diff options
Diffstat (limited to 'src/H5HL.c')
-rw-r--r-- | src/H5HL.c | 1211 |
1 files changed, 608 insertions, 603 deletions
@@ -100,78 +100,78 @@ H5FL_BLK_DEFINE(lheap_chunk); */ BEGIN_FUNC(PRIV, ERR, herr_t, SUCCEED, FAIL, H5HL_create(H5F_t *f, size_t size_hint, haddr_t *addr_p /*out*/)) -H5HL_t * heap = NULL; /* Heap created */ -H5HL_prfx_t *prfx = NULL; /* Heap prefix */ -hsize_t total_size = 0; /* Total heap size on disk */ - -/* check arguments */ -HDassert(f); -HDassert(addr_p); - -/* Adjust size hint as necessary */ -if (size_hint && size_hint < H5HL_SIZEOF_FREE(f)) - size_hint = H5HL_SIZEOF_FREE(f); -size_hint = H5HL_ALIGN(size_hint); - -/* Allocate new heap structure */ -if (NULL == (heap = H5HL__new(H5F_SIZEOF_SIZE(f), H5F_SIZEOF_ADDR(f), H5HL_SIZEOF_HDR(f)))) - H5E_THROW(H5E_CANTALLOC, "can't allocate new heap struct"); - -/* Allocate file space */ -total_size = heap->prfx_size + size_hint; -if (HADDR_UNDEF == (heap->prfx_addr = H5MF_alloc(f, H5FD_MEM_LHEAP, total_size))) - H5E_THROW(H5E_CANTALLOC, "unable to allocate file memory"); - -/* Initialize info */ -heap->single_cache_obj = TRUE; -heap->dblk_addr = heap->prfx_addr + (hsize_t)heap->prfx_size; -heap->dblk_size = size_hint; -if (size_hint) - if (NULL == (heap->dblk_image = H5FL_BLK_CALLOC(lheap_chunk, size_hint))) - H5E_THROW(H5E_CANTALLOC, "memory allocation failed"); - -/* free list */ -if (size_hint) { - if (NULL == (heap->freelist = H5FL_MALLOC(H5HL_free_t))) - H5E_THROW(H5E_CANTALLOC, "memory allocation failed"); - heap->freelist->offset = 0; - heap->freelist->size = size_hint; - heap->freelist->prev = heap->freelist->next = NULL; - heap->free_block = 0; -} /* end if */ -else { - heap->freelist = NULL; - heap->free_block = H5HL_FREE_NULL; -} /* end else */ - -/* Allocate the heap prefix */ -if (NULL == (prfx = H5HL__prfx_new(heap))) - H5E_THROW(H5E_CANTALLOC, "memory allocation failed"); - -/* Add to cache */ -if (FAIL == H5AC_insert_entry(f, H5AC_LHEAP_PRFX, heap->prfx_addr, prfx, H5AC__NO_FLAGS_SET)) - H5E_THROW(H5E_CANTINIT, "unable to cache local heap prefix"); - -/* Set address to return */ -*addr_p = heap->prfx_addr; - -CATCH -if (ret_value < 0) { - *addr_p = HADDR_UNDEF; - if (prfx) { - if (FAIL == H5HL__prfx_dest(prfx)) - H5E_THROW(H5E_CANTFREE, "unable to destroy local heap prefix"); + H5HL_t * heap = NULL; /* Heap created */ + H5HL_prfx_t *prfx = NULL; /* Heap prefix */ + hsize_t total_size = 0; /* Total heap size on disk */ + + /* check arguments */ + HDassert(f); + HDassert(addr_p); + + /* Adjust size hint as necessary */ + if (size_hint && size_hint < H5HL_SIZEOF_FREE(f)) + size_hint = H5HL_SIZEOF_FREE(f); + size_hint = H5HL_ALIGN(size_hint); + + /* Allocate new heap structure */ + if (NULL == (heap = H5HL__new(H5F_SIZEOF_SIZE(f), H5F_SIZEOF_ADDR(f), H5HL_SIZEOF_HDR(f)))) + H5E_THROW(H5E_CANTALLOC, "can't allocate new heap struct"); + + /* Allocate file space */ + total_size = heap->prfx_size + size_hint; + if (HADDR_UNDEF == (heap->prfx_addr = H5MF_alloc(f, H5FD_MEM_LHEAP, total_size))) + H5E_THROW(H5E_CANTALLOC, "unable to allocate file memory"); + + /* Initialize info */ + heap->single_cache_obj = TRUE; + heap->dblk_addr = heap->prfx_addr + (hsize_t)heap->prfx_size; + heap->dblk_size = size_hint; + if (size_hint) + if (NULL == (heap->dblk_image = H5FL_BLK_CALLOC(lheap_chunk, size_hint))) + H5E_THROW(H5E_CANTALLOC, "memory allocation failed"); + + /* free list */ + if (size_hint) { + if (NULL == (heap->freelist = H5FL_MALLOC(H5HL_free_t))) + H5E_THROW(H5E_CANTALLOC, "memory allocation failed"); + heap->freelist->offset = 0; + heap->freelist->size = size_hint; + heap->freelist->prev = heap->freelist->next = NULL; + heap->free_block = 0; } /* end if */ else { - if (heap) { - if (H5F_addr_defined(heap->prfx_addr)) - if (FAIL == H5MF_xfree(f, H5FD_MEM_LHEAP, heap->prfx_addr, total_size)) - H5E_THROW(H5E_CANTFREE, "can't release heap data?"); - if (FAIL == H5HL__dest(heap)) - H5E_THROW(H5E_CANTFREE, "unable to destroy local heap"); + heap->freelist = NULL; + heap->free_block = H5HL_FREE_NULL; + } /* end else */ + + /* Allocate the heap prefix */ + if (NULL == (prfx = H5HL__prfx_new(heap))) + H5E_THROW(H5E_CANTALLOC, "memory allocation failed"); + + /* Add to cache */ + if (FAIL == H5AC_insert_entry(f, H5AC_LHEAP_PRFX, heap->prfx_addr, prfx, H5AC__NO_FLAGS_SET)) + H5E_THROW(H5E_CANTINIT, "unable to cache local heap prefix"); + + /* Set address to return */ + *addr_p = heap->prfx_addr; + + CATCH + if (ret_value < 0) { + *addr_p = HADDR_UNDEF; + if (prfx) { + if (FAIL == H5HL__prfx_dest(prfx)) + H5E_THROW(H5E_CANTFREE, "unable to destroy local heap prefix"); } /* end if */ - } /* end else */ -} /* end if */ + else { + if (heap) { + if (H5F_addr_defined(heap->prfx_addr)) + if (FAIL == H5MF_xfree(f, H5FD_MEM_LHEAP, heap->prfx_addr, total_size)) + H5E_THROW(H5E_CANTFREE, "can't release heap data?"); + if (FAIL == H5HL__dest(heap)) + H5E_THROW(H5E_CANTFREE, "unable to destroy local heap"); + } /* end if */ + } /* end else */ + } /* end if */ END_FUNC(PRIV) /* end H5HL_create() */ @@ -190,103 +190,104 @@ END_FUNC(PRIV) /* end H5HL_create() */ */ BEGIN_FUNC(STATIC, ERR, herr_t, SUCCEED, FAIL, H5HL__minimize_heap_space(H5F_t *f, H5HL_t *heap)) -size_t new_heap_size = heap->dblk_size; /* New size of heap */ - -/* check args */ -HDassert(f); -HDassert(heap); + size_t new_heap_size = heap->dblk_size; /* New size of heap */ -/* - * Check to see if we can reduce the size of the heap in memory by - * eliminating free blocks at the tail of the buffer before flushing the - * buffer out. - */ -if (heap->freelist) { - H5HL_free_t *tmp_fl; - H5HL_free_t *last_fl = NULL; - - /* Search for a free block at the end of the buffer */ - for (tmp_fl = heap->freelist; tmp_fl; tmp_fl = tmp_fl->next) - /* Check if the end of this free block is at the end of the buffer */ - if (tmp_fl->offset + tmp_fl->size == heap->dblk_size) { - last_fl = tmp_fl; - break; - } /* end if */ + /* check args */ + HDassert(f); + HDassert(heap); /* - * Found free block at the end of the buffer, decide what to do - * about it + * Check to see if we can reduce the size of the heap in memory by + * eliminating free blocks at the tail