blob: 25014c8ec7844f037cc0d9b52179b20972fea33a [file] [log] [blame]
/*
* Copyright (c) 2015 Cisco and/or its affiliates.
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <vppinfra/format.h>
#include <vppinfra/dlmalloc.h>
#include <vppinfra/os.h>
#include <vppinfra/lock.h>
#include <vppinfra/hash.h>
#include <vppinfra/elf_clib.h>
typedef struct
{
/* Address of callers: outer first, inner last. */
uword callers[12];
/* Count of allocations with this traceback. */
u32 n_allocations;
/* Count of bytes allocated with this traceback. */
u32 n_bytes;
/* Offset of this item */
uword offset;
} mheap_trace_t;
typedef struct
{
clib_spinlock_t lock;
uword enabled;
mheap_trace_t *traces;
/* Indices of free traces. */
u32 *trace_free_list;
/* Hash table mapping callers to trace index. */
uword *trace_by_callers;
/* Hash table mapping mheap offset to trace index. */
uword *trace_index_by_offset;
/* So we can easily shut off current segment trace, if any */
void *current_traced_mheap;
} mheap_trace_main_t;
mheap_trace_main_t mheap_trace_main;
void
mheap_get_trace (uword offset, uword size)
{
mheap_trace_main_t *tm = &mheap_trace_main;
mheap_trace_t *t;
uword i, n_callers, trace_index, *p;
mheap_trace_t trace;
uword save_enabled;
if (tm->enabled == 0 || (clib_mem_get_heap () != tm->current_traced_mheap))
return;
/* Spurious Coverity warnings be gone. */
clib_memset (&trace, 0, sizeof (trace));
clib_spinlock_lock (&tm->lock);
/* Turn off tracing to avoid embarrassment... */
save_enabled = tm->enabled;
tm->enabled = 0;
/* Skip our frame and mspace_get_aligned's frame */
n_callers = clib_backtrace (trace.callers, ARRAY_LEN (trace.callers), 2);
if (n_callers == 0)
goto out;
if (!tm->trace_by_callers)
tm->trace_by_callers =
hash_create_shmem (0, sizeof (trace.callers), sizeof (uword));
p = hash_get_mem (tm->trace_by_callers, &trace.callers);
if (p)
{
trace_index = p[0];
t = tm->traces + trace_index;
}
else
{
i = vec_len (tm->trace_free_list);
if (i > 0)
{
trace_index = tm->trace_free_list[i - 1];
vec_set_len (tm->trace_free_list, i - 1);
}
else
{
mheap_trace_t *old_start = tm->traces;
mheap_trace_t *old_end = vec_end (tm->traces);
vec_add2 (tm->traces, t, 1);
if (tm->traces != old_start)
{
hash_pair_t *p;
mheap_trace_t *q;
/* *INDENT-OFF* */
hash_foreach_pair (p, tm->trace_by_callers,
({
q = uword_to_pointer (p->key, mheap_trace_t *);
ASSERT (q >= old_start && q < old_end);
p->key = pointer_to_uword (tm->traces + (q - old_start));
}));
/* *INDENT-ON* */
}
trace_index = t - tm->traces;
}
t = tm->traces + trace_index;
t[0] = trace;
t->n_allocations = 0;
t->n_bytes = 0;
hash_set_mem (tm->trace_by_callers, t->callers, trace_index);
}
t->n_allocations += 1;
t->n_bytes += size;
t->offset = offset; /* keep a sample to autopsy */
hash_set (tm->trace_index_by_offset, offset, t - tm->traces);
out:
tm->enabled = save_enabled;
clib_spinlock_unlock (&tm->lock);
}
void
mheap_put_trace (uword offset, uword size)
{
mheap_trace_t *t;
uword trace_index, *p;
mheap_trace_main_t *tm = &mheap_trace_main;
uword save_enabled;
if (tm->enabled == 0)
return;
clib_spinlock_lock (&tm->lock);
