Commit ae39e0bd authored by Ingo Molnar's avatar Ingo Molnar

Merge branch 'locking/core' into locking/urgent, to pick up pending commits

Merge all pending locking commits into a single branch.
Signed-off-by: default avatarIngo Molnar <mingo@kernel.org>
parents 1d7f856c d00b83d4
.. SPDX-License-Identifier: GPL-2.0
===========================
Scope-based Cleanup Helpers
===========================
.. kernel-doc:: include/linux/cleanup.h
:doc: scope-based cleanup helpers
......@@ -35,6 +35,7 @@ Library functionality that is used throughout the kernel.
kobject
kref
cleanup
assoc_array
xarray
maple_tree
......
......@@ -163,20 +163,18 @@ static __always_inline s64 arch_atomic64_dec_return(atomic64_t *v)
}
#define arch_atomic64_dec_return arch_atomic64_dec_return
static __always_inline s64 arch_atomic64_add(s64 i, atomic64_t *v)
static __always_inline void arch_atomic64_add(s64 i, atomic64_t *v)
{
__alternative_atomic64(add, add_return,
ASM_OUTPUT2("+A" (i), "+c" (v)),
ASM_NO_INPUT_CLOBBER("memory"));
return i;
}
static __always_inline s64 arch_atomic64_sub(s64 i, atomic64_t *v)
static __always_inline void arch_atomic64_sub(s64 i, atomic64_t *v)
{
__alternative_atomic64(sub, sub_return,
ASM_OUTPUT2("+A" (i), "+c" (v)),
ASM_NO_INPUT_CLOBBER("memory"));
return i;
}
static __always_inline void arch_atomic64_inc(atomic64_t *v)
......
......@@ -16,6 +16,11 @@
cmpxchg8b (\reg)
.endm
.macro read64_nonatomic reg
movl (\reg), %eax
movl 4(\reg), %edx
.endm
SYM_FUNC_START(atomic64_read_cx8)
read64 %ecx
RET
......@@ -51,7 +56,7 @@ SYM_FUNC_START(atomic64_\func\()_return_cx8)
movl %edx, %edi
movl %ecx, %ebp
read64 %ecx
read64_nonatomic %ecx
1:
movl %eax, %ebx
movl %edx, %ecx
......@@ -79,7 +84,7 @@ addsub_return sub sub sbb
SYM_FUNC_START(atomic64_\func\()_return_cx8)
pushl %ebx
read64 %esi
read64_nonatomic %esi
1:
movl %eax, %ebx
movl %edx, %ecx
......
......@@ -4,6 +4,142 @@
#include <linux/compiler.h>
/**
* DOC: scope-based cleanup helpers
*
* The "goto error" pattern is notorious for introducing subtle resource
* leaks. It is tedious and error prone to add new resource acquisition
* constraints into code paths that already have several unwind
* conditions. The "cleanup" helpers enable the compiler to help with
* this tedium and can aid in maintaining LIFO (last in first out)
* unwind ordering to avoid unintentional leaks.
*
* As drivers make up the majority of the kernel code base, here is an
* example of using these helpers to clean up PCI drivers. The target of
* the cleanups are occasions where a goto is used to unwind a device
* reference (pci_dev_put()), or unlock the device (pci_dev_unlock())
* before returning.
*
* The DEFINE_FREE() macro can arrange for PCI device references to be
* dropped when the associated variable goes out of scope::
*
* DEFINE_FREE(pci_dev_put, struct pci_dev *, if (_T) pci_dev_put(_T))
* ...
* struct pci_dev *dev __free(pci_dev_put) =
* pci_get_slot(parent, PCI_DEVFN(0, 0));
*
* The above will automatically call pci_dev_put() if @dev is non-NULL
* when @dev goes out of scope (automatic variable scope). If a function
* wants to invoke pci_dev_put() on error, but return @dev (i.e. without
* freeing it) on success, it can do::
*
* return no_free_ptr(dev);
*
* ...or::
*
* return_ptr(dev);
*
* The DEFINE_GUARD() macro can arrange for the PCI device lock to be
* dropped when the scope where guard() is invoked ends::
*
* DEFINE_GUARD(pci_dev, struct pci_dev *, pci_dev_lock(_T), pci_dev_unlock(_T))
* ...
* guard(pci_dev)(dev);
*
* The lifetime of the lock obtained by the guard() helper follows the
* scope of automatic variable declaration. Take the following example::
*
* func(...)
* {
* if (...) {
* ...
* guard(pci_dev)(dev); // pci_dev_lock() invoked here
* ...
* } // <- implied pci_dev_unlock() triggered here
* }
*
* Observe the lock is held for the remainder of the "if ()" block not
* the remainder of "func()".
