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/*
*
* Copyright 2015, Google Inc.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following disclaimer
* in the documentation and/or other materials provided with the
* distribution.
* * Neither the name of Google Inc. nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*/
#include <grpc/support/alloc.h>
#include <grpc/support/log.h>
#include <grpc/support/slice.h>
#include <string.h>
gpr_slice gpr_empty_slice(void) {
gpr_slice out;
out.refcount = 0;
out.data.inlined.length = 0;
return out;
}
gpr_slice gpr_slice_ref(gpr_slice slice) {
if (slice.refcount) {
slice.refcount->ref(slice.refcount);
}
return slice;
}
void gpr_slice_unref(gpr_slice slice) {
if (slice.refcount) {
slice.refcount->unref(slice.refcount);
}
}
/* gpr_slice_new support structures - we create a refcount object extended
with the user provided data pointer & destroy function */
typedef struct new_slice_refcount {
gpr_slice_refcount rc;
gpr_refcount refs;
void (*user_destroy)(void *);
void *user_data;
} new_slice_refcount;
static void new_slice_ref(void *p) {
new_slice_refcount *r = p;
gpr_ref(&r->refs);
}
static void new_slice_unref(void *p) {
new_slice_refcount *r = p;
if (gpr_unref(&r->refs)) {
r->user_destroy(r->user_data);
gpr_free(r);
}
}
gpr_slice gpr_slice_new(void *p, size_t len, void (*destroy)(void *)) {
gpr_slice slice;
new_slice_refcount *rc = gpr_malloc(sizeof(new_slice_refcount));
gpr_ref_init(&rc->refs, 1);
rc->rc.ref = new_slice_ref;
rc->rc.unref = new_slice_unref;
rc->user_destroy = destroy;
rc->user_data = p;
slice.refcount = &rc->rc;
slice.data.refcounted.bytes = p;
slice.data.refcounted.length = len;
return slice;
}
/* gpr_slice_new_with_len support structures - we create a refcount object
extended with the user provided data pointer & destroy function */
typedef struct new_with_len_slice_refcount {
gpr_slice_refcount rc;
gpr_refcount refs;
void *user_data;
size_t user_length;
void (*user_destroy)(void *, size_t);
} new_with_len_slice_refcount;
static void new_with_len_ref(void *p) {
new_with_len_slice_refcount *r = p;
gpr_ref(&r->refs);
}
static void new_with_len_unref(void *p) {
new_with_len_slice_refcount *r = p;
if (gpr_unref(&r->refs)) {
r->user_destroy(r->user_data, r->user_length);
gpr_free(r);
}
}
gpr_slice gpr_slice_new_with_len(void *p, size_t len,
void (*destroy)(void *, size_t)) {
gpr_slice slice;
new_with_len_slice_refcount *rc =
gpr_malloc(sizeof(new_with_len_slice_refcount));
gpr_ref_init(&rc->refs, 1);
rc->rc.ref = new_with_len_ref;
rc->rc.unref = new_with_len_unref;
rc->user_destroy = destroy;
rc->user_data = p;
rc->user_length = len;
slice.refcount = &rc->rc;
slice.data.refcounted.bytes = p;
slice.data.refcounted.length = len;
return slice;
}
gpr_slice gpr_slice_from_copied_buffer(const char *source, size_t length) {
gpr_slice slice = gpr_slice_malloc(length);
memcpy(GPR_SLICE_START_PTR(slice), source, length);
return slice;
}
gpr_slice gpr_slice_from_copied_string(const char *source) {
return gpr_slice_from_copied_buffer(source, strlen(source));
}
typedef struct {
gpr_slice_refcount base;
gpr_refcount refs;
} malloc_refcount;
static void malloc_ref(void *p) {
malloc_refcount *r = p;
gpr_ref(&r->refs);
}
static void malloc_unref(void *p) {
malloc_refcount *r = p;
if (gpr_unref(&r->refs)) {
gpr_free(r);
}
}
gpr_slice gpr_slice_malloc(size_t length) {
gpr_slice slice;
if (length > sizeof(slice.data.inlined.bytes)) {
/* Memory layout used by the slice created here:
+-----------+----------------------------------------------------------+
| refcount | bytes |
+-----------+----------------------------------------------------------+
refcount is a malloc_refcount
bytes is an array of bytes of the requested length
Both parts are placed in the same allocation returned from gpr_malloc */
malloc_refcount *rc = gpr_malloc(sizeof(malloc_refcount) + length);
/* Initial refcount on rc is 1 - and it's up to the caller to release
this reference. */
gpr_ref_init(&rc->refs, 1);
rc->base.ref = malloc_ref;
rc->base.unref = malloc_unref;
/* Build up the slice to be returned. */
/* The slices refcount points back to the allocated block. */
slice.refcount = &rc->base;
/* The data bytes are placed immediately after the refcount struct */
slice.data.refcounted.bytes = (gpr_uint8 *)(rc + 1);
/* And the length of the block is set to the requested length */