/* Turn off tracing for a moment */
save_enabled = tm->enabled;
tm->enabled = 0;
p = hash_get (tm->trace_index_by_offset, offset);
if (!p)
{
tm->enabled = save_enabled;
clib_spinlock_unlock (&tm->lock);
return;
}
trace_index = p[0];
hash_unset (tm->trace_index_by_offset, offset);
ASSERT (trace_index < vec_len (tm->traces));
t = tm->traces + trace_index;
ASSERT (t->n_allocations > 0);
ASSERT (t->n_bytes >= size);
t->n_allocations -= 1;
t->n_bytes -= size;
if (t->n_allocations == 0)
{
hash_unset_mem (tm->trace_by_callers, t->callers);
vec_add1 (tm->trace_free_list, trace_index);
clib_memset (t, 0, sizeof (t[0]));
}
tm->enabled = save_enabled;
clib_spinlock_unlock (&tm->lock);
}
always_inline void
mheap_trace_main_free (mheap_trace_main_t * tm)
{
vec_free (tm->traces);
vec_free (tm->trace_free_list);
hash_free (tm->trace_by_callers);
hash_free (tm->trace_index_by_offset);
}
static clib_mem_heap_t *
clib_mem_create_heap_internal (void *base, uword size,
clib_mem_page_sz_t log2_page_sz, int is_locked,
char *name)
{
clib_mem_heap_t *h;
u8 flags = 0;
int sz = sizeof (clib_mem_heap_t);
if (base == 0)
{
log2_page_sz = clib_mem_log2_page_size_validate (log2_page_sz);
size = round_pow2 (size, clib_mem_page_bytes (log2_page_sz));
base = clib_mem_vm_map_internal (0, log2_page_sz, size, -1, 0,
"main heap");
if (base == CLIB_MEM_VM_MAP_FAILED)
return 0;
flags = CLIB_MEM_HEAP_F_UNMAP_ON_DESTROY;
}
else
log2_page_sz = CLIB_MEM_PAGE_SZ_UNKNOWN;
if (is_locked)
flags |= CLIB_MEM_HEAP_F_LOCKED;
h = base;
h->base = base;
h->size = size;
h->log2_page_sz = log2_page_sz;
h->flags = flags;
sz = strlen (name);
strcpy (h->name, name);
sz = round_pow2 (sz + sizeof (clib_mem_heap_t), 16);
h->mspace = create_mspace_with_base (base + sz, size - sz, is_locked);
mspace_disable_expand (h->mspace);
clib_mem_poison (mspace_least_addr (h->mspace),
mspace_footprint (h->mspace));
return h;
}
/* Initialize CLIB heap based on memory/size given by user.
Set memory to 0 and CLIB will try to allocate its own heap. */
static void *
clib_mem_init_internal (void *base, uword size,
clib_mem_page_sz_t log2_page_sz)
{
clib_mem_heap_t *h;
clib_mem_main_init ();
h = clib_mem_create_heap_internal (base, size, log2_page_sz,
1 /*is_locked */ , "main heap");
clib_mem_set_heap (h);
if (mheap_trace_main.lock == 0)
clib_spinlock_init (&mheap_trace_main.lock);
return h;
}
__clib_export void *
clib_mem_init (void *memory, uword memory_size)
{
return clib_mem_init_internal (memory, memory_size,
CLIB_MEM_PAGE_SZ_DEFAULT);
}
__clib_export void *
clib_mem_init_with_page_size (uword memory_size,
clib_mem_page_sz_t log2_page_sz)
{
return clib_mem_init_internal (0, memory_size, log2_page_sz);
}
__clib_export void *
clib_mem_init_thread_safe (void *memory, uword memory_size)
{
return clib_mem_init_internal (memory, memory_size,
CLIB_MEM_PAGE_SZ_DEFAULT);
}
__clib_export void
clib_mem_destroy (void)
{
mheap_trace_main_t *tm = &mheap_trace_main;
clib_mem_heap_t *heap = clib_mem_get_heap ();
if (tm->enabled && heap->mspace == tm->current_traced_mheap)
tm->enabled = 0;
destroy_mspace (heap->mspace);
clib_mem_vm_unmap (heap);