*
* Now, when a function uses both __free() and guard(), or multiple
* instances of __free(), the LIFO order of variable definition order
* matters. GCC documentation says:
*
* "When multiple variables in the same scope have cleanup attributes,
* at exit from the scope their associated cleanup functions are run in
* reverse order of definition (last defined, first cleanup)."
*
* When the unwind order matters it requires that variables be defined
* mid-function scope rather than at the top of the file. Take the
* following example and notice the bug highlighted by "!!"::
*
* LIST_HEAD(list);
* DEFINE_MUTEX(lock);
*
* struct object {
* struct list_head node;
* };
*
* static struct object *alloc_add(void)
* {
* struct object *obj;
*
* lockdep_assert_held(&lock);
* obj = kzalloc(sizeof(*obj), GFP_KERNEL);
* if (obj) {
* LIST_HEAD_INIT(&obj->node);
* list_add(obj->node, &list):
* }
* return obj;
* }
*
* static void remove_free(struct object *obj)
* {
* lockdep_assert_held(&lock);
* list_del(&obj->node);
* kfree(obj);
* }
*
* DEFINE_FREE(remove_free, struct object *, if (_T) remove_free(_T))
* static int init(void)
* {
* struct object *obj __free(remove_free) = NULL;
* int err;
*
* guard(mutex)(&lock);
* obj = alloc_add();
*
* if (!obj)
* return -ENOMEM;
*
* err = other_init(obj);
* if (err)
* return err; // remove_free() called without the lock!!
*
* no_free_ptr(obj);
* return 0;
* }
*
* That bug is fixed by changing init() to call guard() and define +
* initialize @obj in this order::
*
* guard(mutex)(&lock);
* struct object *obj __free(remove_free) = alloc_add();
*
* Given that the "__free(...) = NULL" pattern for variables defined at
* the top of the function poses this potential interdependency problem
* the recommendation is to always define and assign variables in one
* statement and not group variable definitions at the top of the
* function when __free() is used.
*
* Lastly, given that the benefit of cleanup helpers is removal of
* "goto", and that the "goto" statement can jump between scopes, the
* expectation is that usage of "goto" and cleanup helpers is never
* mixed in the same function. I.e. for a given routine, convert all
* resources that need a "goto" cleanup to scope-based cleanup, or
* convert none of them.
*/
/*
* DEFINE_FREE(name, type, free):
* simple helper macro that defines the required wrapper for a __free()
......
......@@ -785,7 +785,7 @@ static void lockdep_print_held_locks(struct task_struct *p)
printk("no locks held by %s/%d.\n", p->comm, task_pid_nr(p));
else
printk("%d lock%s held by %s/%d:\n", depth,
depth > 1 ? "s" : "", p->comm, task_pid_nr(p));
str_plural(depth), p->comm, task_pid_nr(p));
/*
* It's not reliable to print a task's held locks if it's not sleeping
* and it's not the current task.
......@@ -2067,6 +2067,9 @@ static noinline void print_bfs_bug(int ret)
/*
* Breadth-first-search failed, graph got corrupted?
*/
if (ret == BFS_EQUEUEFULL)
pr_warn("Increase LOCKDEP_CIRCULAR_QUEUE_BITS to avoid this warning:\n");
WARN(1, "lockdep bfs error:%d\n", ret);
}
......@@ -6196,25 +6199,27 @@ static struct pending_free *get_pending_free(void)
static void free_zapped_rcu(struct rcu_head *cb);
/*
* Schedule an RCU callback if no RCU callback is pending. Must be called with
* the graph lock held.
*/
static void call_rcu_zapped(struct pending_free *pf)
* See if we need to queue an RCU callback, must called with
* the lockdep lock held, returns false if either we don't have
* any pending free or the callback is already scheduled.
* Otherwise, a call_rcu() must follow this function call.
*/
static bool prepare_call_rcu_zapped(struct pending_free *pf)
{
WARN_ON_ONCE(inside_selftest());
if (list_empty(&pf->zapped))
return;
return false;
if (delayed_free.scheduled)
return;
return false;
delayed_free.scheduled = true;
WARN_ON_ONCE(delayed_free.pf + delayed_free.index != pf);
delayed_free.index ^= 1;
call_rcu(&delayed_free.rcu_head, free_zapped_rcu);
return true;
}
/* The caller must hold the graph lock. May be called from RCU context. */
......@@ -6240,6 +6245,7 @@ static void free_zapped_rcu(struct rcu_head *ch)
{
struct pending_free *pf;
unsigned long flags;
bool need_callback;
if (WARN_ON_ONCE(ch != &delayed_free.rcu_head))
return;
......@@ -6251,14 +6257,18 @@ static void free_zapped_rcu(struct rcu_head *ch)
pf = delayed_free.pf + (delayed_free.index ^ 1);
__free_zapped_classes(pf);
delayed_free.scheduled = false;
need_callback =
prepare_call_rcu_zapped(delayed_free.pf + delayed_free.index);
lockdep_unlock();
raw_local_irq_restore(flags);
/*
* If there's anything on the open list, close and start a new callback.
