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/*
* MessagePack for C unpacking routine
*
* Copyright (C) 2008-2009 FURUHASHI Sadayuki
*
* 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 "msgpack/unpack.h"
#include "msgpack/unpack_define.h"
#include <stdlib.h>
typedef struct {
msgpack_zone* z;
bool referenced;
} unpack_user;
#define msgpack_unpack_struct(name) \
struct template ## name
#define msgpack_unpack_func(ret, name) \
ret template ## name
#define msgpack_unpack_callback(name) \
template_callback ## name
#define msgpack_unpack_object msgpack_object
#define msgpack_unpack_user unpack_user
struct template_context;
typedef struct template_context template_context;
static void template_init(template_context* ctx);
static msgpack_object template_data(template_context* ctx);
static int template_execute(template_context* ctx,
const char* data, size_t len, size_t* off);
static inline msgpack_object template_callback_root(unpack_user* u)
{ msgpack_object o; return o; }
static inline int template_callback_uint8(unpack_user* u, uint8_t d, msgpack_object* o)
{ o->type = MSGPACK_OBJECT_POSITIVE_INTEGER; o->via.u64 = d; return 0; }
static inline int template_callback_uint16(unpack_user* u, uint16_t d, msgpack_object* o)
{ o->type = MSGPACK_OBJECT_POSITIVE_INTEGER; o->via.u64 = d; return 0; }
static inline int template_callback_uint32(unpack_user* u, uint32_t d, msgpack_object* o)
{ o->type = MSGPACK_OBJECT_POSITIVE_INTEGER; o->via.u64 = d; return 0; }
static inline int template_callback_uint64(unpack_user* u, uint64_t d, msgpack_object* o)
{ o->type = MSGPACK_OBJECT_POSITIVE_INTEGER; o->via.u64 = d; return 0; }
static inline int template_callback_int8(unpack_user* u, int8_t d, msgpack_object* o)
{ if(d >= 0) { o->type = MSGPACK_OBJECT_POSITIVE_INTEGER; o->via.u64 = d; return 0; }
else { o->type = MSGPACK_OBJECT_NEGATIVE_INTEGER; o->via.i64 = d; return 0; } }
static inline int template_callback_int16(unpack_user* u, int16_t d, msgpack_object* o)
{ if(d >= 0) { o->type = MSGPACK_OBJECT_POSITIVE_INTEGER; o->via.u64 = d; return 0; }
else { o->type = MSGPACK_OBJECT_NEGATIVE_INTEGER; o->via.i64 = d; return 0; } }
static inline int template_callback_int32(unpack_user* u, int32_t d, msgpack_object* o)
{ if(d >= 0) { o->type = MSGPACK_OBJECT_POSITIVE_INTEGER; o->via.u64 = d; return 0; }
else { o->type = MSGPACK_OBJECT_NEGATIVE_INTEGER; o->via.i64 = d; return 0; } }
static inline int template_callback_int64(unpack_user* u, int64_t d, msgpack_object* o)
{ if(d >= 0) { o->type = MSGPACK_OBJECT_POSITIVE_INTEGER; o->via.u64 = d; return 0; }
else { o->type = MSGPACK_OBJECT_NEGATIVE_INTEGER; o->via.i64 = d; return 0; } }
static inline int template_callback_float(unpack_user* u, float d, msgpack_object* o)
{ o->type = MSGPACK_OBJECT_DOUBLE; o->via.dec = d; return 0; }
static inline int template_callback_double(unpack_user* u, double d, msgpack_object* o)
{ o->type = MSGPACK_OBJECT_DOUBLE; o->via.dec = d; return 0; }
static inline int template_callback_nil(unpack_user* u, msgpack_object* o)
{ o->type = MSGPACK_OBJECT_NIL; return 0; }
static inline int template_callback_true(unpack_user* u, msgpack_object* o)
{ o->type = MSGPACK_OBJECT_BOOLEAN; o->via.boolean = true; return 0; }
