Protocol Buffers - Google's data interchange format (grpc依赖) https://developers.google.com/protocol-buffers/
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// Protocol Buffers - Google's data interchange format
// Copyright 2023 Google LLC. All rights reserved.
//
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file or at
// https://developers.google.com/open-source/licenses/bsd
#include "upb/wire/decode.h"
#include <assert.h>
#include <stdbool.h>
#include <stddef.h>
#include <stdint.h>
#include <string.h>
#include "upb/base/descriptor_constants.h"
#include "upb/base/string_view.h"
#include "upb/hash/common.h"
#include "upb/mem/arena.h"
#include "upb/mem/internal/arena.h"
#include "upb/message/array.h"
#include "upb/message/internal/accessors.h"
#include "upb/message/internal/array.h"
#include "upb/message/internal/extension.h"
#include "upb/message/internal/map.h"
#include "upb/message/internal/map_entry.h"
#include "upb/message/internal/message.h"
#include "upb/message/map.h"
#include "upb/message/message.h"
#include "upb/message/tagged_ptr.h"
#include "upb/mini_table/enum.h"
#include "upb/mini_table/extension.h"
#include "upb/mini_table/extension_registry.h"
#include "upb/mini_table/field.h"
#include "upb/mini_table/internal/field.h"
#include "upb/mini_table/internal/message.h"
#include "upb/mini_table/internal/size_log2.h"
#include "upb/mini_table/message.h"
#include "upb/mini_table/sub.h"
#include "upb/port/atomic.h"
#include "upb/wire/encode.h"
#include "upb/wire/eps_copy_input_stream.h"
#include "upb/wire/internal/constants.h"
#include "upb/wire/internal/decode.h"
#include "upb/wire/internal/swap.h"
#include "upb/wire/reader.h"
// Must be last.
#include "upb/port/def.inc"
// A few fake field types for our tables.
enum {
kUpb_FakeFieldType_FieldNotFound = 0,
kUpb_FakeFieldType_MessageSetItem = 19,
};
// DecodeOp: an action to be performed for a wire-type/field-type combination.
enum {
// Special ops: we don't write data to regular fields for these.
kUpb_DecodeOp_UnknownField = -1,
kUpb_DecodeOp_MessageSetItem = -2,
// Scalar-only ops.
kUpb_DecodeOp_Scalar1Byte = 0,
kUpb_DecodeOp_Scalar4Byte = 2,
kUpb_DecodeOp_Scalar8Byte = 3,
kUpb_DecodeOp_Enum = 1,
// Scalar/repeated ops.
kUpb_DecodeOp_String = 4,
kUpb_DecodeOp_Bytes = 5,
kUpb_DecodeOp_SubMessage = 6,
// Repeated-only ops (also see macros below).
kUpb_DecodeOp_PackedEnum = 13,
};
// For packed fields it is helpful to be able to recover the lg2 of the data
// size from the op.
#define OP_FIXPCK_LG2(n) (n + 5) /* n in [2, 3] => op in [7, 8] */
#define OP_VARPCK_LG2(n) (n + 9) /* n in [0, 2, 3] => op in [9, 11, 12] */
typedef union {
bool bool_val;
uint32_t uint32_val;
uint64_t uint64_val;
uint32_t size;
} wireval;
// Ideally these two functions should take the owning MiniTable pointer as a
// first argument, then we could just put them in mini_table/message.h as nice
// clean getters. But we don't have that so instead we gotta write these
// Frankenfunctions that take an array of subtables.
// TODO: Move these to mini_table/ anyway since there are other places
// that could use them.
// Returns the MiniTable corresponding to a given MiniTableField
// from an array of MiniTableSubs.
static const upb_MiniTable* _upb_MiniTableSubs_MessageByField(
const upb_MiniTableSub* subs, const upb_MiniTableField* field) {
return upb_MiniTableSub_Message(subs[field->UPB_PRIVATE(submsg_index)]);
}
// Returns the MiniTableEnum corresponding to a given MiniTableField
// from an array of MiniTableSub.
static const upb_MiniTableEnum* _upb_MiniTableSubs_EnumByField(
const upb_MiniTableSub* subs, const upb_MiniTableField* field) {
return upb_MiniTableSub_Enum(subs[field->UPB_PRIVATE(submsg_index)]);
}
static const char* _upb_Decoder_DecodeMessage(upb_Decoder* d, const char* ptr,
upb_Message* msg,
const upb_MiniTable* layout);
UPB_NORETURN static void* _upb_Decoder_ErrorJmp(upb_Decoder* d,
upb_DecodeStatus status) {
UPB_ASSERT(status != kUpb_DecodeStatus_Ok);
d->status = status;
UPB_LONGJMP(d->err, 1);
}
const char* _upb_FastDecoder_ErrorJmp(upb_Decoder* d, int status) {
UPB_ASSERT(status != kUpb_DecodeStatus_Ok);
d->status = status;
UPB_LONGJMP(d->err, 1);
return NULL;
}
static void _upb_Decoder_VerifyUtf8(upb_Decoder* d, const char* buf, int len) {
if (!_upb_Decoder_VerifyUtf8Inline(buf, len)) {
_upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_BadUtf8);
}
}
static bool _upb_Decoder_Reserve(upb_Decoder* d, upb_Array* arr, size_t elem) {
bool need_realloc =
arr->UPB_PRIVATE(capacity) - arr->UPB_PRIVATE(size) < elem;
if (need_realloc && !UPB_PRIVATE(_upb_Array_Realloc)(
arr, arr->UPB_PRIVATE(size) + elem, &d->arena)) {
_upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_OutOfMemory);
}
return need_realloc;
}
typedef struct {
const char* ptr;
uint64_t val;
} _upb_DecodeLongVarintReturn;
UPB_NOINLINE
static _upb_DecodeLongVarintReturn _upb_Decoder_DecodeLongVarint(
const char* ptr, uint64_t val) {
_upb_DecodeLongVarintReturn ret = {NULL, 0};
uint64_t byte;
int i;
for (i = 1; i < 10; i++) {
byte = (uint8_t)ptr[i];
val += (byte - 1) << (i * 7);
if (!(byte & 0x80)) {
ret.ptr = ptr + i + 1;
ret.val = val;
return ret;
}
}
return ret;
}
UPB_FORCEINLINE
static const char* _upb_Decoder_DecodeVarint(upb_Decoder* d, const char* ptr,
uint64_t* val) {
uint64_t byte = (uint8_t)*ptr;
if (UPB_LIKELY((byte & 0x80) == 0)) {
*val = byte;
return ptr + 1;
} else {
_upb_DecodeLongVarintReturn res = _upb_Decoder_DecodeLongVarint(ptr, byte);
if (!res.ptr) _upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_Malformed);
*val = res.val;
return res.ptr;
}
}
UPB_FORCEINLINE
static const char* _upb_Decoder_DecodeTag(upb_Decoder* d, const char* ptr,
uint32_t* val) {
uint64_t byte = (uint8_t)*ptr;
if (UPB_LIKELY((byte & 0x80) == 0)) {
*val = byte;
return ptr + 1;
} else {
const char* start = ptr;
_upb_DecodeLongVarintReturn res = _upb_Decoder_DecodeLongVarint(ptr, byte);
if (!res.ptr || res.ptr - start > 5 || res.val > UINT32_MAX) {
_upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_Malformed);
}
*val = res.val;
return res.ptr;
}
}
UPB_FORCEINLINE
static const char* upb_Decoder_DecodeSize(upb_Decoder* d, const char* ptr,
uint32_t* size) {
uint64_t size64;
ptr = _upb_Decoder_DecodeVarint(d, ptr, &size64);
if (size64 >= INT32_MAX ||
!upb_EpsCopyInputStream_CheckSize(&d->input, ptr, (int)size64)) {
_upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_Malformed);
}
*size = size64;
return ptr;
}
static void _upb_Decoder_MungeInt32(wireval* val) {
if (!_upb_IsLittleEndian()) {
/* The next stage will memcpy(dst, &val, 4) */
val->uint32_val = val->uint64_val;
}
}
static void _upb_Decoder_Munge(int type, wireval* val) {
switch (type) {
case kUpb_FieldType_Bool:
val->bool_val = val->uint64_val != 0;
break;
case kUpb_FieldType_SInt32: {
uint32_t n = val->uint64_val;
val->uint32_val = (n >> 1) ^ -(int32_t)(n & 1);
break;
}
case kUpb_FieldType_SInt64: {
uint64_t n = val->uint64_val;
val->uint64_val = (n >> 1) ^ -(int64_t)(n & 1);
break;
}
case kUpb_FieldType_Int32:
case kUpb_FieldType_UInt32:
case kUpb_FieldType_Enum:
_upb_Decoder_MungeInt32(val);
break;
}
}
static upb_Message* _upb_Decoder_NewSubMessage(upb_Decoder* d,
const upb_MiniTableSub* subs,
const upb_MiniTableField* field,
upb_TaggedMessagePtr* target) {
const upb_MiniTable* subl = _upb_MiniTableSubs_MessageByField(subs, field);
UPB_ASSERT(subl);
upb_Message* msg = _upb_Message_New(subl, &d->arena);
if (!msg) _upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_OutOfMemory);
// Extensions should not be unlinked. A message extension should not be
// registered until its sub-message type is available to be linked.
