kmemleak.c 56.1 KB
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/*
 * mm/kmemleak.c
 *
 * Copyright (C) 2008 ARM Limited
 * Written by Catalin Marinas <catalin.marinas@arm.com>
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License version 2 as
 * published by the Free Software Foundation.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
 *
 *
 * For more information on the algorithm and kmemleak usage, please see
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 * Documentation/dev-tools/kmemleak.rst.
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 *
 * Notes on locking
 * ----------------
 *
 * The following locks and mutexes are used by kmemleak:
 *
 * - kmemleak_lock (rwlock): protects the object_list modifications and
 *   accesses to the object_tree_root. The object_list is the main list
 *   holding the metadata (struct kmemleak_object) for the allocated memory
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 *   blocks. The object_tree_root is a red black tree used to look-up
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 *   metadata based on a pointer to the corresponding memory block.  The
 *   kmemleak_object structures are added to the object_list and
 *   object_tree_root in the create_object() function called from the
 *   kmemleak_alloc() callback and removed in delete_object() called from the
 *   kmemleak_free() callback
 * - kmemleak_object.lock (spinlock): protects a kmemleak_object. Accesses to
 *   the metadata (e.g. count) are protected by this lock. Note that some
 *   members of this structure may be protected by other means (atomic or
 *   kmemleak_lock). This lock is also held when scanning the corresponding
 *   memory block to avoid the kernel freeing it via the kmemleak_free()
 *   callback. This is less heavyweight than holding a global lock like
 *   kmemleak_lock during scanning
 * - scan_mutex (mutex): ensures that only one thread may scan the memory for
 *   unreferenced objects at a time. The gray_list contains the objects which
 *   are already referenced or marked as false positives and need to be
 *   scanned. This list is only modified during a scanning episode when the
 *   scan_mutex is held. At the end of a scan, the gray_list is always empty.
 *   Note that the kmemleak_object.use_count is incremented when an object is
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 *   added to the gray_list and therefore cannot be freed. This mutex also
 *   prevents multiple users of the "kmemleak" debugfs file together with
 *   modifications to the memory scanning parameters including the scan_thread
 *   pointer
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 *
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 * Locks and mutexes are acquired/nested in the following order:
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 *
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 *   scan_mutex [-> object->lock] -> kmemleak_lock -> other_object->lock (SINGLE_DEPTH_NESTING)
 *
 * No kmemleak_lock and object->lock nesting is allowed outside scan_mutex
 * regions.
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 *
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 * The kmemleak_object structures have a use_count incremented or decremented
 * using the get_object()/put_object() functions. When the use_count becomes
 * 0, this count can no longer be incremented and put_object() schedules the
 * kmemleak_object freeing via an RCU callback. All calls to the get_object()
 * function must be protected by rcu_read_lock() to avoid accessing a freed
 * structure.
 */

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#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt

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#include <linux/init.h>
#include <linux/kernel.h>
#include <linux/list.h>
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#include <linux/sched/signal.h>
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#include <linux/sched/task.h>
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#include <linux/jiffies.h>
#include <linux/delay.h>
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#include <linux/export.h>
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#include <linux/kthread.h>
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#include <linux/rbtree.h>
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#include <linux/fs.h>
#include <linux/debugfs.h>
#include <linux/seq_file.h>
#include <linux/cpumask.h>
#include <linux/spinlock.h>
#include <linux/mutex.h>
#include <linux/rcupdate.h>
#include <linux/stacktrace.h>
#include <linux/cache.h>
#include <linux/percpu.h>
#include <linux/hardirq.h>
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#include <linux/bootmem.h>
#include <linux/pfn.h>
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#include <linux/mmzone.h>
#include <linux/slab.h>
#include <linux/thread_info.h>
#include <linux/err.h>
#include <linux/uaccess.h>
#include <linux/string.h>
#include <linux/nodemask.h>
#include <linux/mm.h>
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#include <linux/workqueue.h>
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#include <linux/crc32.h>
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#include <asm/sections.h>
#include <asm/processor.h>
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#include <linux/atomic.h>
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#include <linux/kasan.h>
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#include <linux/kmemcheck.h>
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#include <linux/kmemleak.h>
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#include <linux/memory_hotplug.h>
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/*
 * Kmemleak configuration and common defines.
 */
#define MAX_TRACE		16	/* stack trace length */
#define MSECS_MIN_AGE		5000	/* minimum object age for reporting */
#define SECS_FIRST_SCAN		60	/* delay before the first scan */
#define SECS_SCAN_WAIT		600	/* subsequent auto scanning delay */
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#define MAX_SCAN_SIZE		4096	/* maximum size of a scanned block */
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#define BYTES_PER_POINTER	sizeof(void *)

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/* GFP bitmask for kmemleak internal allocations */
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#define gfp_kmemleak_mask(gfp)	(((gfp) & (GFP_KERNEL | GFP_ATOMIC)) | \
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				 __GFP_NORETRY | __GFP_NOMEMALLOC | \
				 __GFP_NOWARN)
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/* scanning area inside a memory block */
struct kmemleak_scan_area {
	struct hlist_node node;
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	unsigned long start;
	size_t size;
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};

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#define KMEMLEAK_GREY	0
#define KMEMLEAK_BLACK	-1

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/*
 * Structure holding the metadata for each allocated memory block.
 * Modifications to such objects should be made while holding the
 * object->lock. Insertions or deletions from object_list, gray_list or
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 * rb_node are already protected by the corresponding locks or mutex (see
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 * the notes on locking above). These objects are reference-counted
 * (use_count) and freed using the RCU mechanism.
 */
struct kmemleak_object {
	spinlock_t lock;
	unsigned long flags;		/* object status flags */
	struct list_head object_list;
	struct list_head gray_list;
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	struct rb_node rb_node;
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	struct rcu_head rcu;		/* object_list lockless traversal */
	/* object usage count; object freed when use_count == 0 */
	atomic_t use_count;
	unsigned long pointer;
	size_t size;
	/* minimum number of a pointers found before it is considered leak */
	int min_count;
	/* the total number of pointers found pointing to this object */
	int count;
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	/* checksum for detecting modified objects */
	u32 checksum;
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	/* memory ranges to be scanned inside an object (empty for all) */
	struct hlist_head area_list;
	unsigned long trace[MAX_TRACE];
	unsigned int trace_len;
	unsigned long jiffies;		/* creation timestamp */
	pid_t pid;			/* pid of the current task */
	char comm[TASK_COMM_LEN];	/* executable name */
};

/* flag representing the memory block allocation status */
#define OBJECT_ALLOCATED	(1 << 0)
/* flag set after the first reporting of an unreference object */
#define OBJECT_REPORTED		(1 << 1)
/* flag set to not scan the object */
#define OBJECT_NO_SCAN		(1 << 2)

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/* number of bytes to print per line; must be 16 or 32 */
#define HEX_ROW_SIZE		16
/* number of bytes to print at a time (1, 2, 4, 8) */
#define HEX_GROUP_SIZE		1
/* include ASCII after the hex output */
#define HEX_ASCII		1
/* max number of lines to be printed */
#define HEX_MAX_LINES		2

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/* the list of all allocated objects */
static LIST_HEAD(object_list);
/* the list of gray-colored objects (see color_gray comment below) */
static LIST_HEAD(gray_list);
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/* search tree for object boundaries */
static struct rb_root object_tree_root = RB_ROOT;
/* rw_lock protecting the access to object_list and object_tree_root */
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static DEFINE_RWLOCK(kmemleak_lock);

/* allocation caches for kmemleak internal data */
static struct kmem_cache *object_cache;
static struct kmem_cache *scan_area_cache;

/* set if tracing memory operations is enabled */
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static int kmemleak_enabled;
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/* same as above but only for the kmemleak_free() callback */
static int kmemleak_free_enabled;
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/* set in the late_initcall if there were no errors */
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static int kmemleak_initialized;
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/* enables or disables early logging of the memory operations */
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static int kmemleak_early_log = 1;
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/* set if a kmemleak warning was issued */
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static int kmemleak_warning;
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/* set if a fatal kmemleak error has occurred */
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static int kmemleak_error;
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/* minimum and maximum address that may be valid pointers */
static unsigned long min_addr = ULONG_MAX;
static unsigned long max_addr;

static struct task_struct *scan_thread;
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/* used to avoid reporting of recently allocated objects */
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static unsigned long jiffies_min_age;
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static unsigned long jiffies_last_scan;
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/* delay between automatic memory scannings */
static signed long jiffies_scan_wait;
/* enables or disables the task stacks scanning */
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static int kmemleak_stack_scan = 1;
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/* protects the memory scanning, parameters and debug/kmemleak file access */
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static DEFINE_MUTEX(scan_mutex);
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/* setting kmemleak=on, will set this var, skipping the disable */
static int kmemleak_skip_disable;
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/* If there are leaks that can be reported */
static bool kmemleak_found_leaks;
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/*
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 * Early object allocation/freeing logging. Kmemleak is initialized after the
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 * kernel allocator. However, both the kernel allocator and kmemleak may
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 * allocate memory blocks which need to be tracked. Kmemleak defines an
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 * arbitrary buffer to hold the allocation/freeing information before it is
 * fully initialized.
 */

