libmsgpack/msgpack-c/src/unpack.c - 3p/sel4proj/projects_libs - Git at Google

 /*
  * MessagePack for C unpacking routine
  *
  * Copyright (C) 2008-2009 FURUHASHI Sadayuki
  *
  *    Distributed under the Boost Software License, Version 1.0.
  *    (See accompanying file LICENSE_1_0.txt or copy at
  *    http://www.boost.org/LICENSE_1_0.txt)
  */
 #include "msgpack/unpack.h"
 #include "msgpack/unpack_define.h"
 #include "msgpack/util.h"
 #include <stdlib.h>

 #ifdef _msgpack_atomic_counter_header
 #include _msgpack_atomic_counter_header
 #endif


 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;
     MSGPACK_UNUSED(u);
     o.type = MSGPACK_OBJECT_NIL;
     return o;
 }

 static inline int template_callback_uint8(unpack_user* u, uint8_t d, msgpack_object* o)
 {
     MSGPACK_UNUSED(u);
     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)
 {
     MSGPACK_UNUSED(u);
     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)
 {
     MSGPACK_UNUSED(u);
     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)
 {
     MSGPACK_UNUSED(u);
     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)
 {
     MSGPACK_UNUSED(u);
     if(d >= 0) {
         o->type = MSGPACK_OBJECT_POSITIVE_INTEGER;
         o->via.u64 = (uint64_t)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)
 {
     MSGPACK_UNUSED(u);
     if(d >= 0) {
         o->type = MSGPACK_OBJECT_POSITIVE_INTEGER;
         o->via.u64 = (uint64_t)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)
 {
     MSGPACK_UNUSED(u);
     if(d >= 0) {
         o->type = MSGPACK_OBJECT_POSITIVE_INTEGER;
         o->via.u64 = (uint64_t)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)
 {
     MSGPACK_UNUSED(u);
     if(d >= 0) {
         o->type = MSGPACK_OBJECT_POSITIVE_INTEGER;
         o->via.u64 = (uint64_t)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)
 {
     MSGPACK_UNUSED(u);
     o->type = MSGPACK_OBJECT_FLOAT;
     o->via.f64 = d;
     return 0;
 }

 static inline int template_callback_double(unpack_user* u, double d, msgpack_object* o)
 {
     MSGPACK_UNUSED(u);
     o->type = MSGPACK_OBJECT_FLOAT;
     o->via.f64 = d;
     return 0;
 }

 static inline int template_callback_nil(unpack_user* u, msgpack_object* o)
 {
     MSGPACK_UNUSED(u);
     o->type = MSGPACK_OBJECT_NIL;
     return 0;
 }

 static inline int template_callback_true(unpack_user* u, msgpack_object* o)
 {
     MSGPACK_UNUSED(u);
     o->type = MSGPACK_OBJECT_BOOLEAN;
     o->via.boolean = true;
     return 0;
 }

 static inline int template_callback_false(unpack_user* u, msgpack_object* o)
 {
     MSGPACK_UNUSED(u);
     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_object*)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)
 {
     MSGPACK_UNUSED(u);
 #if defined(__GNUC__) && !defined(__clang__)
     memcpy(&c->via.array.ptr[c->via.array.size], &o, sizeof(msgpack_object));
 #else  /* __GNUC__ && !__clang__ */
     c->via.array.ptr[c->via.array.size] = o;
 #endif /* __GNUC__ && !__clang__ */
     ++c->via.array.size;
     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)
 {
     MSGPACK_UNUSED(u);
 #if defined(__GNUC__) && !defined(__clang__)
     memcpy(&c->via.map.ptr[c->via.map.size].key, &k, sizeof(msgpack_object));
     memcpy(&c->via.map.ptr[c->via.map.size].val, &v, sizeof(msgpack_object));
 #else  /* __GNUC__ && !__clang__ */
     c->via.map.ptr[c->via.map.size].key = k;
     c->via.map.ptr[c->via.map.size].val = v;
 #endif /* __GNUC__ && !__clang__ */
     ++c->via.map.size;
     return 0;
 }

 static inline int template_callback_str(unpack_user* u, const char* b, const char* p, unsigned int l, msgpack_object* o)
 {
     MSGPACK_UNUSED(u);
     MSGPACK_UNUSED(b);
     o->type = MSGPACK_OBJECT_STR;
     o->via.str.ptr = p;
     o->via.str.size = l;
     u->referenced = true;
     return 0;
 }