}
__clib_export u8 *
format_clib_mem_usage (u8 *s, va_list *va)
{
int verbose = va_arg (*va, int);
return format (s, "$$$$ heap at %llx verbose %d", clib_mem_get_heap (),
verbose);
}
/*
* Magic decoder ring for mallinfo stats (ala dlmalloc):
*
* size_t arena; / * Non-mmapped space allocated (bytes) * /
* size_t ordblks; / * Number of free chunks * /
* size_t smblks; / * Number of free fastbin blocks * /
* size_t hblks; / * Number of mmapped regions * /
* size_t hblkhd; / * Space allocated in mmapped regions (bytes) * /
* size_t usmblks; / * Maximum total allocated space (bytes) * /
* size_t fsmblks; / * Space in freed fastbin blocks (bytes) * /
* size_t uordblks; / * Total allocated space (bytes) * /
* size_t fordblks; / * Total free space (bytes) * /
* size_t keepcost; / * Top-most, releasable space (bytes) * /
*
*/
u8 *
format_msize (u8 * s, va_list * va)
{
uword a = va_arg (*va, uword);
if (a >= 1ULL << 30)
s = format (s, "%.2fG", (((f64) a) / ((f64) (1ULL << 30))));
else if (a >= 1ULL << 20)
s = format (s, "%.2fM", (((f64) a) / ((f64) (1ULL << 20))));
else if (a >= 1ULL << 10)
s = format (s, "%.2fK", (((f64) a) / ((f64) (1ULL << 10))));
else
s = format (s, "%lld", a);
return s;
}
static int
mheap_trace_sort (const void *_t1, const void *_t2)
{
const mheap_trace_t *t1 = _t1;
const mheap_trace_t *t2 = _t2;
word cmp;
cmp = (word) t2->n_bytes - (word) t1->n_bytes;
if (!cmp)
cmp = (word) t2->n_allocations - (word) t1->n_allocations;
return cmp;
}
u8 *
format_mheap_trace (u8 * s, va_list * va)
{
mheap_trace_main_t *tm = va_arg (*va, mheap_trace_main_t *);
int verbose = va_arg (*va, int);
int have_traces = 0;
int i;
clib_spinlock_lock (&tm->lock);
if (vec_len (tm->traces) > 0 &&
clib_mem_get_heap () == tm->current_traced_mheap)
{
have_traces = 1;
/* Make a copy of traces since we'll be sorting them. */
mheap_trace_t *t, *traces_copy;
u32 indent, total_objects_traced;
traces_copy = vec_dup (tm->traces);
qsort (traces_copy, vec_len (traces_copy), sizeof (traces_copy[0]),
mheap_trace_sort);
total_objects_traced = 0;
s = format (s, "\n");
vec_foreach (t, traces_copy)
{
/* Skip over free elements. */
if (t->n_allocations == 0)
continue;
total_objects_traced += t->n_allocations;
/* When not verbose only report allocations of more than 1k. */
if (!verbose && t->n_bytes < 1024)
continue;
if (t == traces_copy)
s = format (s, "%=9s%=9s %=10s Traceback\n", "Bytes", "Count",
"Sample");
s = format (s, "%9d%9d %p", t->n_bytes, t->n_allocations, t->offset);
indent = format_get_indent (s);
for (i = 0; i < ARRAY_LEN (t->callers) && t->callers[i]; i++)
{
if (i > 0)
s = format (s, "%U", format_white_space, indent);
#if defined(CLIB_UNIX) && !defined(__APPLE__)
/* $$$$ does this actually work? */
s =
format (s, " %U\n", format_clib_elf_symbol_with_address,
t->callers[i]);
#else
s = format (s, " %p\n", t->callers[i]);
#endif
}
}
s = format (s, "%d total traced objects\n", total_objects_traced);
vec_free (traces_copy);
}
clib_spinlock_unlock (&tm->lock);
if (have_traces == 0)
s = format (s, "no traced allocations\n");
return s;
}
__clib_export u8 *
format_clib_mem_heap (u8 * s, va_list * va)