bool is_empty = UPB_PRIVATE(_upb_MiniTable_IsEmpty)(subl);
bool is_extension = field->UPB_PRIVATE(mode) & kUpb_LabelFlags_IsExtension;
UPB_ASSERT(!(is_empty && is_extension));
if (is_empty && !(d->options & kUpb_DecodeOption_ExperimentalAllowUnlinked)) {
_upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_UnlinkedSubMessage);
}
upb_TaggedMessagePtr tagged = _upb_TaggedMessagePtr_Pack(msg, is_empty);
memcpy(target, &tagged, sizeof(tagged));
return msg;
}
static upb_Message* _upb_Decoder_ReuseSubMessage(
upb_Decoder* d, const upb_MiniTableSub* subs,
const upb_MiniTableField* field, upb_TaggedMessagePtr* target) {
upb_TaggedMessagePtr tagged = *target;
const upb_MiniTable* subl = _upb_MiniTableSubs_MessageByField(subs, field);
UPB_ASSERT(subl);
if (!upb_TaggedMessagePtr_IsEmpty(tagged) ||
UPB_PRIVATE(_upb_MiniTable_IsEmpty)(subl)) {
return _upb_TaggedMessagePtr_GetMessage(tagged);
}
// We found an empty message from a previous parse that was performed before
// this field was linked. But it is linked now, so we want to allocate a new
// message of the correct type and promote data into it before continuing.
upb_Message* existing = _upb_TaggedMessagePtr_GetEmptyMessage(tagged);
upb_Message* promoted = _upb_Decoder_NewSubMessage(d, subs, field, target);
size_t size;
const char* unknown = upb_Message_GetUnknown(existing, &size);
upb_DecodeStatus status = upb_Decode(unknown, size, promoted, subl, d->extreg,
d->options, &d->arena);
if (status != kUpb_DecodeStatus_Ok) _upb_Decoder_ErrorJmp(d, status);
return promoted;
}
static const char* _upb_Decoder_ReadString(upb_Decoder* d, const char* ptr,
int size, upb_StringView* str) {
const char* str_ptr = ptr;
ptr = upb_EpsCopyInputStream_ReadString(&d->input, &str_ptr, size, &d->arena);
if (!ptr) _upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_OutOfMemory);
str->data = str_ptr;
str->size = size;
return ptr;
}
UPB_FORCEINLINE
static const char* _upb_Decoder_RecurseSubMessage(upb_Decoder* d,
const char* ptr,
upb_Message* submsg,
const upb_MiniTable* subl,
uint32_t expected_end_group) {
if (--d->depth < 0) {
_upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_MaxDepthExceeded);
}
ptr = _upb_Decoder_DecodeMessage(d, ptr, submsg, subl);
d->depth++;
if (d->end_group != expected_end_group) {
_upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_Malformed);
}
return ptr;
}
UPB_FORCEINLINE
static const char* _upb_Decoder_DecodeSubMessage(
upb_Decoder* d, const char* ptr, upb_Message* submsg,
const upb_MiniTableSub* subs, const upb_MiniTableField* field, int size) {
int saved_delta = upb_EpsCopyInputStream_PushLimit(&d->input, ptr, size);
const upb_MiniTable* subl = _upb_MiniTableSubs_MessageByField(subs, field);
UPB_ASSERT(subl);
ptr = _upb_Decoder_RecurseSubMessage(d, ptr, submsg, subl, DECODE_NOGROUP);
upb_EpsCopyInputStream_PopLimit(&d->input, ptr, saved_delta);
return ptr;
}
UPB_FORCEINLINE
static const char* _upb_Decoder_DecodeGroup(upb_Decoder* d, const char* ptr,
upb_Message* submsg,
const upb_MiniTable* subl,
uint32_t number) {
if (_upb_Decoder_IsDone(d, &ptr)) {
_upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_Malformed);
}
ptr = _upb_Decoder_RecurseSubMessage(d, ptr, submsg, subl, number);
d->end_group = DECODE_NOGROUP;
return ptr;
}
UPB_FORCEINLINE
static const char* _upb_Decoder_DecodeUnknownGroup(upb_Decoder* d,
const char* ptr,
uint32_t number) {
return _upb_Decoder_DecodeGroup(d, ptr, NULL, NULL, number);
}
UPB_FORCEINLINE
static const char* _upb_Decoder_DecodeKnownGroup(
upb_Decoder* d, const char* ptr, upb_Message* submsg,
const upb_MiniTableSub* subs, const upb_MiniTableField* field) {
const upb_MiniTable* subl = _upb_MiniTableSubs_MessageByField(subs, field);
UPB_ASSERT(subl);
return _upb_Decoder_DecodeGroup(d, ptr, submsg, subl,
field->UPB_PRIVATE(number));
}
static char* upb_Decoder_EncodeVarint32(uint32_t val, char* ptr) {
do {
uint8_t byte = val & 0x7fU;
val >>= 7;
if (val) byte |= 0x80U;
*(ptr++) = byte;
} while (val);
return ptr;
}
static void _upb_Decoder_AddUnknownVarints(upb_Decoder* d, upb_Message* msg,
uint32_t val1, uint32_t val2) {
char buf[20];
char* end = buf;
end = upb_Decoder_EncodeVarint32(val1, end);
end = upb_Decoder_EncodeVarint32(val2, end);
if (!UPB_PRIVATE(_upb_Message_AddUnknown)(msg, buf, end - buf, &d->arena)) {
_upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_OutOfMemory);
}
}
UPB_FORCEINLINE
static bool _upb_Decoder_CheckEnum(upb_Decoder* d, const char* ptr,
upb_Message* msg, const upb_MiniTableEnum* e,
const upb_MiniTableField* field,
wireval* val) {
const uint32_t v = val->uint32_val;
if (UPB_LIKELY(upb_MiniTableEnum_CheckValue(e, v))) return true;
// Unrecognized enum goes into unknown fields.
