Protocol Buffers - Google's data interchange format (grpc依赖) https://developers.google.com/protocol-buffers/
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/* We encode backwards, to avoid pre-computing lengths (one-pass encode). */
#include "upb/encode.h"
#include <setjmp.h>
#include <string.h>
#include "upb/msg.h"
#include "upb/upb.h"
#include "upb/port_def.inc"
#define UPB_PB_VARINT_MAX_LEN 10
UPB_NOINLINE
static size_t encode_varint64(uint64_t val, char *buf) {
size_t i = 0;
while (val) {
uint8_t byte = val & 0x7fU;
val >>= 7;
if (val) byte |= 0x80U;
buf[i++] = byte;
}
return i;
}
static uint32_t encode_zz32(int32_t n) { return ((uint32_t)n << 1) ^ (n >> 31); }
static uint64_t encode_zz64(int64_t n) { return ((uint64_t)n << 1) ^ (n >> 63); }
typedef struct {
jmp_buf err;
upb_alloc *alloc;
char *buf, *ptr, *limit;
} upb_encstate;
static size_t upb_roundup_pow2(size_t bytes) {
size_t ret = 128;
while (ret < bytes) {
ret *= 2;
}
return ret;
}
UPB_NORETURN static void encode_err(upb_encstate *e) { longjmp(e->err, 1); }
UPB_NOINLINE
static void encode_growbuffer(upb_encstate *e, size_t bytes) {
size_t old_size = e->limit - e->buf;
size_t new_size = upb_roundup_pow2(bytes + (e->limit - e->ptr));
char *new_buf = upb_realloc(e->alloc, e->buf, old_size, new_size);
if (!new_buf) encode_err(e);
/* We want previous data at the end, realloc() put it at the beginning. */
if (old_size > 0) {
memmove(new_buf + new_size - old_size, e->buf, old_size);
}
e->ptr = new_buf + new_size - (e->limit - e->ptr);
e->limit = new_buf + new_size;
e->buf = new_buf;
}
/* Call to ensure that at least "bytes" bytes are available for writing at
* e->ptr. Returns false if the bytes could not be allocated. */
UPB_FORCEINLINE
static void encode_reserve(upb_encstate *e, size_t bytes) {
if ((size_t)(e->ptr - e->buf) < bytes) {
encode_growbuffer(e, bytes);
}
e->ptr -= bytes;
}
/* Writes the given bytes to the buffer, handling reserve/advance. */
static void encode_bytes(upb_encstate *e, const void *data, size_t len) {
if (len == 0) return; /* memcpy() with zero size is UB */
encode_reserve(e, len);
memcpy(e->ptr, data, len);
}
static void encode_fixed64(upb_encstate *e, uint64_t val) {
val = _upb_be_swap64(val);
encode_bytes(e, &val, sizeof(uint64_t));
}
static void encode_fixed32(upb_encstate *e, uint32_t val) {
val = _upb_be_swap32(val);
encode_bytes(e, &val, sizeof(uint32_t));
}
UPB_NOINLINE
static void encode_longvarint(upb_encstate *e, uint64_t val) {
size_t len;
char *start;
encode_reserve(e, UPB_PB_VARINT_MAX_LEN);
len = encode_varint64(val, e->ptr);
start = e->ptr + UPB_PB_VARINT_MAX_LEN - len;
memmove(start, e->ptr, len);
e->ptr = start;
}
UPB_FORCEINLINE
static void encode_varint(upb_encstate *e, uint64_t val) {
if (val < 128 && e->ptr != e->buf) {
--e->ptr;
*e->ptr = val;
} else {
encode_longvarint(e, val);
}
}
static void encode_double(upb_encstate *e, double d) {