{
clib_mem_heap_t *heap = va_arg (*va, clib_mem_heap_t *);
int verbose = va_arg (*va, int);
struct dlmallinfo mi;
mheap_trace_main_t *tm = &mheap_trace_main;
u32 indent = format_get_indent (s) + 2;
if (heap == 0)
heap = clib_mem_get_heap ();
mi = mspace_mallinfo (heap->mspace);
s = format (s, "base %p, size %U",
heap->base, format_memory_size, heap->size);
#define _(i,v,str) \
if (heap->flags & CLIB_MEM_HEAP_F_##v) s = format (s, ", %s", str);
foreach_clib_mem_heap_flag;
#undef _
s = format (s, ", name '%s'", heap->name);
if (heap->log2_page_sz != CLIB_MEM_PAGE_SZ_UNKNOWN)
{
clib_mem_page_stats_t stats;
clib_mem_get_page_stats (heap->base, heap->log2_page_sz,
heap->size >> heap->log2_page_sz, &stats);
s = format (s, "\n%U%U", format_white_space, indent,
format_clib_mem_page_stats, &stats);
}
s = format (s, "\n%Utotal: %U, used: %U, free: %U, trimmable: %U",
format_white_space, indent,
format_msize, mi.arena,
format_msize, mi.uordblks,
format_msize, mi.fordblks, format_msize, mi.keepcost);
if (verbose > 0)
{
s = format (s, "\n%Ufree chunks %llu free fastbin blks %llu",
format_white_space, indent + 2, mi.ordblks, mi.smblks);
s = format (s, "\n%Umax total allocated %U",
format_white_space, indent + 2, format_msize, mi.usmblks);
}
if (heap->flags & CLIB_MEM_HEAP_F_TRACED)
s = format (s, "\n%U", format_mheap_trace, tm, verbose);
return s;
}
__clib_export __clib_flatten void
clib_mem_get_heap_usage (clib_mem_heap_t *heap, clib_mem_usage_t *usage)
{
struct dlmallinfo mi = mspace_mallinfo (heap->mspace);
usage->bytes_total = mi.arena; /* non-mmapped space allocated from system */
usage->bytes_used = mi.uordblks; /* total allocated space */
usage->bytes_free = mi.fordblks; /* total free space */
usage->bytes_used_mmap = mi.hblkhd; /* space in mmapped regions */
usage->bytes_max = mi.usmblks; /* maximum total allocated space */
usage->bytes_free_reclaimed = mi.ordblks; /* number of free chunks */
usage->bytes_overhead = mi.keepcost; /* releasable (via malloc_trim) space */
/* Not supported */
usage->bytes_used_sbrk = 0;
usage->object_count = 0;
}
/* Call serial number for debugger breakpoints. */
uword clib_mem_validate_serial = 0;
__clib_export void
mheap_trace (clib_mem_heap_t * h, int enable)
{
if (enable)
h->flags |= CLIB_MEM_HEAP_F_TRACED;
else
h->flags &= ~CLIB_MEM_HEAP_F_TRACED;
if (enable == 0)
mheap_trace_main_free (&mheap_trace_main);
}
__clib_export void
clib_mem_trace (int enable)
{
mheap_trace_main_t *tm = &mheap_trace_main;
void *current_heap = clib_mem_get_heap ();
tm->enabled = enable;
mheap_trace (current_heap, enable);
if (enable)
tm->current_traced_mheap = current_heap;
else
tm->current_traced_mheap = 0;
}
int
clib_mem_is_traced (void)
{
clib_mem_heap_t *h = clib_mem_get_heap ();
return (h->flags &= CLIB_MEM_HEAP_F_TRACED) != 0;
}
__clib_export uword
clib_mem_trace_enable_disable (uword enable)
{
uword rv;
mheap_trace_main_t *tm = &mheap_trace_main;
rv = tm->enabled;
tm->enabled = enable;
return rv;
}
__clib_export clib_mem_heap_t *
clib_mem_create_heap (void *base, uword size, int is_locked, char *fmt, ...)
