tor/src/common/memarea.c

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2017-03-15 21:13:17 +01:00
/* Copyright (c) 2008-2017, The Tor Project, Inc. */
/* See LICENSE for licensing information */
/** \file memarea.c
* \brief Implementation for memarea_t, an allocator for allocating lots of
* small objects that will be freed all at once.
*/
#include "orconfig.h"
2017-08-01 01:30:30 +02:00
#include <stddef.h>
#include <stdlib.h>
#include "memarea.h"
#include "util.h"
#include "compat.h"
#include "torlog.h"
#include "container.h"
#ifndef DISABLE_MEMORY_SENTINELS
/** If true, we try to detect any attempts to write beyond the length of a
* memarea. */
#define USE_SENTINELS
/** All returned pointers should be aligned to the nearest multiple of this
* value. */
#define MEMAREA_ALIGN SIZEOF_VOID_P
/** A value which, when masked out of a pointer, produces a maximally aligned
* pointer. */
#if MEMAREA_ALIGN == 4
#define MEMAREA_ALIGN_MASK ((uintptr_t)3)
#elif MEMAREA_ALIGN == 8
#define MEMAREA_ALIGN_MASK ((uintptr_t)7)
#else
#error "void* is neither 4 nor 8 bytes long. I don't know how to align stuff."
#endif /* MEMAREA_ALIGN == 4 || ... */
#if defined(__GNUC__) && defined(FLEXIBLE_ARRAY_MEMBER)
#define USE_ALIGNED_ATTRIBUTE
/** Name for the 'memory' member of a memory chunk. */
#define U_MEM mem
#else
#define U_MEM u.mem
#endif /* defined(__GNUC__) && defined(FLEXIBLE_ARRAY_MEMBER) */
#ifdef USE_SENTINELS
/** Magic value that we stick at the end of a memarea so we can make sure
* there are no run-off-the-end bugs. */
#define SENTINEL_VAL 0x90806622u
/** How many bytes per area do we devote to the sentinel? */
#define SENTINEL_LEN sizeof(uint32_t)
/** Given a mem_area_chunk_t with SENTINEL_LEN extra bytes allocated at the
* end, set those bytes. */
#define SET_SENTINEL(chunk) \
STMT_BEGIN \
set_uint32( &(chunk)->U_MEM[chunk->mem_size], SENTINEL_VAL ); \
STMT_END
/** Assert that the sentinel on a memarea is set correctly. */
#define CHECK_SENTINEL(chunk) \
STMT_BEGIN \
uint32_t sent_val = get_uint32(&(chunk)->U_MEM[chunk->mem_size]); \
tor_assert(sent_val == SENTINEL_VAL); \
STMT_END
#else /* !(defined(USE_SENTINELS)) */
#define SENTINEL_LEN 0
#define SET_SENTINEL(chunk) STMT_NIL
#define CHECK_SENTINEL(chunk) STMT_NIL
#endif /* defined(USE_SENTINELS) */
/** Increment <b>ptr</b> until it is aligned to MEMAREA_ALIGN. */
static inline void *
realign_pointer(void *ptr)
{
uintptr_t x = (uintptr_t)ptr;
x = (x+MEMAREA_ALIGN_MASK) & ~MEMAREA_ALIGN_MASK;
/* Reinstate this if bug 930 ever reappears
tor_assert(((void*)x) >= ptr);
*/
return (void*)x;
}
/** Implements part of a memarea. New memory is carved off from chunk->mem in
* increasing order until a request is too big, at which point a new chunk is
* allocated. */
typedef struct memarea_chunk_t {
/** Next chunk in this area. Only kept around so we can free it. */
struct memarea_chunk_t *next_chunk;
size_t mem_size; /**< How much RAM is available in mem, total? */
