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e11b35cb3a
This makes it easier to use outside simple subds, and now lightningd can simply dump to log rather than returning JSON. JSON formatting was a lot of work, and we only did it for lightningd, not for subdaemons. Easier to use the logs in all cases. Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
154 lines
5.0 KiB
C
154 lines
5.0 KiB
C
#ifndef LIGHTNING_COMMON_MEMLEAK_H
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#define LIGHTNING_COMMON_MEMLEAK_H
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#include "config.h"
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#include <ccan/strmap/strmap.h>
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#include <ccan/tal/tal.h>
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#include <ccan/typesafe_cb/typesafe_cb.h>
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#include <inttypes.h>
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struct htable;
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struct list_head;
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/**
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* memleak_init: Initialize memleak detection; you call this at the start!
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*
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* notleak() won't have an effect if called before this (but naming
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* tal objects with suffix _notleak works).
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*/
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void memleak_init(void);
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/**
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* notleak: remove a false-positive tal object.
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* @p: the tal allocation.
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*
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* This marks a tal pointer (and anything it refers to) as not being
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* leaked. Think hard before using this!
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*/
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#define notleak(p) ((memleak_typeof(p))notleak_((p), false))
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/* Mark a pointer and all its tal children as not being leaked.
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* You don't want this; it's for simplifying handling of the incoming
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* command which asks lightningd to do the dev check. */
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#define notleak_with_children(p) ((memleak_typeof(p))notleak_((p), true))
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#if HAVE_TYPEOF
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#define memleak_typeof(var) typeof(var)
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#else
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#define memleak_typeof(var) void *
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#endif /* !HAVE_TYPEOF */
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void *notleak_(void *ptr, bool plus_children);
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/**
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* memleak_add_helper: help memleak look inside this tal object
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* @p: the tal object
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* @cb: the callback.
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*
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* memleak looks for tal pointers inside a tal object memory, but some
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* structures which use bit-stealing on pointers or use non-tal allocations
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* will need this.
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*
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* The callback usually calls memleak_remove_*.
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*/
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#define memleak_add_helper(p, cb) \
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memleak_add_helper_((p), \
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typesafe_cb_preargs(void, const tal_t *, \
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(cb), (p), \
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struct htable *))
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/* For update-mock: memleak_add_helper_ mock empty */
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void memleak_add_helper_(const tal_t *p, void (*cb)(struct htable *memtable,
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const tal_t *));
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/**
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* memleak_start: allocate a htable with all tal objects
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* @ctx: the context to allocate the htable from
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*/
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struct htable *memleak_start(const tal_t *ctx);
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/**
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* memleak_ptr: this pointer is not a memleak.
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* @memtable: the memtable create by memleak_start.
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* @p: the pointer.
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*
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* This tells memleak that @p (a tal allocation) is not a leak. Returns
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* true if it was in the memleak table (it will no longer be).
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*/
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bool memleak_ptr(struct htable *memtable, const void *p);
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/**
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* memleak_scan_obj - this tal object and anything it references are not leaks.
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* @memtable: the memtable create by memleak_start.
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* @obj: the tal pointer
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*
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* This removes @obj from the memtable, then looks for any tal pointers
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* inside @obj and calls memleak_scan_obj() on those if not already removed.
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*/
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void memleak_scan_obj(struct htable *memtable, const void *obj);
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/**
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* memleak_scan_list_head - this list is not a leak.
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* @memtable: the memtable create by memleak_start.
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* @l: the list_head pointer
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*
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* This removes @l from the memtable, and any elements in the list. Usually
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* used for file-scope linked lists.
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*/
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void memleak_scan_list_head(struct htable *memtable, const struct list_head *l);
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/**
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* memleak_scan_region - scan a non-tal allocation for references.
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* @memtable: the memtable create by memleak_start.
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* @p: the tal pointer
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* @len: the length in bytes.
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*
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* Sometimes we have a stack or file-scope object which contains pointers.
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*/
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void memleak_scan_region(struct htable *memtable, const void *p, size_t len);
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/* Objects inside this htable (which is opaque to memleak) are not leaks. */
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void memleak_scan_htable(struct htable *memtable, const struct htable *ht);
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/* Objects inside this uintmap (which is opaque to memleak) are not leaks. */
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#define memleak_scan_uintmap(memtable, umap) \
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memleak_scan_intmap_(memtable, uintmap_unwrap_(umap))
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struct intmap;
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void memleak_scan_intmap_(struct htable *memtable, const struct intmap *m);
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/* Objects inside this strmap (which is opaque to memleak) are not leaks. */
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#define memleak_scan_strmap(memtable, strmap) \
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memleak_scan_strmap_((memtable), tcon_unwrap(strmap))
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void memleak_scan_strmap_(struct htable *memtable, const struct strmap *m);
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/**
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* memleak_ignore_children - ignore all this tal object's children.
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* @memtable: the memtable created by memleak_start
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* @p: the tal pointer.
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*
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* This is equivalent to calling memleak_ptr() on every child of @p
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* recursively. This is a big hammer, so be careful!
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*/
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void memleak_ignore_children(struct htable *memtable, const void *p);
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/**
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* dump_memleak: use print function to dump memleak details
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* @memtable: the memtable after all known allocations removed.
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* @print: the printf-style function to use (takes @arg first)
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* @arg: the arg for @print
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*
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* Returns true if there was a leak.
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*/
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#define dump_memleak(memtable, print, arg) \
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dump_memleak_((memtable), \
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typesafe_cb_postargs(void, void *, (print), (arg), const char *, ...), \
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(arg))
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bool dump_memleak_(struct htable *memtable,
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void PRINTF_FMT(2,3) (*print)(void *arg, const char *fmt, ...),
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void *arg);
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extern struct backtrace_state *backtrace_state;
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#endif /* LIGHTNING_COMMON_MEMLEAK_H */
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