 static inline int template_callback_bin(unpack_user* u, const char* b, const char* p, unsigned int l, msgpack_object* o)
 {
     MSGPACK_UNUSED(u);
     MSGPACK_UNUSED(b);
     o->type = MSGPACK_OBJECT_BIN;
     o->via.bin.ptr = p;
     o->via.bin.size = l;
     u->referenced = true;
     return 0;
 }

 static inline int template_callback_ext(unpack_user* u, const char* b, const char* p, unsigned int l, msgpack_object* o)
 {
     MSGPACK_UNUSED(u);
     MSGPACK_UNUSED(b);
     o->type = MSGPACK_OBJECT_EXT;
     o->via.ext.type = *p;
     o->via.ext.ptr = p + 1;
     o->via.ext.size = l - 1;
     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

 #define COUNTER_SIZE (sizeof(_msgpack_atomic_counter_t))


 static inline void init_count(void* buffer)
 {
     *(volatile _msgpack_atomic_counter_t*)buffer = 1;
 }

 static inline void decr_count(void* buffer)
 {
     // atomic if(--*(_msgpack_atomic_counter_t*)buffer == 0) { free(buffer); }
     if(_msgpack_sync_decr_and_fetch((volatile _msgpack_atomic_counter_t*)buffer) == 0) {
         free(buffer);
     }
 }

 static inline void incr_count(void* buffer)
 {
     // atomic ++*(_msgpack_atomic_counter_t*)buffer;
     _msgpack_sync_incr_and_fetch((volatile _msgpack_atomic_counter_t*)buffer);
 }

 static inline _msgpack_atomic_counter_t get_count(void* buffer)
 {
     return *(volatile _msgpack_atomic_counter_t*)buffer;
 }

 bool msgpack_unpacker_init(msgpack_unpacker* mpac, size_t initial_buffer_size)
 {
     char* buffer;
     void* ctx;
     msgpack_zone* z;

     if(initial_buffer_size < COUNTER_SIZE) {
         initial_buffer_size = COUNTER_SIZE;
     }

     buffer = (char*)malloc(initial_buffer_size);
     if(buffer == NULL) {
         return false;
     }

     ctx = malloc(sizeof(template_context));
     if(ctx == NULL) {
         free(buffer);
         return false;
     }

     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);
     decr_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) {
         char* tmp;
         size_t next_size = (mpac->used + mpac->free) * 2;  // include COUNTER_SIZE
         while(next_size < size + mpac->used) {
             size_t tmp_next_size = next_size * 2;
             if (tmp_next_size <= next_size) {
                 next_size = size + mpac->used;
                 break;
             }
             next_size = tmp_next_size;
         }

         tmp = (char*)realloc(mpac->buffer, next_size);
         if(tmp == NULL) {
             return false;
         }

         mpac->buffer = tmp;
         mpac->free = next_size - mpac->used;

     } else {
         char* tmp;
         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) {
             size_t tmp_next_size = next_size * 2;
             if (tmp_next_size <= next_size) {
                 next_size = size + not_parsed + COUNTER_SIZE;
                 break;
             }
             next_size = tmp_next_size;
         }

         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, decr_count, mpac->buffer)) {
                 free(tmp);
                 return false;
             }
             CTX_REFERENCED(mpac) = false;
         } else {
             decr_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)
 {
     msgpack_zone* r;
     msgpack_zone* old;

     if(!msgpack_unpacker_flush_zone(mpac)) {
         return NULL;
     }

     r = msgpack_zone_new(MSGPACK_ZONE_CHUNK_SIZE);
     if(r == NULL) {
         return NULL;
     }

     old = mpac->z;
     mpac->z = r;
     CTX_CAST(mpac->ctx)->user.z = mpac->z;

     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, decr_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_unpacker_next(msgpack_unpacker* mpac, msgpack_unpacked* result)
 {
     int ret;

     msgpack_unpacked_destroy(result);

     ret = msgpack_unpacker_execute(mpac);

     if(ret < 0) {
         result->zone = NULL;
         memset(&result->data, 0, sizeof(msgpack_object));
         return MSGPACK_UNPACK_PARSE_ERROR;
     }

     if(ret == 0) {
         return MSGPACK_UNPACK_CONTINUE;
     }
     result->zone = msgpack_unpacker_release_zone(mpac);
     result->data = msgpack_unpacker_data(mpac);
     msgpack_unpacker_reset(mpac);

     return MSGPACK_UNPACK_SUCCESS;
 }


 msgpack_unpack_return
 msgpack_unpack(const char* data, size_t len, size_t* off,
         msgpack_zone* result_zone, msgpack_object* result)
 {
     size_t noff = 0;
     if(off != NULL) { noff = *off; }