of the buffer before flushing the + * buffer out. */ - if (last_fl) { + if (heap->freelist) { + H5HL_free_t *tmp_fl; + H5HL_free_t *last_fl = NULL; + + /* Search for a free block at the end of the buffer */ + for (tmp_fl = heap->freelist; tmp_fl; tmp_fl = tmp_fl->next) + /* Check if the end of this free block is at the end of the buffer */ + if (tmp_fl->offset + tmp_fl->size == heap->dblk_size) { + last_fl = tmp_fl; + break; + } /* end if */ + /* - * If the last free block's size is more than half the memory - * buffer size (and the memory buffer is larger than the - * minimum size), reduce or eliminate it. + * Found free block at the end of the buffer, decide what to do + * about it */ - if (last_fl->size >= (heap->dblk_size / 2) && heap->dblk_size > H5HL_MIN_HEAP) { - /* - * Reduce size of buffer until it's too small or would - * eliminate the free block - */ - while (new_heap_size > H5HL_MIN_HEAP && new_heap_size >= (last_fl->offset + H5HL_SIZEOF_FREE(f))) - new_heap_size /= 2; - + if (last_fl) { /* - * Check if reducing the memory buffer size would - * eliminate the free block + * If the last free block's size is more than half the memory + * buffer size (and the memory buffer is larger than the + * minimum size), reduce or eliminate it. */ - if (new_heap_size < (last_fl->offset + H5HL_SIZEOF_FREE(f))) { - /* Check if this is the only block on the free list */ - if (last_fl->prev == NULL && last_fl->next == NULL) { - /* Double the new memory size */ - new_heap_size *= 2; - + if (last_fl->size >= (heap->dblk_size / 2) && heap->dblk_size > H5HL_MIN_HEAP) { + /* + * Reduce size of buffer until it's too small or would + * eliminate the free block + */ + while (new_heap_size > H5HL_MIN_HEAP && + new_heap_size >= (last_fl->offset + H5HL_SIZEOF_FREE(f))) + new_heap_size /= 2; + + /* + * Check if reducing the memory buffer size would + * eliminate the free block + */ + if (new_heap_size < (last_fl->offset + H5HL_SIZEOF_FREE(f))) { + /* Check if this is the only block on the free list */ + if (last_fl->prev == NULL && last_fl->next == NULL) { + /* Double the new memory size */ + new_heap_size *= 2; + + /* Truncate the free block */ + last_fl->size = H5HL_ALIGN(new_heap_size - last_fl->offset); + new_heap_size = last_fl->offset + last_fl->size; + HDassert(last_fl->size >= H5HL_SIZEOF_FREE(f)); + } /* end if */ + else { + /* + * Set the size of the memory buffer to the start + * of the free list + */ + new_heap_size = last_fl->offset; + + /* Eliminate the free block from the list */ + last_fl = H5HL__remove_free(heap, last_fl); + } /* end else */ + } /* end if */ + else { /* Truncate the free block */ last_fl->size = H5HL_ALIGN(new_heap_size - last_fl->offset); new_heap_size = last_fl->offset + last_fl->size; HDassert(last_fl->size >= H5HL_SIZEOF_FREE(f)); - } /* end if */ - else { - /* - * Set the size of the memory buffer to the start - * of the free list - */ - new_heap_size = last_fl->offset; - - /* Eliminate the free block from the list */ - last_fl = H5HL__remove_free(heap, last_fl); + HDassert(last_fl->size == H5HL_ALIGN(last_fl->size)); } /* end else */ } /* end if */ - else { - /* Truncate the free block */ - last_fl->size = H5HL_ALIGN(new_heap_size - last_fl->offset); - new_heap_size = last_fl->offset + last_fl->size; - HDassert(last_fl->size >= H5HL_SIZEOF_FREE(f)); - HDassert(last_fl->size == H5HL_ALIGN(last_fl->size)); - } /* end else */ - } /* end if */ - } /* end if */ -} /* end if */ + } /* end if */ + } /* end if */ -/* - * If the heap grew smaller than disk storage then move the - * data segment of the heap to another contiguous block of disk - * storage. - */ -if (new_heap_size != heap->dblk_size) { - HDassert(new_heap_size < heap->dblk_size); + /* + * If the heap grew smaller than disk storage then move the + * data segment of the heap to another contiguous block of disk + * storage. + */ + if (new_heap_size != heap->dblk_size) { + HDassert(new_heap_size < heap->dblk_size); - /* Resize the memory buffer */ - if (NULL == (heap->dblk_image = H5FL_BLK_REALLOC(lheap_chunk, heap->dblk_image, new_heap_size))) - H5E_THROW(H5E_CANTALLOC, "memory allocation failed"); + /* Resize the memory buffer */ + if (NULL == (heap->dblk_image = H5FL_BLK_REALLOC(lheap_chunk, heap->dblk_image, new_heap_size))) + H5E_THROW(H5E_CANTALLOC, "memory allocation failed"); - /* Reallocate data block in file */ - if (FAIL == H5HL__dblk_realloc(f, heap, new_heap_size)) - H5E_THROW(H5E_CANTRESIZE, "reallocating data block failed"); -} /* end if */ + /* Reallocate data block in file */ + if (FAIL == H5HL__dblk_realloc(f, heap, new_heap_size)) + H5E_THROW(H5E_CANTRESIZE, "reallocating data block failed"); + } /* end if */ -CATCH -/* No special processing on errors */ + CATCH + /* No special processing on errors */ END_FUNC(STATIC) /* H5HL__minimize_heap_space() */ @@ -305,64 +306,65 @@ END_FUNC(STATIC) /* H5HL__minimize_heap_space() */ */ BEGIN_FUNC(PRIV, ERR, H5HL_t *, NULL, NULL, H5HL_protect(H5F_t *f, haddr_t addr, unsigned flags)) -H5HL_cache_prfx_ud_t prfx_udata; /* User data for protecting local heap prefix */ -H5HL_prfx_t * prfx = NULL; /* Local heap prefix */ -H5HL_dblk_t * dblk = NULL; /* Local heap data block */ -H5HL_t * heap = NULL; /* Heap data structure */ -unsigned prfx_cache_flags = H5AC__NO_FLAGS_SET; /* Cache flags for unprotecting prefix entry */ -unsigned dblk_cache_flags = H5AC__NO_FLAGS_SET; /* Cache flags for unprotecting data block entry */ - -/* check arguments */ -HDassert(f); -HDassert(H5F_addr_defined(addr)); - -/* only the H5AC__READ_ONLY_FLAG may appear in flags */ -HDassert((flags & (unsigned)(~H5AC__READ_ONLY_FLAG)) == 0); - -/* Construct the user data for protect callback */ -prfx_udata.sizeof_size = H5F_SIZEOF_SIZE(f); -prfx_udata.sizeof_addr = H5F_SIZEOF_ADDR(f); -prfx_udata.prfx_addr = addr; -prfx_udata.sizeof_prfx = H5HL_SIZEOF_HDR(f); - -/* Protect the local heap prefix */ -if (NULL == (prfx = (H5HL_prfx_t *)H5AC_protect(f, H5AC_LHEAP_PRFX, addr, &prfx_udata, flags))) - H5E_THROW(H5E_CANTPROTECT, "unable to load heap prefix"); - -/* Get the pointer to the heap */ -heap = prfx->heap; - -/* Check if the heap is already pinned in memory */ -/* (for