/* kmemleak operation type for early logging */
enum {
	KMEMLEAK_ALLOC,
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	KMEMLEAK_ALLOC_PERCPU,
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	KMEMLEAK_FREE,
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	KMEMLEAK_FREE_PART,
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	KMEMLEAK_FREE_PERCPU,
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	KMEMLEAK_NOT_LEAK,
	KMEMLEAK_IGNORE,
	KMEMLEAK_SCAN_AREA,
	KMEMLEAK_NO_SCAN
};

/*
 * Structure holding the information passed to kmemleak callbacks during the
 * early logging.
 */
struct early_log {
	int op_type;			/* kmemleak operation type */
	const void *ptr;		/* allocated/freed memory block */
	size_t size;			/* memory block size */
	int min_count;			/* minimum reference count */
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	unsigned long trace[MAX_TRACE];	/* stack trace */
	unsigned int trace_len;		/* stack trace length */
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};

/* early logging buffer and current position */
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static struct early_log
	early_log[CONFIG_DEBUG_KMEMLEAK_EARLY_LOG_SIZE] __initdata;
static int crt_early_log __initdata;
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static void kmemleak_disable(void);

/*
 * Print a warning and dump the stack trace.
 */
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#define kmemleak_warn(x...)	do {		\
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	pr_warn(x);				\
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	dump_stack();				\
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	kmemleak_warning = 1;			\
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} while (0)

/*
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 * Macro invoked when a serious kmemleak condition occurred and cannot be
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 * recovered from. Kmemleak will be disabled and further allocation/freeing
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 * tracing no longer available.
 */
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#define kmemleak_stop(x...)	do {	\
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	kmemleak_warn(x);		\
	kmemleak_disable();		\
} while (0)

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/*
 * Printing of the objects hex dump to the seq file. The number of lines to be
 * printed is limited to HEX_MAX_LINES to prevent seq file spamming. The
 * actual number of printed bytes depends on HEX_ROW_SIZE. It must be called
 * with the object->lock held.
 */
static void hex_dump_object(struct seq_file *seq,
			    struct kmemleak_object *object)
{
	const u8 *ptr = (const u8 *)object->pointer;
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	size_t len;
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	/* limit the number of lines to HEX_MAX_LINES */
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	len = min_t(size_t, object->size, HEX_MAX_LINES * HEX_ROW_SIZE);
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	seq_printf(seq, "  hex dump (first %zu bytes):\n", len);
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	kasan_disable_current();
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	seq_hex_dump(seq, "    ", DUMP_PREFIX_NONE, HEX_ROW_SIZE,
		     HEX_GROUP_SIZE, ptr, len, HEX_ASCII);
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	kasan_enable_current();
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}

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/*
 * Object colors, encoded with count and min_count:
 * - white - orphan object, not enough references to it (count < min_count)
 * - gray  - not orphan, not marked as false positive (min_count == 0) or
 *		sufficient references to it (count >= min_count)
 * - black - ignore, it doesn't contain references (e.g. text section)
 *		(min_count == -1). No function defined for this color.
 * Newly created objects don't have any color assigned (object->count == -1)
 * before the next memory scan when they become white.
 */
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static bool color_white(const struct kmemleak_object *object)
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{
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	return object->count != KMEMLEAK_BLACK &&
		object->count < object->min_count;
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}

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static bool color_gray(const struct kmemleak_object *object)
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{
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	return object->min_count != KMEMLEAK_BLACK &&
		object->count >= object->min_count;
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}

/*
 * Objects are considered unreferenced only if their color is white, they have
 * not be deleted and have a minimum age to avoid false positives caused by
 * pointers temporarily stored in CPU registers.
 */
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static bool unreferenced_object(struct kmemleak_object *object)
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{
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	return (color_white(object) && object->flags & OBJECT_ALLOCATED) &&
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		time_before_eq(object->jiffies + jiffies_min_age,
			       jiffies_last_scan);
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}

/*
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 * Printing of the unreferenced objects information to the seq file. The
 * print_unreferenced function must be called with the object->lock held.
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 */
static void print_unreferenced(struct seq_file *seq,
			       struct kmemleak_object *object)
{
	int i;
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	unsigned int msecs_age = jiffies_to_msecs(jiffies - object->jiffies);
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	seq_printf(seq, "unreferenced object 0x%08lx (size %zu):\n",
		   object->pointer, object->size);
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	seq_printf(seq, "  comm \"%s\", pid %d, jiffies %lu (age %d.%03ds)\n",
		   object->comm, object->pid, object->jiffies,
		   msecs_age / 1000, msecs_age % 1000);
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	hex_dump_object(seq, object);
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	seq_printf(seq, "  backtrace:\n");
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	for (i = 0; i < object->trace_len; i++) {
		void *ptr = (void *)object->trace[i];
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		seq_printf(seq, "    [<%p>] %pS\n", ptr, ptr);
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	}
}

/*
 * Print the kmemleak_object information. This function is used mainly for
 * debugging special cases when kmemleak operations. It must be called with
 * the object->lock held.
 */
static void dump_object_info(struct kmemleak_object *object)
{
	struct stack_trace trace;

	trace.nr_entries = object->trace_len;
	trace.entries = object->trace;

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	pr_notice("Object 0x%08lx (size %zu):\n",
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		  object->pointer, object->size);
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	pr_notice("  comm \"%s\", pid %d, jiffies %lu\n",
		  object->comm, object->pid, object->jiffies);
	pr_notice("  min_count = %d\n", object->min_count);
	pr_notice("  count = %d\n", object->count);
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	pr_notice("  flags = 0x%lx\n", object->flags);
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	pr_notice("  checksum = %u\n", object->checksum);
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	pr_notice("  backtrace:\n");
	print_stack_trace(&trace, 4);
}

/*
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 * Look-up a memory block metadata (kmemleak_object) in the object search
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 * tree based on a pointer value. If alias is 0, only values pointing to the
 * beginning of the memory block are allowed. The kmemleak_lock must be held
 * when calling this function.
 */
static struct kmemleak_object *lookup_object(unsigned long ptr, int alias)
{
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	struct rb_node *rb = object_tree_root.rb_node;

	while (rb) {
		struct kmemleak_object *object =
			rb_entry(rb, struct kmemleak_object, rb_node);
		if (ptr < object->pointer)
			rb = object->rb_node.rb_left;
		else if (object->pointer + object->size <= ptr)
			rb = object->rb_node.rb_right;
		else if (object->pointer == ptr || alias)
			return object;
		else {
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			kmemleak_warn("Found object by alias at 0x%08lx\n",
				      ptr);
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			dump_object_info(object);
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			break;
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		}
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	}
	return NULL;
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}

/*
 * Increment the object use_count. Return 1 if successful or 0 otherwise. Note
 * that once an object's use_count reached 0, the RCU freeing was already
 * registered and the object should no longer be used. This function must be
 * called under the protection of rcu_read_lock().
 */
static int get_object(struct kmemleak_object *object)
{
	return atomic_inc_not_zero(&object->use_count);
}

/*
 * RCU callback to free a kmemleak_object.
 */
static void free_object_rcu(struct rcu_head *rcu)
{
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	struct hlist_node *tmp;
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	struct kmemleak_scan_area *area;
	struct kmemleak_object *object =
		container_of(rcu, struct kmemleak_object, rcu);

	/*
	 * Once use_count is 0 (guaranteed by put_object), there is no other
	 * code accessing this object, hence no need for locking.
	 */
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	hlist_for_each_entry_safe(area, tmp, &object->area_list, node) {
		hlist_del(&area->node);
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		kmem_cache_free(scan_area_cache, area);
	}
	kmem_cache_free(object_cache, object);
}

/*
 * Decrement the object use_count. Once the count is 0, free the object using
 * an RCU callback. Since put_object() may be called via the kmemleak_free() ->
 * delete_object() path, the delayed RCU freeing ensures that there is no
 * recursive call to the kernel allocator. Lock-less RCU object_list traversal
 * is also possible.
 */
static void put_object(struct kmemleak_object *object)
{
	if (!atomic_dec_and_test(&object->use_count))
		return;

	/* should only get here after delete_object was called */
	WARN_ON(object->flags & OBJECT_ALLOCATED);

	call_rcu(&object->rcu, free_object_rcu);
}

/*
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 * Look up an object in the object search tree and increase its use_count.
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 */
static struct kmemleak_object *find_and_get_object(unsigned long ptr, int alias)
{
	unsigned long flags;
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	struct kmemleak_object *object;
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	rcu_read_lock();
	read_lock_irqsave(&kmemleak_lock, flags);
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	object = lookup_object(ptr, alias);
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	read_unlock_irqrestore(&kmemleak_lock, flags);

