each write to keep the cLRU_list_size >=
* min_clean_size.
*
* 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 sync point, we will attempt to
* evict enough entries to reduce index_size to less than max_cache_size.
* While this will usually be possible, all bets are off if enough entries
* are protected.
*
* Discussions of the individual fields used by the modified LRU replacement
* policy follow:
*
* LRU_list_len: Number of cache entries currently on the LRU list.
*
* The LRU_list_len + pl_len + pel_len must always
* equal index_len.
*
* LRU_list_size: Number of bytes of cache entries currently residing on the
* LRU list.
*
* The LRU_list_size + pl_size + pel_size must always
* equal index_size.
*
* LRU_head_ptr: Pointer to the head of the doubly linked LRU list. Cache
* entries on this list are linked by their next and prev fields.
*
* This field is NULL if the list is empty.
*
* LRU_tail_ptr: Pointer to the tail of the doubly linked LRU list. Cache
* entries on this list are linked by their next and prev fields.
*
* This field is NULL if the list is empty.
*
* cLRU_list_len: Number of cache entries currently on the clean LRU list.
*
* The cLRU_list_len + dLRU_list_len must always
* equal LRU_list_len.
*
* cLRU_list_size: Number of bytes of cache entries currently residing on
* the clean LRU list.
*
* The cLRU_list_size + dLRU_list_size must always
* equal LRU_list_size.
*
* cLRU_head_ptr: Pointer to the head of the doubly linked clean LRU list.
* Cache entries on this list are linked by their aux_next and
* aux_prev fields.
*
* This field is NULL if the list is empty.
*
* cLRU_tail_ptr: Pointer to the tail of the doubly linked clean LRU list.
* Cache entries on this list are linked by their aux_next and
* aux_prev fields.
*
* This field is NULL if the list is empty.
*
* dLRU_list_len: Number of cache entries currently on the dirty LRU list.
*
* The cLRU_list_len + dLRU_list_len must always
* equal LRU_list_len.
*
* dLRU_list_size: Number of cache entries currently on the dirty LRU list.
*
* The cLRU_list_len + dLRU_list_len must always
* equal LRU_list_len.
*
* dLRU_head_ptr: Pointer to the head of the doubly linked dirty LRU list.
* Cache entries on this list are linked by their aux_next and
* aux_prev fields.
*
* This field is NULL if the list is empty.
*
* dLRU_tail_ptr: Pointer to the tail of the doubly linked dirty LRU list.
* Cache entries on this list are linked by their aux_next and
* aux_prev fields.
*
* This field is NULL if the list is empty.
*
*
* Automatic cache size adjustment:
*
* While the default cache size is adequate for many cases, there are
* cases where the default is too small. Ideally, the user should
* adjust the cache size as required. However, this is not possible in all
* cases, so the cache has automatic cache size adjustment code.
*
* The configuration for the automatic cache size adjustment is stored in
* the structure described below:
*
* size_increase_possible: Depending on the configuration data given
* in the resize_ctl field, it may or may not be possible to
* increase the size of the cache. Rather than test for all the
* ways this can happen, we simply set this flag when we receive
* a new configuration.
*
* flash_size_increase_possible: Depending on the configuration data given
* in the resize_ctl field, it may or may not be possible for a
* flash size increase to occur. We set this flag whenever we
* receive a new configuration so as to avoid repeated calculations.
*
* flash_size_increase_threshold: If a flash cache size increase is possible,
* this field is used to store the minimum size of a new entry or size
* increase needed to trigger a flash cache size increase. Note that
* this field must be updated whenever the size of the cache is changed.
*
* size_decrease_possible: Depending on the configuration data given in the
* resize_ctl field, it may or may not be possible to decrease the
* size of the cache. Rather than test for all the ways this can
* happen, we simply set this flag when we receive a new configuration.
*
* resize_enabled: This is another convenience flag which is set whenever
* a new set of values for resize_ctl are provided. Very simply:
*
* resize_enabled = size_increase_possible || size_decrease_possible;
*
* cache_full: Boolean flag used to keep track of whether the cache is
* full, so we can refrain from increasing the size of a
* cache which hasn't used up the space allotted to it.
*
* The field is initialized to false, and then set to true
* whenever we attempt to make space in the cache.
*
* size_decreased: Boolean flag set to true whenever the maximum cache
* size is decreased. The flag triggers a call to
* H5C__make_space_in_cache() on the next call to H5C_protect().
*
* resize_in_progress: As the metadata cache has become re-entrant, it is
* possible that a protect may trigger a call to
* H5C__auto_adjust_cache_size(), which may trigger a flush,
* which may trigger a protect, which will result in another
* call to H5C__auto_adjust_cache_size().