{
clib_mem_page_sz_t log2_page_sz = clib_mem_get_log2_page_size ();
clib_mem_heap_t *h;
char *name;
u8 *s = 0;
if (fmt == 0)
{
name = "";
}
else if (strchr (fmt, '%'))
{
va_list va;
va_start (va, fmt);
s = va_format (0, fmt, &va);
vec_add1 (s, 0);
va_end (va);
name = (char *) s;
}
else
name = fmt;
h = clib_mem_create_heap_internal (base, size, log2_page_sz, is_locked,
name);
vec_free (s);
return h;
}
__clib_export void
clib_mem_destroy_heap (clib_mem_heap_t * h)
{
mheap_trace_main_t *tm = &mheap_trace_main;
if (tm->enabled && h->mspace == tm->current_traced_mheap)
tm->enabled = 0;
destroy_mspace (h->mspace);
if (h->flags & CLIB_MEM_HEAP_F_UNMAP_ON_DESTROY)
clib_mem_vm_unmap (h->base);
}
__clib_export __clib_flatten uword
clib_mem_get_heap_free_space (clib_mem_heap_t *h)
{
struct dlmallinfo dlminfo = mspace_mallinfo (h->mspace);
return dlminfo.fordblks;
}
__clib_export __clib_flatten void *
clib_mem_get_heap_base (clib_mem_heap_t *h)
{
return h->base;
}
__clib_export __clib_flatten uword
clib_mem_get_heap_size (clib_mem_heap_t *heap)
{
return heap->size;
}
/* Memory allocator which may call os_out_of_memory() if it fails */
static inline void *
clib_mem_heap_alloc_inline (void *heap, uword size, uword align,
int os_out_of_memory_on_failure)
{
clib_mem_heap_t *h = heap ? heap : clib_mem_get_per_cpu_heap ();
void *p;
align = clib_max (CLIB_MEM_MIN_ALIGN, align);
p = mspace_memalign (h->mspace, align, size);
if (PREDICT_FALSE (0 == p))
{
if (os_out_of_memory_on_failure)
os_out_of_memory ();
return 0;
}
if (PREDICT_FALSE (h->flags & CLIB_MEM_HEAP_F_TRACED))
mheap_get_trace (pointer_to_uword (p), clib_mem_size (p));
clib_mem_unpoison (p, size);
return p;
}
/* Memory allocator which calls os_out_of_memory() when it fails */
__clib_export __clib_flatten void *
clib_mem_alloc (uword size)
{
return clib_mem_heap_alloc_inline (0, size, CLIB_MEM_MIN_ALIGN,
/* os_out_of_memory */ 1);
}
__clib_export __clib_flatten void *
clib_mem_alloc_aligned (uword size, uword align)
{
return clib_mem_heap_alloc_inline (0, size, align,
/* os_out_of_memory */ 1);
}
/* Memory allocator which calls os_out_of_memory() when it fails */
__clib_export __clib_flatten void *
clib_mem_alloc_or_null (uword size)
{
return clib_mem_heap_alloc_inline (0, size, CLIB_MEM_MIN_ALIGN,
/* os_out_of_memory */ 0);
}
__clib_export __clib_flatten void *
clib_mem_alloc_aligned_or_null (uword size, uword align)
{
return clib_mem_heap_alloc_inline (0, size, align,
/* os_out_of_memory */ 0);
}
__clib_export __clib_flatten void *
clib_mem_heap_alloc (void *heap, uword size)
{
return clib_mem_heap_alloc_inline (heap, size, CLIB_MEM_MIN_ALIGN,
/* os_out_of_memory */ 1);
}
__clib_export __clib_flatten void *
clib_mem_heap_alloc_aligned (void *heap, uword size, uword align)
{
return clib_mem_heap_alloc_inline (heap, size, align,
/* os_out_of_memory */ 1);
}
