Protocol Buffers - Google's data interchange format (grpc依赖) https://developers.google.com/protocol-buffers/
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/*
** upb::Message is a representation for protobuf messages.
**
** However it differs from other common representations like
** google::protobuf::Message in one key way: it does not prescribe any
** ownership between messages and submessages, and it relies on the
** client to ensure that each submessage/array/map outlives its parent.
**
** All messages, arrays, and maps live in an Arena. If the entire message
** tree is in the same arena, ensuring proper lifetimes is simple. However
** the client can mix arenas as long as they ensure that there are no
** dangling pointers.
**
** A client can access a upb::Message without knowing anything about
** ownership semantics, but to create or mutate a message a user needs
** to implement the memory management themselves.
**
** TODO: UTF-8 checking?
**/
#ifndef UPB_MSG_H_
#define UPB_MSG_H_
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#include <stdint.h>
#include <string.h>
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#include "upb/upb.h"
#include "upb/structs.int.h"
#ifdef __cplusplus
namespace upb {
class Array;
class Map;
class MapIterator;
class MessageLayout;
}
#endif
UPB_DECLARE_TYPE(upb::Map, upb_map)
UPB_DECLARE_TYPE(upb::MapIterator, upb_mapiter)
struct upb_array;
typedef struct upb_array upb_array;
/* TODO(haberman): C++ accessors */
UPB_BEGIN_EXTERN_C
typedef void upb_msg;
/** upb_msglayout *************************************************************/
/* upb_msglayout represents the memory layout of a given upb_msgdef. The
* members are public so generated code can initialize them, but users MUST NOT
* read or write any of its members. */
typedef struct {
uint32_t number;
uint16_t offset;
int16_t presence; /* If >0, hasbit_index+1. If <0, oneof_index+1. */
uint16_t submsg_index; /* undefined if descriptortype != MESSAGE or GROUP. */
uint8_t descriptortype;
uint8_t label;
} upb_msglayout_field;
typedef struct upb_msglayout {
const struct upb_msglayout *const* submsgs;
const upb_msglayout_field *fields;
/* Must be aligned to sizeof(void*). Doesn't include internal members like
* unknown fields, extension dict, pointer to msglayout, etc. */
uint16_t size;
uint16_t field_count;
bool extendable;
} upb_msglayout;
/** upb_stringview ************************************************************/
typedef struct {
const char *data;
size_t size;
} upb_stringview;
UPB_INLINE upb_stringview upb_stringview_make(const char *data, size_t size) {
upb_stringview ret;
ret.data = data;
ret.size = size;
return ret;
}
UPB_INLINE upb_stringview upb_stringview_makez(const char *data) {
return upb_stringview_make(data, strlen(data));
}
UPB_INLINE bool upb_stringview_eql(upb_stringview a, upb_stringview b) {
return a.size == b.size && memcmp(a.data, b.data, a.size) == 0;
}
#define UPB_STRINGVIEW_FORMAT "%.*s"
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#define UPB_STRINGVIEW_ARGS(view) (int)(view).size, (view).data
#define UPB_STRINGVIEW_INIT(ptr, len) {ptr, len}
/** upb_msgval ****************************************************************/
/* A union representing all possible protobuf values. Used for generic get/set
* operations. */
typedef union {
bool b;
float flt;
double dbl;
int32_t i32;
int64_t i64;
uint32_t u32;
uint64_t u64;
const upb_map* map;
const upb_msg* msg;
const upb_array* arr;
const void* ptr;
upb_stringview str;
} upb_msgval;
#define ACCESSORS(name, membername, ctype) \
UPB_INLINE ctype upb_msgval_get ## name(upb_msgval v) { \
return v.membername; \
} \
UPB_INLINE void upb_msgval_set ## name(upb_msgval *v, ctype cval) { \
v->membername = cval; \
} \
UPB_INLINE upb_msgval upb_msgval_ ## name(ctype v) { \
upb_msgval ret; \
ret.membername = v; \
return ret; \
}
ACCESSORS(bool, b, bool)
ACCESSORS(float, flt, float)
ACCESSORS(double, dbl, double)
ACCESSORS(int32, i32, int32_t)
ACCESSORS(int64, i64, int64_t)
ACCESSORS(uint32, u32, uint32_t)
ACCESSORS(uint64, u64, uint64_t)
ACCESSORS(map, map, const upb_map*)
ACCESSORS(msg, msg, const upb_msg*)
ACCESSORS(ptr, ptr, const void*)
ACCESSORS(arr, arr, const upb_array*)
ACCESSORS(str, str, upb_stringview)
#undef ACCESSORS
UPB_INLINE upb_msgval upb_msgval_makestr(const char *data, size_t size) {
return upb_msgval_str(upb_stringview_make(data, size));
}
/** upb_msg *******************************************************************/
/* A upb_msg represents a protobuf message. It always corresponds to a specific
* upb_msglayout, which describes how it is laid out in memory. */
/* Creates a new message of the given type/layout in this arena. */
upb_msg *upb_msg_new(const upb_msglayout *l, upb_arena *a);
/* Returns the arena for the given message. */
upb_arena *upb_msg_arena(const upb_msg *msg);
void upb_msg_addunknown(upb_msg *msg, const char *data, size_t len);
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const char *upb_msg_getunknown(const upb_msg *msg, size_t *len);
/* Read-only message API. Can be safely called by anyone. */
/* Returns the value associated with this field:
* - for scalar fields (including strings), the value directly.