*
* The resize_in_progress boolean flag is used to detect this,
* and to prevent the infinite recursion that would otherwise
* occur.
*
* msic_in_progress: As the metadata cache has become re-entrant, and as
* the free space manager code has become more tightly integrated
* with the metadata cache, it is possible that a call to
* H5C_insert_entry() may trigger a call to H5C_make_space_in_cache(),
* which, via H5C__flush_single_entry() and client callbacks, may
* trigger an infinite regression of calls to H5C_make_space_in_cache().
*
* The msic_in_progress boolean flag is used to detect this,
* and prevent the infinite regression that would otherwise occur.
*
* resize_ctl: Instance of H5C_auto_size_ctl_t containing configuration
* data for automatic cache resizing.
*
* epoch_markers_active: Integer field containing the number of epoch
* markers currently in use in the LRU list. This value
* must be in the range [0, H5C__MAX_EPOCH_MARKERS - 1].
*
* epoch_marker_active: Array of boolean of length H5C__MAX_EPOCH_MARKERS.
* This array is used to track which epoch markers are currently
* in use.
*
* epoch_marker_ringbuf: Array of int of length H5C__MAX_EPOCH_MARKERS + 1.
*
* To manage the epoch marker cache entries, it is necessary
* to track their order in the LRU list. This is done with
* epoch_marker_ringbuf. When markers are inserted at the
* head of the LRU list, the index of the marker in the
* epoch_markers array is inserted at the tail of the ring
* buffer. When it becomes the epoch_marker_active'th marker
* in the LRU list, it will have worked its way to the head
* of the ring buffer as well. This allows us to remove it
* without scanning the LRU list if such is required.
*
* epoch_marker_ringbuf_first: Integer field containing the index of the
* first entry in the ring buffer.
*
* epoch_marker_ringbuf_last: Integer field containing the index of the
* last entry in the ring buffer.
*
* epoch_marker_ringbuf_size: Integer field containing the number of entries
* in the ring buffer.
*
* epoch_markers: Array of instances of H5C_cache_entry_t of length
* H5C__MAX_EPOCH_MARKERS. The entries are used as markers in the
* LRU list to identify cache entries that haven't been accessed for
* some (small) specified number of epochs. These entries (if any)
* can then be evicted and the cache size reduced -- ideally without
* evicting any of the current working set. Needless to say, the epoch
* length and the number of epochs before an unused entry must be
* chosen so that all, or almost all, the working set will be accessed
* before the limit.
*
* Epoch markers only appear in the LRU list, never in the index or
* skip list. While they are of type H5C__EPOCH_MARKER_TYPE, and have
* associated class functions, these functions should never be called.
*
* The addr fields of these instances of H5C_cache_entry_t are set to
* the index of the instance in the epoch_markers array, the size is
* set to 0, and the type field points to the constant structure
* epoch_marker_class defined in H5Cepoch.c. The next and prev fields
* are used as usual to link the entry into the LRU list.
*
* All other fields are unused.
*
*
* Cache hit rate collection fields:
*
* We supply the current cache hit rate on request, so we must keep a
* simple cache hit rate computation regardless of whether statistics
* collection is enabled. The following fields support this capability.
*
* cache_hits: Number of cache hits since the last time the cache hit rate
* statistics were reset. Note that when automatic cache re-sizing
* is enabled, this field will be reset every automatic resize epoch.
*
* cache_accesses: Number of times the cache has been accessed while
* since the last since the last time the cache hit rate statistics
* were reset. Note that when automatic cache re-sizing is enabled,
* this field will be reset every automatic resize epoch.
*
*
* Metadata cache image management related fields.
*
* image_ctl: Instance of H5C_cache_image_ctl_t containing configuration
* data for generation of a cache image on file close.
*
* serialization_in_progress: Boolean field that is set to true iff
* the cache is in the process of being serialized. This field is
* needed to support the H5C_serialization_in_progress() call, which
* is in turn required for sanity checks in some cache clients.
*
* load_image: Boolean flag indicating that the metadata cache image
* superblock extension message exists and should be read, and the
* image block read and decoded on the next call to H5C_protect().
*
* image_loaded: Boolean flag indicating that the metadata cache has
* loaded the metadata cache image as directed by the
* cache image superblock extension message.
*
* delete_image: Boolean flag indicating whether the metadata cache image
* superblock message should be deleted and the cache image
* file space freed after they have been read and decoded.
