linux_dsm_epyc7002/include/linux/idr.h
Linus Torvalds 410ef736a7 XArray updates for 5.4
These patches all fix various bugs, some of which people have tripped
 over and some of which have been caught by automatic tools.
 
 Matthew Wilcox (Oracle) (5):
   XArray: Fix xas_next() with a single entry at 0
   idr: Fix idr_get_next_ul race with idr_remove
   radix tree: Remove radix_tree_iter_find
   idr: Fix integer overflow in idr_for_each_entry
   idr: Fix idr_alloc_u32 on 32-bit systems
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Merge tag 'xarray-5.4' of git://git.infradead.org/users/willy/linux-dax

Pull XArray fixes from Matthew Wilcox:
 "These all fix various bugs, some of which people have tripped over and
  some of which have been caught by automatic tools"

* tag 'xarray-5.4' of git://git.infradead.org/users/willy/linux-dax:
  idr: Fix idr_alloc_u32 on 32-bit systems
  idr: Fix integer overflow in idr_for_each_entry
  radix tree: Remove radix_tree_iter_find
  idr: Fix idr_get_next_ul race with idr_remove
  XArray: Fix xas_next() with a single entry at 0
2019-11-08 08:46:49 -08:00

323 lines
9.3 KiB
C

/* SPDX-License-Identifier: GPL-2.0-only */
/*
* include/linux/idr.h
*
* 2002-10-18 written by Jim Houston jim.houston@ccur.com
* Copyright (C) 2002 by Concurrent Computer Corporation
*
* Small id to pointer translation service avoiding fixed sized
* tables.
*/
#ifndef __IDR_H__
#define __IDR_H__
#include <linux/radix-tree.h>
#include <linux/gfp.h>
#include <linux/percpu.h>
struct idr {
struct radix_tree_root idr_rt;
unsigned int idr_base;
unsigned int idr_next;
};
/*
* The IDR API does not expose the tagging functionality of the radix tree
* to users. Use tag 0 to track whether a node has free space below it.
*/
#define IDR_FREE 0
/* Set the IDR flag and the IDR_FREE tag */
#define IDR_RT_MARKER (ROOT_IS_IDR | (__force gfp_t) \
(1 << (ROOT_TAG_SHIFT + IDR_FREE)))
#define IDR_INIT_BASE(name, base) { \
.idr_rt = RADIX_TREE_INIT(name, IDR_RT_MARKER), \
.idr_base = (base), \
.idr_next = 0, \
}
/**
* IDR_INIT() - Initialise an IDR.
* @name: Name of IDR.
*
* A freshly-initialised IDR contains no IDs.
*/
#define IDR_INIT(name) IDR_INIT_BASE(name, 0)
/**
* DEFINE_IDR() - Define a statically-allocated IDR.
* @name: Name of IDR.
*
* An IDR defined using this macro is ready for use with no additional
* initialisation required. It contains no IDs.
*/
#define DEFINE_IDR(name) struct idr name = IDR_INIT(name)
/**
* idr_get_cursor - Return the current position of the cyclic allocator
* @idr: idr handle
*
* The value returned is the value that will be next returned from
* idr_alloc_cyclic() if it is free (otherwise the search will start from
* this position).
*/
static inline unsigned int idr_get_cursor(const struct idr *idr)
{
return READ_ONCE(idr->idr_next);
}
/**
* idr_set_cursor - Set the current position of the cyclic allocator
* @idr: idr handle
* @val: new position
*
* The next call to idr_alloc_cyclic() will return @val if it is free
* (otherwise the search will start from this position).
*/
static inline void idr_set_cursor(struct idr *idr, unsigned int val)
{
WRITE_ONCE(idr->idr_next, val);
}
/**
* DOC: idr sync
* idr synchronization (stolen from radix-tree.h)
*
* idr_find() is able to be called locklessly, using RCU. The caller must
* ensure calls to this function are made within rcu_read_lock() regions.
* Other readers (lock-free or otherwise) and modifications may be running
