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/*
* GPL HEADER START
*
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 only,
* 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 version 2 for more details (a copy is included
* in the LICENSE file that accompanied this code).
*
* You should have received a copy of the GNU General Public License
* version 2 along with this program; If not, see
* http://www.gnu.org/licenses/gpl-2.0.html
*
* GPL HEADER END
*/
/*
* Copyright (c) 2008, 2010, Oracle and/or its affiliates. All rights reserved.
* Use is subject to license terms.
*
* Copyright (c) 2011, 2012, Intel Corporation.
*/
/*
* This file is part of Lustre, http://www.lustre.org/
* Lustre is a trademark of Sun Microsystems, Inc.
*
* libcfs/include/libcfs/libcfs_private.h
*
* Various defines for libcfs.
*
*/
#ifndef __LIBCFS_PRIVATE_H__
#define __LIBCFS_PRIVATE_H__
#ifndef DEBUG_SUBSYSTEM
# define DEBUG_SUBSYSTEM S_UNDEFINED
#endif
/*
* When this is on, LASSERT macro includes check for assignment used instead
* of equality check, but doesn't have unlikely(). Turn this on from time to
* time to make test-builds. This shouldn't be on for production release.
*/
#define LASSERT_CHECKED (0)
#define LASSERTF(cond, fmt, ...) \
do { \
if (unlikely(!(cond))) { \
LIBCFS_DEBUG_MSG_DATA_DECL(__msg_data, D_EMERG, NULL); \
libcfs_debug_msg(&__msg_data, \
"ASSERTION( %s ) failed: " fmt, #cond, \
## __VA_ARGS__); \
lbug_with_loc(&__msg_data); \
} \
} while (0)
#define LASSERT(cond) LASSERTF(cond, "\n")
#ifdef CONFIG_LUSTRE_DEBUG_EXPENSIVE_CHECK
/**
* This is for more expensive checks that one doesn't want to be enabled all
* the time. LINVRNT() has to be explicitly enabled by
* CONFIG_LUSTRE_DEBUG_EXPENSIVE_CHECK option.
*/
# define LINVRNT(exp) LASSERT(exp)
#else
# define LINVRNT(exp) ((void)sizeof !!(exp))
#endif
#define KLASSERT(e) LASSERT(e)
void __noreturn lbug_with_loc(struct libcfs_debug_msg_data *msg);
#define LBUG() \
do { \
LIBCFS_DEBUG_MSG_DATA_DECL(msgdata, D_EMERG, NULL); \
lbug_with_loc(&msgdata); \
} while (0)
#ifndef LIBCFS_VMALLOC_SIZE
#define LIBCFS_VMALLOC_SIZE (2 << PAGE_SHIFT) /* 2 pages */
#endif
#define LIBCFS_ALLOC_PRE(size, mask) \
LASSERT(!in_interrupt() || ((size) <= LIBCFS_VMALLOC_SIZE && \
!gfpflags_allow_blocking(mask)))
#define LIBCFS_ALLOC_POST(ptr, size) \
do { \
if (unlikely(!(ptr))) { \
CERROR("LNET: out of memory at %s:%d (tried to alloc '" \
#ptr "' = %d)\n", __FILE__, __LINE__, (int)(size)); \
} else { \
memset((ptr), 0, (size)); \
} \
} while (0)
/**
* allocate memory with GFP flags @mask
*/
#define LIBCFS_ALLOC_GFP(ptr, size, mask) \
do { \
LIBCFS_ALLOC_PRE((size), (mask)); \
(ptr) = (size) <= LIBCFS_VMALLOC_SIZE ? \
kmalloc((size), (mask)) : vmalloc(size); \
LIBCFS_ALLOC_POST((ptr), (size)); \
} while (0)
/**
* default allocator
*/
#define LIBCFS_ALLOC(ptr, size) \
LIBCFS_ALLOC_GFP(ptr, size, GFP_NOFS)
/**
* non-sleeping allocator
*/
#define LIBCFS_ALLOC_ATOMIC(ptr, size) \
LIBCFS_ALLOC_GFP(ptr, size, GFP_ATOMIC)
/**
* allocate memory for specified CPU partition
* \a cptab != NULL, \a cpt is CPU partition id of \a cptab
* \a cptab == NULL, \a cpt is HW NUMA node id
*/
#define LIBCFS_CPT_ALLOC_GFP(ptr, cptab, cpt, size, mask) \
do { \
LIBCFS_ALLOC_PRE((size), (mask)); \
(ptr) = (size) <= LIBCFS_VMALLOC_SIZE ? \
kmalloc_node((size), (mask), cfs_cpt_spread_node(cptab, cpt)) :\
vmalloc_node(size, cfs_cpt_spread_node(cptab, cpt)); \
LIBCFS_ALLOC_POST((ptr), (size)); \
} while (0)
/** default numa allocator */
#define LIBCFS_CPT_ALLOC(ptr, cptab, cpt, size) \
LIBCFS_CPT_ALLOC_GFP(ptr, cptab, cpt, size, GFP_NOFS)
#define LIBCFS_FREE(ptr, size) \
do { \
if (unlikely(!(ptr))) { \
CERROR("LIBCFS: free NULL '" #ptr "' (%d bytes) at " \
"%s:%d\n", (int)(size), __FILE__, __LINE__); \
break; \
} \
kvfree(ptr); \
} while (0)
/******************************************************************************/
void libcfs_debug_dumplog(void);
int libcfs_debug_init(unsigned long bufsize);
int libcfs_debug_cleanup(void);
int libcfs_debug_clear_buffer(void);
int libcfs_debug_mark_buffer(const char *text);
/*
* allocate a variable array, returned value is an array of pointers.