	/* check whether the object is still available */
	if (object && !get_object(object))
		object = NULL;
	rcu_read_unlock();

	return object;
}

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/*
 * Look up an object in the object search tree and remove it from both
 * object_tree_root and object_list. The returned object's use_count should be
 * at least 1, as initially set by create_object().
 */
static struct kmemleak_object *find_and_remove_object(unsigned long ptr, int alias)
{
	unsigned long flags;
	struct kmemleak_object *object;

	write_lock_irqsave(&kmemleak_lock, flags);
	object = lookup_object(ptr, alias);
	if (object) {
		rb_erase(&object->rb_node, &object_tree_root);
		list_del_rcu(&object->object_list);
	}
	write_unlock_irqrestore(&kmemleak_lock, flags);

	return object;
}

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/*
 * Save stack trace to the given array of MAX_TRACE size.
 */
static int __save_stack_trace(unsigned long *trace)
{
	struct stack_trace stack_trace;

	stack_trace.max_entries = MAX_TRACE;
	stack_trace.nr_entries = 0;
	stack_trace.entries = trace;
	stack_trace.skip = 2;
	save_stack_trace(&stack_trace);

	return stack_trace.nr_entries;
}

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/*
 * Create the metadata (struct kmemleak_object) corresponding to an allocated
 * memory block and add it to the object_list and object_tree_root.
 */
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static struct kmemleak_object *create_object(unsigned long ptr, size_t size,
					     int min_count, gfp_t gfp)
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{
	unsigned long flags;
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	struct kmemleak_object *object, *parent;
	struct rb_node **link, *rb_parent;
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	object = kmem_cache_alloc(object_cache, gfp_kmemleak_mask(gfp));
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	if (!object) {
J
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551
		pr_warn("Cannot allocate a kmemleak_object structure\n");
552
		kmemleak_disable();
553
		return NULL;
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	}

	INIT_LIST_HEAD(&object->object_list);
	INIT_LIST_HEAD(&object->gray_list);
	INIT_HLIST_HEAD(&object->area_list);
	spin_lock_init(&object->lock);
	atomic_set(&object->use_count, 1);
561
	object->flags = OBJECT_ALLOCATED;
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	object->pointer = ptr;
	object->size = size;
	object->min_count = min_count;
565
	object->count = 0;			/* white color initially */
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	object->jiffies = jiffies;
567
	object->checksum = 0;
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	/* task information */
	if (in_irq()) {
		object->pid = 0;
		strncpy(object->comm, "hardirq", sizeof(object->comm));
	} else if (in_softirq()) {
		object->pid = 0;
		strncpy(object->comm, "softirq", sizeof(object->comm));
	} else {
		object->pid = current->pid;
		/*
		 * There is a small chance of a race with set_task_comm(),
		 * however using get_task_comm() here may cause locking
		 * dependency issues with current->alloc_lock. In the worst
		 * case, the command line is not correct.
		 */
		strncpy(object->comm, current->comm, sizeof(object->comm));
	}

	/* kernel backtrace */
588
	object->trace_len = __save_stack_trace(object->trace);
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	write_lock_irqsave(&kmemleak_lock, flags);
591

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	min_addr = min(min_addr, ptr);
	max_addr = max(max_addr, ptr + size);
594 595 596 597 598 599 600 601 602 603
	link = &object_tree_root.rb_node;
	rb_parent = NULL;
	while (*link) {
		rb_parent = *link;
		parent = rb_entry(rb_parent, struct kmemleak_object, rb_node);
		if (ptr + size <= parent->pointer)
			link = &parent->rb_node.rb_left;
		else if (parent->pointer + parent->size <= ptr)
			link = &parent->rb_node.rb_right;
		else {
J
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604
			kmemleak_stop("Cannot insert 0x%lx into the object search tree (overlaps existing)\n",
605
				      ptr);
606 607 608 609 610
			/*
			 * No need for parent->lock here since "parent" cannot
			 * be freed while the kmemleak_lock is held.
			 */
			dump_object_info(parent);
611
			kmem_cache_free(object_cache, object);
612
			object = NULL;
613 614
			goto out;
		}
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	}
616 617 618
	rb_link_node(&object->rb_node, rb_parent, link);
	rb_insert_color(&object->rb_node, &object_tree_root);

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	list_add_tail_rcu(&object->object_list, &object_list);
out:
	write_unlock_irqrestore(&kmemleak_lock, flags);
622
	return object;
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}

/*
626
 * Mark the object as not allocated and schedule RCU freeing via put_object().
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627
 */
628
static void __delete_object(struct kmemleak_object *object)
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629 630 631 632
{
	unsigned long flags;

	WARN_ON(!(object->flags & OBJECT_ALLOCATED));
633
	WARN_ON(atomic_read(&object->use_count) < 1);
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634 635 636 637 638 639 640 641 642 643 644

	/*
	 * Locking here also ensures that the corresponding memory block
	 * cannot be freed when it is being scanned.
	 */
	spin_lock_irqsave(&object->lock, flags);
	object->flags &= ~OBJECT_ALLOCATED;
	spin_unlock_irqrestore(&object->lock, flags);
	put_object(object);
}

645 646 647 648 649 650 651 652
/*
 * Look up the metadata (struct kmemleak_object) corresponding to ptr and
 * delete it.
 */
static void delete_object_full(unsigned long ptr)
{
	struct kmemleak_object *object;

653
	object = find_and_remove_object(ptr, 0);
654 655 656 657 658 659 660 661 662 663 664 665 666 667 668 669 670 671 672 673
	if (!object) {
#ifdef DEBUG
		kmemleak_warn("Freeing unknown object at 0x%08lx\n",
			      ptr);
#endif
		return;
	}
	__delete_object(object);
}

/*
 * Look up the metadata (struct kmemleak_object) corresponding to ptr and
 * delete it. If the memory block is partially freed, the function may create
 * additional metadata for the remaining parts of the block.
 */
static void delete_object_part(unsigned long ptr, size_t size)
{
	struct kmemleak_object *object;
	unsigned long start, end;

674
	object = find_and_remove_object(ptr, 1);
675 676
	if (!object) {
#ifdef DEBUG
J
Joe Perches 已提交
677 678
		kmemleak_warn("Partially freeing unknown object at 0x%08lx (size %zu)\n",
			      ptr, size);
679 680 681 682 683 684 685 686 687 688 689 690 691 692 693 694 695 696 697 698
#endif
		return;
	}

	/*
	 * Create one or two objects that may result from the memory block
	 * split. Note that partial freeing is only done by free_bootmem() and
	 * this happens before kmemleak_init() is called. The path below is
	 * only executed during early log recording in kmemleak_init(), so
	 * GFP_KERNEL is enough.
	 */
	start = object->pointer;
	end = object->pointer + object->size;
	if (ptr > start)
		create_object(start, ptr - start, object->min_count,
			      GFP_KERNEL);
	if (ptr + size < end)
		create_object(ptr + size, end - ptr - size, object->min_count,
			      GFP_KERNEL);

699
	__delete_object(object);
700
}
701 702 703 704 705 706 707 708 709

static void __paint_it(struct kmemleak_object *object, int color)
{
	object->min_count = color;
	if (color == KMEMLEAK_BLACK)
		object->flags |= OBJECT_NO_SCAN;
}

static void paint_it(struct kmemleak_object *object, int color)
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710 711
{
	unsigned long flags;
712 713 714 715 716 717 718 719

	spin_lock_irqsave(&object->lock, flags);
	__paint_it(object, color);
	spin_unlock_irqrestore(&object->lock, flags);
}

static void paint_ptr(unsigned long ptr, int color)
{
C
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720 721 722 723
	struct kmemleak_object *object;

	object = find_and_get_object(ptr, 0);
	if (!object) {
J
Joe Perches 已提交
724 725
		kmemleak_warn("Trying to color unknown object at 0x%08lx as %s\n",
			      ptr,
726 727
			      (color == KMEMLEAK_GREY) ? "Grey" :
			      (color == KMEMLEAK_BLACK) ? "Black" : "Unknown");
C
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728 729
		return;
	}
730
	paint_it(object, color);
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731 732 733
	put_object(object);
}

734
/*
735
 * Mark an object permanently as gray-colored so that it can no longer be
736 737 738 739 740 741 742
 * reported as a leak. This is used in general to mark a false positive.
 */
static void make_gray_object(unsigned long ptr)
{
	paint_ptr(ptr, KMEMLEAK_GREY);
}

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743 744 745 746 747 748
/*
 * Mark the object as black-colored so that it is ignored from scans and
 * reporting.
 */
static void make_black_object(unsigned long ptr)
{
749
	paint_ptr(ptr, KMEMLEAK_BLACK);
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750 751 752 753 754 755
}

/*
 * Add a scanning area to the object. If at least one such area is added,
 * kmemleak will only scan these ranges rather than the whole memory block.
 */
756
static void add_scan_area(unsigned long ptr, size_t size, gfp_t gfp)
C
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757 758 759 760 761
{
	unsigned long flags;
	struct kmemleak_object *object;
	struct kmemleak_scan_area *area;