*
* This flag should be set to true iff the file is opened
* R/W and there is a cache image to be read.
*
* image_addr: The base address of the on-disk metadata cache image, or
* HADDR_UNDEF if that value is undefined. Note that this field
* is used both in the construction and write, and the read and
* decode of metadata cache image blocks.
*
* image_len: The size of the on disk metadata cache image, or zero if that
* value is undefined. Note that this field is used both in the
* construction and write, and the read and decode of metadata cache
* image blocks.
*
* image_data_len: The number of bytes of data in the on disk metadata
* cache image, or zero if that value is undefined.
*
* In most cases, this value is the same as the image_len
* above. It exists to allow for metadata cache image blocks
* that are larger than the actual image. Thus in all
* cases image_data_len <= image_len.
*
* To create the metadata cache image, we must first serialize all the
* entries in the metadata cache. This is done by a scan of the index.
* As entries must be serialized in increasing flush dependency height
* order, we scan the index repeatedly, once for each flush dependency
* height in increasing order.
*
* This operation is complicated by the fact that entries other than the
* target may be inserted, loaded, relocated, or removed from the cache
* (either by eviction or the take ownership flag) as the result of a
* pre_serialize or serialize callback. While entry removals are not
* a problem for the scan of the index, insertions, loads, and relocations
* are. Hence the entries loaded, inserted, and relocated counters
* listed below have been implemented to allow these conditions to be
* detected and dealt with by restarting the scan.
*
* The serialization operation is further complicated by the fact that
* the flush dependency height of a given entry may increase (as the
* result of an entry load or insert) or decrease (as the result of an
* entry removal -- via either eviction or the take ownership flag). The
* entry_fd_height_change_counter field is maintained to allow detection
* of this condition, and a restart of the scan when it occurs.
*
* Note that all these new fields would work just as well as booleans.
*
* entries_loaded_counter: Number of entries loaded into the cache
* since the last time this field was reset.
*
* entries_inserted_counter: Number of entries inserted into the cache
* since the last time this field was reset.
*
* entries relocated_counter: Number of entries whose base address has
* been changed since the last time this field was reset.
*
* entry_fd_height_change_counter: Number of entries whose flush dependency
* height has changed since the last time this field was reset.
*
* The following fields are used assemble the cache image prior to
* writing it to disk.
*
* num_entries_in_image: Unsigned integer field containing the number of
* entries to be copied into the metadata cache image. Note that
* this value will be less than the number of entries in the cache,
* and the superblock and its related entries are not written to the
* metadata cache image.
*
* image_entries: Pointer to a dynamically allocated array of instance of
* H5C_image_entry_t of length num_entries_in_image, or NULL
* if that array does not exist. This array is used to
* assemble entry data to be included in the image, and to
* sort them by flush dependency height and LRU rank.
*
* image_buffer: Pointer to the dynamically allocated buffer of length
* image_len in which the metadata cache image is assembled,
* or NULL if that buffer does not exist.
*
*
* Free Space Manager Related fields:
*
* The free space managers for the file must be informed when we are about to
* close or flush the file so that they order themselves accordingly. This
* used to be done much later in the close process, but with cache image and
* page buffering, this is no longer viable, as we must finalize the on
* disk image of all metadata much sooner.
*
* This is handled by the H5MF_settle_raw_data_fsm() and
* H5MF_settle_meta_data_fsm() routines. As these calls are expensive,
* the following fields are used to track whether the target free space
* managers are clean.
*
* They are also used in sanity checking, as once a free space manager is
* settled, it should not become unsettled (i.e. be asked to allocate or
* free file space) either ever (in the case of a file close) or until the
* flush is complete.
*
* rdfsm_settled: Boolean flag indicating whether the raw data free space
* manager is settled -- i.e. whether the correct space has
* been allocated for it in the file.
*
* Note that the name of this field is deceptive. In the
* multi file case, the flag applies to all free space
* managers that are not involved in allocating space for
* free space manager metadata.
*
* mdfsm_settled: Boolean flag indicating whether the meta data free space
* manager is settled -- i.e. whether the correct space has
* been allocated for it in the file.
*
* Note that the name of this field is deceptive. In the
* multi-file case, the flag applies only to free space
* managers that are involved in allocating space for free
* space managers.
*
*
* Statistics collection fields:
*
* When enabled, these fields are used to collect statistics as described
* below. The first set are collected only when H5C_COLLECT_CACHE_STATS
* is true.
*
* hits: Array to record the number of times an entry with type id
* equal to the array index has been in cache when requested in
* the current epoch.