* concurrently.
*
* It is still required that the caller manage the synchronization and
* lifetimes of the items. So if RCU lock-free lookups are used, typically
* this would mean that the items have their own locks, or are amenable to
* lock-free access; and that the items are freed by RCU (or only freed after
* having been deleted from the idr tree *and* a synchronize_rcu() grace
* period).
*/
#define idr_lock(idr) xa_lock(&(idr)->idr_rt)
#define idr_unlock(idr) xa_unlock(&(idr)->idr_rt)
#define idr_lock_bh(idr) xa_lock_bh(&(idr)->idr_rt)
#define idr_unlock_bh(idr) xa_unlock_bh(&(idr)->idr_rt)
#define idr_lock_irq(idr) xa_lock_irq(&(idr)->idr_rt)
#define idr_unlock_irq(idr) xa_unlock_irq(&(idr)->idr_rt)
#define idr_lock_irqsave(idr, flags) \
xa_lock_irqsave(&(idr)->idr_rt, flags)
#define idr_unlock_irqrestore(idr, flags) \
xa_unlock_irqrestore(&(idr)->idr_rt, flags)
void idr_preload(gfp_t gfp_mask);
int idr_alloc(struct idr *, void *ptr, int start, int end, gfp_t);
int __must_check idr_alloc_u32(struct idr *, void *ptr, u32 *id,
unsigned long max, gfp_t);
int idr_alloc_cyclic(struct idr *, void *ptr, int start, int end, gfp_t);
void *idr_remove(struct idr *, unsigned long id);
void *idr_find(const struct idr *, unsigned long id);
int idr_for_each(const struct idr *,
int (*fn)(int id, void *p, void *data), void *data);
void *idr_get_next(struct idr *, int *nextid);
void *idr_get_next_ul(struct idr *, unsigned long *nextid);
void *idr_replace(struct idr *, void *, unsigned long id);
void idr_destroy(struct idr *);
/**
* idr_init_base() - Initialise an IDR.
* @idr: IDR handle.
* @base: The base value for the IDR.
*
* This variation of idr_init() creates an IDR which will allocate IDs
* starting at %base.
*/
static inline void idr_init_base(struct idr *idr, int base)
{
INIT_RADIX_TREE(&idr->idr_rt, IDR_RT_MARKER);
idr->idr_base = base;
idr->idr_next = 0;
}
/**
* idr_init() - Initialise an IDR.
* @idr: IDR handle.
*
* Initialise a dynamically allocated IDR. To initialise a
* statically allocated IDR, use DEFINE_IDR().
*/
static inline void idr_init(struct idr *idr)
{
idr_init_base(idr, 0);
}
/**
* idr_is_empty() - Are there any IDs allocated?
* @idr: IDR handle.
*
* Return: %true if any IDs have been allocated from this IDR.
*/
static inline bool idr_is_empty(const struct idr *idr)
{
return radix_tree_empty(&idr->idr_rt) &&
radix_tree_tagged(&idr->idr_rt, IDR_FREE);
}
/**
* idr_preload_end - end preload section started with idr_preload()
*
* Each idr_preload() should be matched with an invocation of this
* function. See idr_preload() for details.
*/
static inline void idr_preload_end(void)
{
preempt_enable();
}
/**
* idr_for_each_entry() - Iterate over an IDR's elements of a given type.
* @idr: IDR handle.
* @entry: The type * to use as cursor
* @id: Entry ID.
*
* @entry and @id do not need to be initialized before the loop, and
* after normal termination @entry is left with the value NULL. This
* is convenient for a "not found" value.
*/
#define idr_for_each_entry(idr, entry, id) \
for (id = 0; ((entry) = idr_get_next(idr, &(id))) != NULL; id += 1U)
/**
* idr_for_each_entry_ul() - Iterate over an IDR's elements of a given type.
* @idr: IDR handle.
* @entry: The type * to use as cursor.
* @tmp: A temporary placeholder for ID.
* @id: Entry ID.
*
* @entry and @id do not need to be initialized before the loop, and
* after normal termination @entry is left with the value NULL. This