slice.data.refcounted.length = length;
} else {
/* small slice: just inline the data */
slice.refcount = NULL;
slice.data.inlined.length = (gpr_uint8)length;
}
return slice;
}
gpr_slice gpr_slice_sub_no_ref(gpr_slice source, size_t begin, size_t end) {
gpr_slice subset;
GPR_ASSERT(end >= begin);
if (source.refcount) {
/* Enforce preconditions */
GPR_ASSERT(source.data.refcounted.length >= end);
/* Build the result */
subset.refcount = source.refcount;
/* Point into the source array */
subset.data.refcounted.bytes = source.data.refcounted.bytes + begin;
subset.data.refcounted.length = end - begin;
} else {
/* Enforce preconditions */
GPR_ASSERT(source.data.inlined.length >= end);
subset.refcount = NULL;
subset.data.inlined.length = (gpr_uint8)(end - begin);
memcpy(subset.data.inlined.bytes, source.data.inlined.bytes + begin,
end - begin);
}
return subset;
}
gpr_slice gpr_slice_sub(gpr_slice source, size_t begin, size_t end) {
gpr_slice subset;
if (end - begin <= sizeof(subset.data.inlined.bytes)) {
subset.refcount = NULL;
subset.data.inlined.length = (gpr_uint8)(end - begin);
memcpy(subset.data.inlined.bytes, GPR_SLICE_START_PTR(source) + begin,
end - begin);
} else {
subset = gpr_slice_sub_no_ref(source, begin, end);
/* Bump the refcount */
subset.refcount->ref(subset.refcount);
}
return subset;
}
gpr_slice gpr_slice_split_tail(gpr_slice *source, size_t split) {
gpr_slice tail;
if (source->refcount == NULL) {
/* inlined data, copy it out */
GPR_ASSERT(source->data.inlined.length >= split);
tail.refcount = NULL;
tail.data.inlined.length = (gpr_uint8)(source->data.inlined.length - split);
memcpy(tail.data.inlined.bytes, source->data.inlined.bytes + split,
tail.data.inlined.length);
source->data.inlined.length = (gpr_uint8)split;
} else {
size_t tail_length = source->data.refcounted.length - split;
GPR_ASSERT(source->data.refcounted.length >= split);
if (tail_length < sizeof(tail.data.inlined.bytes)) {
/* Copy out the bytes - it'll be cheaper than refcounting */
tail.refcount = NULL;
tail.data.inlined.length = (gpr_uint8)tail_length;
memcpy(tail.data.inlined.bytes, source->data.refcounted.bytes + split,
tail_length);
} else {
/* Build the result */
tail.refcount = source->refcount;
/* Bump the refcount */
tail.refcount->ref(tail.refcount);
/* Point into the source array */
tail.data.refcounted.bytes = source->data.refcounted.bytes + split;
tail.data.refcounted.length = tail_length;
}
source->data.refcounted.length = split;
}
return tail;
}
gpr_slice gpr_slice_split_head(gpr_slice *source, size_t split) {
gpr_slice head;
if (source->refcount == NULL) {
GPR_ASSERT(source->data.inlined.length >= split);
head.refcount = NULL;
head.data.inlined.length = (gpr_uint8)split;
memcpy(head.data.inlined.bytes, source->data.inlined.bytes, split);
source->data.inlined.length = (gpr_uint8)(source->data.inlined.length - split);
memmove(source->data.inlined.bytes, source->data.inlined.bytes + split,
source->data.inlined.length);
} else if (split < sizeof(head.data.inlined.bytes)) {
GPR_ASSERT(source->data.refcounted.length >= split);
head.refcount = NULL;
head.data.inlined.length = (gpr_uint8)split;
memcpy(head.data.inlined.bytes, source->data.refcounted.bytes, split);
source->data.refcounted.bytes += split;
source->data.refcounted.length -= split;
} else {
GPR_ASSERT(source->data.refcounted.length >= split);
/* Build the result */
head.refcount = source->refcount;
/* Bump the refcount */
head.refcount->ref(head.refcount);
/* Point into the source array */
head.data.refcounted.bytes = source->data.refcounted.bytes;
head.data.refcounted.length = split;
source->data.refcounted.bytes += split;
source->data.refcounted.length -= split;
}
return head;
}
int gpr_slice_cmp(gpr_slice a, gpr_slice b) {
int d = (int)(GPR_SLICE_LENGTH(a) - GPR_SLICE_LENGTH(b));
if (d != 0) return d;
return memcmp(GPR_SLICE_START_PTR(a), GPR_SLICE_START_PTR(b),
GPR_SLICE_LENGTH(a));
}
int gpr_slice_str_cmp(gpr_slice a, const char *b) {
size_t b_length = strlen(b);
int d = (int)(GPR_SLICE_LENGTH(a) - b_length);
if (d != 0) return d;
return memcmp(GPR_SLICE_START_PTR(a), b, b_length);
}
char *gpr_slice_to_cstring(gpr_slice slice) {
char *result = gpr_malloc(GPR_SLICE_LENGTH(slice) + 1);
memcpy(result, GPR_SLICE_START_PTR(slice), GPR_SLICE_LENGTH(slice));
result[GPR_SLICE_LENGTH(slice)] = '\0';
return result;
}
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