*
* misses: Array to record the number of times an entry with type id
* equal to the array index has not been in cache when
* requested in the current epoch.
*
* write_protects: Array to record the number of times an entry with
* type id equal to the array index has been write protected
* in the current epoch.
*
* Observe that (hits + misses) = (write_protects + read_protects).
*
* read_protects: Array to record the number of times an entry with
* type id equal to the array index has been read protected in
* the current epoch.
*
* Observe that (hits + misses) = (write_protects + read_protects).
*
* max_read_protects: Array to maximum number of simultaneous read
* protects on any entry with type id equal to the array index
* in the current epoch.
*
* insertions: Array to record the number of times an entry with type
* id equal to the array index has been inserted into the
* cache in the current epoch.
*
* pinned_insertions: Array to record the number of times an entry
* with type id equal to the array index has been inserted
* pinned into the cache in the current epoch.
*
* clears: Array to record the number of times a dirty entry with type
* id equal to the array index has been cleared in the current epoch.
*
* flushes: Array to record the number of times an entry with type id
* equal to the array index has been written to disk in the
* current epoch.
*
* evictions: Array to record the number of times an entry with type id
* equal to the array index has been evicted from the cache in
* the current epoch.
*
* take_ownerships: Array to record the number of times an entry with
* type id equal to the array index has been removed from the
* cache via the H5C__TAKE_OWNERSHIP_FLAG in the current epoch.
*
* moves: Array to record the number of times an entry with type
* id equal to the array index has been moved in the current epoch.
*
* entry_flush_moves: Array to record the number of times an entry
* with type id equal to the array index has been moved
* during its pre-serialize callback in the current epoch.
*
* cache_flush_moves: Array to record the number of times an entry
* with type id equal to the array index has been moved
* during a cache flush in the current epoch.
*
* pins: Array to record the number of times an entry with type
* id equal to the array index has been pinned in the current epoch.
*
* unpins: Array to record the number of times an entry with type
* id equal to the array index has been unpinned in the current epoch.
*
* dirty_pins: Array to record the number of times an entry with type
* id equal to the array index has been marked dirty while pinned
* in the current epoch.
*
* pinned_flushes: Array to record the number of times an entry
* with type id equal to the array index has been flushed while
* pinned in the current epoch.
*
* pinned_clears: Array to record the number of times an entry
* with type id equal to the array index has been cleared while
* pinned in the current epoch.
*
* size_increases: Array to record the number of times an entry
* with type id equal to the array index has increased in
* size in the current epoch.
*
* size_decreases: Array to record the number of times an entry
* with type id equal to the array index has decreased in
* size in the current epoch.
*
* entry_flush_size_changes: Array to record the number of times an entry
* with type id equal to the array index has changed size while in
* its pre-serialize callback.
*
* cache_flush_size_changes: Array to record the number of times an entry
* with type id equal to the array index has changed size during a
* cache flush
*
* total_ht_insertions: Number of times entries have been inserted into the
* hash table in the current epoch.
*
* total_ht_deletions: Number of times entries have been deleted from the
* hash table in the current epoch.
*
* successful_ht_searches: The total number of successful searches of the
* hash table in the current epoch.
*
* total_successful_ht_search_depth: The total number of entries other than
* the targets examined in successful searches of the hash table in
* the current epoch.
*
* failed_ht_searches: The total number of unsuccessful searches of the hash
* table in the current epoch.
*
* total_failed_ht_search_depth: The total number of entries examined in
* unsuccessful searches of the hash table in the current epoch.
*
* max_index_len: Largest value attained by the index_len field in the
* current epoch.
*
* max_index_size: Largest value attained by the index_size field in the
* current epoch.
*
* max_clean_index_size: Largest value attained by the clean_index_size field
* in the current epoch.
*
* max_dirty_index_size: Largest value attained by the dirty_index_size field
* in the current epoch.
*
* max_slist_len: Largest value attained by the slist_len field in the
* current epoch.
*
* max_slist_size: Largest value attained by the slist_size field in the
* current epoch.
*
* max_pl_len: Largest value attained by the pl_len field in the
* current epoch.
*
* max_pl_size: Largest value attained by the pl_size field in the
* current epoch.
*
* max_pel_len: Largest value attained by the pel_len field in the
* current epoch.
*
* max_pel_size: Largest value attained by the pel_size field in the
* current epoch.
*
* calls_to_msic: Total number of calls to H5C__make_space_in_cache
*
* total_entries_skipped_in_msic: Number of clean entries skipped while
* enforcing the min_clean_fraction in H5C__make_space_in_cache().