762
	object = find_and_get_object(ptr, 1);
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763
	if (!object) {
J
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764 765
		kmemleak_warn("Adding scan area to unknown object at 0x%08lx\n",
			      ptr);
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766 767 768
		return;
	}

769
	area = kmem_cache_alloc(scan_area_cache, gfp_kmemleak_mask(gfp));
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	if (!area) {
J
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771
		pr_warn("Cannot allocate a scan area\n");
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772 773 774 775
		goto out;
	}

	spin_lock_irqsave(&object->lock, flags);
776 777 778
	if (size == SIZE_MAX) {
		size = object->pointer + object->size - ptr;
	} else if (ptr + size > object->pointer + object->size) {
J
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779
		kmemleak_warn("Scan area larger than object 0x%08lx\n", ptr);
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780 781 782 783 784 785
		dump_object_info(object);
		kmem_cache_free(scan_area_cache, area);
		goto out_unlock;
	}

	INIT_HLIST_NODE(&area->node);
786 787
	area->start = ptr;
	area->size = size;
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788 789 790 791 792 793 794 795 796 797 798 799 800 801 802 803 804 805 806 807

	hlist_add_head(&area->node, &object->area_list);
out_unlock:
	spin_unlock_irqrestore(&object->lock, flags);
out:
	put_object(object);
}

/*
 * Set the OBJECT_NO_SCAN flag for the object corresponding to the give
 * pointer. Such object will not be scanned by kmemleak but references to it
 * are searched.
 */
static void object_no_scan(unsigned long ptr)
{
	unsigned long flags;
	struct kmemleak_object *object;

	object = find_and_get_object(ptr, 0);
	if (!object) {
J
Joe Perches 已提交
808
		kmemleak_warn("Not scanning unknown object at 0x%08lx\n", ptr);
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809 810 811 812 813 814 815 816 817 818 819 820 821
		return;
	}

	spin_lock_irqsave(&object->lock, flags);
	object->flags |= OBJECT_NO_SCAN;
	spin_unlock_irqrestore(&object->lock, flags);
	put_object(object);
}

/*
 * Log an early kmemleak_* call to the early_log buffer. These calls will be
 * processed later once kmemleak is fully initialized.
 */
822
static void __init log_early(int op_type, const void *ptr, size_t size,
823
			     int min_count)
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824 825 826 827
{
	unsigned long flags;
	struct early_log *log;

828
	if (kmemleak_error) {
829 830 831 832 833
		/* kmemleak stopped recording, just count the requests */
		crt_early_log++;
		return;
	}

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834
	if (crt_early_log >= ARRAY_SIZE(early_log)) {
835
		crt_early_log++;
836
		kmemleak_disable();
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837 838 839 840 841 842 843 844 845 846 847 848 849
		return;
	}

	/*
	 * There is no need for locking since the kernel is still in UP mode
	 * at this stage. Disabling the IRQs is enough.
	 */
	local_irq_save(flags);
	log = &early_log[crt_early_log];
	log->op_type = op_type;
	log->ptr = ptr;
	log->size = size;
	log->min_count = min_count;
850
	log->trace_len = __save_stack_trace(log->trace);
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851 852 853 854
	crt_early_log++;
	local_irq_restore(flags);
}

855 856 857 858 859 860 861 862 863
/*
 * Log an early allocated block and populate the stack trace.
 */
static void early_alloc(struct early_log *log)
{
	struct kmemleak_object *object;
	unsigned long flags;
	int i;

864
	if (!kmemleak_enabled || !log->ptr || IS_ERR(log->ptr))
865 866 867 868 869 870 871
		return;

	/*
	 * RCU locking needed to ensure object is not freed via put_object().
	 */
	rcu_read_lock();
	object = create_object((unsigned long)log->ptr, log->size,
872
			       log->min_count, GFP_ATOMIC);
873 874
	if (!object)
		goto out;
875 876 877 878 879
	spin_lock_irqsave(&object->lock, flags);
	for (i = 0; i < log->trace_len; i++)
		object->trace[i] = log->trace[i];
	object->trace_len = log->trace_len;
	spin_unlock_irqrestore(&object->lock, flags);
880
out:
881 882 883
	rcu_read_unlock();
}

884 885 886 887 888 889 890 891 892 893 894 895 896 897
/*
 * Log an early allocated block and populate the stack trace.
 */
static void early_alloc_percpu(struct early_log *log)
{
	unsigned int cpu;
	const void __percpu *ptr = log->ptr;

	for_each_possible_cpu(cpu) {
		log->ptr = per_cpu_ptr(ptr, cpu);
		early_alloc(log);
	}
}

898 899 900 901 902 903 904 905 906 907 908 909 910
/**
 * kmemleak_alloc - register a newly allocated object
 * @ptr:	pointer to beginning of the object
 * @size:	size of the object
 * @min_count:	minimum number of references to this object. If during memory
 *		scanning a number of references less than @min_count is found,
 *		the object is reported as a memory leak. If @min_count is 0,
 *		the object is never reported as a leak. If @min_count is -1,
 *		the object is ignored (not scanned and not reported as a leak)
 * @gfp:	kmalloc() flags used for kmemleak internal memory allocations
 *
 * This function is called from the kernel allocators when a new object
 * (memory block) is allocated (kmem_cache_alloc, kmalloc, vmalloc etc.).
C
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 */
912 913
void __ref kmemleak_alloc(const void *ptr, size_t size, int min_count,
			  gfp_t gfp)
C
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914 915 916
{
	pr_debug("%s(0x%p, %zu, %d)\n", __func__, ptr, size, min_count);

917
	if (kmemleak_enabled && ptr && !IS_ERR(ptr))
C
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918
		create_object((unsigned long)ptr, size, min_count, gfp);
919
	else if (kmemleak_early_log)
920
		log_early(KMEMLEAK_ALLOC, ptr, size, min_count);
C
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921 922 923
}
EXPORT_SYMBOL_GPL(kmemleak_alloc);

924 925 926 927
/**
 * kmemleak_alloc_percpu - register a newly allocated __percpu object
 * @ptr:	__percpu pointer to beginning of the object
 * @size:	size of the object
928
 * @gfp:	flags used for kmemleak internal memory allocations
929 930
 *
 * This function is called from the kernel percpu allocator when a new object
931
 * (memory block) is allocated (alloc_percpu).
932
 */
933 934
void __ref kmemleak_alloc_percpu(const void __percpu *ptr, size_t size,
				 gfp_t gfp)
935 936 937 938 939 940 941 942 943
{
	unsigned int cpu;

	pr_debug("%s(0x%p, %zu)\n", __func__, ptr, size);

	/*
	 * Percpu allocations are only scanned and not reported as leaks
	 * (min_count is set to 0).
	 */
944
	if (kmemleak_enabled && ptr && !IS_ERR(ptr))
945 946
		for_each_possible_cpu(cpu)
			create_object((unsigned long)per_cpu_ptr(ptr, cpu),
947
				      size, 0, gfp);
948
	else if (kmemleak_early_log)
949 950 951 952
		log_early(KMEMLEAK_ALLOC_PERCPU, ptr, size, 0);
}
EXPORT_SYMBOL_GPL(kmemleak_alloc_percpu);

953 954 955 956 957 958
/**
 * kmemleak_free - unregister a previously registered object
 * @ptr:	pointer to beginning of the object
 *
 * This function is called from the kernel allocators when an object (memory
 * block) is freed (kmem_cache_free, kfree, vfree etc.).
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959
 */
960
void __ref kmemleak_free(const void *ptr)
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961 962 963
{
	pr_debug("%s(0x%p)\n", __func__, ptr);

964
	if (kmemleak_free_enabled && ptr && !IS_ERR(ptr))
965
		delete_object_full((unsigned long)ptr);
966
	else if (kmemleak_early_log)
967
		log_early(KMEMLEAK_FREE, ptr, 0, 0);
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968 969 970
}
EXPORT_SYMBOL_GPL(kmemleak_free);

971 972 973 974 975 976 977 978
/**
 * kmemleak_free_part - partially unregister a previously registered object
 * @ptr:	pointer to the beginning or inside the object. This also
 *		represents the start of the range to be freed
 * @size:	size to be unregistered
 *
 * This function is called when only a part of a memory block is freed
 * (usually from the bootmem allocator).
979
 */
980
void __ref kmemleak_free_part(const void *ptr, size_t size)
981 982 983
{
	pr_debug("%s(0x%p)\n", __func__, ptr);

984
	if (kmemleak_enabled && ptr && !IS_ERR(ptr))
985
		delete_object_part((unsigned long)ptr, size);
986
	else if (kmemleak_early_log)
987
		log_early(KMEMLEAK_FREE_PART, ptr, size, 0);
988 989 990
}
EXPORT_SYMBOL_GPL(kmemleak_free_part);