uint64_t u64;
UPB_ASSERT(sizeof(double) == sizeof(uint64_t));
memcpy(&u64, &d, sizeof(uint64_t));
encode_fixed64(e, u64);
}
static void encode_float(upb_encstate *e, float d) {
uint32_t u32;
UPB_ASSERT(sizeof(float) == sizeof(uint32_t));
memcpy(&u32, &d, sizeof(uint32_t));
encode_fixed32(e, u32);
}
static void encode_tag(upb_encstate *e, int field_number, int wire_type) {
encode_varint(e, (field_number << 3) | wire_type);
}
static void encode_fixedarray(upb_encstate *e, const upb_array *arr,
size_t elem_size, uint32_t tag) {
size_t bytes = arr->len * elem_size;
const char* data = _upb_array_constptr(arr);
const char* ptr = data + bytes - elem_size;
if (tag) {
while (true) {
encode_bytes(e, ptr, elem_size);
encode_varint(e, tag);
if (ptr == data) break;
ptr -= elem_size;
}
} else {
encode_bytes(e, data, bytes);
encode_varint(e, bytes);
}
}
static void encode_message(upb_encstate *e, const char *msg,
const upb_msglayout *m, size_t *size);
static void encode_scalar(upb_encstate *e, const void *_field_mem,
const upb_msglayout *m, const upb_msglayout_field *f,
bool skip_zero_value) {
const char *field_mem = _field_mem;
int wire_type;
#define CASE(ctype, type, wtype, encodeval) \
{ \
ctype val = *(ctype *)field_mem; \
if (skip_zero_value && val == 0) { \
return; \
} \
encode_##type(e, encodeval); \
wire_type = wtype; \
break; \
}
switch (f->descriptortype) {
case UPB_DESCRIPTOR_TYPE_DOUBLE:
CASE(double, double, UPB_WIRE_TYPE_64BIT, val);
case UPB_DESCRIPTOR_TYPE_FLOAT:
CASE(float, float, UPB_WIRE_TYPE_32BIT, val);
case UPB_DESCRIPTOR_TYPE_INT64:
case UPB_DESCRIPTOR_TYPE_UINT64:
CASE(uint64_t, varint, UPB_WIRE_TYPE_VARINT, val);
case UPB_DESCRIPTOR_TYPE_UINT32:
CASE(uint32_t, varint, UPB_WIRE_TYPE_VARINT, val);
case UPB_DESCRIPTOR_TYPE_INT32:
case UPB_DESCRIPTOR_TYPE_ENUM:
CASE(int32_t, varint, UPB_WIRE_TYPE_VARINT, (int64_t)val);
case UPB_DESCRIPTOR_TYPE_SFIXED64:
case UPB_DESCRIPTOR_TYPE_FIXED64:
CASE(uint64_t, fixed64, UPB_WIRE_TYPE_64BIT, val);
case UPB_DESCRIPTOR_TYPE_FIXED32:
case UPB_DESCRIPTOR_TYPE_SFIXED32:
CASE(uint32_t, fixed32, UPB_WIRE_TYPE_32BIT, val);
case UPB_DESCRIPTOR_TYPE_BOOL:
CASE(bool, varint, UPB_WIRE_TYPE_VARINT, val);
case UPB_DESCRIPTOR_TYPE_SINT32:
CASE(int32_t, varint, UPB_WIRE_TYPE_VARINT, encode_zz32(val));
case UPB_DESCRIPTOR_TYPE_SINT64:
CASE(int64_t, varint, UPB_WIRE_TYPE_VARINT, encode_zz64(val));
case UPB_DESCRIPTOR_TYPE_STRING:
case UPB_DESCRIPTOR_TYPE_BYTES: {
upb_strview view = *(upb_strview*)field_mem;
if (skip_zero_value && view.size == 0) {
return;
}
encode_bytes(e, view.data, view.size);
encode_varint(e, view.size);
wire_type = UPB_WIRE_TYPE_DELIMITED;
break;
}
case UPB_DESCRIPTOR_TYPE_GROUP: {
size_t size;
void *submsg = *(void **)field_mem;
const upb_msglayout *subm = m->submsgs[f->submsg_index];
if (submsg == NULL) {
return;
}
encode_tag(e, f->number, UPB_WIRE_TYPE_END_GROUP);
encode_message(e, submsg, subm, &size);