char *next_mem; /**< Next position in mem to allocate data at. If it's
* equal to mem+mem_size, this chunk is full. */
#ifdef USE_ALIGNED_ATTRIBUTE
/** Actual content of the memory chunk. */
char mem[FLEXIBLE_ARRAY_MEMBER] __attribute__((aligned(MEMAREA_ALIGN)));
#else
union {
char mem[1]; /**< Memory space in this chunk. */
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s/(?<![A-Za-z0-9_])_tor_malloc(?![A-Za-z0-9_])/tor_malloc_/g; s/(?<![A-Za-z0-9_])_tor_malloc_zero(?![A-Za-z0-9_])/tor_malloc_zero_/g; s/(?<![A-Za-z0-9_])_tor_memdup(?![A-Za-z0-9_])/tor_memdup_/g; s/(?<![A-Za-z0-9_])_tor_realloc(?![A-Za-z0-9_])/tor_realloc_/g; s/(?<![A-Za-z0-9_])_tor_strdup(?![A-Za-z0-9_])/tor_strdup_/g; s/(?<![A-Za-z0-9_])_tor_strndup(?![A-Za-z0-9_])/tor_strndup_/g; s/(?<![A-Za-z0-9_])_TOR_TLS_SYSCALL(?![A-Za-z0-9_])/TOR_TLS_SYSCALL_/g; s/(?<![A-Za-z0-9_])_TOR_TLS_ZERORETURN(?![A-Za-z0-9_])/TOR_TLS_ZERORETURN_/g; s/(?<![A-Za-z0-9_])__USE_ISOC99(?![A-Za-z0-9_])/_USE_ISOC99_/g; s/(?<![A-Za-z0-9_])_UsingTestNetworkDefaults(?![A-Za-z0-9_])/UsingTestNetworkDefaults_/g; s/(?<![A-Za-z0-9_])_val(?![A-Za-z0-9_])/val_/g; s/(?<![A-Za-z0-9_])_void_for_alignment(?![A-Za-z0-9_])/void_for_alignment_/g; ==============================
2012-10-12 18:22:13 +02:00
void *void_for_alignment_; /**< Dummy; used to make sure mem is aligned. */
} u; /**< Union used to enforce alignment when we don't have support for
* doing it right. */
#endif /* defined(USE_ALIGNED_ATTRIBUTE) */
} memarea_chunk_t;
/** How many bytes are needed for overhead before we get to the memory part
* of a chunk? */
2017-08-01 01:30:30 +02:00
#define CHUNK_HEADER_SIZE offsetof(memarea_chunk_t, U_MEM)
/** What's the smallest that we'll allocate a chunk? */
#define CHUNK_SIZE 4096
/** A memarea_t is an allocation region for a set of small memory requests
* that will all be freed at once. */
struct memarea_t {
memarea_chunk_t *first; /**< Top of the chunk stack: never NULL. */
};
/** Helper: allocate a new memarea chunk of around <b>chunk_size</b> bytes. */
static memarea_chunk_t *
alloc_chunk(size_t sz)
{
tor_assert(sz < SIZE_T_CEILING);
size_t chunk_size = sz < CHUNK_SIZE ? CHUNK_SIZE : sz;
memarea_chunk_t *res;
chunk_size += SENTINEL_LEN;
res = tor_malloc(chunk_size);
res->next_chunk = NULL;
res->mem_size = chunk_size - CHUNK_HEADER_SIZE - SENTINEL_LEN;
res->next_mem = res->U_MEM;
tor_assert(res->next_mem+res->mem_size+SENTINEL_LEN ==
((char*)res)+chunk_size);
tor_assert(realign_pointer(res->next_mem) == res->next_mem);
SET_SENTINEL(res);
return res;
}
/** Release <b>chunk</b> from a memarea. */
static void
memarea_chunk_free_unchecked(memarea_chunk_t *chunk)
{
CHECK_SENTINEL(chunk);
tor_free(chunk);
}
/** Allocate and return new memarea. */
memarea_t *
memarea_new(void)
{
memarea_t *head = tor_malloc(sizeof(memarea_t));
head->first = alloc_chunk(CHUNK_SIZE);
return head;
}