* - return upb_msg*, or upb_map* for msg/map.
* If the field is unset for these field types, returns NULL.
*
* TODO(haberman): should we let users store cached array/map/msg
* pointers here for fields that are unset? Could be useful for the
* strongly-owned submessage model (ie. generated C API that doesn't use
* arenas).
*/
upb_msgval upb_msg_get(const upb_msg *msg,
int field_index,
const upb_msglayout *l);
/* May only be called for fields where upb_fielddef_haspresence(f) == true. */
bool upb_msg_has(const upb_msg *msg,
int field_index,
const upb_msglayout *l);
/* Mutable message API. May only be called by the owner of the message who
* knows its ownership scheme and how to keep it consistent. */
/* Sets the given field to the given value. Does not perform any memory
* management: if you overwrite a pointer to a msg/array/map/string without
* cleaning it up (or using an arena) it will leak.
*/
void upb_msg_set(upb_msg *msg,
int field_index,
upb_msgval val,
const upb_msglayout *l);
/* For a primitive field, set it back to its default. For repeated, string, and
* submessage fields set it back to NULL. This could involve releasing some
* internal memory (for example, from an extension dictionary), but it is not
* recursive in any way and will not recover any memory that may be used by
* arrays/maps/strings/msgs that this field may have pointed to.
*/
bool upb_msg_clearfield(upb_msg *msg,
int field_index,
const upb_msglayout *l);
/* TODO(haberman): copyfrom()/mergefrom()? */
/** upb_array *****************************************************************/
/* A upb_array stores data for a repeated field. The memory management
* semantics are the same as upb_msg. A upb_array allocates dynamic
* memory internally for the array elements. */
upb_array *upb_array_new(upb_fieldtype_t type, upb_arena *a);
upb_fieldtype_t upb_array_type(const upb_array *arr);
/* Read-only interface. Safe for anyone to call. */
size_t upb_array_size(const upb_array *arr);
upb_msgval upb_array_get(const upb_array *arr, size_t i);
/* Write interface. May only be called by the message's owner who can enforce
* its memory management invariants. */
bool upb_array_set(upb_array *arr, size_t i, upb_msgval val);
/** upb_map *******************************************************************/
/* A upb_map stores data for a map field. The memory management semantics are
* the same as upb_msg, with one notable exception. upb_map will internally
* store a copy of all string keys, but *not* any string values or submessages.
* So you must ensure that any string or message values outlive the map, and you
* must delete them manually when they are no longer required. */
upb_map *upb_map_new(upb_fieldtype_t ktype, upb_fieldtype_t vtype,
upb_arena *a);
/* Read-only interface. Safe for anyone to call. */
size_t upb_map_size(const upb_map *map);
upb_fieldtype_t upb_map_keytype(const upb_map *map);
upb_fieldtype_t upb_map_valuetype(const upb_map *map);
bool upb_map_get(const upb_map *map, upb_msgval key, upb_msgval *val);
/* Write interface. May only be called by the message's owner who can enforce
* its memory management invariants. */
/* Sets or overwrites an entry in the map. Return value indicates whether
* the operation succeeded or failed with OOM, and also whether an existing
* key was replaced or not. */
bool upb_map_set(upb_map *map,
upb_msgval key, upb_msgval val,
upb_msgval *valremoved);
/* Deletes an entry in the map. Returns true if the key was present. */
bool upb_map_del(upb_map *map, upb_msgval key);
/** upb_mapiter ***************************************************************/
/* For iterating over a map. Map iterators are invalidated by mutations to the
* map, but an invalidated iterator will never return junk or crash the process.
* An invalidated iterator may return entries that were already returned though,
* and if you keep invalidating the iterator during iteration, the program may
* enter an infinite loop. */
size_t upb_mapiter_sizeof();
void upb_mapiter_begin(upb_mapiter *i, const upb_map *t);
upb_mapiter *upb_mapiter_new(const upb_map *t, upb_alloc *a);
void upb_mapiter_free(upb_mapiter *i, upb_alloc *a);
void upb_mapiter_next(upb_mapiter *i);
bool upb_mapiter_done(const upb_mapiter *i);
upb_msgval upb_mapiter_key(const upb_mapiter *i);
upb_msgval upb_mapiter_value(const upb_mapiter *i);
void upb_mapiter_setdone(upb_mapiter *i);
bool upb_mapiter_isequal(const upb_mapiter *i1, const upb_mapiter *i2);
UPB_END_EXTERN_C
#endif /* UPB_MSG_H_ */