static inline int template_callback_false(unpack_user* u, msgpack_object* o)
{ o->type = MSGPACK_OBJECT_BOOLEAN; o->via.boolean = false; return 0; }
static inline int template_callback_array(unpack_user* u, unsigned int n, msgpack_object* o)
{
o->type = MSGPACK_OBJECT_ARRAY;
o->via.array.size = 0;
o->via.array.ptr = msgpack_zone_malloc(u->z, n*sizeof(msgpack_object));
if(o->via.array.ptr == NULL) { return -1; }
return 0;
}
static inline int template_callback_array_item(unpack_user* u, msgpack_object* c, msgpack_object o)
{ c->via.array.ptr[c->via.array.size++] = o; return 0; }
static inline int template_callback_map(unpack_user* u, unsigned int n, msgpack_object* o)
{
o->type = MSGPACK_OBJECT_MAP;
o->via.map.size = 0;
o->via.map.ptr = (msgpack_object_kv*)msgpack_zone_malloc(u->z, n*sizeof(msgpack_object_kv));
if(o->via.map.ptr == NULL) { return -1; }
return 0;
}
static inline int template_callback_map_item(unpack_user* u, msgpack_object* c, msgpack_object k, msgpack_object v)
{
c->via.map.ptr[c->via.map.size].key = k;
c->via.map.ptr[c->via.map.size].val = v;
++c->via.map.size;
return 0;
}
static inline int template_callback_raw(unpack_user* u, const char* b, const char* p, unsigned int l, msgpack_object* o)
{
o->type = MSGPACK_OBJECT_RAW;
o->via.raw.ptr = p;
o->via.raw.size = l;
u->referenced = true;
return 0;
}
#include "msgpack/unpack_template.h"
#define CTX_CAST(m) ((template_context*)(m))
#define CTX_REFERENCED(mpac) CTX_CAST((mpac)->ctx)->user.referenced
static const size_t COUNTER_SIZE = sizeof(unsigned int);
static inline void init_count(void* buffer)
{
*(volatile unsigned int*)buffer = 1;
}
static inline void decl_count(void* buffer)
{
//if(--*(unsigned int*)buffer == 0) {
if(__sync_sub_and_fetch((unsigned int*)buffer, 1) == 0) {
free(buffer);
}
}
static inline void incr_count(void* buffer)
{
//++*(unsigned int*)buffer;
__sync_add_and_fetch((unsigned int*)buffer, 1);
}
static inline unsigned int get_count(void* buffer)
{
return *(volatile unsigned int*)buffer;
}
bool msgpack_unpacker_init(msgpack_unpacker* mpac, size_t initial_buffer_size)
{
if(initial_buffer_size < COUNTER_SIZE) {
initial_buffer_size = COUNTER_SIZE;
}
char* buffer = (char*)malloc(initial_buffer_size);
if(buffer == NULL) {
return false;
}
void* ctx = malloc(sizeof(template_context));
if(ctx == NULL) {
free(buffer);
return false;
}
msgpack_zone* z = msgpack_zone_new(MSGPACK_ZONE_CHUNK_SIZE);
if(z == NULL) {
free(ctx);
free(buffer);
return false;
}
mpac->buffer = buffer;
mpac->used = COUNTER_SIZE;
mpac->free = initial_buffer_size - mpac->used;
mpac->off = COUNTER_SIZE;
mpac->parsed = 0;
mpac->initial_buffer_size = initial_buffer_size;
mpac->z = z;
mpac->ctx = ctx;
init_count(mpac->buffer);
template_init(CTX_CAST(mpac->ctx));
CTX_CAST(mpac->ctx)->user.z = mpac->z;
CTX_CAST(mpac->ctx)->user.referenced = false;
return true;
}
void msgpack_unpacker_destroy(msgpack_unpacker* mpac)
{
msgpack_zone_free(mpac->z);
free(mpac->ctx);
decl_count(mpac->buffer);
}
msgpack_unpacker* msgpack_unpacker_new(size_t initial_buffer_size)
{
msgpack_unpacker* mpac = (msgpack_unpacker*)malloc(sizeof(msgpack_unpacker));
if(mpac == NULL) {
return NULL;
}