*
* total_dirty_pf_entries_skipped_in_msic: Number of dirty prefetched entries
* skipped in H5C__make_space_in_cache(). Note that this can
* only occur when a file is opened R/O with a cache image
* containing dirty entries.
*
* total_entries_scanned_in_msic: Number of clean entries skipped while
* enforcing the min_clean_fraction in H5C__make_space_in_cache().
*
* max_entries_skipped_in_msic: Maximum number of clean entries skipped
* in any one call to H5C__make_space_in_cache().
*
* max_dirty_pf_entries_skipped_in_msic: Maximum number of dirty prefetched
* entries skipped in any one call to H5C__make_space_in_cache().
* Note that this can only occur when the file is opened
* R/O with a cache image containing dirty entries.
*
* max_entries_scanned_in_msic: Maximum number of entries scanned over
* in any one call to H5C__make_space_in_cache().
*
* entries_scanned_to_make_space: Number of entries scanned only when looking
* for entries to evict in order to make space in cache.
*
*
* The following fields track statistics on cache images.
*
* images_created: The number of cache images created since the last
* time statistics were reset.
*
* At present, this field must always be either 0 or 1.
* Further, since cache images are only created at file
* close, this field should only be set at that time.
*
* images_read: The number of cache images read from file. Note that
* reading an image is different from loading it -- reading the
* image means just that, while loading the image refers to decoding
* it and loading it into the metadata cache.
*
* In the serial case, image_read should always equal images_loaded.
* However, in the parallel case, the image should only be read by
* process 0. All other processes should receive the cache image via
* a broadcast from process 0.
*
* images_loaded: The number of cache images loaded since the last time
* statistics were reset.
*
* At present, this field must always be either 0 or 1.
* Further, since cache images are only loaded at the
* time of the first protect or on file close, this value
* should only change on those events.
*
* last_image_size: Size of the most recently loaded metadata cache image
* loaded into the cache, or zero if no image has been loaded.
*
* At present, at most one cache image can be loaded into
* the metadata cache for any given file, and this image
* will be loaded either on the first protect, or on file
* close if no entry is protected before then.
*
*
* Fields for tracking prefetched entries. Note that flushes and evictions
* of prefetched entries are tracked in the flushes and evictions arrays
* discussed above.
*
* prefetches: Number of prefetched entries that are loaded to the cache.
*
* dirty_prefetches: Number of dirty prefetched entries that are loaded
* into the cache.
*
* prefetch_hits: Number of prefetched entries that are actually used.
*
*
* Entries may move, load, dirty, and delete other entries in their
* pre_serialize and serialize callbacks, there is code to restart scans of
* lists so as to avoid improper behavior if the next entry in the list is
* the target of one on these operations.
*
* The following fields are use to count such occurrences. They are used
* both in tests (to verify that the scan has been restarted), and to
* obtain estimates of how frequently these restarts occur.
*
* slist_scan_restarts: Number of times a scan of the skip list (that contains
* calls to H5C__flush_single_entry()) has been restarted to
* avoid potential issues with change of status of the next
* entry in the scan.
*
* LRU_scan_restarts: Number of times a scan of the LRU list (that contains
* calls to H5C__flush_single_entry()) has been restarted to
* avoid potential issues with change of status of the next
* entry in the scan.
*
* index_scan_restarts: Number of times a scan of the index has been
* restarted to avoid potential issues with load, insertion
* or change in flush dependency height of an entry other
* than the target entry as the result of call(s) to the
* pre_serialize or serialize callbacks.
*
* Note that at present, this condition can only be triggered
* by a call to H5C_serialize_single_entry().
*
* The remaining stats are collected only when both H5C_COLLECT_CACHE_STATS
* and H5C_COLLECT_CACHE_ENTRY_STATS are true.
*
* max_accesses: Array to record the maximum number of times any single
* entry with type id equal to the array index has been
* accessed in the current epoch.
*
* min_accesses: Array to record the minimum number of times any single
* entry with type id equal to the array index has been
* accessed in the current epoch.
*
* max_clears: Array to record the maximum number of times any single
* entry with type id equal to the array index has been cleared
* in the current epoch.
*
* max_flushes: Array to record the maximum number of times any single
* entry with type id equal to the array index has been
* flushed in the current epoch.
*
* max_size: Array to record the maximum size of any single entry
* with type id equal to the array index that has resided in
* the cache in the current epoch.
*
* max_pins: Array to record the maximum number of times that any single
* entry with type id equal to the array index that has been
* marked as pinned in the cache in the current epoch.