     if(len <= noff) {
         // FIXME
         return MSGPACK_UNPACK_CONTINUE;
     }
     else {
         int e;
         template_context ctx;
         template_init(&ctx);

         ctx.user.z = result_zone;
         ctx.user.referenced = false;

         e = template_execute(&ctx, data, len, &noff);
         if(e < 0) {
             return MSGPACK_UNPACK_PARSE_ERROR;
         }

         if(off != NULL) { *off = noff; }

         if(e == 0) {
             return MSGPACK_UNPACK_CONTINUE;
         }

         *result = template_data(&ctx);

         if(noff < len) {
             return MSGPACK_UNPACK_EXTRA_BYTES;
         }

         return MSGPACK_UNPACK_SUCCESS;
     }
 }

 msgpack_unpack_return
 msgpack_unpack_next(msgpack_unpacked* result,
         const char* data, size_t len, size_t* off)
 {
     size_t noff = 0;
     msgpack_unpacked_destroy(result);

     if(off != NULL) { noff = *off; }

     if(len <= noff) {
         return MSGPACK_UNPACK_CONTINUE;
     }

     if (!result->zone) {
         result->zone = msgpack_zone_new(MSGPACK_ZONE_CHUNK_SIZE);
     }

     if (!result->zone) {
         return MSGPACK_UNPACK_NOMEM_ERROR;
     }
     else {
         int e;
         template_context ctx;
         template_init(&ctx);

         ctx.user.z = result->zone;
         ctx.user.referenced = false;

         e = template_execute(&ctx, data, len, &noff);
         if(e < 0) {
             msgpack_zone_free(result->zone);
             result->zone = NULL;
             return MSGPACK_UNPACK_PARSE_ERROR;
         }


         if(e == 0) {
             return MSGPACK_UNPACK_CONTINUE;
         }

         if(off != NULL) { *off = noff; }

         result->data = template_data(&ctx);

         return MSGPACK_UNPACK_SUCCESS;
     }
 }

 #if defined(MSGPACK_OLD_COMPILER_BUS_ERROR_WORKAROUND)
 // FIXME: Dirty hack to avoid a bus error caused by OS X's old gcc.
 static void dummy_function_to_avoid_bus_error()
 {
 }
 #endif
	/*
	* MessagePack for C unpacking routine
	*
	* Copyright (C) 2008-2009 FURUHASHI Sadayuki
	*
	* Distributed under the Boost Software License, Version 1.0.
	* (See accompanying file LICENSE_1_0.txt or copy at
	* http://www.boost.org/LICENSE_1_0.txt)
	*/
	#include "msgpack/unpack.h"
	#include "msgpack/unpack_define.h"
	#include "msgpack/util.h"
	#include <stdlib.h>

	#ifdef _msgpack_atomic_counter_header
	#include _msgpack_atomic_counter_header
	#endif


	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;
	MSGPACK_UNUSED(u);
	o.type = MSGPACK_OBJECT_NIL;
	return o;
	}

	static inline int template_callback_uint8(unpack_user* u, uint8_t d, msgpack_object* o)
	{
	MSGPACK_UNUSED(u);
	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)
	{
	MSGPACK_UNUSED(u);
	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)
	{
	MSGPACK_UNUSED(u);
	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)
	{
	MSGPACK_UNUSED(u);
	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)
	{
	MSGPACK_UNUSED(u);
	if(d >= 0) {
	o->type = MSGPACK_OBJECT_POSITIVE_INTEGER;
	o->via.u64 = (uint64_t)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)
	{
	MSGPACK_UNUSED(u);
	if(d >= 0) {
	o->type = MSGPACK_OBJECT_POSITIVE_INTEGER;
	o->via.u64 = (uint64_t)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)
	{
	MSGPACK_UNUSED(u);
	if(d >= 0) {
	o->type = MSGPACK_OBJECT_POSITIVE_INTEGER;
	o->via.u64 = (uint64_t)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)
	{
	MSGPACK_UNUSED(u);
	if(d >= 0) {
	o->type = MSGPACK_OBJECT_POSITIVE_INTEGER;
	o->via.u64 = (uint64_t)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)
	{
	MSGPACK_UNUSED(u);
	o->type = MSGPACK_OBJECT_FLOAT;
	o->via.f64 = d;
	return 0;
	}

	static inline int template_callback_double(unpack_user* u, double d, msgpack_object* o)
	{
	MSGPACK_UNUSED(u);
	o->type = MSGPACK_OBJECT_FLOAT;
	o->via.f64 = d;
	return 0;
	}