__clib_export __clib_flatten void *
clib_mem_heap_alloc_or_null (void *heap, uword size)
{
return clib_mem_heap_alloc_inline (heap, size, CLIB_MEM_MIN_ALIGN,
/* os_out_of_memory */ 0);
}
__clib_export __clib_flatten void *
clib_mem_heap_alloc_aligned_or_null (void *heap, uword size, uword align)
{
return clib_mem_heap_alloc_inline (heap, size, align,
/* os_out_of_memory */ 0);
}
__clib_export __clib_flatten void *
clib_mem_heap_realloc_aligned (void *heap, void *p, uword new_size,
uword align)
{
uword old_alloc_size;
clib_mem_heap_t *h = heap ? heap : clib_mem_get_per_cpu_heap ();
void *new;
ASSERT (count_set_bits (align) == 1);
old_alloc_size = p ? mspace_usable_size (p) : 0;
if (new_size == old_alloc_size)
return p;
if (p && pointer_is_aligned (p, align) &&
mspace_realloc_in_place (h->mspace, p, new_size))
{
clib_mem_unpoison (p, new_size);
if (PREDICT_FALSE (h->flags & CLIB_MEM_HEAP_F_TRACED))
{
mheap_put_trace (pointer_to_uword (p), old_alloc_size);
mheap_get_trace (pointer_to_uword (p), clib_mem_size (p));
}
}
else
{
new = clib_mem_heap_alloc_inline (h, new_size, align, 1);
clib_mem_unpoison (new, new_size);
if (old_alloc_size)
{
clib_mem_unpoison (p, old_alloc_size);
clib_memcpy_fast (new, p, clib_min (new_size, old_alloc_size));
clib_mem_heap_free (h, p);
}
p = new;
}
return p;
}
__clib_export __clib_flatten void *
clib_mem_heap_realloc (void *heap, void *p, uword new_size)
{
return clib_mem_heap_realloc_aligned (heap, p, new_size, CLIB_MEM_MIN_ALIGN);
}
__clib_export __clib_flatten void *
clib_mem_realloc_aligned (void *p, uword new_size, uword align)
{
return clib_mem_heap_realloc_aligned (0, p, new_size, align);
}
__clib_export __clib_flatten void *
clib_mem_realloc (void *p, uword new_size)
{
return clib_mem_heap_realloc_aligned (0, p, new_size, CLIB_MEM_MIN_ALIGN);
}
__clib_export __clib_flatten uword
clib_mem_heap_is_heap_object (void *heap, void *p)
{
clib_mem_heap_t *h = heap ? heap : clib_mem_get_per_cpu_heap ();
return mspace_is_heap_object (h->mspace, p);
}
__clib_export __clib_flatten uword
clib_mem_is_heap_object (void *p)
{
return clib_mem_heap_is_heap_object (0, p);
}
__clib_export __clib_flatten void
clib_mem_heap_free (void *heap, void *p)
{
clib_mem_heap_t *h = heap ? heap : clib_mem_get_per_cpu_heap ();
uword size = clib_mem_size (p);
/* Make sure object is in the correct heap. */
ASSERT (clib_mem_heap_is_heap_object (h, p));
if (PREDICT_FALSE (h->flags & CLIB_MEM_HEAP_F_TRACED))
mheap_put_trace (pointer_to_uword (p), size);
clib_mem_poison (p, clib_mem_size (p));
mspace_free (h->mspace, p);
}
__clib_export __clib_flatten void
clib_mem_free (void *p)
{
clib_mem_heap_free (0, p);
}
__clib_export __clib_flatten uword
clib_mem_size (void *p)
{
return mspace_usable_size (p);
}
__clib_export void
clib_mem_free_s (void *p)
{
uword size = clib_mem_size (p);
clib_mem_unpoison (p, size);
memset_s_inline (p, size, 0, size);
clib_mem_free (p);
}