// For packed fields the tag could be arbitrarily far in the past,
// so we just re-encode the tag and value here.
const uint32_t tag =
((uint32_t)field->UPB_PRIVATE(number) << 3) | kUpb_WireType_Varint;
upb_Message* unknown_msg =
field->UPB_PRIVATE(mode) & kUpb_LabelFlags_IsExtension ? d->unknown_msg
: msg;
_upb_Decoder_AddUnknownVarints(d, unknown_msg, tag, v);
return false;
}
UPB_NOINLINE
static const char* _upb_Decoder_DecodeEnumArray(upb_Decoder* d, const char* ptr,
upb_Message* msg,
upb_Array* arr,
const upb_MiniTableSub* subs,
const upb_MiniTableField* field,
wireval* val) {
const upb_MiniTableEnum* e = _upb_MiniTableSubs_EnumByField(subs, field);
if (!_upb_Decoder_CheckEnum(d, ptr, msg, e, field, val)) return ptr;
void* mem = UPB_PTR_AT(_upb_array_ptr(arr), arr->UPB_PRIVATE(size) * 4, void);
arr->UPB_PRIVATE(size)++;
memcpy(mem, val, 4);
return ptr;
}
UPB_FORCEINLINE
static const char* _upb_Decoder_DecodeFixedPacked(
upb_Decoder* d, const char* ptr, upb_Array* arr, wireval* val,
const upb_MiniTableField* field, int lg2) {
int mask = (1 << lg2) - 1;
size_t count = val->size >> lg2;
if ((val->size & mask) != 0) {
// Length isn't a round multiple of elem size.
_upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_Malformed);
}
_upb_Decoder_Reserve(d, arr, count);
void* mem =
UPB_PTR_AT(_upb_array_ptr(arr), arr->UPB_PRIVATE(size) << lg2, void);
arr->UPB_PRIVATE(size) += count;
// Note: if/when the decoder supports multi-buffer input, we will need to
// handle buffer seams here.
if (_upb_IsLittleEndian()) {
ptr = upb_EpsCopyInputStream_Copy(&d->input, ptr, mem, val->size);
} else {
int delta = upb_EpsCopyInputStream_PushLimit(&d->input, ptr, val->size);
char* dst = mem;
while (!_upb_Decoder_IsDone(d, &ptr)) {
if (lg2 == 2) {
ptr = upb_WireReader_ReadFixed32(ptr, dst);
dst += 4;
} else {
UPB_ASSERT(lg2 == 3);
ptr = upb_WireReader_ReadFixed64(ptr, dst);
dst += 8;
}
}
upb_EpsCopyInputStream_PopLimit(&d->input, ptr, delta);
}
return ptr;
}
UPB_FORCEINLINE
static const char* _upb_Decoder_DecodeVarintPacked(
upb_Decoder* d, const char* ptr, upb_Array* arr, wireval* val,
const upb_MiniTableField* field, int lg2) {
int scale = 1 << lg2;
int saved_limit = upb_EpsCopyInputStream_PushLimit(&d->input, ptr, val->size);
char* out =
UPB_PTR_AT(_upb_array_ptr(arr), arr->UPB_PRIVATE(size) << lg2, void);
while (!_upb_Decoder_IsDone(d, &ptr)) {
wireval elem;
ptr = _upb_Decoder_DecodeVarint(d, ptr, &elem.uint64_val);
_upb_Decoder_Munge(field->UPB_PRIVATE(descriptortype), &elem);
if (_upb_Decoder_Reserve(d, arr, 1)) {
out =
UPB_PTR_AT(_upb_array_ptr(arr), arr->UPB_PRIVATE(size) << lg2, void);
}
arr->UPB_PRIVATE(size)++;
memcpy(out, &elem, scale);
out += scale;
}
upb_EpsCopyInputStream_PopLimit(&d->input, ptr, saved_limit);
return ptr;
}
UPB_NOINLINE
static const char* _upb_Decoder_DecodeEnumPacked(
upb_Decoder* d, const char* ptr, upb_Message* msg, upb_Array* arr,
const upb_MiniTableSub* subs, const upb_MiniTableField* field,
wireval* val) {
const upb_MiniTableEnum* e = _upb_MiniTableSubs_EnumByField(subs, field);
int saved_limit = upb_EpsCopyInputStream_PushLimit(&d->input, ptr, val->size);
char* out = UPB_PTR_AT(_upb_array_ptr(arr), arr->UPB_PRIVATE(size) * 4, void);
while (!_upb_Decoder_IsDone(d, &ptr)) {
wireval elem;
ptr = _upb_Decoder_DecodeVarint(d, ptr, &elem.uint64_val);
_upb_Decoder_MungeInt32(&elem);
if (!_upb_Decoder_CheckEnum(d, ptr, msg, e, field, &elem)) {
continue;
}
if (_upb_Decoder_Reserve(d, arr, 1)) {
out = UPB_PTR_AT(_upb_array_ptr(arr), arr->UPB_PRIVATE(size) * 4, void);
}
arr->UPB_PRIVATE(size)++;
memcpy(out, &elem, 4);
out += 4;
}
upb_EpsCopyInputStream_PopLimit(&d->input, ptr, saved_limit);
return ptr;
}
upb_Array* _upb_Decoder_CreateArray(upb_Decoder* d,
const upb_MiniTableField* field) {
const upb_FieldType field_type = field->UPB_PRIVATE(descriptortype);
const size_t lg2 = upb_FieldType_SizeLg2(field_type);
upb_Array* ret = UPB_PRIVATE(_upb_Array_New)(&d->arena, 4, lg2);
if (!ret) _upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_OutOfMemory);
return ret;
}
static const char* _upb_Decoder_DecodeToArray(upb_Decoder* d, const char* ptr,
upb_Message* msg,
const upb_MiniTableSub* subs,
const upb_MiniTableField* field,
wireval* val, int op) {
upb_Array** arrp = UPB_PTR_AT(msg, field->UPB_PRIVATE(offset), void);
upb_Array* arr = *arrp;
void* mem;
if (arr) {
_upb_Decoder_Reserve(d, arr, 1);
} else {
arr = _upb_Decoder_CreateArray(d, field);
*arrp = arr;
}
switch (op) {
case kUpb_DecodeOp_Scalar1Byte:
case kUpb_DecodeOp_Scalar4Byte:
case kUpb_DecodeOp_Scalar8Byte:
/* Append scalar value. */
mem = UPB_PTR_AT(_upb_array_ptr(arr), arr->UPB_PRIVATE(size) << op, void);
arr->UPB_PRIVATE(size)++;
memcpy(mem, val, 1 << op);
return ptr;
case kUpb_DecodeOp_String:
_upb_Decoder_VerifyUtf8(d, ptr, val->size);
/* Fallthrough. */
case kUpb_DecodeOp_Bytes: {
/* Append bytes. */
upb_StringView* str =
(upb_StringView*)_upb_array_ptr(arr) + arr->UPB_PRIVATE(size);
arr->UPB_PRIVATE(size)++;
return _upb_Decoder_ReadString(d, ptr, val->size, str);
}
case kUpb_DecodeOp_SubMessage: {
/* Append submessage / group. */
upb_TaggedMessagePtr* target = UPB_PTR_AT(
_upb_array_ptr(arr), arr->UPB_PRIVATE(size) * sizeof(void*),