wire_type = UPB_WIRE_TYPE_START_GROUP;
break;
}
case UPB_DESCRIPTOR_TYPE_MESSAGE: {
size_t size;
void *submsg = *(void **)field_mem;
const upb_msglayout *subm = m->submsgs[f->submsg_index];
if (submsg == NULL) {
return;
}
encode_message(e, submsg, subm, &size);
encode_varint(e, size);
wire_type = UPB_WIRE_TYPE_DELIMITED;
break;
}
}
#undef CASE
encode_tag(e, f->number, wire_type);
}
static void encode_array(upb_encstate *e, const char *field_mem,
const upb_msglayout *m, const upb_msglayout_field *f) {
const upb_array *arr = *(const upb_array**)field_mem;
bool packed = f->label == _UPB_LABEL_PACKED;
if (arr == NULL || arr->len == 0) {
return;
}
#define VARINT_CASE(ctype, encode) \
{ \
const ctype *start = _upb_array_constptr(arr); \
const ctype *ptr = start + arr->len; \
size_t pre_len = e->limit - e->ptr; \
uint32_t tag = packed ? 0 : (f->number << 3) | UPB_WIRE_TYPE_VARINT; \
do { \
ptr--; \
encode_varint(e, encode); \
if (tag) encode_varint(e, tag); \
} while (ptr != start); \
if (!tag) encode_varint(e, e->limit - e->ptr - pre_len); \
} \
break; \
do { \
; \
} while (0)
#define TAG(wire_type) (packed ? 0 : (f->number << 3 | wire_type))
switch (f->descriptortype) {
case UPB_DESCRIPTOR_TYPE_DOUBLE:
encode_fixedarray(e, arr, sizeof(double), TAG(UPB_WIRE_TYPE_64BIT));
break;
case UPB_DESCRIPTOR_TYPE_FLOAT:
encode_fixedarray(e, arr, sizeof(float), TAG(UPB_WIRE_TYPE_32BIT));
break;
case UPB_DESCRIPTOR_TYPE_SFIXED64:
case UPB_DESCRIPTOR_TYPE_FIXED64:
encode_fixedarray(e, arr, sizeof(uint64_t), TAG(UPB_WIRE_TYPE_64BIT));
break;
case UPB_DESCRIPTOR_TYPE_FIXED32:
case UPB_DESCRIPTOR_TYPE_SFIXED32:
encode_fixedarray(e, arr, sizeof(uint32_t), TAG(UPB_WIRE_TYPE_32BIT));
break;
case UPB_DESCRIPTOR_TYPE_INT64:
case UPB_DESCRIPTOR_TYPE_UINT64:
VARINT_CASE(uint64_t, *ptr);
case UPB_DESCRIPTOR_TYPE_UINT32:
VARINT_CASE(uint32_t, *ptr);
case UPB_DESCRIPTOR_TYPE_INT32:
case UPB_DESCRIPTOR_TYPE_ENUM:
VARINT_CASE(int32_t, (int64_t)*ptr);
case UPB_DESCRIPTOR_TYPE_BOOL:
VARINT_CASE(bool, *ptr);
case UPB_DESCRIPTOR_TYPE_SINT32:
VARINT_CASE(int32_t, encode_zz32(*ptr));
case UPB_DESCRIPTOR_TYPE_SINT64:
VARINT_CASE(int64_t, encode_zz64(*ptr));
case UPB_DESCRIPTOR_TYPE_STRING:
case UPB_DESCRIPTOR_TYPE_BYTES: {
const upb_strview *start = _upb_array_constptr(arr);
const upb_strview *ptr = start + arr->len;
do {
ptr--;
encode_bytes(e, ptr->data, ptr->size);
encode_varint(e, ptr->size);
encode_tag(e, f->number, UPB_WIRE_TYPE_DELIMITED);
} while (ptr != start);
return;
}
case UPB_DESCRIPTOR_TYPE_GROUP: {
const void *const*start = _upb_array_constptr(arr);
const void *const*ptr = start + arr->len;
const upb_msglayout *subm = m->submsgs[f->submsg_index];
do {
size_t size;
ptr--;
encode_tag(e, f->number, UPB_WIRE_TYPE_END_GROUP);
encode_message(e, *ptr, subm, &size);
encode_tag(e, f->number, UPB_WIRE_TYPE_START_GROUP);
} while (ptr != start);
return;
}