* If there's pending free and its callback has not been scheduled,
* queue an RCU callback.
*/
call_rcu_zapped(delayed_free.pf + delayed_free.index);
if (need_callback)
call_rcu(&delayed_free.rcu_head, free_zapped_rcu);
lockdep_unlock();
raw_local_irq_restore(flags);
}
/*
......@@ -6298,6 +6308,7 @@ static void lockdep_free_key_range_reg(void *start, unsigned long size)
{
struct pending_free *pf;
unsigned long flags;
bool need_callback;
init_data_structures_once();
......@@ -6305,10 +6316,11 @@ static void lockdep_free_key_range_reg(void *start, unsigned long size)
lockdep_lock();
pf = get_pending_free();
__lockdep_free_key_range(pf, start, size);
call_rcu_zapped(pf);
need_callback = prepare_call_rcu_zapped(pf);
lockdep_unlock();
raw_local_irq_restore(flags);
if (need_callback)
call_rcu(&delayed_free.rcu_head, free_zapped_rcu);
/*
* Wait for any possible iterators from look_up_lock_class() to pass
* before continuing to free the memory they refer to.
......@@ -6402,6 +6414,7 @@ static void lockdep_reset_lock_reg(struct lockdep_map *lock)
struct pending_free *pf;
unsigned long flags;
int locked;
bool need_callback = false;
raw_local_irq_save(flags);
locked = graph_lock();
......@@ -6410,11 +6423,13 @@ static void lockdep_reset_lock_reg(struct lockdep_map *lock)
pf = get_pending_free();
__lockdep_reset_lock(pf, lock);
call_rcu_zapped(pf);
need_callback = prepare_call_rcu_zapped(pf);
graph_unlock();
out_irq:
raw_local_irq_restore(flags);
if (need_callback)
call_rcu(&delayed_free.rcu_head, free_zapped_rcu);
}
/*
......@@ -6458,6 +6473,7 @@ void lockdep_unregister_key(struct lock_class_key *key)
struct pending_free *pf;
unsigned long flags;
bool found = false;
bool need_callback = false;
might_sleep();
......@@ -6478,11 +6494,14 @@ void lockdep_unregister_key(struct lock_class_key *key)
if (found) {
pf = get_pending_free();
__lockdep_free_key_range(pf, key, 1);
call_rcu_zapped(pf);
need_callback = prepare_call_rcu_zapped(pf);
}
lockdep_unlock();
raw_local_irq_restore(flags);
if (need_callback)
call_rcu(&delayed_free.rcu_head, free_zapped_rcu);
/* Wait until is_dynamic_key() has finished accessing k->hash_entry. */
synchronize_rcu();
}
......
......@@ -424,7 +424,7 @@ static void seq_line(struct seq_file *m, char c, int offset, int length)
for (i = 0; i < offset; i++)
seq_puts(m, " ");
for (i = 0; i < length; i++)
seq_printf(m, "%c", c);
seq_putc(m, c);
seq_puts(m, "\n");
}
......
......@@ -181,12 +181,21 @@ static inline void rwsem_set_reader_owned(struct rw_semaphore *sem)
__rwsem_set_reader_owned(sem, current);
}
#ifdef CONFIG_DEBUG_RWSEMS
/*
* Return just the real task structure pointer of the owner
*/
static inline struct task_struct *rwsem_owner(struct rw_semaphore *sem)
{
return (struct task_struct *)
(atomic_long_read(&sem->owner) & ~RWSEM_OWNER_FLAGS_MASK);
}
/*
* Return true if the rwsem is owned by a reader.
*/
static inline bool is_rwsem_reader_owned(struct rw_semaphore *sem)
{
#ifdef CONFIG_DEBUG_RWSEMS
/*
* Check the count to see if it is write-locked.
*/
......@@ -194,11 +203,9 @@ static inline bool is_rwsem_reader_owned(struct rw_semaphore *sem)
if (count & RWSEM_WRITER_MASK)
return false;
#endif
return rwsem_test_oflags(sem, RWSEM_READER_OWNED);
}
#ifdef CONFIG_DEBUG_RWSEMS
/*
* With CONFIG_DEBUG_RWSEMS configured, it will make sure that if there
* is a task pointer in owner of a reader-owned rwsem, it will be the
......@@ -265,15 +272,6 @@ static inline bool rwsem_write_trylock(struct rw_semaphore *sem)
return false;
}
/*
* Return just the real task structure pointer of the owner
*/
static inline struct task_struct *rwsem_owner(struct rw_semaphore *sem)
{
return (struct task_struct *)
(atomic_long_read(&sem->owner) & ~RWSEM_OWNER_FLAGS_MASK);
}
/*
* Return the real task structure pointer of the owner and the embedded
* flags in the owner. pflags must be non-NULL.
......
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