upb_TaggedMessagePtr);
upb_Message* submsg = _upb_Decoder_NewSubMessage(d, subs, field, target);
arr->UPB_PRIVATE(size)++;
if (UPB_UNLIKELY(field->UPB_PRIVATE(descriptortype) ==
kUpb_FieldType_Group)) {
return _upb_Decoder_DecodeKnownGroup(d, ptr, submsg, subs, field);
} else {
return _upb_Decoder_DecodeSubMessage(d, ptr, submsg, subs, field,
val->size);
}
}
case OP_FIXPCK_LG2(2):
case OP_FIXPCK_LG2(3):
return _upb_Decoder_DecodeFixedPacked(d, ptr, arr, val, field,
op - OP_FIXPCK_LG2(0));
case OP_VARPCK_LG2(0):
case OP_VARPCK_LG2(2):
case OP_VARPCK_LG2(3):
return _upb_Decoder_DecodeVarintPacked(d, ptr, arr, val, field,
op - OP_VARPCK_LG2(0));
case kUpb_DecodeOp_Enum:
return _upb_Decoder_DecodeEnumArray(d, ptr, msg, arr, subs, field, val);
case kUpb_DecodeOp_PackedEnum:
return _upb_Decoder_DecodeEnumPacked(d, ptr, msg, arr, subs, field, val);
default:
UPB_UNREACHABLE();
}
}
upb_Map* _upb_Decoder_CreateMap(upb_Decoder* d, const upb_MiniTable* entry) {
/* Maps descriptor type -> upb map size. */
static const uint8_t kSizeInMap[] = {
[0] = -1, // invalid descriptor type */
[kUpb_FieldType_Double] = 8,
[kUpb_FieldType_Float] = 4,
[kUpb_FieldType_Int64] = 8,
[kUpb_FieldType_UInt64] = 8,
[kUpb_FieldType_Int32] = 4,
[kUpb_FieldType_Fixed64] = 8,
[kUpb_FieldType_Fixed32] = 4,
[kUpb_FieldType_Bool] = 1,
[kUpb_FieldType_String] = UPB_MAPTYPE_STRING,
[kUpb_FieldType_Group] = sizeof(void*),
[kUpb_FieldType_Message] = sizeof(void*),
[kUpb_FieldType_Bytes] = UPB_MAPTYPE_STRING,
[kUpb_FieldType_UInt32] = 4,
[kUpb_FieldType_Enum] = 4,
[kUpb_FieldType_SFixed32] = 4,
[kUpb_FieldType_SFixed64] = 8,
[kUpb_FieldType_SInt32] = 4,
[kUpb_FieldType_SInt64] = 8,
};
const upb_MiniTableField* key_field = &entry->UPB_PRIVATE(fields)[0];
const upb_MiniTableField* val_field = &entry->UPB_PRIVATE(fields)[1];
char key_size = kSizeInMap[key_field->UPB_PRIVATE(descriptortype)];
char val_size = kSizeInMap[val_field->UPB_PRIVATE(descriptortype)];
UPB_ASSERT(key_field->UPB_PRIVATE(offset) == offsetof(upb_MapEntryData, k));
UPB_ASSERT(val_field->UPB_PRIVATE(offset) == offsetof(upb_MapEntryData, v));
upb_Map* ret = _upb_Map_New(&d->arena, key_size, val_size);
if (!ret) _upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_OutOfMemory);
return ret;
}
static const char* _upb_Decoder_DecodeToMap(upb_Decoder* d, const char* ptr,
upb_Message* msg,
const upb_MiniTableSub* subs,
const upb_MiniTableField* field,
wireval* val) {
upb_Map** map_p = UPB_PTR_AT(msg, field->UPB_PRIVATE(offset), upb_Map*);
upb_Map* map = *map_p;
upb_MapEntry ent;
UPB_ASSERT(upb_MiniTableField_Type(field) == kUpb_FieldType_Message);
const upb_MiniTable* entry = _upb_MiniTableSubs_MessageByField(subs, field);
UPB_ASSERT(entry);
UPB_ASSERT(entry->UPB_PRIVATE(field_count) == 2);
UPB_ASSERT(upb_MiniTableField_IsScalar(&entry->UPB_PRIVATE(fields)[0]));
UPB_ASSERT(upb_MiniTableField_IsScalar(&entry->UPB_PRIVATE(fields)[1]));
if (!map) {
map = _upb_Decoder_CreateMap(d, entry);
*map_p = map;
}
// Parse map entry.
memset(&ent, 0, sizeof(ent));
if (entry->UPB_PRIVATE(fields)[1].UPB_PRIVATE(descriptortype) ==
kUpb_FieldType_Message ||
entry->UPB_PRIVATE(fields)[1].UPB_PRIVATE(descriptortype) ==
kUpb_FieldType_Group) {
// Create proactively to handle the case where it doesn't appear.
upb_TaggedMessagePtr msg;
_upb_Decoder_NewSubMessage(d, entry->UPB_PRIVATE(subs),
&entry->UPB_PRIVATE(fields)[1], &msg);
ent.data.v.val = upb_value_uintptr(msg);
}
ptr =
_upb_Decoder_DecodeSubMessage(d, ptr, &ent.data, subs, field, val->size);
// check if ent had any unknown fields
size_t size;
upb_Message_GetUnknown(&ent.data, &size);
if (size != 0) {
char* buf;
size_t size;
uint32_t tag =
((uint32_t)field->UPB_PRIVATE(number) << 3) | kUpb_WireType_Delimited;
upb_EncodeStatus status =
upb_Encode(&ent.data, entry, 0, &d->arena, &buf, &size);
if (status != kUpb_EncodeStatus_Ok) {
_upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_OutOfMemory);
}
_upb_Decoder_AddUnknownVarints(d, msg, tag, size);
if (!UPB_PRIVATE(_upb_Message_AddUnknown)(msg, buf, size, &d->arena)) {
_upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_OutOfMemory);
}
} else {
if (_upb_Map_Insert(map, &ent.data.k, map->key_size, &ent.data.v,
map->val_size,
&d->arena) == kUpb_MapInsertStatus_OutOfMemory) {
_upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_OutOfMemory);
}
}
return ptr;
}
static const char* _upb_Decoder_DecodeToSubMessage(
upb_Decoder* d, const char* ptr, upb_Message* msg,
const upb_MiniTableSub* subs, const upb_MiniTableField* field, wireval* val,
int op) {
void* mem = UPB_PTR_AT(msg, field->UPB_PRIVATE(offset), void);
int type = field->UPB_PRIVATE(descriptortype);
if (UPB_UNLIKELY(op == kUpb_DecodeOp_Enum) &&
!_upb_Decoder_CheckEnum(d, ptr, msg,
_upb_MiniTableSubs_EnumByField(subs, field),
field, val)) {
return ptr;
}
/* Set presence if necessary. */
if (field->presence > 0) {
UPB_PRIVATE(_upb_Message_SetHasbit)(msg, field);
} else if (field->presence < 0) {
/* Oneof case */
uint32_t* oneof_case = UPB_PRIVATE(_upb_Message_OneofCasePtr)(msg, field);
if (op == kUpb_DecodeOp_SubMessage &&
*oneof_case != field->UPB_PRIVATE(number)) {
memset(mem, 0, sizeof(void*));
}
*oneof_case = field->UPB_PRIVATE(number);
}
/* Store into message. */