	static inline int template_callback_nil(unpack_user* u, msgpack_object* o)
	{
	MSGPACK_UNUSED(u);
	o->type = MSGPACK_OBJECT_NIL;
	return 0;
	}

	static inline int template_callback_true(unpack_user* u, msgpack_object* o)
	{
	MSGPACK_UNUSED(u);
	o->type = MSGPACK_OBJECT_BOOLEAN;
	o->via.boolean = true;
	return 0;
	}

	static inline int template_callback_false(unpack_user* u, msgpack_object* o)
	{
	MSGPACK_UNUSED(u);
	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_object)msgpack_zone_malloc(u->z, nsizeof(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)
	{
	MSGPACK_UNUSED(u);
	#if defined(__GNUC__) && !defined(__clang__)
	memcpy(&c->via.array.ptr[c->via.array.size], &o, sizeof(msgpack_object));
	#else /* __GNUC__ && !__clang__ */
	c->via.array.ptr[c->via.array.size] = o;
	#endif /* __GNUC__ && !__clang__ */
	++c->via.array.size;
	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, nsizeof(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)
	{
	MSGPACK_UNUSED(u);
	#if defined(__GNUC__) && !defined(__clang__)
	memcpy(&c->via.map.ptr[c->via.map.size].key, &k, sizeof(msgpack_object));
	memcpy(&c->via.map.ptr[c->via.map.size].val, &v, sizeof(msgpack_object));
	#else /* __GNUC__ && !__clang__ */
	c->via.map.ptr[c->via.map.size].key = k;
	c->via.map.ptr[c->via.map.size].val = v;
	#endif /* __GNUC__ && !__clang__ */
	++c->via.map.size;
	return 0;
	}

	static inline int template_callback_str(unpack_user* u, const char* b, const char* p, unsigned int l, msgpack_object* o)
	{
	MSGPACK_UNUSED(u);
	MSGPACK_UNUSED(b);
	o->type = MSGPACK_OBJECT_STR;
	o->via.str.ptr = p;
	o->via.str.size = l;
	u->referenced = true;
	return 0;
	}

	static inline int template_callback_bin(unpack_user* u, const char* b, const char* p, unsigned int l, msgpack_object* o)
	{
	MSGPACK_UNUSED(u);
	MSGPACK_UNUSED(b);
	o->type = MSGPACK_OBJECT_BIN;
	o->via.bin.ptr = p;
	o->via.bin.size = l;
	u->referenced = true;
	return 0;
	}

	static inline int template_callback_ext(unpack_user* u, const char* b, const char* p, unsigned int l, msgpack_object* o)
	{
	MSGPACK_UNUSED(u);
	MSGPACK_UNUSED(b);
	o->type = MSGPACK_OBJECT_EXT;
	o->via.ext.type = *p;
	o->via.ext.ptr = p + 1;
	o->via.ext.size = l - 1;
	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

	#define COUNTER_SIZE (sizeof(_msgpack_atomic_counter_t))


	static inline void init_count(void* buffer)
	{
	(volatile _msgpack_atomic_counter_t)buffer = 1;
	}

	static inline void decr_count(void* buffer)
	{
	// atomic if(--(_msgpack_atomic_counter_t)buffer == 0) { free(buffer); }
	if(_msgpack_sync_decr_and_fetch((volatile _msgpack_atomic_counter_t*)buffer) == 0) {
	free(buffer);
	}
	}

	static inline void incr_count(void* buffer)
	{
	// atomic ++(_msgpack_atomic_counter_t)buffer;
	_msgpack_sync_incr_and_fetch((volatile _msgpack_atomic_counter_t*)buffer);
	}

	static inline _msgpack_atomic_counter_t get_count(void* buffer)
	{
	return (volatile _msgpack_atomic_counter_t)buffer;
	}

	bool msgpack_unpacker_init(msgpack_unpacker* mpac, size_t initial_buffer_size)
	{
	char* buffer;
	void* ctx;
	msgpack_zone* z;

	if(initial_buffer_size < COUNTER_SIZE) {
	initial_buffer_size = COUNTER_SIZE;
	}

	buffer = (char*)malloc(initial_buffer_size);
	if(buffer == NULL) {
	return false;
	}

	ctx = malloc(sizeof(template_context));
	if(ctx == NULL) {
	free(buffer);
	return false;
	}