991 992 993 994 995 996 997 998 999 1000 1001 1002 1003
/**
 * kmemleak_free_percpu - unregister a previously registered __percpu object
 * @ptr:	__percpu pointer to beginning of the object
 *
 * This function is called from the kernel percpu allocator when an object
 * (memory block) is freed (free_percpu).
 */
void __ref kmemleak_free_percpu(const void __percpu *ptr)
{
	unsigned int cpu;

	pr_debug("%s(0x%p)\n", __func__, ptr);

1004
	if (kmemleak_free_enabled && ptr && !IS_ERR(ptr))
1005 1006 1007
		for_each_possible_cpu(cpu)
			delete_object_full((unsigned long)per_cpu_ptr(ptr,
								      cpu));
1008
	else if (kmemleak_early_log)
1009 1010 1011 1012
		log_early(KMEMLEAK_FREE_PERCPU, ptr, 0, 0);
}
EXPORT_SYMBOL_GPL(kmemleak_free_percpu);

1013 1014 1015 1016 1017 1018 1019 1020 1021 1022 1023 1024 1025 1026 1027 1028 1029 1030 1031 1032 1033 1034 1035 1036 1037 1038 1039 1040 1041 1042 1043 1044 1045 1046
/**
 * kmemleak_update_trace - update object allocation stack trace
 * @ptr:	pointer to beginning of the object
 *
 * Override the object allocation stack trace for cases where the actual
 * allocation place is not always useful.
 */
void __ref kmemleak_update_trace(const void *ptr)
{
	struct kmemleak_object *object;
	unsigned long flags;

	pr_debug("%s(0x%p)\n", __func__, ptr);

	if (!kmemleak_enabled || IS_ERR_OR_NULL(ptr))
		return;

	object = find_and_get_object((unsigned long)ptr, 1);
	if (!object) {
#ifdef DEBUG
		kmemleak_warn("Updating stack trace for unknown object at %p\n",
			      ptr);
#endif
		return;
	}

	spin_lock_irqsave(&object->lock, flags);
	object->trace_len = __save_stack_trace(object->trace);
	spin_unlock_irqrestore(&object->lock, flags);

	put_object(object);
}
EXPORT_SYMBOL(kmemleak_update_trace);

1047 1048 1049 1050 1051 1052
/**
 * kmemleak_not_leak - mark an allocated object as false positive
 * @ptr:	pointer to beginning of the object
 *
 * Calling this function on an object will cause the memory block to no longer
 * be reported as leak and always be scanned.
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1053
 */
1054
void __ref kmemleak_not_leak(const void *ptr)
C
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1055 1056 1057
{
	pr_debug("%s(0x%p)\n", __func__, ptr);

1058
	if (kmemleak_enabled && ptr && !IS_ERR(ptr))
C
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1059
		make_gray_object((unsigned long)ptr);
1060
	else if (kmemleak_early_log)
1061
		log_early(KMEMLEAK_NOT_LEAK, ptr, 0, 0);
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1062 1063 1064
}
EXPORT_SYMBOL(kmemleak_not_leak);

1065 1066 1067 1068 1069 1070 1071 1072
/**
 * kmemleak_ignore - ignore an allocated object
 * @ptr:	pointer to beginning of the object
 *
 * Calling this function on an object will cause the memory block to be
 * ignored (not scanned and not reported as a leak). This is usually done when
 * it is known that the corresponding block is not a leak and does not contain
 * any references to other allocated memory blocks.
C
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1073
 */
1074
void __ref kmemleak_ignore(const void *ptr)
C
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1075 1076 1077
{
	pr_debug("%s(0x%p)\n", __func__, ptr);

1078
	if (kmemleak_enabled && ptr && !IS_ERR(ptr))
C
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1079
		make_black_object((unsigned long)ptr);
1080
	else if (kmemleak_early_log)
1081
		log_early(KMEMLEAK_IGNORE, ptr, 0, 0);
C
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1082 1083 1084
}
EXPORT_SYMBOL(kmemleak_ignore);

1085 1086 1087 1088 1089 1090 1091 1092 1093 1094
/**
 * kmemleak_scan_area - limit the range to be scanned in an allocated object
 * @ptr:	pointer to beginning or inside the object. This also
 *		represents the start of the scan area
 * @size:	size of the scan area
 * @gfp:	kmalloc() flags used for kmemleak internal memory allocations
 *
 * This function is used when it is known that only certain parts of an object
 * contain references to other objects. Kmemleak will only scan these areas
 * reducing the number false negatives.
C
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1095
 */
1096
void __ref kmemleak_scan_area(const void *ptr, size_t size, gfp_t gfp)
C
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1097 1098 1099
{
	pr_debug("%s(0x%p)\n", __func__, ptr);

1100
	if (kmemleak_enabled && ptr && size && !IS_ERR(ptr))
1101
		add_scan_area((unsigned long)ptr, size, gfp);
1102
	else if (kmemleak_early_log)
1103
		log_early(KMEMLEAK_SCAN_AREA, ptr, size, 0);
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1104 1105 1106
}
EXPORT_SYMBOL(kmemleak_scan_area);

1107 1108 1109 1110 1111 1112 1113 1114
/**
 * kmemleak_no_scan - do not scan an allocated object
 * @ptr:	pointer to beginning of the object
 *
 * This function notifies kmemleak not to scan the given memory block. Useful
 * in situations where it is known that the given object does not contain any
 * references to other objects. Kmemleak will not scan such objects reducing
 * the number of false negatives.
C
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 */
1116
void __ref kmemleak_no_scan(const void *ptr)
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{
	pr_debug("%s(0x%p)\n", __func__, ptr);

1120
	if (kmemleak_enabled && ptr && !IS_ERR(ptr))
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		object_no_scan((unsigned long)ptr);
1122
	else if (kmemleak_early_log)
1123
		log_early(KMEMLEAK_NO_SCAN, ptr, 0, 0);
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}
EXPORT_SYMBOL(kmemleak_no_scan);

1127 1128 1129 1130 1131 1132 1133 1134 1135 1136 1137 1138 1139 1140 1141 1142 1143 1144 1145 1146 1147 1148 1149 1150 1151 1152 1153 1154 1155 1156 1157 1158 1159 1160 1161 1162 1163 1164 1165 1166 1167 1168 1169 1170 1171
/**
 * kmemleak_alloc_phys - similar to kmemleak_alloc but taking a physical
 *			 address argument
 */
void __ref kmemleak_alloc_phys(phys_addr_t phys, size_t size, int min_count,
			       gfp_t gfp)
{
	if (!IS_ENABLED(CONFIG_HIGHMEM) || PHYS_PFN(phys) < max_low_pfn)
		kmemleak_alloc(__va(phys), size, min_count, gfp);
}
EXPORT_SYMBOL(kmemleak_alloc_phys);

/**
 * kmemleak_free_part_phys - similar to kmemleak_free_part but taking a
 *			     physical address argument
 */
void __ref kmemleak_free_part_phys(phys_addr_t phys, size_t size)
{
	if (!IS_ENABLED(CONFIG_HIGHMEM) || PHYS_PFN(phys) < max_low_pfn)
		kmemleak_free_part(__va(phys), size);
}
EXPORT_SYMBOL(kmemleak_free_part_phys);

/**
 * kmemleak_not_leak_phys - similar to kmemleak_not_leak but taking a physical
 *			    address argument
 */
void __ref kmemleak_not_leak_phys(phys_addr_t phys)
{
	if (!IS_ENABLED(CONFIG_HIGHMEM) || PHYS_PFN(phys) < max_low_pfn)
		kmemleak_not_leak(__va(phys));
}
EXPORT_SYMBOL(kmemleak_not_leak_phys);

/**
 * kmemleak_ignore_phys - similar to kmemleak_ignore but taking a physical
 *			  address argument
 */
void __ref kmemleak_ignore_phys(phys_addr_t phys)
{
	if (!IS_ENABLED(CONFIG_HIGHMEM) || PHYS_PFN(phys) < max_low_pfn)
		kmemleak_ignore(__va(phys));
}
EXPORT_SYMBOL(kmemleak_ignore_phys);

1172 1173 1174 1175 1176 1177 1178 1179 1180 1181
/*
 * Update an object's checksum and return true if it was modified.
 */
static bool update_checksum(struct kmemleak_object *object)
{
	u32 old_csum = object->checksum;

	if (!kmemcheck_is_obj_initialized(object->pointer, object->size))
		return false;

1182
	kasan_disable_current();
1183
	object->checksum = crc32(0, (void *)object->pointer, object->size);
1184 1185
	kasan_enable_current();

1186 1187 1188
	return object->checksum != old_csum;
}

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/*
 * Memory scanning is a long process and it needs to be interruptable. This
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 * function checks whether such interrupt condition occurred.
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 */
static int scan_should_stop(void)
{
1195
	if (!kmemleak_enabled)
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		return 1;