* is convenient for a "not found" value.
*/
#define idr_for_each_entry_ul(idr, entry, tmp, id) \
for (tmp = 0, id = 0; \
tmp <= id && ((entry) = idr_get_next_ul(idr, &(id))) != NULL; \
tmp = id, ++id)
/**
* idr_for_each_entry_continue() - Continue iteration over an IDR's elements of a given type
* @idr: IDR handle.
* @entry: The type * to use as a cursor.
* @id: Entry ID.
*
* Continue to iterate over entries, continuing after the current position.
*/
#define idr_for_each_entry_continue(idr, entry, id) \
for ((entry) = idr_get_next((idr), &(id)); \
entry; \
++id, (entry) = idr_get_next((idr), &(id)))
/**
* idr_for_each_entry_continue_ul() - Continue iteration over an IDR's elements of a given type
* @idr: IDR handle.
* @entry: The type * to use as a cursor.
* @tmp: A temporary placeholder for ID.
* @id: Entry ID.
*
* Continue to iterate over entries, continuing after the current position.
*/
#define idr_for_each_entry_continue_ul(idr, entry, tmp, id) \
for (tmp = id; \
tmp <= id && ((entry) = idr_get_next_ul(idr, &(id))) != NULL; \
tmp = id, ++id)
/*
* IDA - ID Allocator, use when translation from id to pointer isn't necessary.
*/
#define IDA_CHUNK_SIZE 128 /* 128 bytes per chunk */
#define IDA_BITMAP_LONGS (IDA_CHUNK_SIZE / sizeof(long))
#define IDA_BITMAP_BITS (IDA_BITMAP_LONGS * sizeof(long) * 8)
struct ida_bitmap {
unsigned long bitmap[IDA_BITMAP_LONGS];
};
struct ida {
struct xarray xa;
};
#define IDA_INIT_FLAGS (XA_FLAGS_LOCK_IRQ | XA_FLAGS_ALLOC)
#define IDA_INIT(name) { \
.xa = XARRAY_INIT(name, IDA_INIT_FLAGS) \
}
#define DEFINE_IDA(name) struct ida name = IDA_INIT(name)
int ida_alloc_range(struct ida *, unsigned int min, unsigned int max, gfp_t);
void ida_free(struct ida *, unsigned int id);
void ida_destroy(struct ida *ida);
/**
* ida_alloc() - Allocate an unused ID.
* @ida: IDA handle.
* @gfp: Memory allocation flags.
*
* Allocate an ID between 0 and %INT_MAX, inclusive.
*
* Context: Any context.
* Return: The allocated ID, or %-ENOMEM if memory could not be allocated,
* or %-ENOSPC if there are no free IDs.
*/
static inline int ida_alloc(struct ida *ida, gfp_t gfp)
{
return ida_alloc_range(ida, 0, ~0, gfp);
}
/**
* ida_alloc_min() - Allocate an unused ID.
* @ida: IDA handle.
* @min: Lowest ID to allocate.
* @gfp: Memory allocation flags.
*
* Allocate an ID between @min and %INT_MAX, inclusive.
*
* Context: Any context.
* Return: The allocated ID, or %-ENOMEM if memory could not be allocated,
* or %-ENOSPC if there are no free IDs.
*/
static inline int ida_alloc_min(struct ida *ida, unsigned int min, gfp_t gfp)
{
return ida_alloc_range(ida, min, ~0, gfp);
}
/**
* ida_alloc_max() - Allocate an unused ID.
* @ida: IDA handle.
* @max: Highest ID to allocate.
* @gfp: Memory allocation flags.
*
* Allocate an ID between 0 and @max, inclusive.
*
* Context: Any context.
* Return: The allocated ID, or %-ENOMEM if memory could not be allocated,
* or %-ENOSPC if there are no free IDs.
*/
static inline int ida_alloc_max(struct ida *ida, unsigned int max, gfp_t gfp)
{
return ida_alloc_range(ida, 0, max, gfp);
}
static inline void ida_init(struct ida *ida)
{
xa_init_flags(&ida->xa, IDA_INIT_FLAGS);
}
#define ida_simple_get(ida, start, end, gfp) \
ida_alloc_range(ida, start, (end) - 1, gfp)
#define ida_simple_remove(ida, id) ida_free(ida, id)
static inline bool ida_is_empty(const struct ida *ida)
{
return xa_empty(&ida->xa);
}
#endif /* __IDR_H__ */