switch (op) {
case kUpb_DecodeOp_SubMessage: {
upb_TaggedMessagePtr* submsgp = mem;
upb_Message* submsg;
if (*submsgp) {
submsg = _upb_Decoder_ReuseSubMessage(d, subs, field, submsgp);
} else {
submsg = _upb_Decoder_NewSubMessage(d, subs, field, submsgp);
}
if (UPB_UNLIKELY(type == kUpb_FieldType_Group)) {
ptr = _upb_Decoder_DecodeKnownGroup(d, ptr, submsg, subs, field);
} else {
ptr = _upb_Decoder_DecodeSubMessage(d, ptr, submsg, subs, field,
val->size);
}
break;
}
case kUpb_DecodeOp_String:
_upb_Decoder_VerifyUtf8(d, ptr, val->size);
/* Fallthrough. */
case kUpb_DecodeOp_Bytes:
return _upb_Decoder_ReadString(d, ptr, val->size, mem);
case kUpb_DecodeOp_Scalar8Byte:
memcpy(mem, val, 8);
break;
case kUpb_DecodeOp_Enum:
case kUpb_DecodeOp_Scalar4Byte:
memcpy(mem, val, 4);
break;
case kUpb_DecodeOp_Scalar1Byte:
memcpy(mem, val, 1);
break;
default:
UPB_UNREACHABLE();
}
return ptr;
}
UPB_NOINLINE
const char* _upb_Decoder_CheckRequired(upb_Decoder* d, const char* ptr,
const upb_Message* msg,
const upb_MiniTable* m) {
UPB_ASSERT(m->UPB_PRIVATE(required_count));
if (UPB_LIKELY((d->options & kUpb_DecodeOption_CheckRequired) == 0)) {
return ptr;
}
uint64_t msg_head;
memcpy(&msg_head, msg, 8);
msg_head = _upb_BigEndian_Swap64(msg_head);
if (UPB_PRIVATE(_upb_MiniTable_RequiredMask)(m) & ~msg_head) {
d->missing_required = true;
}
return ptr;
}
UPB_FORCEINLINE
static bool _upb_Decoder_TryFastDispatch(upb_Decoder* d, const char** ptr,
upb_Message* msg,
const upb_MiniTable* m) {
#if UPB_FASTTABLE
if (m && m->UPB_PRIVATE(table_mask) != (unsigned char)-1) {
uint16_t tag = _upb_FastDecoder_LoadTag(*ptr);
intptr_t table = decode_totable(m);
*ptr = _upb_FastDecoder_TagDispatch(d, *ptr, msg, table, 0, tag);
return true;
}
#endif
return false;
}
static const char* upb_Decoder_SkipField(upb_Decoder* d, const char* ptr,
uint32_t tag) {
int field_number = tag >> 3;
int wire_type = tag & 7;
switch (wire_type) {
case kUpb_WireType_Varint: {
uint64_t val;
return _upb_Decoder_DecodeVarint(d, ptr, &val);
}
case kUpb_WireType_64Bit:
return ptr + 8;
case kUpb_WireType_32Bit:
return ptr + 4;
case kUpb_WireType_Delimited: {
uint32_t size;
ptr = upb_Decoder_DecodeSize(d, ptr, &size);
return ptr + size;
}
case kUpb_WireType_StartGroup:
return _upb_Decoder_DecodeUnknownGroup(d, ptr, field_number);
default:
_upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_Malformed);
}
}
enum {
kStartItemTag = ((kUpb_MsgSet_Item << 3) | kUpb_WireType_StartGroup),
kEndItemTag = ((kUpb_MsgSet_Item << 3) | kUpb_WireType_EndGroup),
kTypeIdTag = ((kUpb_MsgSet_TypeId << 3) | kUpb_WireType_Varint),
kMessageTag = ((kUpb_MsgSet_Message << 3) | kUpb_WireType_Delimited),
};
static void upb_Decoder_AddKnownMessageSetItem(
upb_Decoder* d, upb_Message* msg, const upb_MiniTableExtension* item_mt,
const char* data, uint32_t size) {
upb_Extension* ext =
_upb_Message_GetOrCreateExtension(msg, item_mt, &d->arena);
if (UPB_UNLIKELY(!ext)) {
_upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_OutOfMemory);
}
upb_Message* submsg = _upb_Decoder_NewSubMessage(
d, &ext->ext->UPB_PRIVATE(sub), upb_MiniTableExtension_AsField(ext->ext),
(upb_TaggedMessagePtr*)&ext->data);
upb_DecodeStatus status = upb_Decode(
data, size, submsg, upb_MiniTableExtension_GetSubMessage(item_mt),
d->extreg, d->options, &d->arena);
if (status != kUpb_DecodeStatus_Ok) _upb_Decoder_ErrorJmp(d, status);
}
static void upb_Decoder_AddUnknownMessageSetItem(upb_Decoder* d,
upb_Message* msg,
uint32_t type_id,
const char* message_data,
uint32_t message_size) {
char buf[60];
char* ptr = buf;
ptr = upb_Decoder_EncodeVarint32(kStartItemTag, ptr);
ptr = upb_Decoder_EncodeVarint32(kTypeIdTag, ptr);
ptr = upb_Decoder_EncodeVarint32(type_id, ptr);
ptr = upb_Decoder_EncodeVarint32(kMessageTag, ptr);
ptr = upb_Decoder_EncodeVarint32(message_size, ptr);
char* split = ptr;
ptr = upb_Decoder_EncodeVarint32(kEndItemTag, ptr);
char* end = ptr;
if (!UPB_PRIVATE(_upb_Message_AddUnknown)(msg, buf, split - buf, &d->arena) ||
!UPB_PRIVATE(_upb_Message_AddUnknown)(msg, message_data, message_size,
&d->arena) ||
!UPB_PRIVATE(_upb_Message_AddUnknown)(msg, split, end - split,
&d->arena)) {
_upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_OutOfMemory);
}
}
static void upb_Decoder_AddMessageSetItem(upb_Decoder* d, upb_Message* msg,
const upb_MiniTable* t,
uint32_t type_id, const char* data,
uint32_t size) {
const upb_MiniTableExtension* item_mt =
upb_ExtensionRegistry_Lookup(d->extreg, t, type_id);
if (item_mt) {
upb_Decoder_AddKnownMessageSetItem(d, msg, item_mt, data, size);
} else {
upb_Decoder_AddUnknownMessageSetItem(d, msg, type_id, data, size);
}
}
static const char* upb_Decoder_DecodeMessageSetItem(
upb_Decoder* d, const char* ptr, upb_Message* msg,
const upb_MiniTable* layout) {
uint32_t type_id = 0;
upb_StringView preserved = {NULL, 0};
typedef enum {
kUpb_HaveId = 1 << 0,
kUpb_HavePayload = 1 << 1,
} StateMask;
StateMask state_mask = 0;
while (!_upb_Decoder_IsDone(d, &ptr)) {
uint32_t tag;
ptr = _upb_Decoder_DecodeTag(d, ptr, &tag);
switch (tag) {
case kEndItemTag:
return ptr;
case kTypeIdTag: {
uint64_t tmp;
ptr = _upb_Decoder_DecodeVarint(d, ptr, &tmp);
if (state_mask & kUpb_HaveId) break; // Ignore dup.