	/*
	 * This function may be called from either process or kthread context,
	 * hence the need to check for both stop conditions.
	 */
	if (current->mm)
		return signal_pending(current);
	else
		return kthread_should_stop();

	return 0;
}

/*
 * Scan a memory block (exclusive range) for valid pointers and add those
 * found to the gray list.
 */
static void scan_block(void *_start, void *_end,
1215
		       struct kmemleak_object *scanned)
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{
	unsigned long *ptr;
	unsigned long *start = PTR_ALIGN(_start, BYTES_PER_POINTER);
	unsigned long *end = _end - (BYTES_PER_POINTER - 1);
1220
	unsigned long flags;
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1222
	read_lock_irqsave(&kmemleak_lock, flags);
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	for (ptr = start; ptr < end; ptr++) {
		struct kmemleak_object *object;
1225
		unsigned long pointer;
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		if (scan_should_stop())
			break;

1230 1231 1232 1233 1234
		/* don't scan uninitialized memory */
		if (!kmemcheck_is_obj_initialized((unsigned long)ptr,
						  BYTES_PER_POINTER))
			continue;

1235
		kasan_disable_current();
1236
		pointer = *ptr;
1237
		kasan_enable_current();
1238

1239 1240 1241 1242 1243 1244 1245 1246 1247 1248
		if (pointer < min_addr || pointer >= max_addr)
			continue;

		/*
		 * No need for get_object() here since we hold kmemleak_lock.
		 * object->use_count cannot be dropped to 0 while the object
		 * is still present in object_tree_root and object_list
		 * (with updates protected by kmemleak_lock).
		 */
		object = lookup_object(pointer, 1);
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		if (!object)
			continue;
1251
		if (object == scanned)
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			/* self referenced, ignore */
			continue;

		/*
		 * Avoid the lockdep recursive warning on object->lock being
		 * previously acquired in scan_object(). These locks are
		 * enclosed by scan_mutex.
		 */
1260
		spin_lock_nested(&object->lock, SINGLE_DEPTH_NESTING);
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		if (!color_white(object)) {
			/* non-orphan, ignored or new */
1263
			spin_unlock(&object->lock);
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			continue;
		}

		/*
		 * Increase the object's reference count (number of pointers
		 * to the memory block). If this count reaches the required
		 * minimum, the object's color will become gray and it will be
		 * added to the gray_list.
		 */
		object->count++;
1274
		if (color_gray(object)) {
1275 1276
			/* put_object() called when removing from gray_list */
			WARN_ON(!get_object(object));
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			list_add_tail(&object->gray_list, &gray_list);
1278
		}
1279 1280 1281 1282
		spin_unlock(&object->lock);
	}
	read_unlock_irqrestore(&kmemleak_lock, flags);
}
1283

1284 1285 1286 1287 1288 1289 1290 1291 1292 1293 1294 1295
/*
 * Scan a large memory block in MAX_SCAN_SIZE chunks to reduce the latency.
 */
static void scan_large_block(void *start, void *end)
{
	void *next;

	while (start < end) {
		next = min(start + MAX_SCAN_SIZE, end);
		scan_block(start, next, NULL);
		start = next;
		cond_resched();
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	}
}

/*
 * Scan a memory block corresponding to a kmemleak_object. A condition is
 * that object->use_count >= 1.
 */
static void scan_object(struct kmemleak_object *object)
{
	struct kmemleak_scan_area *area;
	unsigned long flags;

	/*
1309 1310
	 * Once the object->lock is acquired, the corresponding memory block
	 * cannot be freed (the same lock is acquired in delete_object).
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	 */
	spin_lock_irqsave(&object->lock, flags);
	if (object->flags & OBJECT_NO_SCAN)
		goto out;
	if (!(object->flags & OBJECT_ALLOCATED))
		/* already freed object */
		goto out;
1318 1319 1320
	if (hlist_empty(&object->area_list)) {
		void *start = (void *)object->pointer;
		void *end = (void *)(object->pointer + object->size);
1321 1322 1323 1324 1325
		void *next;

		do {
			next = min(start + MAX_SCAN_SIZE, end);
			scan_block(start, next, object);
1326

1327 1328 1329
			start = next;
			if (start >= end)
				break;
1330 1331 1332 1333

			spin_unlock_irqrestore(&object->lock, flags);
			cond_resched();
			spin_lock_irqsave(&object->lock, flags);
1334
		} while (object->flags & OBJECT_ALLOCATED);
1335
	} else
1336
		hlist_for_each_entry(area, &object->area_list, node)
1337 1338
			scan_block((void *)area->start,
				   (void *)(area->start + area->size),
1339
				   object);
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out:
	spin_unlock_irqrestore(&object->lock, flags);
}

1344 1345 1346 1347 1348 1349 1350 1351 1352 1353 1354 1355 1356 1357 1358 1359 1360 1361 1362 1363 1364 1365 1366 1367 1368 1369 1370 1371 1372 1373 1374 1375 1376
/*
 * Scan the objects already referenced (gray objects). More objects will be
 * referenced and, if there are no memory leaks, all the objects are scanned.
 */
static void scan_gray_list(void)
{
	struct kmemleak_object *object, *tmp;

	/*
	 * The list traversal is safe for both tail additions and removals
	 * from inside the loop. The kmemleak objects cannot be freed from
	 * outside the loop because their use_count was incremented.
	 */
	object = list_entry(gray_list.next, typeof(*object), gray_list);
	while (&object->gray_list != &gray_list) {
		cond_resched();

		/* may add new objects to the list */
		if (!scan_should_stop())
			scan_object(object);

		tmp = list_entry(object->gray_list.next, typeof(*object),
				 gray_list);

		/* remove the object from the list and release it */
		list_del(&object->gray_list);
		put_object(object);

		object = tmp;
	}
	WARN_ON(!list_empty(&gray_list));
}

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/*
 * Scan data sections and all the referenced memory blocks allocated via the
 * kernel's standard allocators. This function must be called with the
 * scan_mutex held.
 */
static void kmemleak_scan(void)
{
	unsigned long flags;
1385
	struct kmemleak_object *object;
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	int i;
1387
	int new_leaks = 0;
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1389 1390
	jiffies_last_scan = jiffies;

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	/* prepare the kmemleak_object's */
	rcu_read_lock();
	list_for_each_entry_rcu(object, &object_list, object_list) {
		spin_lock_irqsave(&object->lock, flags);
#ifdef DEBUG
		/*
		 * With a few exceptions there should be a maximum of
		 * 1 reference to any object at this point.
		 */
		if (atomic_read(&object->use_count) > 1) {
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			pr_debug("object->use_count = %d\n",
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				 atomic_read(&object->use_count));
			dump_object_info(object);
		}
#endif
		/* reset the reference count (whiten the object) */
		object->count = 0;
		if (color_gray(object) && get_object(object))
			list_add_tail(&object->gray_list, &gray_list);

		spin_unlock_irqrestore(&object->lock, flags);
	}
	rcu_read_unlock();

	/* data/bss scanning */
1416 1417
	scan_large_block(_sdata, _edata);
	scan_large_block(__bss_start, __bss_stop);
1418
	scan_large_block(__start_data_ro_after_init, __end_data_ro_after_init);
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#ifdef CONFIG_SMP
	/* per-cpu sections scanning */
	for_each_possible_cpu(i)
1423 1424
		scan_large_block(__per_cpu_start + per_cpu_offset(i),
				 __per_cpu_end + per_cpu_offset(i));
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#endif

	/*
1428
	 * Struct page scanning for each node.
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	 */
1430
	get_online_mems();
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	for_each_online_node(i) {
1432 1433
		unsigned long start_pfn = node_start_pfn(i);
		unsigned long end_pfn = node_end_pfn(i);
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		unsigned long pfn;

		for (pfn = start_pfn; pfn < end_pfn; pfn++) {
			struct page *page;

			if (!pfn_valid(pfn))
				continue;
			page = pfn_to_page(pfn);
			/* only scan if page is in use */
			if (page_count(page) == 0)
				continue;
1445
			scan_block(page, page + 1, NULL);
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		}
	}
1448
	put_online_mems();
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1449 1450

	/*
1451
	 * Scanning the task stacks (may introduce false negatives).
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	 */
	if (kmemleak_stack_scan) {
1454 1455
		struct task_struct *p, *g;

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		read_lock(&tasklist_lock);
1457
		do_each_thread(g, p) {
1458 1459 1460 1461 1462
			void *stack = try_get_task_stack(p);
			if (stack) {
				scan_block(stack, stack + THREAD_SIZE, NULL);
				put_task_stack(p);
			}
1463
		} while_each_thread(g, p);
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		read_unlock(&tasklist_lock);
	}

	/*
	 * Scan the objects already referenced from the sections scanned
1469
	 * above.
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	 */
1471
	scan_gray_list();
1472 1473

	/*
1474 1475
	 * Check for new or unreferenced objects modified since the previous
	 * scan and color them gray until the next scan.
1476 1477 1478 1479
	 */
	rcu_read_lock();
	list_for_each_entry_rcu(object, &object_list, object_list) {
		spin_lock_irqsave(&object->lock, flags);
1480 1481 1482 1483
		if (color_white(object) && (object->flags & OBJECT_ALLOCATED)
		    && update_checksum(object) && get_object(object)) {
			/* color it gray temporarily */
			object->count = object->min_count;
1484 1485 1486 1487 1488 1489
			list_add_tail(&object->gray_list, &gray_list);
		}
		spin_unlock_irqrestore(&object->lock, flags);
	}
	rcu_read_unlock();

