core-lightning/common/memleak.h
Rusty Russell 6c9b752751 memleak: make notleak use the tal name instead of a boutique struct.
This lets us mark it directly.

Get rid of long-unused "notleaks" member of struct lightningd too.

Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
2021-11-27 10:38:13 +10:30

135 lines
4.4 KiB
C

#ifndef LIGHTNING_COMMON_MEMLEAK_H
#define LIGHTNING_COMMON_MEMLEAK_H
#include "config.h"
#include <ccan/strmap/strmap.h>
#include <ccan/tal/tal.h>
#include <inttypes.h>
struct htable;
/**
* memleak_init: Initialize memleak detection; you call this at the start!
*
* notleak() won't have an effect if called before this (but naming
* tal objects with suffix _notleak works).
*/
void memleak_init(void);
/**
* notleak: remove a false-positive tal object.
* @p: the tal allocation.
*
* This marks a tal pointer (and anything it refers to) as not being
* leaked. Think hard before using this!
*/
#define notleak(p) ((memleak_typeof(p))notleak_((p), false))
/* Mark a pointer and all its tal children as not being leaked.
* You don't want this; it's for simplifying handling of the incoming
* command which asks lightningd to do the dev check. */
#define notleak_with_children(p) ((memleak_typeof(p))notleak_((p), true))
#if HAVE_TYPEOF
#define memleak_typeof(var) typeof(var)
#else
#define memleak_typeof(var) void *
#endif /* !HAVE_TYPEOF */
void *notleak_(void *ptr, bool plus_children);
#if DEVELOPER
/**
* memleak_add_helper: help memleak look inside this tal object
* @p: the tal object
* @cb: the callback.
*
* memleak looks for tal pointers inside a tal object memory, but some
* structures which use bit-stealing on pointers or use non-tal allocations
* will need this.
*
* The callback usually calls memleak_remove_*.
*/
#define memleak_add_helper(p, cb) \
memleak_add_helper_((p), \
typesafe_cb_preargs(void, const tal_t *, \
(cb), (p), \
struct htable *))
#else
/* Don't refer to cb at all if !DEVELOPER */
#define memleak_add_helper(p, cb)
#endif
/* For update-mock: memleak_add_helper_ mock empty */
void memleak_add_helper_(const tal_t *p, void (*cb)(struct htable *memtable,
const tal_t *));
/**
* memleak_find_allocations: allocate a htable with all tal objects;
* @ctx: the context to allocate the htable from
* @exclude1: one tal pointer to exclude from adding (if non-NULL)
* @exclude2: second tal pointer to exclude from adding (if non-NULL)
*
* Note that exclude1 and exclude2's tal children are also not added.
*/
struct htable *memleak_find_allocations(const tal_t *ctx,
const void *exclude1,
const void *exclude2);
/**
* memleak_remove_region - remove this region and anything it references
* @memtable: the memtable create by memleak_find_allocations.
* @p: the pointer to remove.
* @bytelen: the bytes within it to scan for more pointers.
*
* This removes @p from the memtable, then looks for any tal pointers
* inside between @p and @p + @bytelen and calls
* memleak_remove_region() on those if not already removed.
*/
void memleak_remove_region(struct htable *memtable,
const void *p, size_t bytelen);
/**
* memleak_remove_pointer - remove this pointer
* @memtable: the memtable create by memleak_find_allocations.
* @p: the pointer to remove.
*
* This removes @p from the memtable.
*/
#define memleak_remove_pointer(memtable, p) \
memleak_remove_region((memtable), (p), 0)
/* Helper to remove objects inside this htable (which is opaque to memleak). */
void memleak_remove_htable(struct htable *memtable, const struct htable *ht);
/* Helper to remove objects inside this uintmap (which is opaque to memleak). */
#define memleak_remove_uintmap(memtable, umap) \
memleak_remove_intmap_(memtable, uintmap_unwrap_(umap))
struct intmap;
void memleak_remove_intmap_(struct htable *memtable, const struct intmap *m);
/* Remove any pointers inside this strmap (which is opaque to memleak). */
#define memleak_remove_strmap(memtable, strmap) \
memleak_remove_strmap_((memtable), tcon_unwrap(strmap))
void memleak_remove_strmap_(struct htable *memtable, const struct strmap *m);
/**
* memleak_get: get (and remove) a leak from memtable, or NULL
* @memtable: the memtable after all known allocations removed.
* @backtrace: the backtrace to set if there is one.
*
* If this returns NULL, it means the @memtable was empty. Otherwise
* it return a pointer to a leak (and removes it from @memtable)
*/
const void *memleak_get(struct htable *memtable, const uintptr_t **backtrace);
extern struct backtrace_state *backtrace_state;
#if DEVELOPER
/* Only defined if DEVELOPER */
bool dump_memleak(struct htable *memtable,
void PRINTF_FMT(1,2) (*print)(const char *fmt, ...));
#endif
#endif /* LIGHTNING_COMMON_MEMLEAK_H */