*
*
* Fields supporting testing:
*
* prefix: Array of char used to prefix debugging output. The field is
* intended to allow marking of output of with the processes mpi rank.
*
* get_entry_ptr_from_addr_counter: Counter used to track the number of
* times the H5C_get_entry_ptr_from_addr() function has been
* called successfully. This field is only defined when
* NDEBUG is not #defined.
*
****************************************************************************/
struct H5C_t {
bool flush_in_progress;
H5C_log_info_t * log_info;
void * aux_ptr;
int32_t max_type_id;
const H5C_class_t * const *class_table_ptr;
size_t max_cache_size;
size_t min_clean_size;
H5C_write_permitted_func_t check_write_permitted;
bool write_permitted;
H5C_log_flush_func_t log_flush;
bool evictions_enabled;
bool close_warning_received;
/* Fields for maintaining the [hash table] index of entries */
uint32_t index_len;
size_t index_size;
uint32_t index_ring_len[H5C_RING_NTYPES];
size_t index_ring_size[H5C_RING_NTYPES];
size_t clean_index_size;
size_t clean_index_ring_size[H5C_RING_NTYPES];
size_t dirty_index_size;
size_t dirty_index_ring_size[H5C_RING_NTYPES];
H5C_cache_entry_t * index[H5C__HASH_TABLE_LEN];
uint32_t il_len;
size_t il_size;
H5C_cache_entry_t * il_head;
H5C_cache_entry_t * il_tail;
/* Fields to detect entries removed during scans */
int64_t entries_removed_counter;
H5C_cache_entry_t * last_entry_removed_ptr;
H5C_cache_entry_t * entry_watched_for_removal;
/* Fields for maintaining list of in-order entries, for flushing */
bool slist_enabled;
bool slist_changed;
uint32_t slist_len;
size_t slist_size;
uint32_t slist_ring_len[H5C_RING_NTYPES];
size_t slist_ring_size[H5C_RING_NTYPES];
H5SL_t * slist_ptr;
uint32_t num_last_entries;
#ifdef H5C_DO_SANITY_CHECKS
int32_t slist_len_increase;
int64_t slist_size_increase;
#endif /* H5C_DO_SANITY_CHECKS */
/* Fields for maintaining list of tagged entries */
H5C_tag_info_t * tag_list;
bool ignore_tags;
uint32_t num_objs_corked;
/* Fields for tracking protected entries */
uint32_t pl_len;
size_t pl_size;
H5C_cache_entry_t * pl_head_ptr;
H5C_cache_entry_t * pl_tail_ptr;
/* Fields for tracking pinned entries */
uint32_t pel_len;
size_t pel_size;
H5C_cache_entry_t * pel_head_ptr;
H5C_cache_entry_t * pel_tail_ptr;
/* Fields for complete LRU list of entries */
uint32_t LRU_list_len;
size_t LRU_list_size;
H5C_cache_entry_t * LRU_head_ptr;
H5C_cache_entry_t * LRU_tail_ptr;
#if H5C_MAINTAIN_CLEAN_AND_DIRTY_LRU_LISTS
/* Fields for clean LRU list of entries */
uint32_t cLRU_list_len;
size_t cLRU_list_size;
H5C_cache_entry_t * cLRU_head_ptr;
H5C_cache_entry_t * cLRU_tail_ptr;
/* Fields for dirty LRU list of entries */
uint32_t dLRU_list_len;
size_t dLRU_list_size;
H5C_cache_entry_t * dLRU_head_ptr;
H5C_cache_entry_t * dLRU_tail_ptr;
#endif /* H5C_MAINTAIN_CLEAN_AND_DIRTY_LRU_LISTS */
#ifdef H5_HAVE_PARALLEL
/* Fields for collective metadata reads */
uint32_t coll_list_len;
size_t coll_list_size;
H5C_cache_entry_t * coll_head_ptr;
H5C_cache_entry_t * coll_tail_ptr;
/* Fields for collective metadata writes */
H5SL_t * coll_write_list;
#endif /* H5_HAVE_PARALLEL */
/* Fields for automatic cache size adjustment */
bool size_increase_possible;
bool flash_size_increase_possible;
size_t flash_size_increase_threshold;
bool size_decrease_possible;
bool resize_enabled;
bool cache_full;