1490 1491 1492 1493
	/*
	 * Re-scan the gray list for modified unreferenced objects.
	 */
	scan_gray_list();
1494

1495
	/*
1496
	 * If scanning was stopped do not report any new unreferenced objects.
1497
	 */
1498
	if (scan_should_stop())
1499 1500
		return;

1501 1502 1503 1504 1505 1506 1507 1508 1509 1510 1511 1512 1513 1514 1515
	/*
	 * Scanning result reporting.
	 */
	rcu_read_lock();
	list_for_each_entry_rcu(object, &object_list, object_list) {
		spin_lock_irqsave(&object->lock, flags);
		if (unreferenced_object(object) &&
		    !(object->flags & OBJECT_REPORTED)) {
			object->flags |= OBJECT_REPORTED;
			new_leaks++;
		}
		spin_unlock_irqrestore(&object->lock, flags);
	}
	rcu_read_unlock();

1516 1517 1518
	if (new_leaks) {
		kmemleak_found_leaks = true;

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1519 1520
		pr_info("%d new suspected memory leaks (see /sys/kernel/debug/kmemleak)\n",
			new_leaks);
1521
	}
1522

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}

/*
 * Thread function performing automatic memory scanning. Unreferenced objects
 * at the end of a memory scan are reported but only the first time.
 */
static int kmemleak_scan_thread(void *arg)
{
	static int first_run = 1;

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1533
	pr_info("Automatic memory scanning thread started\n");
1534
	set_user_nice(current, 10);
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	/*
	 * Wait before the first scan to allow the system to fully initialize.
	 */
	if (first_run) {
1540
		signed long timeout = msecs_to_jiffies(SECS_FIRST_SCAN * 1000);
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		first_run = 0;
1542 1543
		while (timeout && !kthread_should_stop())
			timeout = schedule_timeout_interruptible(timeout);
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	}

	while (!kthread_should_stop()) {
		signed long timeout = jiffies_scan_wait;

		mutex_lock(&scan_mutex);
		kmemleak_scan();
		mutex_unlock(&scan_mutex);
1552

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		/* wait before the next scan */
		while (timeout && !kthread_should_stop())
			timeout = schedule_timeout_interruptible(timeout);
	}

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	pr_info("Automatic memory scanning thread ended\n");
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	return 0;
}

/*
 * Start the automatic memory scanning thread. This function must be called
1565
 * with the scan_mutex held.
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 */
1567
static void start_scan_thread(void)
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{
	if (scan_thread)
		return;
	scan_thread = kthread_run(kmemleak_scan_thread, NULL, "kmemleak");
	if (IS_ERR(scan_thread)) {
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		pr_warn("Failed to create the scan thread\n");
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		scan_thread = NULL;
	}
}

/*
 * Stop the automatic memory scanning thread. This function must be called
1580
 * with the scan_mutex held.
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 */
1582
static void stop_scan_thread(void)
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{
	if (scan_thread) {
		kthread_stop(scan_thread);
		scan_thread = NULL;
	}
}

/*
 * Iterate over the object_list and return the first valid object at or after
 * the required position with its use_count incremented. The function triggers
 * a memory scanning when the pos argument points to the first position.
 */
static void *kmemleak_seq_start(struct seq_file *seq, loff_t *pos)
{
	struct kmemleak_object *object;
	loff_t n = *pos;
1599 1600 1601 1602 1603
	int err;

	err = mutex_lock_interruptible(&scan_mutex);
	if (err < 0)
		return ERR_PTR(err);
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	rcu_read_lock();
	list_for_each_entry_rcu(object, &object_list, object_list) {
		if (n-- > 0)
			continue;
		if (get_object(object))
			goto out;
	}
	object = NULL;
out:
	return object;
}

/*
 * Return the next object in the object_list. The function decrements the
 * use_count of the previous object and increases that of the next one.
 */
static void *kmemleak_seq_next(struct seq_file *seq, void *v, loff_t *pos)
{
	struct kmemleak_object *prev_obj = v;
	struct kmemleak_object *next_obj = NULL;
1625
	struct kmemleak_object *obj = prev_obj;
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	++(*pos);

1629
	list_for_each_entry_continue_rcu(obj, &object_list, object_list) {
1630 1631
		if (get_object(obj)) {
			next_obj = obj;
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			break;
1633
		}
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1634
	}
1635

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	put_object(prev_obj);
	return next_obj;
}

/*
 * Decrement the use_count of the last object required, if any.
 */
static void kmemleak_seq_stop(struct seq_file *seq, void *v)
{
1645 1646 1647 1648 1649
	if (!IS_ERR(v)) {
		/*
		 * kmemleak_seq_start may return ERR_PTR if the scan_mutex
		 * waiting was interrupted, so only release it if !IS_ERR.
		 */
1650
		rcu_read_unlock();
1651 1652 1653 1654
		mutex_unlock(&scan_mutex);
		if (v)
			put_object(v);
	}
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}

/*
 * Print the information for an unreferenced object to the seq file.
 */
static int kmemleak_seq_show(struct seq_file *seq, void *v)
{
	struct kmemleak_object *object = v;
	unsigned long flags;

	spin_lock_irqsave(&object->lock, flags);
1666
	if ((object->flags & OBJECT_REPORTED) && unreferenced_object(object))
1667
		print_unreferenced(seq, object);
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	spin_unlock_irqrestore(&object->lock, flags);
	return 0;
}

static const struct seq_operations kmemleak_seq_ops = {
	.start = kmemleak_seq_start,
	.next  = kmemleak_seq_next,
	.stop  = kmemleak_seq_stop,
	.show  = kmemleak_seq_show,
};

static int kmemleak_open(struct inode *inode, struct file *file)
{
1681
	return seq_open(file, &kmemleak_seq_ops);
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}

1684 1685 1686 1687 1688 1689
static int dump_str_object_info(const char *str)
{
	unsigned long flags;
	struct kmemleak_object *object;
	unsigned long addr;

1690 1691
	if (kstrtoul(str, 0, &addr))
		return -EINVAL;
1692 1693 1694 1695 1696 1697 1698 1699 1700 1701 1702 1703 1704 1705
	object = find_and_get_object(addr, 0);
	if (!object) {
		pr_info("Unknown object at 0x%08lx\n", addr);
		return -EINVAL;
	}

	spin_lock_irqsave(&object->lock, flags);
	dump_object_info(object);
	spin_unlock_irqrestore(&object->lock, flags);

	put_object(object);
	return 0;
}

1706 1707 1708 1709 1710 1711 1712 1713 1714 1715 1716 1717 1718 1719 1720 1721
/*
 * We use grey instead of black to ensure we can do future scans on the same
 * objects. If we did not do future scans these black objects could
 * potentially contain references to newly allocated objects in the future and
 * we'd end up with false positives.
 */
static void kmemleak_clear(void)
{
	struct kmemleak_object *object;
	unsigned long flags;

	rcu_read_lock();
	list_for_each_entry_rcu(object, &object_list, object_list) {
		spin_lock_irqsave(&object->lock, flags);
		if ((object->flags & OBJECT_REPORTED) &&
		    unreferenced_object(object))
1722
			__paint_it(object, KMEMLEAK_GREY);
1723 1724 1725
		spin_unlock_irqrestore(&object->lock, flags);
	}
	rcu_read_unlock();
1726 1727

	kmemleak_found_leaks = false;
1728 1729
}

1730 1731
static void __kmemleak_do_cleanup(void);

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/*
 * File write operation to configure kmemleak at run-time. The following
 * commands can be written to the /sys/kernel/debug/kmemleak file:
 *   off	- disable kmemleak (irreversible)
 *   stack=on	- enable the task stacks scanning
 *   stack=off	- disable the tasks stacks scanning
 *   scan=on	- start the automatic memory scanning thread
 *   scan=off	- stop the automatic memory scanning thread
 *   scan=...	- set the automatic memory scanning period in seconds (0 to
 *		  disable it)
1742
 *   scan	- trigger a memory scan
1743
 *   clear	- mark all current reported unreferenced kmemleak objects as
1744 1745
 *		  grey to ignore printing them, or free all kmemleak objects
 *		  if kmemleak has been disabled.
1746
 *   dump=...	- dump information about the object found at the given address
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 */
static ssize_t kmemleak_write(struct file *file, const char __user *user_buf,
			      size_t size, loff_t *ppos)
{
	char buf[64];
	int buf_size;
1753
	int ret;
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	buf_size = min(size, (sizeof(buf) - 1));
	if (strncpy_from_user(buf, user_buf, buf_size) < 0)
		return -EFAULT;
	buf[buf_size] = 0;