	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);
	decr_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) {
	char* tmp;
	size_t next_size = (mpac->used + mpac->free) * 2; // include COUNTER_SIZE
	while(next_size < size + mpac->used) {
	size_t tmp_next_size = next_size * 2;
	if (tmp_next_size <= next_size) {
	next_size = size + mpac->used;
	break;
	}
	next_size = tmp_next_size;
	}

	tmp = (char*)realloc(mpac->buffer, next_size);
	if(tmp == NULL) {
	return false;
	}

	mpac->buffer = tmp;
	mpac->free = next_size - mpac->used;

	} else {
	char* tmp;
	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) {
	size_t tmp_next_size = next_size * 2;
	if (tmp_next_size <= next_size) {
	next_size = size + not_parsed + COUNTER_SIZE;
	break;
	}
	next_size = tmp_next_size;
	}

	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, decr_count, mpac->buffer)) {
	free(tmp);
	return false;
	}
	CTX_REFERENCED(mpac) = false;
	} else {
	decr_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)
	{
	msgpack_zone* r;
	msgpack_zone* old;

	if(!msgpack_unpacker_flush_zone(mpac)) {
	return NULL;
	}

	r = msgpack_zone_new(MSGPACK_ZONE_CHUNK_SIZE);
	if(r == NULL) {
	return NULL;
	}

	old = mpac->z;
	mpac->z = r;
	CTX_CAST(mpac->ctx)->user.z = mpac->z;

	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, decr_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_unpacker_next(msgpack_unpacker* mpac, msgpack_unpacked* result)
	{
	int ret;

	msgpack_unpacked_destroy(result);

	ret = msgpack_unpacker_execute(mpac);

	if(ret < 0) {
	result->zone = NULL;
	memset(&result->data, 0, sizeof(msgpack_object));
	return MSGPACK_UNPACK_PARSE_ERROR;
	}

	if(ret == 0) {
	return MSGPACK_UNPACK_CONTINUE;
	}
	result->zone = msgpack_unpacker_release_zone(mpac);
	result->data = msgpack_unpacker_data(mpac);
	msgpack_unpacker_reset(mpac);

	return MSGPACK_UNPACK_SUCCESS;
	}


	msgpack_unpack_return
	msgpack_unpack(const char* data, size_t len, size_t* off,
	msgpack_zone* result_zone, msgpack_object* result)
	{
	size_t noff = 0;
	if(off != NULL) { noff = *off; }

	if(len <= noff) {
	// FIXME
	return MSGPACK_UNPACK_CONTINUE;
	}
	else {
	int e;
	template_context ctx;
	template_init(&ctx);

	ctx.user.z = result_zone;
	ctx.user.referenced = false;

	e = template_execute(&ctx, data, len, &noff);
	if(e < 0) {
	return MSGPACK_UNPACK_PARSE_ERROR;
	}

	if(off != NULL) { *off = noff; }

	if(e == 0) {
	return MSGPACK_UNPACK_CONTINUE;
	}

	*result = template_data(&ctx);

	if(noff < len) {
	return MSGPACK_UNPACK_EXTRA_BYTES;
	}

	return MSGPACK_UNPACK_SUCCESS;
	}
	}

	msgpack_unpack_return
	msgpack_unpack_next(msgpack_unpacked* result,
	const char* data, size_t len, size_t* off)
	{
	size_t noff = 0;
	msgpack_unpacked_destroy(result);

	if(off != NULL) { noff = *off; }

	if(len <= noff) {
	return MSGPACK_UNPACK_CONTINUE;
	}

	if (!result->zone) {
	result->zone = msgpack_zone_new(MSGPACK_ZONE_CHUNK_SIZE);
	}

	if (!result->zone) {
	return MSGPACK_UNPACK_NOMEM_ERROR;
	}
	else {
	int e;
	template_context ctx;
	template_init(&ctx);

	ctx.user.z = result->zone;
	ctx.user.referenced = false;

	e = template_execute(&ctx, data, len, &noff);
	if(e < 0) {
	msgpack_zone_free(result->zone);
	result->zone = NULL;
	return MSGPACK_UNPACK_PARSE_ERROR;
	}


	if(e == 0) {
	return MSGPACK_UNPACK_CONTINUE;
	}

	if(off != NULL) { *off = noff; }

	result->data = template_data(&ctx);

	return MSGPACK_UNPACK_SUCCESS;
	}
	}

	#if defined(MSGPACK_OLD_COMPILER_BUS_ERROR_WORKAROUND)
	// FIXME: Dirty hack to avoid a bus error caused by OS X's old gcc.
	static void dummy_function_to_avoid_bus_error()
	{
	}
	#endif