bool size_decreased;
bool resize_in_progress;
bool msic_in_progress;
H5C_auto_size_ctl_t resize_ctl;
/* Fields for epoch markers used in automatic cache size adjustment */
int32_t epoch_markers_active;
bool epoch_marker_active[H5C__MAX_EPOCH_MARKERS];
int32_t epoch_marker_ringbuf[H5C__MAX_EPOCH_MARKERS+1];
int32_t epoch_marker_ringbuf_first;
int32_t epoch_marker_ringbuf_last;
int32_t epoch_marker_ringbuf_size;
H5C_cache_entry_t epoch_markers[H5C__MAX_EPOCH_MARKERS];
/* Fields for cache hit rate collection */
int64_t cache_hits;
int64_t cache_accesses;
/* fields supporting generation of a cache image on file close */
H5C_cache_image_ctl_t image_ctl;
bool serialization_in_progress;
bool load_image;
bool image_loaded;
bool delete_image;
haddr_t image_addr;
hsize_t image_len;
hsize_t image_data_len;
int64_t entries_loaded_counter;
int64_t entries_inserted_counter;
int64_t entries_relocated_counter;
int64_t entry_fd_height_change_counter;
uint32_t num_entries_in_image;
H5C_image_entry_t * image_entries;
void * image_buffer;
/* Free Space Manager Related fields */
bool rdfsm_settled;
bool mdfsm_settled;
#if H5C_COLLECT_CACHE_STATS
/* stats fields */
int64_t hits[H5C__MAX_NUM_TYPE_IDS + 1];
int64_t misses[H5C__MAX_NUM_TYPE_IDS + 1];
int64_t write_protects[H5C__MAX_NUM_TYPE_IDS + 1];
int64_t read_protects[H5C__MAX_NUM_TYPE_IDS + 1];
int32_t max_read_protects[H5C__MAX_NUM_TYPE_IDS + 1];
int64_t insertions[H5C__MAX_NUM_TYPE_IDS + 1];
int64_t pinned_insertions[H5C__MAX_NUM_TYPE_IDS + 1];
int64_t clears[H5C__MAX_NUM_TYPE_IDS + 1];
int64_t flushes[H5C__MAX_NUM_TYPE_IDS + 1];
int64_t evictions[H5C__MAX_NUM_TYPE_IDS + 1];
int64_t take_ownerships[H5C__MAX_NUM_TYPE_IDS + 1];
int64_t moves[H5C__MAX_NUM_TYPE_IDS + 1];
int64_t entry_flush_moves[H5C__MAX_NUM_TYPE_IDS + 1];
int64_t cache_flush_moves[H5C__MAX_NUM_TYPE_IDS + 1];
int64_t pins[H5C__MAX_NUM_TYPE_IDS + 1];
int64_t unpins[H5C__MAX_NUM_TYPE_IDS + 1];
int64_t dirty_pins[H5C__MAX_NUM_TYPE_IDS + 1];
int64_t pinned_flushes[H5C__MAX_NUM_TYPE_IDS + 1];
int64_t pinned_clears[H5C__MAX_NUM_TYPE_IDS + 1];
int64_t size_increases[H5C__MAX_NUM_TYPE_IDS + 1];
int64_t size_decreases[H5C__MAX_NUM_TYPE_IDS + 1];
int64_t entry_flush_size_changes[H5C__MAX_NUM_TYPE_IDS + 1];
int64_t cache_flush_size_changes[H5C__MAX_NUM_TYPE_IDS + 1];
/* Fields for hash table operations */
int64_t total_ht_insertions;
int64_t total_ht_deletions;
int64_t successful_ht_searches;
int64_t total_successful_ht_search_depth;
int64_t failed_ht_searches;
int64_t total_failed_ht_search_depth;
uint32_t max_index_len;
size_t max_index_size;
size_t max_clean_index_size;
size_t max_dirty_index_size;
/* Fields for in-order skip list */
uint32_t max_slist_len;
size_t max_slist_size;
/* Fields for protected entry list */
uint32_t max_pl_len;
size_t max_pl_size;
/* Fields for pinned entry list */
uint32_t max_pel_len;
size_t max_pel_size;
/* Fields for tracking 'make space in cache' (msic) operations */
int64_t calls_to_msic;
int64_t total_entries_skipped_in_msic;
int64_t total_dirty_pf_entries_skipped_in_msic;
int64_t total_entries_scanned_in_msic;
int32_t max_entries_skipped_in_msic;
int32_t max_dirty_pf_entries_skipped_in_msic;
int32_t max_entries_scanned_in_msic;
int64_t entries_scanned_to_make_space;
/* Fields for tracking skip list scan restarts */
int64_t slist_scan_restarts;
int64_t LRU_scan_restarts;