1760 1761 1762 1763
	ret = mutex_lock_interruptible(&scan_mutex);
	if (ret < 0)
		return ret;

1764
	if (strncmp(buf, "clear", 5) == 0) {
1765
		if (kmemleak_enabled)
1766 1767 1768 1769 1770 1771
			kmemleak_clear();
		else
			__kmemleak_do_cleanup();
		goto out;
	}

1772
	if (!kmemleak_enabled) {
1773 1774 1775 1776
		ret = -EBUSY;
		goto out;
	}

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	if (strncmp(buf, "off", 3) == 0)
		kmemleak_disable();
	else if (strncmp(buf, "stack=on", 8) == 0)
		kmemleak_stack_scan = 1;
	else if (strncmp(buf, "stack=off", 9) == 0)
		kmemleak_stack_scan = 0;
	else if (strncmp(buf, "scan=on", 7) == 0)
		start_scan_thread();
	else if (strncmp(buf, "scan=off", 8) == 0)
		stop_scan_thread();
	else if (strncmp(buf, "scan=", 5) == 0) {
		unsigned long secs;

1790
		ret = kstrtoul(buf + 5, 0, &secs);
1791 1792
		if (ret < 0)
			goto out;
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		stop_scan_thread();
		if (secs) {
			jiffies_scan_wait = msecs_to_jiffies(secs * 1000);
			start_scan_thread();
		}
1798 1799
	} else if (strncmp(buf, "scan", 4) == 0)
		kmemleak_scan();
1800 1801
	else if (strncmp(buf, "dump=", 5) == 0)
		ret = dump_str_object_info(buf + 5);
1802
	else
1803 1804 1805 1806 1807 1808
		ret = -EINVAL;

out:
	mutex_unlock(&scan_mutex);
	if (ret < 0)
		return ret;
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	/* ignore the rest of the buffer, only one command at a time */
	*ppos += size;
	return size;
}

static const struct file_operations kmemleak_fops = {
	.owner		= THIS_MODULE,
	.open		= kmemleak_open,
	.read		= seq_read,
	.write		= kmemleak_write,
	.llseek		= seq_lseek,
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	.release	= seq_release,
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};

1824 1825 1826 1827 1828 1829 1830 1831 1832 1833
static void __kmemleak_do_cleanup(void)
{
	struct kmemleak_object *object;

	rcu_read_lock();
	list_for_each_entry_rcu(object, &object_list, object_list)
		delete_object_full(object->pointer);
	rcu_read_unlock();
}

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/*
1835 1836 1837
 * Stop the memory scanning thread and free the kmemleak internal objects if
 * no previous scan thread (otherwise, kmemleak may still have some useful
 * information on memory leaks).
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 */
1839
static void kmemleak_do_cleanup(struct work_struct *work)
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{
	stop_scan_thread();

1843 1844 1845 1846 1847 1848 1849
	/*
	 * Once the scan thread has stopped, it is safe to no longer track
	 * object freeing. Ordering of the scan thread stopping and the memory
	 * accesses below is guaranteed by the kthread_stop() function.
	 */
	kmemleak_free_enabled = 0;

1850 1851 1852
	if (!kmemleak_found_leaks)
		__kmemleak_do_cleanup();
	else
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		pr_info("Kmemleak disabled without freeing internal data. Reclaim the memory with \"echo clear > /sys/kernel/debug/kmemleak\".\n");
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}

1856
static DECLARE_WORK(cleanup_work, kmemleak_do_cleanup);
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/*
 * Disable kmemleak. No memory allocation/freeing will be traced once this
 * function is called. Disabling kmemleak is an irreversible operation.
 */
static void kmemleak_disable(void)
{
	/* atomically check whether it was already invoked */
1865
	if (cmpxchg(&kmemleak_error, 0, 1))
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		return;

	/* stop any memory operation tracing */
1869
	kmemleak_enabled = 0;
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	/* check whether it is too early for a kernel thread */
1872
	if (kmemleak_initialized)
1873
		schedule_work(&cleanup_work);
1874 1875
	else
		kmemleak_free_enabled = 0;
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	pr_info("Kernel memory leak detector disabled\n");
}

/*
 * Allow boot-time kmemleak disabling (enabled by default).
 */
static int kmemleak_boot_config(char *str)
{
	if (!str)
		return -EINVAL;
	if (strcmp(str, "off") == 0)
		kmemleak_disable();
1889 1890 1891
	else if (strcmp(str, "on") == 0)
		kmemleak_skip_disable = 1;
	else
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		return -EINVAL;
	return 0;
}
early_param("kmemleak", kmemleak_boot_config);

1897 1898 1899 1900 1901 1902 1903 1904 1905 1906 1907
static void __init print_log_trace(struct early_log *log)
{
	struct stack_trace trace;

	trace.nr_entries = log->trace_len;
	trace.entries = log->trace;

	pr_notice("Early log backtrace:\n");
	print_stack_trace(&trace, 2);
}

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/*
1909
 * Kmemleak initialization.
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 */
void __init kmemleak_init(void)
{
	int i;
	unsigned long flags;

1916 1917
#ifdef CONFIG_DEBUG_KMEMLEAK_DEFAULT_OFF
	if (!kmemleak_skip_disable) {
1918
		kmemleak_early_log = 0;
1919 1920 1921 1922 1923
		kmemleak_disable();
		return;
	}
#endif

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	jiffies_min_age = msecs_to_jiffies(MSECS_MIN_AGE);
	jiffies_scan_wait = msecs_to_jiffies(SECS_SCAN_WAIT * 1000);

	object_cache = KMEM_CACHE(kmemleak_object, SLAB_NOLEAKTRACE);
	scan_area_cache = KMEM_CACHE(kmemleak_scan_area, SLAB_NOLEAKTRACE);

1930
	if (crt_early_log > ARRAY_SIZE(early_log))
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		pr_warn("Early log buffer exceeded (%d), please increase DEBUG_KMEMLEAK_EARLY_LOG_SIZE\n",
			crt_early_log);
1933

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	/* the kernel is still in UP mode, so disabling the IRQs is enough */
	local_irq_save(flags);
1936
	kmemleak_early_log = 0;
1937
	if (kmemleak_error) {
1938 1939
		local_irq_restore(flags);
		return;
1940
	} else {
1941
		kmemleak_enabled = 1;
1942 1943
		kmemleak_free_enabled = 1;
	}
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	local_irq_restore(flags);

	/*
	 * This is the point where tracking allocations is safe. Automatic
	 * scanning is started during the late initcall. Add the early logged
	 * callbacks to the kmemleak infrastructure.
	 */
	for (i = 0; i < crt_early_log; i++) {
		struct early_log *log = &early_log[i];

		switch (log->op_type) {
		case KMEMLEAK_ALLOC:
1956
			early_alloc(log);
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			break;
1958 1959 1960
		case KMEMLEAK_ALLOC_PERCPU:
			early_alloc_percpu(log);
			break;
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		case KMEMLEAK_FREE:
			kmemleak_free(log->ptr);
			break;
1964 1965 1966
		case KMEMLEAK_FREE_PART:
			kmemleak_free_part(log->ptr, log->size);
			break;
1967 1968 1969
		case KMEMLEAK_FREE_PERCPU:
			kmemleak_free_percpu(log->ptr);
			break;
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		case KMEMLEAK_NOT_LEAK:
			kmemleak_not_leak(log->ptr);
			break;
		case KMEMLEAK_IGNORE:
			kmemleak_ignore(log->ptr);
			break;
		case KMEMLEAK_SCAN_AREA:
1977
			kmemleak_scan_area(log->ptr, log->size, GFP_KERNEL);
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			break;
		case KMEMLEAK_NO_SCAN:
			kmemleak_no_scan(log->ptr);
			break;
		default:
1983 1984 1985 1986
			kmemleak_warn("Unknown early log operation: %d\n",
				      log->op_type);
		}

1987
		if (kmemleak_warning) {
1988
			print_log_trace(log);
1989
			kmemleak_warning = 0;
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		}
	}
}

/*
 * Late initialization function.
 */
static int __init kmemleak_late_init(void)
{
	struct dentry *dentry;

2001
	kmemleak_initialized = 1;
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2003
	if (kmemleak_error) {
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2004
		/*
L
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2005
		 * Some error occurred and kmemleak was disabled. There is a
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		 * small chance that kmemleak_disable() was called immediately
		 * after setting kmemleak_initialized and we may end up with
		 * two clean-up threads but serialized by scan_mutex.
		 */
2010
		schedule_work(&cleanup_work);
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		return -ENOMEM;
	}

	dentry = debugfs_create_file("kmemleak", S_IRUGO, NULL, NULL,
				     &kmemleak_fops);
	if (!dentry)
J
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2017
		pr_warn("Failed to create the debugfs kmemleak file\n");
2018
	mutex_lock(&scan_mutex);
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	start_scan_thread();
2020
	mutex_unlock(&scan_mutex);
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	pr_info("Kernel memory leak detector initialized\n");

	return 0;
}
late_initcall(kmemleak_late_init);