re-entrant situation) */ -if (heap->prots == 0) { - /* Check if heap has separate data block */ - if (heap->single_cache_obj) - /* Set the flag for pinning the prefix when unprotecting it */ - prfx_cache_flags |= H5AC__PIN_ENTRY_FLAG; - else { - /* Protect the local heap data block */ - if (NULL == (dblk = (H5HL_dblk_t *)H5AC_protect(f, H5AC_LHEAP_DBLK, heap->dblk_addr, heap, flags))) - H5E_THROW(H5E_CANTPROTECT, "unable to load heap data block"); + H5HL_cache_prfx_ud_t prfx_udata; /* User data for protecting local heap prefix */ + H5HL_prfx_t * prfx = NULL; /* Local heap prefix */ + H5HL_dblk_t * dblk = NULL; /* Local heap data block */ + H5HL_t * heap = NULL; /* Heap data structure */ + unsigned prfx_cache_flags = H5AC__NO_FLAGS_SET; /* Cache flags for unprotecting prefix entry */ + unsigned dblk_cache_flags = H5AC__NO_FLAGS_SET; /* Cache flags for unprotecting data block entry */ + + /* check arguments */ + HDassert(f); + HDassert(H5F_addr_defined(addr)); + + /* only the H5AC__READ_ONLY_FLAG may appear in flags */ + HDassert((flags & (unsigned)(~H5AC__READ_ONLY_FLAG)) == 0); + + /* Construct the user data for protect callback */ + prfx_udata.sizeof_size = H5F_SIZEOF_SIZE(f); + prfx_udata.sizeof_addr = H5F_SIZEOF_ADDR(f); + prfx_udata.prfx_addr = addr; + prfx_udata.sizeof_prfx = H5HL_SIZEOF_HDR(f); + + /* Protect the local heap prefix */ + if (NULL == (prfx = (H5HL_prfx_t *)H5AC_protect(f, H5AC_LHEAP_PRFX, addr, &prfx_udata, flags))) + H5E_THROW(H5E_CANTPROTECT, "unable to load heap prefix"); + + /* Get the pointer to the heap */ + heap = prfx->heap; + + /* Check if the heap is already pinned in memory */ + /* (for re-entrant situation) */ + if (heap->prots == 0) { + /* Check if heap has separate data block */ + if (heap->single_cache_obj) + /* Set the flag for pinning the prefix when unprotecting it */ + prfx_cache_flags |= H5AC__PIN_ENTRY_FLAG; + else { + /* Protect the local heap data block */ + if (NULL == + (dblk = (H5HL_dblk_t *)H5AC_protect(f, H5AC_LHEAP_DBLK, heap->dblk_addr, heap, flags))) + H5E_THROW(H5E_CANTPROTECT, "unable to load heap data block"); - /* Set the flag for pinning the data block when unprotecting it */ - dblk_cache_flags |= H5AC__PIN_ENTRY_FLAG; - } /* end if */ -} /* end if */ + /* Set the flag for pinning the data block when unprotecting it */ + dblk_cache_flags |= H5AC__PIN_ENTRY_FLAG; + } /* end if */ + } /* end if */ -/* Increment # of times heap is protected */ -heap->prots++; + /* Increment # of times heap is protected */ + heap->prots++; -/* Set return value */ -ret_value = heap; + /* Set return value */ + ret_value = heap; -CATCH -/* Release the prefix from the cache, now pinned */ -if (prfx && heap && H5AC_unprotect(f, H5AC_LHEAP_PRFX, heap->prfx_addr, prfx, prfx_cache_flags) < 0) - H5E_THROW(H5E_CANTUNPROTECT, "unable to release local heap prefix"); + CATCH + /* Release the prefix from the cache, now pinned */ + if (prfx && heap && H5AC_unprotect(f, H5AC_LHEAP_PRFX, heap->prfx_addr, prfx, prfx_cache_flags) < 0) + H5E_THROW(H5E_CANTUNPROTECT, "unable to release local heap prefix"); -/* Release the data block from the cache, now pinned */ -if (dblk && heap && H5AC_unprotect(f, H5AC_LHEAP_DBLK, heap->dblk_addr, dblk, dblk_cache_flags) < 0) - H5E_THROW(H5E_CANTUNPROTECT, "unable to release local heap data block"); + /* Release the data block from the cache, now pinned */ + if (dblk && heap && H5AC_unprotect(f, H5AC_LHEAP_DBLK, heap->dblk_addr, dblk, dblk_cache_flags) < 0) + H5E_THROW(H5E_CANTUNPROTECT, "unable to release local heap data block"); END_FUNC(PRIV) /* end H5HL_protect() */ @@ -382,14 +384,14 @@ END_FUNC(PRIV) /* end H5HL_protect() */ */ BEGIN_FUNC(PRIV, ERR, void *, NULL, NULL, H5HL_offset_into(const H5HL_t *heap, size_t offset)) -/* Sanity check */ -HDassert(heap); -if (offset >= heap->dblk_size) - H5E_THROW(H5E_CANTGET, "unable to offset into local heap data block"); + /* Sanity check */ + HDassert(heap); + if (offset >= heap->dblk_size) + H5E_THROW(H5E_CANTGET, "unable to offset into local heap data block"); -ret_value = heap->dblk_image + offset; + ret_value = heap->dblk_image + offset; -CATCH + CATCH /* No special processing on errors */ END_FUNC(PRIV) /* end H5HL_offset_into() */ @@ -407,33 +409,33 @@ END_FUNC(PRIV) /* end H5HL_offset_into() */ */ BEGIN_FUNC(PRIV, ERR, herr_t, SUCCEED, FAIL, H5HL_unprotect(H5HL_t *heap)) -/* check arguments */ -HDassert(heap); + /* check arguments */ + HDassert(heap); -/* Decrement # of times heap is protected */ -heap->prots--; + /* Decrement # of times heap is protected */ + heap->prots--; -/* Check for last unprotection of heap */ -if (heap->prots == 0) { - /* Check for separate heap data block */ - if (heap->single_cache_obj) { - /* Mark local heap prefix as evictable again */ - if (FAIL == H5AC_unpin_entry(heap->prfx)) - H5E_THROW(H5E_CANTUNPIN, "unable to unpin local heap data block"); - } /* end if */ - else { - /* Sanity check */ - HDassert(heap->dblk); + /* Check for last unprotection of heap */ + if (heap->prots == 0) { + /* Check for separate heap data block */ + if (heap->single_cache_obj) { + /* Mark local heap prefix as evictable again */ + if (FAIL == H5AC_unpin_entry(heap->prfx)) + H5E_THROW(H5E_CANTUNPIN, "unable to unpin local heap data block"); + } /* end if */ + else { + /* Sanity check */ + HDassert(heap->dblk); - /* Mark local heap data block as evictable again */ - /* (data block still pins prefix) */ - if (FAIL == H5AC_unpin_entry(heap->dblk)) - H5E_THROW(H5E_CANTUNPIN, "unable to unpin local heap data block"); - } /* end else */ -} /* end if */ + /* Mark local heap data block as evictable again */ + /* (data block still pins prefix) */ + if (FAIL == H5AC_unpin_entry(heap->dblk)) + H5E_THROW(H5E_CANTUNPIN, "unable to unpin local heap data block"); + } /* end else */ + } /* end if */ -CATCH -/* No special processing on errors */ + CATCH + /* No special processing on errors */ END_FUNC(PRIV) /* end H5HL_unprotect() */ @@ -452,16 +454,16 @@ END_FUNC(PRIV) /* end H5HL_unprotect() */ */ BEGIN_FUNC(STATIC, NOERR, H5HL_free_t *, NULL, -, H5HL__remove_free(H5HL_t *heap, H5HL_free_t *fl)) -if (fl->prev) - fl->prev->next = fl->next; -if (fl->next) - fl->next->prev = fl->prev; + if (fl->prev) + fl->prev->next = fl->next; + if (fl->next) + fl->next->prev = fl->prev; -if (!fl->prev) - heap->freelist = fl->next; + if (!fl->prev) + heap->freelist = fl->next; -/* H5FL_FREE always returns NULL so we can't check for errors */ -ret_value = (H5HL_free_t *)H5FL_FREE(H5HL_free_t, fl); + /* H5FL_FREE always returns NULL so we can't check for errors */ + ret_value = (H5HL_free_t *)H5FL_FREE(H5HL_free_t, fl); END_FUNC(STATIC) /* end H5HL__remove_free() */ @@ -479,25 +481,25 @@ END_FUNC(STATIC) /* end H5HL__remove_free() */ */ BEGIN_FUNC(STATIC, ERR, herr_t, SUCCEED, FAIL, H5HL__dirty(H5HL_t *heap)) -/* check arguments */ -HDassert(heap); -HDassert(heap->prfx); + /* check arguments */ + HDassert(heap); + HDassert(heap->prfx); -/* Mark heap data block as dirty, if there is one */ -if (!heap->single_cache_obj) { - /* Sanity check */ - HDassert(heap->dblk); + /* Mark heap data block as dirty, if there is one */ + if (!heap->single_cache_obj) { + /* Sanity check */ + HDassert(heap->dblk); - if (FAIL == H5AC_mark_entry_dirty(heap->dblk)) - H5E_THROW(H5E_CANTMARKDIRTY, "unable to mark heap data block as dirty"); -} /* end if */ + if (FAIL == H5AC_mark_entry_dirty(heap->dblk)) + H5E_THROW(H5E_CANTMARKDIRTY, "unable to mark heap data block as dirty"); + } /* end if */ -/* Mark heap prefix as dirty */ -if (FAIL == H5AC_mark_entry_dirty(heap->prfx)) - H5E_THROW(H5E_CANTMARKDIRTY, "unable to mark heap prefix as dirty"); + /* Mark heap prefix as dirty */ + if (FAIL == H5AC_mark_entry_dirty(heap->prfx)) + H5E_THROW(H5E_CANTMARKDIRTY, "unable to mark heap prefix as dirty"); -CATCH -/* No special processing on errors */ + CATCH + /* No special processing on errors */ END_FUNC(STATIC) /* end H5HL__dirty() */ @@ -517,192 +519,192 @@ END_FUNC(STATIC) /* end H5HL__dirty() */ BEGIN_FUNC(PRIV, ERR, size_t, UFAIL, UFAIL, H5HL_insert(H5F_t *f, H5HL_t *heap, size_t buf_size, const void *buf)) -H5HL_free_t *fl = NULL, *last_fl = NULL; -size_t offset = 0; -size_t need_size; -hbool_t found; - -/* check arguments */ -HDassert(f); -HDassert(heap); -HDassert(buf_size > 0); -HDassert(buf); - -/* Mark heap as dirty in cache */ -/* (A bit early in the process, but it's difficult to determine in the - * code below where to mark the heap as dirty, especially in error cases, - * so we just accept that an extra flush of the heap info could occur - * if an error occurs -QAK) - */ -if (FAIL == H5HL__dirty(heap)) - H5E_THROW(H5E_CANTMARKDIRTY, "unable to mark heap as dirty"); - -/* - * In order to keep the free list descriptors aligned on word boundaries, - * whatever that might mean, we round the size up to the next multiple of - * a word. - */ -need_size = H5HL_ALIGN(buf_size); + H5HL_free_t *fl = NULL, *last_fl = NULL; + size_t offset = 0; + size_t need_size; + hbool_t found; + + /* check arguments */ + HDassert(f); + HDassert(heap); + HDassert(buf_size > 0); + HDassert(buf); + + /* Mark heap as dirty in cache */ + /* (A bit early in the process, but it's difficult to determine in the + * code below where to mark the heap as dirty, especially in error cases, + * so we just accept that an extra flush of the heap info could occur + * if an error occurs -QAK) + */ + if (FAIL == H5HL__dirty(heap)) + H5E_THROW(H5E_CANTMARKDIRTY, "unable to mark heap as dirty"); -/* - * Look for a free slot large enough for this object and which would - * leave zero or at least H5G_SIZEOF_FREE bytes left over. - */ -for (fl = heap->freelist, found = FALSE; fl; fl = fl->next) { - if (fl->size > need_size && fl->size - need_size >= H5HL_SIZEOF_FREE(f)) { - /* a big enough free block was found */ - offset = fl->offset; - fl->offset += need_size; - fl->size -= need_size; - HDassert(fl->offset == H5HL_ALIGN(fl->offset)); - HDassert(fl->size == H5HL_ALIGN(fl->size)); - found = TRUE; - break; - } - else if (fl->size == need_size) { - /* free block of exact size found */ - offset = fl->offset; - fl = H5HL__remove_free(heap, fl); - found = TRUE; - break; - } - else if (!last_fl || last_fl->offset < fl->offset) { - /* track free space that's closest to end of heap */ - last_fl = fl; - } -} /* end for */ - -/* - * If no free chunk was large enough, then allocate more space and - * add it to the free list. If the heap ends with a free chunk, we - * can extend that free chunk. Otherwise we'll have to make another - * free chunk. If the heap must expand, we double its size. - */ -if (found == FALSE) { - size_t need_more; /* How much more space we need */ - size_t new_dblk_size; /* Final size of space allocated for heap data block */ - size_t old_dblk_size; /* Previous size of space allocated for heap data block */ - htri_t was_extended; /* Whether the local heap's data segment on disk was extended */ - - /* At least double the heap's size, making certain there's enough room - * for the new object */ - need_more = MAX(need_size, heap->dblk_size); - - /* If there is no last free block or it's not at the end of the heap, - * and the amount of space to allocate is not big enough to include at - * least the new object and a free-list info, trim down the amount of - * space requested to just the amount of space needed. (Generally - * speaking, this only occurs when the heap is small -QAK) + /* + * In order to keep the free list descriptors aligned on word boundaries, + * whatever that might mean, we round the size up to the next multiple of + * a word. */ - if (!