/** Free <b>area</b>, invalidating all pointers returned from memarea_alloc()
* and friends for this area */
void
memarea_drop_all_(memarea_t *area)
{
memarea_chunk_t *chunk, *next;
for (chunk = area->first; chunk; chunk = next) {
next = chunk->next_chunk;
memarea_chunk_free_unchecked(chunk);
}
area->first = NULL; /*fail fast on */
tor_free(area);
}
/** Forget about having allocated anything in <b>area</b>, and free some of
* the backing storage associated with it, as appropriate. Invalidates all
* pointers returned from memarea_alloc() for this area. */
void
memarea_clear(memarea_t *area)
{
memarea_chunk_t *chunk, *next;
if (area->first->next_chunk) {
for (chunk = area->first->next_chunk; chunk; chunk = next) {
next = chunk->next_chunk;
memarea_chunk_free_unchecked(chunk);
}
area->first->next_chunk = NULL;
}
area->first->next_mem = area->first->U_MEM;
}
/** Return true iff <b>p</b> is in a range that has been returned by an
* allocation from <b>area</b>. */
int
memarea_owns_ptr(const memarea_t *area, const void *p)
{
memarea_chunk_t *chunk;
const char *ptr = p;
for (chunk = area->first; chunk; chunk = chunk->next_chunk) {
if (ptr >= chunk->U_MEM && ptr < chunk->next_mem)
return 1;
}
return 0;
}
/** Return a pointer to a chunk of memory in <b>area</b> of at least <b>sz</b>
* bytes. <b>sz</b> should be significantly smaller than the area's chunk
* size, though we can deal if it isn't. */
void *
memarea_alloc(memarea_t *area, size_t sz)
{
memarea_chunk_t *chunk = area->first;
char *result;
tor_assert(chunk);
CHECK_SENTINEL(chunk);
tor_assert(sz < SIZE_T_CEILING);
if (sz == 0)
sz = 1;
tor_assert(chunk->next_mem <= chunk->U_MEM + chunk->mem_size);
const size_t space_remaining =
(chunk->U_MEM + chunk->mem_size) - chunk->next_mem;
if (sz > space_remaining) {
if (sz+CHUNK_HEADER_SIZE >= CHUNK_SIZE) {
/* This allocation is too big. Stick it in a special chunk, and put
* that chunk second in the list. */
memarea_chunk_t *new_chunk = alloc_chunk(sz+CHUNK_HEADER_SIZE);
new_chunk->next_chunk = chunk->next_chunk;
chunk->next_chunk = new_chunk;
chunk = new_chunk;
} else {
memarea_chunk_t *new_chunk = alloc_chunk(CHUNK_SIZE);
new_chunk->next_chunk = chunk;
area->first = chunk = new_chunk;
}
tor_assert(chunk->mem_size >= sz);
}
result = chunk->next_mem;
chunk->next_mem = chunk->next_mem + sz;
/* Reinstate these if bug 930 ever comes back
tor_assert(chunk->next_mem >= chunk->U_MEM);
tor_assert(chunk->next_mem <= chunk->U_MEM+chunk->mem_size);
*/
chunk->next_mem = realign_pointer(chunk->next_mem);
return result;
}
/** As memarea_alloc(), but clears the memory it returns. */
void *
memarea_alloc_zero(memarea_t *area, size_t sz)
{
void *result = memarea_alloc(area, sz);
memset(result, 0, sz);
return result;
}
/** As memdup, but returns the memory from <b>area</b>. */
void *
memarea_memdup(memarea_t *area, const void *s, size_t n)
{
char *result = memarea_alloc(area, n);
memcpy(result, s, n);
return result;
}