state_mask |= kUpb_HaveId;
type_id = tmp;
if (state_mask & kUpb_HavePayload) {
upb_Decoder_AddMessageSetItem(d, msg, layout, type_id, preserved.data,
preserved.size);
}
break;
}
case kMessageTag: {
uint32_t size;
ptr = upb_Decoder_DecodeSize(d, ptr, &size);
const char* data = ptr;
ptr += size;
if (state_mask & kUpb_HavePayload) break; // Ignore dup.
state_mask |= kUpb_HavePayload;
if (state_mask & kUpb_HaveId) {
upb_Decoder_AddMessageSetItem(d, msg, layout, type_id, data, size);
} else {
// Out of order, we must preserve the payload.
preserved.data = data;
preserved.size = size;
}
break;
}
default:
// We do not preserve unexpected fields inside a message set item.
ptr = upb_Decoder_SkipField(d, ptr, tag);
break;
}
}
_upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_Malformed);
}
static const upb_MiniTableField* _upb_Decoder_FindField(upb_Decoder* d,
const upb_MiniTable* t,
uint32_t field_number,
int* last_field_index) {
static upb_MiniTableField none = {
0, 0, 0, 0, kUpb_FakeFieldType_FieldNotFound, 0};
if (t == NULL) return &none;
size_t idx = ((size_t)field_number) - 1; // 0 wraps to SIZE_MAX
if (idx < t->UPB_PRIVATE(dense_below)) {
/* Fastest case: index into dense fields. */
goto found;
}
if (t->UPB_PRIVATE(dense_below) < t->UPB_PRIVATE(field_count)) {
/* Linear search non-dense fields. Resume scanning from last_field_index
* since fields are usually in order. */
size_t last = *last_field_index;
for (idx = last; idx < t->UPB_PRIVATE(field_count); idx++) {
if (t->UPB_PRIVATE(fields)[idx].UPB_PRIVATE(number) == field_number) {
goto found;
}
}
for (idx = t->UPB_PRIVATE(dense_below); idx < last; idx++) {
if (t->UPB_PRIVATE(fields)[idx].UPB_PRIVATE(number) == field_number) {
goto found;
}
}
}
if (d->extreg) {
switch (t->UPB_PRIVATE(ext)) {
case kUpb_ExtMode_Extendable: {
const upb_MiniTableExtension* ext =
upb_ExtensionRegistry_Lookup(d->extreg, t, field_number);
if (ext) return upb_MiniTableExtension_AsField(ext);
break;
}
case kUpb_ExtMode_IsMessageSet:
if (field_number == kUpb_MsgSet_Item) {
static upb_MiniTableField item = {
0, 0, 0, 0, kUpb_FakeFieldType_MessageSetItem, 0};
return &item;
}
break;
}
}
return &none; /* Unknown field. */
found:
UPB_ASSERT(t->UPB_PRIVATE(fields)[idx].UPB_PRIVATE(number) == field_number);
*last_field_index = idx;
return &t->UPB_PRIVATE(fields)[idx];
}
int _upb_Decoder_GetVarintOp(const upb_MiniTableField* field) {
static const int8_t kVarintOps[] = {
[kUpb_FakeFieldType_FieldNotFound] = kUpb_DecodeOp_UnknownField,
[kUpb_FieldType_Double] = kUpb_DecodeOp_UnknownField,
[kUpb_FieldType_Float] = kUpb_DecodeOp_UnknownField,
[kUpb_FieldType_Int64] = kUpb_DecodeOp_Scalar8Byte,
[kUpb_FieldType_UInt64] = kUpb_DecodeOp_Scalar8Byte,
[kUpb_FieldType_Int32] = kUpb_DecodeOp_Scalar4Byte,
[kUpb_FieldType_Fixed64] = kUpb_DecodeOp_UnknownField,
[kUpb_FieldType_Fixed32] = kUpb_DecodeOp_UnknownField,
[kUpb_FieldType_Bool] = kUpb_DecodeOp_Scalar1Byte,
[kUpb_FieldType_String] = kUpb_DecodeOp_UnknownField,
[kUpb_FieldType_Group] = kUpb_DecodeOp_UnknownField,
[kUpb_FieldType_Message] = kUpb_DecodeOp_UnknownField,
[kUpb_FieldType_Bytes] = kUpb_DecodeOp_UnknownField,
[kUpb_FieldType_UInt32] = kUpb_DecodeOp_Scalar4Byte,
[kUpb_FieldType_Enum] = kUpb_DecodeOp_Enum,
[kUpb_FieldType_SFixed32] = kUpb_DecodeOp_UnknownField,
[kUpb_FieldType_SFixed64] = kUpb_DecodeOp_UnknownField,
[kUpb_FieldType_SInt32] = kUpb_DecodeOp_Scalar4Byte,
[kUpb_FieldType_SInt64] = kUpb_DecodeOp_Scalar8Byte,
[kUpb_FakeFieldType_MessageSetItem] = kUpb_DecodeOp_UnknownField,
};
return kVarintOps[field->UPB_PRIVATE(descriptortype)];
}
UPB_FORCEINLINE
static void _upb_Decoder_CheckUnlinked(upb_Decoder* d, const upb_MiniTable* mt,
const upb_MiniTableField* field,
int* op) {
// If sub-message is not linked, treat as unknown.
if (field->UPB_PRIVATE(mode) & kUpb_LabelFlags_IsExtension) return;
const upb_MiniTable* mt_sub =
_upb_MiniTableSubs_MessageByField(mt->UPB_PRIVATE(subs), field);
if ((d->options & kUpb_DecodeOption_ExperimentalAllowUnlinked) ||
!UPB_PRIVATE(_upb_MiniTable_IsEmpty)(mt_sub)) {
return;
}
#ifndef NDEBUG
const upb_MiniTableField* oneof = upb_MiniTable_GetOneof(mt, field);
if (oneof) {
// All other members of the oneof must be message fields that are also
// unlinked.
do {
UPB_ASSERT(upb_MiniTableField_CType(oneof) == kUpb_CType_Message);
const upb_MiniTableSub* oneof_sub =
&mt->UPB_PRIVATE(subs)[oneof->UPB_PRIVATE(submsg_index)];
UPB_ASSERT(!oneof_sub);
} while (upb_MiniTable_NextOneofField(mt, &oneof));
}
#endif // NDEBUG
*op = kUpb_DecodeOp_UnknownField;
}
int _upb_Decoder_GetDelimitedOp(upb_Decoder* d, const upb_MiniTable* mt,
const upb_MiniTableField* field) {
enum { kRepeatedBase = 19 };
static const int8_t kDelimitedOps[] = {
/* For non-repeated field type. */
[kUpb_FakeFieldType_FieldNotFound] =
kUpb_DecodeOp_UnknownField, // Field not found.