(last_fl && last_fl->offset + last_fl->size == heap->dblk_size) && - (need_more < (need_size + H5HL_SIZEOF_FREE(f)))) - need_more = need_size; - - new_dblk_size = heap->dblk_size + need_more; - HDassert(heap->dblk_size < new_dblk_size); - old_dblk_size = heap->dblk_size; - H5_CHECK_OVERFLOW(heap->dblk_size, size_t, hsize_t); - H5_CHECK_OVERFLOW(new_dblk_size, size_t, hsize_t); - - /* Extend current heap if possible */ - was_extended = - H5MF_try_extend(f, H5FD_MEM_LHEAP, heap->dblk_addr, (hsize_t)(heap->dblk_size), (hsize_t)need_more); - if (FAIL == was_extended) - H5E_THROW(H5E_CANTEXTEND, "error trying to extend heap"); - - /* Check if we extended the heap data block in file */ - if (was_extended == TRUE) { - /* Check for prefix & data block contiguous */ - if (heap->single_cache_obj) { - /* Resize prefix+data block */ - if (FAIL == H5AC_resize_entry(heap->prfx, (size_t)(heap->prfx_size + new_dblk_size))) - H5E_THROW(H5E_CANTRESIZE, "unable to resize heap prefix in cache"); - } /* end if */ - else { - /* Resize 'standalone' data block */ - if (FAIL == H5AC_resize_entry(heap->dblk, (size_t)new_dblk_size)) - H5E_THROW(H5E_CANTRESIZE, "unable to resize heap data block in cache"); - } /* end else */ + need_size = H5HL_ALIGN(buf_size); - /* Note new size */ - heap->dblk_size = new_dblk_size; - } /* end if */ - else { /* ...if we can't, allocate a new chunk & release the old */ - /* Reallocate data block in file */ - if (FAIL == H5HL__dblk_realloc(f, heap, new_dblk_size)) - H5E_THROW(H5E_CANTRESIZE, "reallocating data block failed"); - } /* end if */ + /* + * Look for a free slot large enough for this object and which would + * leave zero or at least H5G_SIZEOF_FREE bytes left over. + */ + for (fl = heap->freelist, found = FALSE; fl; fl = fl->next) { + if (fl->size > need_size && fl->size - need_size >= H5HL_SIZEOF_FREE(f)) { + /* a big enough free block was found */ + offset = fl->offset; + fl->offset += need_size; + fl->size -= need_size; + HDassert(fl->offset == H5HL_ALIGN(fl->offset)); + HDassert(fl->size == H5HL_ALIGN(fl->size)); + found = TRUE; + break; + } + else if (fl->size == need_size) { + /* free block of exact size found */ + offset = fl->offset; + fl = H5HL__remove_free(heap, fl); + found = TRUE; + break; + } + else if (!last_fl || last_fl->offset < fl->offset) { + /* track free space that's closest to end of heap */ + last_fl = fl; + } + } /* end for */ - /* If the last free list in the heap is at the end of the heap, extend it */ - if (last_fl && last_fl->offset + last_fl->size == old_dblk_size) { - /* - * Increase the size of the last free block. + /* + * If no free chunk was large enough, then allocate more space and + * add it to the free list. If the heap ends with a free chunk, we + * can extend that free chunk. Otherwise we'll have to make another + * free chunk. If the heap must expand, we double its size. + */ + if (found == FALSE) { + size_t need_more; /* How much more space we need */ + size_t new_dblk_size; /* Final size of space allocated for heap data block */ + size_t old_dblk_size; /* Previous size of space allocated for heap data block */ + htri_t was_extended; /* Whether the local heap's data segment on disk was extended */ + + /* At least double the heap's size, making certain there's enough room + * for the new object */ + need_more = MAX(need_size, heap->dblk_size); + + /* If there is no last free block or it's not at the end of the heap, + * and the amount of space to allocate is not big enough to include at + * least the new object and a free-list info, trim down the amount of + * space requested to just the amount of space needed. (Generally + * speaking, this only occurs when the heap is small -QAK) */ - offset = last_fl->offset; - last_fl->offset += need_size; - last_fl->size += need_more - need_size; - HDassert(last_fl->offset == H5HL_ALIGN(last_fl->offset)); - HDassert(last_fl->size == H5HL_ALIGN(last_fl->size)); + if (!(last_fl && last_fl->offset + last_fl->size == heap->dblk_size) && + (need_more < (need_size + H5HL_SIZEOF_FREE(f)))) + need_more = need_size; + + new_dblk_size = heap->dblk_size + need_more; + HDassert(heap->dblk_size < new_dblk_size); + old_dblk_size = heap->dblk_size; + H5_CHECK_OVERFLOW(heap->dblk_size, size_t, hsize_t); + H5_CHECK_OVERFLOW(new_dblk_size, size_t, hsize_t); + + /* Extend current heap if possible */ + was_extended = H5MF_try_extend(f, H5FD_MEM_LHEAP, heap->dblk_addr, (hsize_t)(heap->dblk_size), + (hsize_t)need_more); + if (FAIL == was_extended) + H5E_THROW(H5E_CANTEXTEND, "error trying to extend heap"); + + /* Check if we extended the heap data block in file */ + if (was_extended == TRUE) { + /* Check for prefix & data block contiguous */ + if (heap->single_cache_obj) { + /* Resize prefix+data block */ + if (FAIL == H5AC_resize_entry(heap->prfx, (size_t)(heap->prfx_size + new_dblk_size))) + H5E_THROW(H5E_CANTRESIZE, "unable to resize heap prefix in cache"); + } /* end if */ + else { + /* Resize 'standalone' data block */ + if (FAIL == H5AC_resize_entry(heap->dblk, (size_t)new_dblk_size)) + H5E_THROW(H5E_CANTRESIZE, "unable to resize heap data block in cache"); + } /* end else */ + + /* Note new size */ + heap->dblk_size = new_dblk_size; + } /* end if */ + else { /* ...if we can't, allocate a new chunk & release the old */ + /* Reallocate data block in file */ + if (FAIL == H5HL__dblk_realloc(f, heap, new_dblk_size)) + H5E_THROW(H5E_CANTRESIZE, "reallocating data block failed"); + } /* end if */ - if (last_fl->size < H5HL_SIZEOF_FREE(f)) { + /* If the last free list in the heap is at the end of the heap, extend it */ + if (last_fl && last_fl->offset + last_fl->size == old_dblk_size) { + /* + * Increase the size of the last free block. + */ + offset = last_fl->offset; + last_fl->offset += need_size; + last_fl->size += need_more - need_size; + HDassert(last_fl->offset == H5HL_ALIGN(last_fl->offset)); + HDassert(last_fl->size == H5HL_ALIGN(last_fl->size)); + + if (last_fl->size < H5HL_SIZEOF_FREE(f)) { #ifdef H5HL_DEBUG - if (H5DEBUG(HL) && last_fl->size) { - HDfprintf(H5DEBUG(HL), "H5HL: lost %lu bytes at line %d\n", (unsigned long)(last_fl->size), - __LINE__); - } + if (H5DEBUG(HL) && last_fl->size) { + HDfprintf(H5DEBUG(HL), "H5HL: lost %lu bytes at line %d\n", + (unsigned long)(last_fl->size), __LINE__); + } #endif - last_fl = H5HL__remove_free(heap, last_fl); - } - } /* end if */ - else { - /* - * Create a new free list element large enough that we can - * take some space out of it right away. - */ - offset = old_dblk_size; - if (need_more - need_size >= H5HL_SIZEOF_FREE(f)) { - if (NULL == (fl = H5FL_MALLOC(H5HL_free_t))) - H5E_THROW(H5E_CANTALLOC, "memory allocation failed"); - fl->offset = old_dblk_size + need_size; - fl->size = need_more - need_size; - HDassert(fl->offset == H5HL_ALIGN(fl->offset)); - HDassert(fl->size == H5HL_ALIGN(fl->size)); - fl->prev = NULL; - fl->next = heap->freelist; - if (heap->freelist) - heap->freelist->prev = fl; - heap->freelist = fl; + last_fl = H5HL__remove_free(heap, last_fl); + } + } /* end if */ + else { + /* + * Create a new free list element large enough that we can + * take some space out of it right away. + */ + offset = old_dblk_size; + if (need_more - need_size >= H5HL_SIZEOF_FREE(f)) { + if (NULL == (fl = H5FL_MALLOC(H5HL_free_t))) + H5E_THROW(H5E_CANTALLOC, "memory allocation failed"); + fl->offset = old_dblk_size + need_size; + fl->size = need_more - need_size; + HDassert(fl->offset == H5HL_ALIGN(fl->offset)); + HDassert(fl->size == H5HL_ALIGN(fl->size)); + fl->prev = NULL; + fl->next = heap->freelist; + if (heap->freelist) + heap->freelist->prev = fl; + heap->freelist = fl; #ifdef H5HL_DEBUG - } - else if (H5DEBUG(HL) && need_more > need_size) { - HDfprintf(H5DEBUG(HL), "H5HL_insert: lost %lu bytes at line %d\n", - (unsigned long)(need_more - need_size), __LINE__); + } + else if (H5DEBUG(HL) && need_more > need_size) { + HDfprintf(H5DEBUG(HL), "H5HL_insert: lost %lu bytes at line %d\n", + (unsigned long)(need_more - need_size), __LINE__); #endif - } - } /* end else */ + } + } /* end else */ #ifdef H5HL_DEBUG - if (H5DEBUG(HL)) { - HDfprintf(H5DEBUG(HL), "H5HL: resize mem buf from %lu to %lu bytes\n", (unsigned long)(old_dblk_size), - (unsigned long)(old_dblk_size + need_more)); - } + if (H5DEBUG(HL)) { + HDfprintf(H5DEBUG(HL), "H5HL: resize mem buf from %lu to %lu bytes\n", + (unsigned long)(old_dblk_size), (unsigned long)(old_dblk_size + need_more)); + } #endif - if (NULL == (heap->dblk_image = H5FL_BLK_REALLOC(lheap_chunk, heap->dblk_image, heap->dblk_size))) - H5E_THROW(H5E_CANTALLOC, "memory allocation failed"); + if (NULL == (heap->dblk_image = H5FL_BLK_REALLOC(lheap_chunk, heap->dblk_image, heap->dblk_size))) + H5E_THROW(H5E_CANTALLOC, "memory allocation failed"); - /* Clear new section so junk doesn't appear in the file */ - /* (Avoid clearing section which will be overwritten with newly inserted data) */ - HDmemset(heap->dblk_image + offset + buf_size, 0, (new_dblk_size - (offset + buf_size))); -} /* end if */ + /* Clear new section so junk doesn't appear in the file */ + /* (Avoid clearing section which will be overwritten with newly inserted data) */ + HDmemset(heap->dblk_image + offset + buf_size, 0, (new_dblk_size - (offset + buf_size))); + } /* end if */ -/* Copy the data into the heap */ -H5MM_memcpy(heap->dblk_image + offset, buf, buf_size); + /* Copy the data into the heap */ + H5MM_memcpy(heap->dblk_image + offset, buf, buf_size); -/* Set return value */ -ret_value = offset; + /* Set return value */ + ret_value = offset; -CATCH -/* No special processing on errors */ + CATCH + /* No special processing on errors */ END_FUNC(PRIV) /* H5HL_insert() */ @@ -731,125 +733,125 @@ END_FUNC(PRIV) /* H5HL_insert() */ */ BEGIN_FUNC(PRIV, ERR, herr_t, SUCCEED, FAIL, H5HL_remove(H5F_t *f, H5HL_t *heap, size_t offset, size_t size)) -H5HL_free_t *fl = NULL; + H5HL_free_t *fl = NULL; -/* check arguments */ -HDassert(f); -HDassert(heap); -HDassert(size > 0); -HDassert(offset == H5HL_ALIGN(offset)); + /* check arguments */ + HDassert(f); + HDassert(heap); + HDassert(size > 0); + HDassert(offset == H5HL_ALIGN(offset)); -size = H5HL_ALIGN(size); + size = H5HL_ALIGN(size); -HDassert(offset < heap->dblk_size); -HDassert(offset + size <= heap->dblk_size); + HDassert(offset < heap->dblk_size); + HDassert(offset + size <= heap->dblk_size); -/* Mark heap as dirty in cache */ -/* (A bit early in the process, but it's difficult to determine in the - * code below where to mark the heap as dirty, especially in error cases, - * so we just accept that an extra flush of the heap info could occur - * if an error occurs -QAK) - */ -if (FAIL == H5HL__dirty(heap)) - H5E_THROW(H5E_CANTMARKDIRTY, "unable to mark heap as dirty"); + /* Mark heap as dirty in cache */ + /* (A bit early in the process, but it's difficult to determine in the + * code below where to mark the heap as dirty, especially in error cases, + * so we just accept that an extra flush of the heap info could occur + * if an error occurs -QAK) + */ + if (FAIL == H5HL__dirty(heap)) + H5E_THROW(H5E_CANTMARKDIRTY, "unable to mark heap as dirty"); -/* - * Check if this chunk can be prepended or appended to an already - * free chunk. It might also fall between two chunks in such a way - * that all three chunks can be combined into one. - */ -fl = heap->freelist; -while (fl) { - H5HL_free_t *fl2 = NULL; - - if ((offset + size) == fl->offset) { - fl->offset = offset; - fl->size += size; - HDassert(fl->offset == H5HL_ALIGN(fl->offset)); - HDassert(fl->size == H5HL_ALIGN(fl->size)); - fl2 = fl->next; - while (fl2) { - if ((fl2->offset + fl2->size) == fl->offset) { - fl->offset = fl2->offset; - fl->size += fl2->size; - HDassert(fl->offset == H5HL_ALIGN(fl->offset)); - HDassert(fl->size == H5HL_ALIGN(fl->size)); - fl2 = H5HL__remove_free(heap, fl2); - if (((fl->offset + fl->size) == heap->dblk_size) && ((2 * fl->size) > heap->dblk_size)) { - if (FAIL == H5HL__minimize_heap_space(f, heap)) - H5E_THROW(H5E_CANTFREE, "heap size minimization failed"); + /* + * Check if this chunk can be prepended or appended to an already + * free chunk. It might also fall between two chunks in such a way + * that all three chunks can be combined into one. + */ + fl = heap->freelist; + while (fl) { + H5HL_free_t *fl2 = NULL; + + if ((offset + size) == fl->offset) { + fl->offset = offset; + fl->size += size; + HDassert(fl->offset == H5HL_ALIGN(fl->offset)); + HDassert(fl->size == H5HL_ALIGN(fl->size)); + fl2 = fl->next; + while (fl2) { + if ((fl2->offset + fl2->size) == fl->offset) { + fl->offset = fl2->offset; + fl->size += fl2->size; + HDassert(fl->offset == H5HL_ALIGN(fl->offset)); + HDassert(fl->size == H5HL_ALIGN(fl->size)); + fl2 = H5HL__remove_free(heap, fl2); + if (((fl->offset + fl->size) == heap->dblk_size) && ((2 * fl->size) > heap->dblk_size)) { + if (FAIL == H5HL__minimize_heap_space(f, heap)) + H5E_THROW(H5E_CANTFREE, "heap size minimization failed"); + } + H5_LEAVE(SUCCEED); } - H5_LEAVE(SUCCEED); + fl2 = fl2->next; } - fl2 = fl2->next; - } - if (((fl->offset + fl->size) == heap->dblk_size) && ((2 * fl->size) > heap->dblk_size)) { - if (FAIL == H5HL__minimize_heap_space(f, heap)) - H5E_THROW(H5E_CANTFREE, "heap size minimization failed"); + if (((fl->offset + fl->size) == heap->dblk_size) && ((2 * fl->size) > heap->dblk_size)) { + if (FAIL == H5HL__minimize_heap_space(f, heap)) + H5E_THROW(H5E_CANTFREE, "heap size minimization failed"); + } + H5_LEAVE(SUCCEED); } - H5_LEAVE(SUCCEED); - } - else if (fl->offset + fl->size == offset) { - fl->size += size; - fl2 = fl->next; - HDassert(fl->size == H5HL_ALIGN(fl->size)); - while (fl2) { - if (fl->offset + fl->size == fl2->offset) { - fl->size += fl2->size; - HDassert(fl->size == H5HL_ALIGN(fl->size)); - fl2 = H5HL__remove_free(heap, fl2); - if (((fl->offset + fl->size) == heap->dblk_size) && ((2 * fl->size) > heap->dblk_size)) { - if (FAIL == H5HL__minimize_heap_space(f, heap)) - H5E_THROW(H5E_CANTFREE, "heap size minimization failed"); + else if (fl->offset + fl->size == offset) { + fl->size += size; + fl2 = fl->next; + HDassert(fl->size == H5HL_ALIGN(fl->size)); + while (fl2) { + if (fl->offset + fl->size == fl2->offset) { + fl->size += fl2->size; + HDassert(fl->size == H5HL_ALIGN(fl->size)); + fl2 = H5HL__remove_free(heap, fl2); + if (((fl->offset + fl->size) == heap->dblk_size) && ((2 * fl->size) > heap->dblk_size)) { + if (FAIL == H5HL__minimize_heap_space(f, heap)) + H5E_THROW(H5E_CANTFREE, "heap size minimization failed"); + } /* end if */ + H5_LEAVE(SUCCEED); } /* end if */ - H5_LEAVE(SUCCEED); + fl2 = fl2->next; + } /* end while */ + if (((fl->offset + fl->size) == heap->dblk_size) && ((2 * fl->size) > heap->dblk_size)) { + if (FAIL == H5HL__minimize_heap_space(f, heap)) + H5E_THROW(H5E_CANTFREE, "heap size minimization failed"); } /* end if */ - fl2 = fl2->next; - } /* end while */ - if (((fl->offset + fl->size) == heap->dblk_size) && ((2 * fl->size) > heap->dblk_size)) { - if (FAIL == H5HL__minimize_heap_space(f, heap)) - H5E_THROW(H5E_CANTFREE, "heap size minimization failed"); + H5_LEAVE(SUCCEED); } /* end if */ - H5_LEAVE(SUCCEED); - } /* end if */ - fl = fl->next; -} /* end while */ + fl = fl->next; + } /* end while */ -/* - * The amount which is being removed must be large enough to - * hold the free list data. If not, the freed chunk is forever - * lost. - */ -if (size < H5HL_SIZEOF_FREE(f)) { + /* + * The amount which is being removed must be large enough to + * hold the free list data. If not, the freed chunk is forever + * lost. + */ + if (size < H5HL_SIZEOF_FREE(f)) { #ifdef H5HL_DEBUG - if (H5DEBUG(HL)) { - HDfprintf(H5DEBUG(HL), "H5HL: lost %lu bytes\n", (unsigned long)size); - } + if (H5DEBUG(HL)) { + HDfprintf(H5DEBUG(HL), "H5HL: lost %lu bytes\n", (unsigned long)size); + } #endif - H5_LEAVE(SUCCEED); -} /* end if */ + H5_LEAVE(SUCCEED); + } /* end if */ -/* - * Add an entry to the free list. - */ -if (NULL == (fl = H5FL_MALLOC(H5HL_free_t))) - H5E_THROW(H5E_CANTALLOC, "memory allocation failed"); -fl->offset = offset; -fl->size = size; -HDassert(fl->offset == H5HL_ALIGN(fl->offset)); -HDassert(fl->size == H5HL_ALIGN(fl->size)); -fl->prev = NULL; -fl->next = heap->freelist; -if (heap->freelist) - heap->freelist->prev = fl; -heap->freelist = fl; - -if (((fl->offset + fl->size) == heap->dblk_size) && ((2 * fl->size) > heap->dblk_size)) - if (FAIL == H5HL__minimize_heap_space(f, heap)) - H5E_THROW(H5E_CANTFREE, "heap size minimization failed"); - -CATCH -/* No special processing on exit */ + /* + * Add an entry to the free list. + */ + if (NULL == (fl = H5FL_MALLOC(H5HL_free_t))) + H5E_THROW(H5E_CANTALLOC, "memory allocation failed"); + fl->offset = offset; + fl->size = size; + HDassert(fl->offset == H5HL_ALIGN(fl->offset)); + HDassert(fl->size == H5HL_ALIGN(fl->size)); + fl->prev = NULL; + fl->next = heap->freelist; + if (heap->freelist) + heap->freelist->prev = fl; + heap->freelist = fl; + + if (((fl->offset + fl->size) == heap->dblk_size) && ((2 * fl->size) > heap->dblk_size)) + if (FAIL == H5HL__minimize_heap_space(f, heap)) + H5E_THROW(H5E_CANTFREE, "heap size minimization failed"); + + CATCH + /* No special processing on exit */ END_FUNC(PRIV) /* end H5HL_remove() */ @@ -867,47 +869,48 @@ END_FUNC(PRIV) /* end H5HL_remove() */ */ BEGIN_FUNC(PRIV, ERR, herr_t, SUCCEED, FAIL, H5HL_delete(H5F_t *f, haddr_t addr)) -H5HL_t * heap = NULL; /* Local heap to delete */ -H5HL_cache_prfx_ud_t prfx_udata; /* User data for protecting local heap prefix */ -H5HL_prfx_t * prfx = NULL; /* Local heap prefix */ -H5HL_dblk_t * dblk = NULL; /* Local heap data block */ -unsigned cache_flags = H5AC__NO_FLAGS_SET; /* Flags for unprotecting heap */ + H5HL_t * heap = NULL; /* Local heap to delete */ + H5HL_cache_prfx_ud_t prfx_udata; /* User data for protecting local heap prefix */ + H5HL_prfx_t * prfx = NULL; /* Local heap prefix */ + H5HL_dblk_t * dblk = NULL; /* Local heap data block */ + unsigned cache_flags = H5AC__NO_FLAGS_SET; /* Flags for unprotecting heap */ -/* check arguments */ -HDassert(f); -HDassert(H5F_addr_defined(addr)); + /* check arguments */ + HDassert(f); + HDassert(H5F_addr_defined(addr)); -/* Construct the user data for protect callback */ -prfx_udata.sizeof_size = H5F_SIZEOF_SIZE(f); -prfx_udata.sizeof_addr = H5F_SIZEOF_ADDR(f); -prfx_udata.prfx_addr = addr; -prfx_udata.sizeof_prfx = H5HL_SIZEOF_HDR(f); + /* Construct the user data for protect callback */ + prfx_udata.sizeof_size = H5F_SIZEOF_SIZE(f); + prfx_udata.sizeof_addr = H5F_SIZEOF_ADDR(f); + prfx_udata.prfx_addr = addr; + prfx_udata.sizeof_prfx = H5HL_SIZEOF_HDR(f); -/* Protect the local heap prefix */ -if (NULL == (prfx = (H5HL_prfx_t *)H5AC_protect(f, H5AC_LHEAP_PRFX, addr, &prfx_udata, H5AC__NO_FLAGS_SET))) - H5E_THROW(H5E_CANTPROTECT, "unable to load heap prefix"); + /* Protect the local heap prefix */ + if (NULL == + (prfx = (H5HL_prfx_t *)H5AC_protect(f, H5AC_LHEAP_PRFX, addr, &prfx_udata, H5AC__NO_FLAGS_SET))) + H5E_THROW(H5E_CANTPROTECT, "unable to load heap prefix"); -/* Get the pointer to the heap */ -heap = prfx->heap; + /* Get the pointer to the heap */ + heap = prfx->heap; -/* Check if heap has separate data block */ -if (!heap->single_cache_obj) - /* Protect the local heap data block */ - if (NULL == - (dblk = (H5HL_dblk_t *)H5AC_protect(f, H5AC_LHEAP_DBLK, heap->dblk_addr, heap, H5AC__NO_FLAGS_SET))) - H5E_THROW(H5E_CANTPROTECT, "unable to load heap data block"); + /* Check if heap has separate data block */ + if (!heap->single_cache_obj) + /* Protect the local heap data block */ + if (NULL == (dblk = (H5HL_dblk_t *)H5AC_protect(f, H5AC_LHEAP_DBLK, heap->dblk_addr, heap, + H5AC__NO_FLAGS_SET))) + H5E_THROW(H5E_CANTPROTECT, "unable to load heap data block"); -/* Set the flags for releasing the prefix and data block */ -cache_flags |= H5AC__DIRTIED_FLAG | H5AC__DELETED_FLAG | H5AC__FREE_FILE_SPACE_FLAG; + /* Set the flags for releasing the prefix and data block */ + cache_flags |= H5AC__DIRTIED_FLAG | H5AC__DELETED_FLAG | H5AC__FREE_FILE_SPACE_FLAG; -CATCH -/* Release the data block from the cache, now deleted */ -if (dblk && heap && H5AC_unprotect(f, H5AC_LHEAP_DBLK, heap->dblk_addr, dblk, cache_flags) < 0) - H5E_THROW(H5E_CANTUNPROTECT, "unable to release local heap data block"); + CATCH + /* Release the data block from the cache, now deleted */ + if (dblk && heap && H5AC_unprotect(f, H5AC_LHEAP_DBLK, heap->dblk_addr, dblk, cache_flags) < 0) + H5E_THROW(H5E_CANTUNPROTECT, "unable to release local heap data block"); -/* Release the prefix from the cache, now deleted */ -if (prfx && heap && H5AC_unprotect(f, H5AC_LHEAP_PRFX, heap->prfx_addr, prfx, cache_flags) < 0) - H5E_THROW(H5E_CANTUNPROTECT, "unable to release local heap prefix"); + /* Release the prefix from the cache, now deleted */ + if (prfx && heap && H5AC_unprotect(f, H5AC_LHEAP_PRFX, heap->prfx_addr, prfx, cache_flags) < 0) + H5E_THROW(H5E_CANTUNPROTECT, "unable to release local heap prefix"); END_FUNC(PRIV) /* end H5HL_delete() */ @@ -925,34 +928,35 @@ END_FUNC(PRIV) /* end H5HL_delete() */ */ BEGIN_FUNC(PRIV, ERR, herr_t, SUCCEED, FAIL, H5HL_get_size(H5F_t *f, haddr_t addr, size_t *size)) -H5HL_cache_prfx_ud_t prfx_udata; /* User data for protecting local heap prefix */ -H5HL_prfx_t * prfx = NULL; /* Local heap prefix */ -H5HL_t * heap; /* Heap data structure */ + H5HL_cache_prfx_ud_t prfx_udata; /* User data for protecting local heap prefix */ + H5HL_prfx_t * prfx = NULL; /* Local heap prefix */ + H5HL_t * heap; /* Heap data structure */ -/* check arguments */ -HDassert(f); -HDassert(H5F_addr_defined(addr)); -HDassert(size); + /* check arguments */ + HDassert(f); + HDassert(H5F_addr_defined(addr)); + HDassert(size); -/* Construct the user data for protect callback */ -prfx_udata.sizeof_size = H5F_SIZEOF_SIZE(f); -prfx_udata.sizeof_addr = H5F_SIZEOF_ADDR(f); -prfx_udata.prfx_addr = addr; -prfx_udata.sizeof_prfx = H5HL_SIZEOF_HDR(f); + /* Construct the user data for protect callback */ + prfx_udata.sizeof_size = H5F_SIZEOF_SIZE(f); + prfx_udata.sizeof_addr = H5F_SIZEOF_ADDR(f); + prfx_udata.prfx_addr = addr; + prfx_udata.sizeof_prfx = H5HL_SIZEOF_HDR(f); -/* Protect the local heap prefix */ -if (NULL == (prfx = (H5HL_prfx_t *)H5AC_protect(f, H5AC_LHEAP_PRFX, addr, &prfx_udata, H5AC__READ_ONLY_FLAG))) - H5E_THROW(H5E_CANTPROTECT, "unable to load heap prefix"); + /* Protect the local heap prefix */ + if (NULL == + (prfx = (H5HL_prfx_t *)H5AC_protect(f, H5AC_LHEAP_PRFX, addr, &prfx_udata, H5AC__READ_ONLY_FLAG))) + H5E_THROW(H5E_CANTPROTECT, "unable to load heap prefix"); -/* Get the pointer to the heap */ -heap = prfx->heap; + /* Get the pointer to the heap */ + heap = prfx->heap; -/* Set the size to return */ -*size = heap->dblk_size; + /* Set the size to return */ + *size = heap->dblk_size; -CATCH -if (prfx && FAIL == H5AC_unprotect(f, H5AC_LHEAP_PRFX, heap->prfx_addr, prfx, H5AC__NO_FLAGS_SET)) - H5E_THROW(H5E_CANTUNPROTECT, "unable to release local heap prefix"); + CATCH + if (prfx && FAIL == H5AC_unprotect(f, H5AC_LHEAP_PRFX, heap->prfx_addr, prfx, H5AC__NO_FLAGS_SET)) + H5E_THROW(H5E_CANTUNPROTECT, "unable to release local heap prefix"); END_FUNC(PRIV) /* end H5HL_get_size() */ @@ -971,33 +975,34 @@ END_FUNC(PRIV) /* end H5HL_get_size() */ */ BEGIN_FUNC(PRIV, ERR, herr_t, SUCCEED, FAIL, H5HL_heapsize(H5F_t *f, haddr_t addr, hsize_t *heap_size)) -H5HL_cache_prfx_ud_t prfx_udata; /* User data for protecting local heap prefix */ -H5HL_prfx_t * prfx = NULL; /* Local heap prefix */ -H5HL_t * heap; /* Heap data structure */ + H5HL_cache_prfx_ud_t prfx_udata; /* User data for protecting local heap prefix */ + H5HL_prfx_t * prfx = NULL; /* Local heap prefix */ + H5HL_t * heap; /* Heap data structure */ -/* check arguments */ -HDassert(f); -HDassert(H5F_addr_defined(addr)); -HDassert(heap_size); + /* check arguments */ + HDassert(f); + HDassert(H5F_addr_defined(addr)); + HDassert(heap_size); -/* Construct the user data for protect callback */ -prfx_udata.sizeof_size = H5F_SIZEOF_SIZE(f); -prfx_udata.sizeof_addr = H5F_SIZEOF_ADDR(f); -prfx_udata.prfx_addr = addr; -prfx_udata.sizeof_prfx = H5HL_SIZEOF_HDR(f); + /* Construct the user data for protect callback */ + prfx_udata.sizeof_size = H5F_SIZEOF_SIZE(f); + prfx_udata.sizeof_addr = H5F_SIZEOF_ADDR(f); + prfx_udata.prfx_addr = addr; + prfx_udata.sizeof_prfx = H5HL_SIZEOF_HDR(f); -/* Protect the local heap prefix */ -if (NULL == (prfx = (H5HL_prfx_t *)H5AC_protect(f, H5AC_LHEAP_PRFX, addr, &prfx_udata, H5AC__READ_ONLY_FLAG))) - H5E_THROW(H5E_CANTPROTECT, "unable to load heap prefix"); + /* Protect the local heap prefix */ + if (NULL == + (prfx = (H5HL_prfx_t *)H5AC_protect(f, H5AC_LHEAP_PRFX, addr, &prfx_udata, H5AC__READ_ONLY_FLAG))) + H5E_THROW(H5E_CANTPROTECT, "unable to load heap prefix"); -/* Get the pointer to the heap */ -heap = prfx->heap; + /* Get the pointer to the heap */ + heap = prfx->heap; -/* Accumulate the size of the local heap */ -*heap_size += (hsize_t)(heap->prfx_size + heap->dblk_size); + /* Accumulate the size of the local heap */ + *heap_size += (hsize_t)(heap->prfx_size + heap->dblk_size); -CATCH -if (prfx && FAIL == H5AC_unprotect(f, H5AC_LHEAP_PRFX, heap->prfx_addr, prfx, H5AC__NO_FLAGS_SET)) - H5E_THROW(H5E_CANTUNPROTECT, "unable to release local heap prefix"); + CATCH + if (prfx && FAIL == H5AC_unprotect(f, H5AC_LHEAP_PRFX, heap->prfx_addr, prfx, H5AC__NO_FLAGS_SET)) + H5E_THROW(H5E_CANTUNPROTECT, "unable to release local heap prefix"); END_FUNC(PRIV) /* end H5HL_heapsize() */ |