case UPB_DESCRIPTOR_TYPE_MESSAGE: {
const void *const*start = _upb_array_constptr(arr);
const void *const*ptr = start + arr->len;
const upb_msglayout *subm = m->submsgs[f->submsg_index];
do {
size_t size;
ptr--;
encode_message(e, *ptr, subm, &size);
encode_varint(e, size);
encode_tag(e, f->number, UPB_WIRE_TYPE_DELIMITED);
} while (ptr != start);
return;
}
}
#undef VARINT_CASE
if (packed) {
encode_tag(e, f->number, UPB_WIRE_TYPE_DELIMITED);
}
}
static void encode_map(upb_encstate *e, const char *field_mem,
const upb_msglayout *m, const upb_msglayout_field *f) {
const upb_map *map = *(const upb_map**)field_mem;
const upb_msglayout *entry = m->submsgs[f->submsg_index];
const upb_msglayout_field *key_field = &entry->fields[0];
const upb_msglayout_field *val_field = &entry->fields[1];
upb_strtable_iter i;
if (map == NULL) {
return;
}
upb_strtable_begin(&i, &map->table);
for(; !upb_strtable_done(&i); upb_strtable_next(&i)) {
size_t pre_len = e->limit - e->ptr;
size_t size;
upb_strview key = upb_strtable_iter_key(&i);
const upb_value val = upb_strtable_iter_value(&i);
upb_map_entry ent;
_upb_map_fromkey(key, &ent.k, map->key_size);
_upb_map_fromvalue(val, &ent.v, map->val_size);
encode_scalar(e, &ent.v, entry, val_field, false);
encode_scalar(e, &ent.k, entry, key_field, false);
size = (e->limit - e->ptr) - pre_len;
encode_varint(e, size);
encode_tag(e, f->number, UPB_WIRE_TYPE_DELIMITED);
}
}
static void encode_scalarfield(upb_encstate *e, const char *msg,
const upb_msglayout *m,
const upb_msglayout_field *f) {
bool skip_empty = false;
if (f->presence == 0) {
/* Proto3 presence. */
skip_empty = true;
} else if (f->presence > 0) {
/* Proto2 presence: hasbit. */
if (!_upb_hasbit_field(msg, f)) return;
} else {
/* Field is in a oneof. */
if (_upb_getoneofcase_field(msg, f) != f->number) return;
}
encode_scalar(e, msg + f->offset, m, f, skip_empty);
}
static void encode_message(upb_encstate *e, const char *msg,
const upb_msglayout *m, size_t *size) {
size_t pre_len = e->limit - e->ptr;
const char *unknown;
size_t unknown_size;
const upb_msglayout_field *f = &m->fields[m->field_count];
const upb_msglayout_field *first = &m->fields[0];
unknown = upb_msg_getunknown(msg, &unknown_size);
if (unknown) {
encode_bytes(e, unknown, unknown_size);
}
while (f != first) {
f--;
if (_upb_isrepeated(f)) {
encode_array(e, msg + f->offset, m, f);
} else if (f->label == _UPB_LABEL_MAP) {
encode_map(e, msg + f->offset, m, f);
} else {
encode_scalarfield(e, msg, m, f);
}
}
*size = (e->limit - e->ptr) - pre_len;
}
char *upb_encode(const void *msg, const upb_msglayout *m, upb_arena *arena,
size_t *size) {
upb_encstate e;
e.alloc = upb_arena_alloc(arena);
e.buf = NULL;
e.limit = NULL;
e.ptr = NULL;
if (setjmp(e.err)) {
*size = 0;
return NULL;
}
encode_message(&e, msg, m, size);
*size = e.limit - e.ptr;
if (*size == 0) {
static char ch;
return &ch;
} else {
UPB_ASSERT(e.ptr);
return e.ptr;
}
}