* Caller can specify length of array by count.
*/
void *cfs_array_alloc(int count, unsigned int size);
void cfs_array_free(void *vars);
#define LASSERT_ATOMIC_ENABLED (1)
#if LASSERT_ATOMIC_ENABLED
/** assert value of @a is equal to @v */
#define LASSERT_ATOMIC_EQ(a, v) \
LASSERTF(atomic_read(a) == v, "value: %d\n", atomic_read((a)))
/** assert value of @a is unequal to @v */
#define LASSERT_ATOMIC_NE(a, v) \
LASSERTF(atomic_read(a) != v, "value: %d\n", atomic_read((a)))
/** assert value of @a is little than @v */
#define LASSERT_ATOMIC_LT(a, v) \
LASSERTF(atomic_read(a) < v, "value: %d\n", atomic_read((a)))
/** assert value of @a is little/equal to @v */
#define LASSERT_ATOMIC_LE(a, v) \
LASSERTF(atomic_read(a) <= v, "value: %d\n", atomic_read((a)))
/** assert value of @a is great than @v */
#define LASSERT_ATOMIC_GT(a, v) \
LASSERTF(atomic_read(a) > v, "value: %d\n", atomic_read((a)))
/** assert value of @a is great/equal to @v */
#define LASSERT_ATOMIC_GE(a, v) \
LASSERTF(atomic_read(a) >= v, "value: %d\n", atomic_read((a)))
/** assert value of @a is great than @v1 and little than @v2 */
#define LASSERT_ATOMIC_GT_LT(a, v1, v2) \
do { \
int __v = atomic_read(a); \
LASSERTF(__v > v1 && __v < v2, "value: %d\n", __v); \
} while (0)
/** assert value of @a is great than @v1 and little/equal to @v2 */
#define LASSERT_ATOMIC_GT_LE(a, v1, v2) \
do { \
int __v = atomic_read(a); \
LASSERTF(__v > v1 && __v <= v2, "value: %d\n", __v); \
} while (0)
/** assert value of @a is great/equal to @v1 and little than @v2 */
#define LASSERT_ATOMIC_GE_LT(a, v1, v2) \
do { \
int __v = atomic_read(a); \
LASSERTF(__v >= v1 && __v < v2, "value: %d\n", __v); \
} while (0)
/** assert value of @a is great/equal to @v1 and little/equal to @v2 */
#define LASSERT_ATOMIC_GE_LE(a, v1, v2) \
do { \
int __v = atomic_read(a); \
LASSERTF(__v >= v1 && __v <= v2, "value: %d\n", __v); \
} while (0)
#else /* !LASSERT_ATOMIC_ENABLED */
#define LASSERT_ATOMIC_EQ(a, v) do {} while (0)
#define LASSERT_ATOMIC_NE(a, v) do {} while (0)
#define LASSERT_ATOMIC_LT(a, v) do {} while (0)
#define LASSERT_ATOMIC_LE(a, v) do {} while (0)
#define LASSERT_ATOMIC_GT(a, v) do {} while (0)
#define LASSERT_ATOMIC_GE(a, v) do {} while (0)
#define LASSERT_ATOMIC_GT_LT(a, v1, v2) do {} while (0)
#define LASSERT_ATOMIC_GT_LE(a, v1, v2) do {} while (0)
#define LASSERT_ATOMIC_GE_LT(a, v1, v2) do {} while (0)
#define LASSERT_ATOMIC_GE_LE(a, v1, v2) do {} while (0)
#endif /* LASSERT_ATOMIC_ENABLED */
#define LASSERT_ATOMIC_ZERO(a) LASSERT_ATOMIC_EQ(a, 0)
#define LASSERT_ATOMIC_POS(a) LASSERT_ATOMIC_GT(a, 0)
#define CFS_ALLOC_PTR(ptr) LIBCFS_ALLOC(ptr, sizeof(*(ptr)))
#define CFS_FREE_PTR(ptr) LIBCFS_FREE(ptr, sizeof(*(ptr)))
/* max value for numeric network address */
#define MAX_NUMERIC_VALUE 0xffffffff
/* implication */
#define ergo(a, b) (!(a) || (b))
/* logical equivalence */
#define equi(a, b) (!!(a) == !!(b))
/* --------------------------------------------------------------------
* Light-weight trace
* Support for temporary event tracing with minimal Heisenberg effect.
* --------------------------------------------------------------------
*/
#define MKSTR(ptr) ((ptr)) ? (ptr) : ""
static inline size_t cfs_size_round4(int val)
{
return (val + 3) & (~0x3);
}
#ifndef HAVE_CFS_SIZE_ROUND
static inline size_t cfs_size_round(int val)
{
return (val + 7) & (~0x7);
}
#define HAVE_CFS_SIZE_ROUND
#endif
static inline size_t cfs_size_round16(int val)
{
return (val + 0xf) & (~0xf);
}
static inline size_t cfs_size_round32(int val)
{
return (val + 0x1f) & (~0x1f);
}
static inline size_t cfs_size_round0(int val)
{
if (!val)
return 0;
return (val + 1 + 7) & (~0x7);
}
static inline size_t cfs_round_strlen(char *fset)
{
return cfs_size_round((int)strlen(fset) + 1);
}
#endif
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