int64_t index_scan_restarts;
/* Fields for tracking cache image operations */
int32_t images_created;
int32_t images_read;
int32_t images_loaded;
hsize_t last_image_size;
/* Fields for tracking prefetched entries */
int64_t prefetches;
int64_t dirty_prefetches;
int64_t prefetch_hits;
#if H5C_COLLECT_CACHE_ENTRY_STATS
int32_t max_accesses[H5C__MAX_NUM_TYPE_IDS + 1];
int32_t min_accesses[H5C__MAX_NUM_TYPE_IDS + 1];
int32_t max_clears[H5C__MAX_NUM_TYPE_IDS + 1];
int32_t max_flushes[H5C__MAX_NUM_TYPE_IDS + 1];
size_t max_size[H5C__MAX_NUM_TYPE_IDS + 1];
int32_t max_pins[H5C__MAX_NUM_TYPE_IDS + 1];
#endif /* H5C_COLLECT_CACHE_ENTRY_STATS */
#endif /* H5C_COLLECT_CACHE_STATS */
char prefix[H5C__PREFIX_LEN];
#ifndef NDEBUG
int64_t get_entry_ptr_from_addr_counter;
#endif
}; /* H5C_t */
/* Define typedef for tagged cache entry iteration callbacks */
typedef int (*H5C_tag_iter_cb_t)(H5C_cache_entry_t *entry, void *ctx);
/*****************************/
/* Package Private Variables */
/*****************************/
/******************************/
/* Package Private Prototypes */
/******************************/
H5_DLL herr_t H5C__prep_image_for_file_close(H5F_t *f, bool *image_generated);
/* General routines */
H5_DLL herr_t H5C__auto_adjust_cache_size(H5F_t *f, bool write_permitted);
H5_DLL herr_t H5C__autoadjust__ageout__remove_all_markers(H5C_t *cache_ptr);
H5_DLL herr_t H5C__autoadjust__ageout__remove_excess_markers(H5C_t *cache_ptr);
H5_DLL herr_t H5C__flash_increase_cache_size(H5C_t *cache_ptr, size_t old_entry_size, size_t new_entry_size);
H5_DLL herr_t H5C__flush_invalidate_cache(H5F_t *f, unsigned flags);
H5_DLL herr_t H5C__flush_ring(H5F_t *f, H5C_ring_t ring, unsigned flags);
H5_DLL herr_t H5C__flush_single_entry(H5F_t *f, H5C_cache_entry_t *entry_ptr,
unsigned flags);
H5_DLL herr_t H5C__generate_cache_image(H5F_t *f, H5C_t *cache_ptr);
H5_DLL herr_t H5C__load_cache_image(H5F_t *f);
H5_DLL herr_t H5C__make_space_in_cache(H5F_t * f, size_t space_needed,
bool write_permitted);
H5_DLL herr_t H5C__serialize_cache(H5F_t *f);
H5_DLL herr_t H5C__serialize_single_entry(H5F_t *f, H5C_t *cache_ptr, H5C_cache_entry_t *entry_ptr);
H5_DLL herr_t H5C__iter_tagged_entries(H5C_t *cache, haddr_t tag, bool match_global,
H5C_tag_iter_cb_t cb, void *cb_ctx);
/* Routines for operating on entry tags */
H5_DLL herr_t H5C__tag_entry(H5C_t * cache_ptr, H5C_cache_entry_t * entry_ptr);
H5_DLL herr_t H5C__untag_entry(H5C_t *cache, H5C_cache_entry_t *entry);
/* Routines for operating on cache images */
H5_DLL herr_t H5C__get_cache_image_config(const H5C_t *cache_ptr, H5C_cache_image_ctl_t *config_ptr);
H5_DLL herr_t H5C__image_stats(H5C_t *cache_ptr, bool print_header);
/* Debugging routines */
#ifdef H5C_DO_SLIST_SANITY_CHECKS
H5_DLL bool H5C__entry_in_skip_list(H5C_t *cache_ptr, H5C_cache_entry_t *target_ptr);
#endif
#ifdef H5C_DO_EXTREME_SANITY_CHECKS
H5_DLL herr_t H5C__validate_lru_list(H5C_t *cache_ptr);
H5_DLL herr_t H5C__validate_pinned_entry_list(H5C_t *cache_ptr);
H5_DLL herr_t H5C__validate_protected_entry_list(H5C_t *cache_ptr);
#endif /* H5C_DO_EXTREME_SANITY_CHECKS */
/* Testing functions */
#ifdef H5C_TESTING
H5_DLL herr_t H5C__verify_cork_tag_test(hid_t fid, H5O_token_t tag_token, bool status);
#endif /* H5C_TESTING */
#endif /* H5Cpkg_H */
/* clang-format on */
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