[kUpb_FieldType_Double] = kUpb_DecodeOp_UnknownField,
[kUpb_FieldType_Float] = kUpb_DecodeOp_UnknownField,
[kUpb_FieldType_Int64] = kUpb_DecodeOp_UnknownField,
[kUpb_FieldType_UInt64] = kUpb_DecodeOp_UnknownField,
[kUpb_FieldType_Int32] = kUpb_DecodeOp_UnknownField,
[kUpb_FieldType_Fixed64] = kUpb_DecodeOp_UnknownField,
[kUpb_FieldType_Fixed32] = kUpb_DecodeOp_UnknownField,
[kUpb_FieldType_Bool] = kUpb_DecodeOp_UnknownField,
[kUpb_FieldType_String] = kUpb_DecodeOp_String,
[kUpb_FieldType_Group] = kUpb_DecodeOp_UnknownField,
[kUpb_FieldType_Message] = kUpb_DecodeOp_SubMessage,
[kUpb_FieldType_Bytes] = kUpb_DecodeOp_Bytes,
[kUpb_FieldType_UInt32] = kUpb_DecodeOp_UnknownField,
[kUpb_FieldType_Enum] = kUpb_DecodeOp_UnknownField,
[kUpb_FieldType_SFixed32] = kUpb_DecodeOp_UnknownField,
[kUpb_FieldType_SFixed64] = kUpb_DecodeOp_UnknownField,
[kUpb_FieldType_SInt32] = kUpb_DecodeOp_UnknownField,
[kUpb_FieldType_SInt64] = kUpb_DecodeOp_UnknownField,
[kUpb_FakeFieldType_MessageSetItem] = kUpb_DecodeOp_UnknownField,
// For repeated field type. */
[kRepeatedBase + kUpb_FieldType_Double] = OP_FIXPCK_LG2(3),
[kRepeatedBase + kUpb_FieldType_Float] = OP_FIXPCK_LG2(2),
[kRepeatedBase + kUpb_FieldType_Int64] = OP_VARPCK_LG2(3),
[kRepeatedBase + kUpb_FieldType_UInt64] = OP_VARPCK_LG2(3),
[kRepeatedBase + kUpb_FieldType_Int32] = OP_VARPCK_LG2(2),
[kRepeatedBase + kUpb_FieldType_Fixed64] = OP_FIXPCK_LG2(3),
[kRepeatedBase + kUpb_FieldType_Fixed32] = OP_FIXPCK_LG2(2),
[kRepeatedBase + kUpb_FieldType_Bool] = OP_VARPCK_LG2(0),
[kRepeatedBase + kUpb_FieldType_String] = kUpb_DecodeOp_String,
[kRepeatedBase + kUpb_FieldType_Group] = kUpb_DecodeOp_SubMessage,
[kRepeatedBase + kUpb_FieldType_Message] = kUpb_DecodeOp_SubMessage,
[kRepeatedBase + kUpb_FieldType_Bytes] = kUpb_DecodeOp_Bytes,
[kRepeatedBase + kUpb_FieldType_UInt32] = OP_VARPCK_LG2(2),
[kRepeatedBase + kUpb_FieldType_Enum] = kUpb_DecodeOp_PackedEnum,
[kRepeatedBase + kUpb_FieldType_SFixed32] = OP_FIXPCK_LG2(2),
[kRepeatedBase + kUpb_FieldType_SFixed64] = OP_FIXPCK_LG2(3),
[kRepeatedBase + kUpb_FieldType_SInt32] = OP_VARPCK_LG2(2),
[kRepeatedBase + kUpb_FieldType_SInt64] = OP_VARPCK_LG2(3),
// Omitting kUpb_FakeFieldType_MessageSetItem, because we never emit a
// repeated msgset type
};
int ndx = field->UPB_PRIVATE(descriptortype);
if (upb_MiniTableField_IsArray(field)) ndx += kRepeatedBase;
int op = kDelimitedOps[ndx];
if (op == kUpb_DecodeOp_SubMessage) {
_upb_Decoder_CheckUnlinked(d, mt, field, &op);
}
return op;
}
UPB_FORCEINLINE
static const char* _upb_Decoder_DecodeWireValue(upb_Decoder* d, const char* ptr,
const upb_MiniTable* mt,
const upb_MiniTableField* field,
int wire_type, wireval* val,
int* op) {
static const unsigned kFixed32OkMask = (1 << kUpb_FieldType_Float) |
(1 << kUpb_FieldType_Fixed32) |
(1 << kUpb_FieldType_SFixed32);
static const unsigned kFixed64OkMask = (1 << kUpb_FieldType_Double) |
(1 << kUpb_FieldType_Fixed64) |
(1 << kUpb_FieldType_SFixed64);
switch (wire_type) {
case kUpb_WireType_Varint:
ptr = _upb_Decoder_DecodeVarint(d, ptr, &val->uint64_val);
*op = _upb_Decoder_GetVarintOp(field);
_upb_Decoder_Munge(field->UPB_PRIVATE(descriptortype), val);
return ptr;
case kUpb_WireType_32Bit:
*op = kUpb_DecodeOp_Scalar4Byte;
if (((1 << field->UPB_PRIVATE(descriptortype)) & kFixed32OkMask) == 0) {
*op = kUpb_DecodeOp_UnknownField;
}
return upb_WireReader_ReadFixed32(ptr, &val->uint32_val);
case kUpb_WireType_64Bit:
*op = kUpb_DecodeOp_Scalar8Byte;
if (((1 << field->UPB_PRIVATE(descriptortype)) & kFixed64OkMask) == 0) {
*op = kUpb_DecodeOp_UnknownField;
}
return upb_WireReader_ReadFixed64(ptr, &val->uint64_val);
case kUpb_WireType_Delimited:
ptr = upb_Decoder_DecodeSize(d, ptr, &val->size);
*op = _upb_Decoder_GetDelimitedOp(d, mt, field);
return ptr;
case kUpb_WireType_StartGroup:
val->uint32_val = field->UPB_PRIVATE(number);
if (field->UPB_PRIVATE(descriptortype) == kUpb_FieldType_Group) {
*op = kUpb_DecodeOp_SubMessage;
_upb_Decoder_CheckUnlinked(d, mt, field, op);
} else if (field->UPB_PRIVATE(descriptortype) ==
kUpb_FakeFieldType_MessageSetItem) {
*op = kUpb_DecodeOp_MessageSetItem;
} else {
*op = kUpb_DecodeOp_UnknownField;
}
return ptr;
default:
break;
}
_upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_Malformed);
}
UPB_FORCEINLINE
static const char* _upb_Decoder_DecodeKnownField(
upb_Decoder* d, const char* ptr, upb_Message* msg,
const upb_MiniTable* layout, const upb_MiniTableField* field, int op,
wireval* val) {
const upb_MiniTableSub* subs = layout->UPB_PRIVATE(subs);
uint8_t mode = field->UPB_PRIVATE(mode);
if (UPB_UNLIKELY(mode & kUpb_LabelFlags_IsExtension)) {
const upb_MiniTableExtension* ext_layout =
(const upb_MiniTableExtension*)field;
upb_Extension* ext =
_upb_Message_GetOrCreateExtension(msg, ext_layout, &d->arena);
if (UPB_UNLIKELY(!ext)) {
_upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_OutOfMemory);
}
d->unknown_msg = msg;
msg = &ext->data;
subs = &ext->ext->UPB_PRIVATE(sub);
}
switch (mode & kUpb_FieldMode_Mask) {
case kUpb_FieldMode_Array:
return _upb_Decoder_DecodeToArray(d, ptr, msg, subs, field, val, op);
case kUpb_FieldMode_Map:
return _upb_Decoder_DecodeToMap(d, ptr, msg, subs, field, val);
case kUpb_FieldMode_Scalar:
return _upb_Decoder_DecodeToSubMessage(d, ptr, msg, subs, field, val, op);
default:
UPB_UNREACHABLE();
}
}
static const char* _upb_Decoder_ReverseSkipVarint(const char* ptr,
uint32_t val) {
uint32_t seen = 0;
do {
ptr--;
seen <<= 7;
seen |= *ptr & 0x7f;
} while (seen != val);
return ptr;
}
static const char* _upb_Decoder_DecodeUnknownField(upb_Decoder* d,
const char* ptr,
upb_Message* msg,
int field_number,
int wire_type, wireval val) {
if (field_number == 0) _upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_Malformed);
// Since unknown fields are the uncommon case, we do a little extra work here
// to walk backwards through the buffer to find the field start. This frees
// up a register in the fast paths (when the field is known), which leads to
// significant speedups in benchmarks.
