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- /*
- * context.h
- */
- /**********************************************************
- * CONTEXT CLASS DEFINITIONS
- ********************************************************** */
- #define MAX_BACKTRACE (32)
- typedef struct _lub_heap_stackframe lub_heap_context_key_t;
- typedef void (function_t) (void);
- struct _lub_heap_stackframe {
- function_t *backtrace[MAX_BACKTRACE];
- };
- typedef struct _lub_heap_leak_stats lub_heap_leak_stats_t;
- struct _lub_heap_leak_stats {
- size_t contexts;
- size_t allocs;
- size_t alloc_bytes;
- size_t alloc_overhead;
- size_t leaks;
- size_t leaked_bytes;
- size_t leaked_overhead;
- size_t partials;
- size_t partial_bytes;
- size_t partial_overhead;
- size_t scanned;
- };
- struct _lub_heap_context {
- /**
- * The heap to which this context belongs
- */
- lub_heap_t *heap;
- /**
- * This is needed to maintain a tree of contexts
- */
- lub_bintree_node_t bt_node;
- /**
- * The first node in this context
- */
- lub_heap_node_t *first_node;
- /**
- * current number of allocations made from this context
- */
- size_t allocs;
- /**
- * current number of bytes allocated from this context
- */
- size_t alloc_bytes;
- /**
- * current overhead in bytes allocated from this context
- */
- size_t alloc_overhead;
- /**
- * count of leaked allocations made from this context
- */
- size_t leaks;
- /**
- * number of leaked bytes from this context
- */
- size_t leaked_bytes;
- /**
- * current overhead in bytes leaked from this context
- */
- size_t leaked_overhead;
- /**
- * count of partially leaked allocations made from this context
- */
- size_t partials;
- /**
- * number of partially leaked bytes from this context
- */
- size_t partial_bytes;
- /**
- * current overhead in bytes partially leaked from this context
- */
- size_t partial_overhead;
- /**
- * a record of the memory partition associated with this context
- */
- lub_heap_context_key_t key;
- };
- extern unsigned long lub_heap_frame_count;
- typedef struct _lub_heap_leak lub_heap_leak_t;
- struct _lub_heap_leak {
- lub_bintree_t m_context_tree;
- lub_bintree_t m_node_tree;
- lub_bintree_t m_clear_node_tree;
- lub_bintree_t m_segment_tree;
- lub_heap_leak_stats_t m_stats;
- lub_dblockpool_t m_context_pool;
- lub_heap_t *m_heap_list;
- };
- extern lub_heap_leak_t *lub_heap_leak_instance(void);
- extern void lub_heap_leak_release(lub_heap_leak_t * instance);
- extern bool_t lub_heap_leak_query_node_tree(void);
- extern bool_t lub_heap_leak_query_clear_node_tree(void);
- /*---------------------------------------------------------
- * PUBLIC META ATTRIBUTES
- *--------------------------------------------------------- */
- /**
- * Obtains the number of bytes required to allocate a context instance.
- *
- * By default this is set to four.
- */
- size_t lub_heap_context__get_instanceSize(void);
- extern lub_bintree_compare_fn lub_heap_context_compare;
- extern lub_bintree_getkey_fn lub_heap_context_getkey;
- /*---------------------------------------------------------
- * PUBLIC METHODS
- *--------------------------------------------------------- */
- /**
- * This function finds or creates a context based on the
- * provided leak detector and stack specification.
- *
- * A context is defined by a pre-configured number of stack frames
- * (see lub_heap_context__set_frameCount())
- * All memory allocations which occur with
- * the same stack frames will be collected together in the same context.
- *
- * \return Pointer to a context object or NULL if one cannot be found or allocated.
- */
- const lub_heap_context_t *lub_heap_context_find_or_create(
- /**
- * The heap in question
- */
- lub_heap_t *
- instance,
- /**
- * The memory allocation function must allocate a
- * local variable, on it's stack, which is passed in
- * to this call as a means of getting access to the current
- * thread's call stack.
- */
- const
- stackframe_t *
- stack);
- /**
- * This function finds a context based on the
- * provided leak detector and stack specification.
- *
- * A context is defined by a pre-configured number of stack frames
- * (see lub_heap_context__set_frameCount())
- * All memory allocations which occur with
- * the same stack frames will be collected together in the same context.
- *
- * \return Pointer to a context object or NULL if one cannot be found.
- */
- lub_heap_context_t *lub_heap_context_find(
- /**
- * The memory allocation function must allocate a
- * local variable, on it's stack, which is passed in
- * to this call as a means of getting access to the current
- * thread's call stack.
- */
- const stackframe_t * stack);
- /*---------------------------------------------------------
- * PUBLIC METHODS
- *--------------------------------------------------------- */
- /**
- * This function initialises an instance of a context.
- */
- void lub_heap_context_init(
- /**
- * Context instance on which to operate
- */
- lub_heap_context_t * instance,
- /**
- * heap with with to associate this context
- */
- lub_heap_t * heap,
- /**
- * The memory allocation function must allocate a
- * local variable, on it's stack, which is passed in
- * to this call as a means of getting access to the current
- * thread's call stack.
- */
- const stackframe_t * stack);
- /**
- * This function finalises an instance of a context.
- *
- * \return the memory partition from which this context was allocated.
- */
- void lub_heap_context_fini(
- /**
- * Context instance on which to operate
- */
- lub_heap_context_t * instance);
- /**
- * This function deletes an instance of a context
- *
- * \return BOOL_TRUE if deletion was sucessful
- */
- bool_t lub_heap_context_delete(
- /**
- * Context instance on which to operate
- */
- lub_heap_context_t * instance);
- /**
- * This function adds the specified node to the context tree.
- *
- * \return BOOL_TRUE if the node was added to the tree,
- * BOOL_FALSE if node was already in the tree.
- */
- bool_t lub_heap_context_add_node(
- /**
- * Context instance on which to operate
- */
- lub_heap_context_t * instance,
- /**
- * The node to add to this context
- */
- lub_heap_node_t * node,
- /**
- * The size in bytes of the allocation
- */
- size_t size);
- /**
- * This function removes the specified node from the context tree.
- *
- * \return BOOL_TRUE if the node was found and removed,
- * BOOL_FALSE if the node was not in the tree
- */
- void lub_heap_context_remove_node(
- /**
- * Context instance on which to operate
- */
- lub_heap_context_t * instance,
- /**
- * The node to add to this context
- */
- lub_heap_node_t * node);
- /**
- * This function dumps details of the specified context to stdout
- *
- * /return
- * - BOOL_TRUE if any details were dumped.
- * - BOOL_FALSE if no details were dumped.
- */
- bool_t lub_heap_context_show(
- /**
- * Context instance on which to operate
- */
- lub_heap_context_t * instance,
- /**
- * How to dump the information
- */
- lub_heap_show_e how);
- /**
- * This function "clears" the currently allocated blocks so that lub_heap_context_dump
- * will not show them
- */
- void lub_heap_context_clear(
- /**
- * Context instance on which to operate
- */
- lub_heap_context_t * instance);
- /**
- * This places a node into the context's tree
- */
- void
- lub_heap_context_insert_node(lub_heap_context_t * instance,
- lub_heap_node_t * node);
- /*---------------------------------------------------------
- * PUBLIC ATTRIBUTES
- *--------------------------------------------------------- */
- /**
- * Identify whether this is a valid address within the heap
- */
- bool_t leaks_is_valid_heap_address(lub_heap_t * instance, const void *ptr);
- void lub_heap_leak_mutex_lock(void);
- void lub_heap_leak_mutex_unlock(void);
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