/** As strdup, but returns the memory from <b>area</b>. */
char *
memarea_strdup(memarea_t *area, const char *s)
{
return memarea_memdup(area, s, strlen(s)+1);
}
/** As strndup, but returns the memory from <b>area</b>. */
char *
memarea_strndup(memarea_t *area, const char *s, size_t n)
{
size_t ln = 0;
char *result;
tor_assert(n < SIZE_T_CEILING);
for (ln = 0; ln < n && s[ln]; ++ln)
;
result = memarea_alloc(area, ln+1);
memcpy(result, s, ln);
result[ln]='\0';
return result;
}
/** Set <b>allocated_out</b> to the number of bytes allocated in <b>area</b>,
* and <b>used_out</b> to the number of bytes currently used. */
void
memarea_get_stats(memarea_t *area, size_t *allocated_out, size_t *used_out)
{
size_t a = 0, u = 0;
memarea_chunk_t *chunk;
for (chunk = area->first; chunk; chunk = chunk->next_chunk) {
CHECK_SENTINEL(chunk);
a += CHUNK_HEADER_SIZE + chunk->mem_size;
tor_assert(chunk->next_mem >= chunk->U_MEM);
u += CHUNK_HEADER_SIZE + (chunk->next_mem - chunk->U_MEM);
}
*allocated_out = a;
*used_out = u;
}
/** Assert that <b>area</b> is okay. */
void
memarea_assert_ok(memarea_t *area)
{
memarea_chunk_t *chunk;
tor_assert(area->first);
for (chunk = area->first; chunk; chunk = chunk->next_chunk) {
CHECK_SENTINEL(chunk);
tor_assert(chunk->next_mem >= chunk->U_MEM);
tor_assert(chunk->next_mem <=
(char*) realign_pointer(chunk->U_MEM+chunk->mem_size));
}
}
#else /* !(!defined(DISABLE_MEMORY_SENTINELS)) */
struct memarea_t {
smartlist_t *pieces;
};
memarea_t *
memarea_new(void)
{
memarea_t *ma = tor_malloc_zero(sizeof(memarea_t));
ma->pieces = smartlist_new();
return ma;
}
void
memarea_drop_all_(memarea_t *area)
{
memarea_clear(area);
smartlist_free(area->pieces);
tor_free(area);
}
void
memarea_clear(memarea_t *area)
{
SMARTLIST_FOREACH(area->pieces, void *, p, tor_free_(p));
smartlist_clear(area->pieces);
}
int
memarea_owns_ptr(const memarea_t *area, const void *ptr)
{
SMARTLIST_FOREACH(area->pieces, const void *, p, if (ptr == p) return 1;);
return 0;
}
void *
memarea_alloc(memarea_t *area, size_t sz)
{
void *result = tor_malloc(sz);
smartlist_add(area->pieces, result);
return result;
}
void *
memarea_alloc_zero(memarea_t *area, size_t sz)
{
void *result = tor_malloc_zero(sz);
smartlist_add(area->pieces, result);
return result;
}
void *
memarea_memdup(memarea_t *area, const void *s, size_t n)
{
void *r = memarea_alloc(area, n);
memcpy(r, s, n);
return r;
}
char *
memarea_strdup(memarea_t *area, const char *s)
{
size_t n = strlen(s);
char *r = memarea_alloc(area, n+1);
memcpy(r, s, n);
r[n] = 0;
return r;
}
char *
memarea_strndup(memarea_t *area, const char *s, size_t n)
{
size_t ln = strnlen(s, n);
char *r = memarea_alloc(area, ln+1);
memcpy(r, s, ln);
r[ln] = 0;
return r;
}
void
memarea_get_stats(memarea_t *area,
size_t *allocated_out, size_t *used_out)
{
(void)area;
*allocated_out = *used_out = 128;
}
void
memarea_assert_ok(memarea_t *area)
{
(void)area;
}
#endif /* !defined(DISABLE_MEMORY_SENTINELS) */