const char* start = ptr;
if (wire_type == kUpb_WireType_Delimited) ptr += val.size;
if (msg) {
switch (wire_type) {
case kUpb_WireType_Varint:
case kUpb_WireType_Delimited:
start--;
while (start[-1] & 0x80) start--;
break;
case kUpb_WireType_32Bit:
start -= 4;
break;
case kUpb_WireType_64Bit:
start -= 8;
break;
default:
break;
}
assert(start == d->debug_valstart);
uint32_t tag = ((uint32_t)field_number << 3) | wire_type;
start = _upb_Decoder_ReverseSkipVarint(start, tag);
assert(start == d->debug_tagstart);
if (wire_type == kUpb_WireType_StartGroup) {
d->unknown = start;
d->unknown_msg = msg;
ptr = _upb_Decoder_DecodeUnknownGroup(d, ptr, field_number);
start = d->unknown;
d->unknown = NULL;
}
if (!UPB_PRIVATE(_upb_Message_AddUnknown)(msg, start, ptr - start,
&d->arena)) {
_upb_Decoder_ErrorJmp(d, kUpb_DecodeStatus_OutOfMemory);
}
} else if (wire_type == kUpb_WireType_StartGroup) {
ptr = _upb_Decoder_DecodeUnknownGroup(d, ptr, field_number);
}
return ptr;
}
UPB_NOINLINE
static const char* _upb_Decoder_DecodeMessage(upb_Decoder* d, const char* ptr,
upb_Message* msg,
const upb_MiniTable* layout) {
int last_field_index = 0;
#if UPB_FASTTABLE
// The first time we want to skip fast dispatch, because we may have just been
// invoked by the fast parser to handle a case that it bailed on.
if (!_upb_Decoder_IsDone(d, &ptr)) goto nofast;
#endif
while (!_upb_Decoder_IsDone(d, &ptr)) {
uint32_t tag;
const upb_MiniTableField* field;
int field_number;
int wire_type;
wireval val;
int op;
if (_upb_Decoder_TryFastDispatch(d, &ptr, msg, layout)) break;
#if UPB_FASTTABLE
nofast:
#endif
#ifndef NDEBUG
d->debug_tagstart = ptr;
#endif
UPB_ASSERT(ptr < d->input.limit_ptr);
ptr = _upb_Decoder_DecodeTag(d, ptr, &tag);
field_number = tag >> 3;
wire_type = tag & 7;
#ifndef NDEBUG
d->debug_valstart = ptr;
#endif
if (wire_type == kUpb_WireType_EndGroup) {
d->end_group = field_number;
return ptr;
}
field = _upb_Decoder_FindField(d, layout, field_number, &last_field_index);
ptr = _upb_Decoder_DecodeWireValue(d, ptr, layout, field, wire_type, &val,
&op);
if (op >= 0) {
ptr = _upb_Decoder_DecodeKnownField(d, ptr, msg, layout, field, op, &val);
} else {
switch (op) {
case kUpb_DecodeOp_UnknownField:
ptr = _upb_Decoder_DecodeUnknownField(d, ptr, msg, field_number,
wire_type, val);
break;
case kUpb_DecodeOp_MessageSetItem:
ptr = upb_Decoder_DecodeMessageSetItem(d, ptr, msg, layout);
break;
}
}
}
return UPB_UNLIKELY(layout && layout->UPB_PRIVATE(required_count))
? _upb_Decoder_CheckRequired(d, ptr, msg, layout)
: ptr;
}
const char* _upb_FastDecoder_DecodeGeneric(struct upb_Decoder* d,
const char* ptr, upb_Message* msg,
intptr_t table, uint64_t hasbits,
uint64_t data) {
(void)data;
*(uint32_t*)msg |= hasbits;
return _upb_Decoder_DecodeMessage(d, ptr, msg, decode_totablep(table));
}
static upb_DecodeStatus _upb_Decoder_DecodeTop(struct upb_Decoder* d,
const char* buf, void* msg,
const upb_MiniTable* l) {
if (!_upb_Decoder_TryFastDispatch(d, &buf, msg, l)) {
_upb_Decoder_DecodeMessage(d, buf, msg, l);
}
if (d->end_group != DECODE_NOGROUP) return kUpb_DecodeStatus_Malformed;
if (d->missing_required) return kUpb_DecodeStatus_MissingRequired;
return kUpb_DecodeStatus_Ok;
}
UPB_NOINLINE
const char* _upb_Decoder_IsDoneFallback(upb_EpsCopyInputStream* e,
const char* ptr, int overrun) {
return _upb_EpsCopyInputStream_IsDoneFallbackInline(
e, ptr, overrun, _upb_Decoder_BufferFlipCallback);
}
static upb_DecodeStatus upb_Decoder_Decode(upb_Decoder* const decoder,
const char* const buf,
void* const msg,
const upb_MiniTable* const l,
upb_Arena* const arena) {
if (UPB_SETJMP(decoder->err) == 0) {
decoder->status = _upb_Decoder_DecodeTop(decoder, buf, msg, l);
} else {
UPB_ASSERT(decoder->status != kUpb_DecodeStatus_Ok);
}
_upb_MemBlock* blocks =
upb_Atomic_Load(&decoder->arena.blocks, memory_order_relaxed);
arena->head = decoder->arena.head;
upb_Atomic_Store(&arena->blocks, blocks, memory_order_relaxed);
return decoder->status;
}
upb_DecodeStatus upb_Decode(const char* buf, size_t size, void* msg,
const upb_MiniTable* l,
const upb_ExtensionRegistry* extreg, int options,
upb_Arena* arena) {
upb_Decoder decoder;
unsigned depth = (unsigned)options >> 16;
upb_EpsCopyInputStream_Init(&decoder.input, &buf, size,
options & kUpb_DecodeOption_AliasString);
decoder.extreg = extreg;
decoder.unknown = NULL;
decoder.depth = depth ? depth : kUpb_WireFormat_DefaultDepthLimit;
decoder.end_group = DECODE_NOGROUP;
decoder.options = (uint16_t)options;
decoder.missing_required = false;
decoder.status = kUpb_DecodeStatus_Ok;
// Violating the encapsulation of the arena for performance reasons.
// This is a temporary arena that we swap into and swap out of when we are
// done. The temporary arena only needs to be able to handle allocation,
// not fuse or free, so it does not need many of the members to be initialized
// (particularly parent_or_count).
_upb_MemBlock* blocks = upb_Atomic_Load(&arena->blocks, memory_order_relaxed);
decoder.arena.head = arena->head;
decoder.arena.block_alloc = arena->block_alloc;
upb_Atomic_Init(&decoder.arena.blocks, blocks);
return upb_Decoder_Decode(&decoder, buf, msg, l, arena);
}
#undef OP_FIXPCK_LG2
#undef OP_VARPCK_LG2