if(!msgpack_unpacker_init(mpac, initial_buffer_size)) {
free(mpac);
return NULL;
}
return mpac;
}
void msgpack_unpacker_free(msgpack_unpacker* mpac)
{
msgpack_unpacker_destroy(mpac);
free(mpac);
}
bool msgpack_unpacker_expand_buffer(msgpack_unpacker* mpac, size_t size)
{
if(mpac->used == mpac->off && get_count(mpac->buffer) == 1
&& !CTX_REFERENCED(mpac)) {
// rewind buffer
mpac->free += mpac->used - COUNTER_SIZE;
mpac->used = COUNTER_SIZE;
mpac->off = COUNTER_SIZE;
if(mpac->free >= size) {
return true;
}
}
if(mpac->off == COUNTER_SIZE) {
size_t next_size = (mpac->used + mpac->free) * 2; // include COUNTER_SIZE
while(next_size < size + mpac->used) {
next_size *= 2;
}
char* tmp = (char*)realloc(mpac->buffer, next_size);
if(tmp == NULL) {
return false;
}
mpac->buffer = tmp;
mpac->free = next_size - mpac->used;
} else {
size_t next_size = mpac->initial_buffer_size; // include COUNTER_SIZE
size_t not_parsed = mpac->used - mpac->off;
while(next_size < size + not_parsed + COUNTER_SIZE) {
next_size *= 2;
}
char* tmp = (char*)malloc(next_size);
if(tmp == NULL) {
return false;
}
init_count(tmp);
memcpy(tmp+COUNTER_SIZE, mpac->buffer+mpac->off, not_parsed);
if(CTX_REFERENCED(mpac)) {
if(!msgpack_zone_push_finalizer(mpac->z, decl_count, mpac->buffer)) {
free(tmp);
return false;
}
CTX_REFERENCED(mpac) = false;
} else {
decl_count(mpac->buffer);
}
mpac->buffer = tmp;
mpac->used = not_parsed + COUNTER_SIZE;
mpac->free = next_size - mpac->used;
mpac->off = COUNTER_SIZE;
}
return true;
}
int msgpack_unpacker_execute(msgpack_unpacker* mpac)
{
size_t off = mpac->off;
int ret = template_execute(CTX_CAST(mpac->ctx),
mpac->buffer, mpac->used, &mpac->off);
if(mpac->off > off) {
mpac->parsed += mpac->off - off;
}
return ret;
}
msgpack_object msgpack_unpacker_data(msgpack_unpacker* mpac)
{
return template_data(CTX_CAST(mpac->ctx));
}
msgpack_zone* msgpack_unpacker_release_zone(msgpack_unpacker* mpac)
{
if(!msgpack_unpacker_flush_zone(mpac)) {
return false;
}
msgpack_zone* r = msgpack_zone_new(MSGPACK_ZONE_CHUNK_SIZE);
if(r == NULL) {
return NULL;
}
msgpack_zone* old = mpac->z;
mpac->z = r;
return old;
}
void msgpack_unpacker_reset_zone(msgpack_unpacker* mpac)
{
msgpack_zone_clear(mpac->z);
}
bool msgpack_unpacker_flush_zone(msgpack_unpacker* mpac)
{
if(CTX_REFERENCED(mpac)) {
if(!msgpack_zone_push_finalizer(mpac->z, decl_count, mpac->buffer)) {
return false;
}
CTX_REFERENCED(mpac) = false;
incr_count(mpac->buffer);
}
return true;
}
void msgpack_unpacker_reset(msgpack_unpacker* mpac)
{
template_init(CTX_CAST(mpac->ctx));
// don't reset referenced flag
mpac->parsed = 0;
}
msgpack_unpack_return
msgpack_unpack(const char* data, size_t len, size_t* off,
msgpack_zone* z, msgpack_object* result)
{
template_context ctx;
template_init(&ctx);
ctx.user.z = z;
ctx.user.referenced = false;
size_t noff = 0;
if(off != NULL) { noff = *off; }
int ret = template_execute(&ctx, data, len, &noff);
if(ret < 0) {
return MSGPACK_UNPACK_PARSE_ERROR;
}
if(off != NULL) { *off = noff; }
if(ret == 0) {
return MSGPACK_UNPACK_CONTINUE;
}
*result = template_data(&ctx);
if(noff < len) {
return MSGPACK_UNPACK_EXTRA_BYTES;
}
return MSGPACK_UNPACK_SUCCESS;
}
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