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/reflection/internal/field_def.h"
#include <ctype.h>
#include <errno.h>
#include <stdbool.h>
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
#include "upb/base/descriptor_constants.h"
#include "upb/base/string_view.h"
#include "upb/mem/arena.h"
#include "upb/message/accessors.h"
#include "upb/message/value.h"
#include "upb/mini_descriptor/decode.h"
#include "upb/mini_descriptor/internal/encode.h"
#include "upb/mini_descriptor/internal/modifiers.h"
#include "upb/mini_table/extension.h"
#include "upb/mini_table/field.h"
#include "upb/mini_table/message.h"
#include "upb/mini_table/sub.h"
#include "upb/reflection/def.h"
#include "upb/reflection/def_type.h"
#include "upb/reflection/internal/def_builder.h"
#include "upb/reflection/internal/def_pool.h"
#include "upb/reflection/internal/desc_state.h"
#include "upb/reflection/internal/enum_def.h"
#include "upb/reflection/internal/file_def.h"
#include "upb/reflection/internal/message_def.h"
#include "upb/reflection/internal/oneof_def.h"
#include "upb/reflection/internal/strdup2.h"
// Must be last.
#include "upb/port/def.inc"
#define UPB_FIELD_TYPE_UNSPECIFIED 0
typedef struct {
size_t len;
char str[1]; // Null-terminated string data follows.
} str_t;
struct upb_FieldDef {
const UPB_DESC(FieldOptions*) opts;
const UPB_DESC(FeatureSet*) resolved_features;
const upb_FileDef* file;
const upb_MessageDef* msgdef;
const char* full_name;
const char* json_name;
union {
int64_t sint;
uint64_t uint;
double dbl;
float flt;
bool boolean;
str_t* str;
void* msg; // Always NULL.
} defaultval;
union {
const upb_OneofDef* oneof;
const upb_MessageDef* extension_scope;
} scope;
union {
const upb_MessageDef* msgdef;
const upb_EnumDef* enumdef;
const UPB_DESC(FieldDescriptorProto) * unresolved;
} sub;
uint32_t number_;
uint16_t index_;
uint16_t layout_index; // Index into msgdef->layout->fields or file->exts
bool has_default;
bool has_json_name;
bool has_presence;
bool is_extension;
bool is_proto3_optional;
upb_FieldType type_;
upb_Label label_;
};
upb_FieldDef* _upb_FieldDef_At(const upb_FieldDef* f, int i) {
return (upb_FieldDef*)&f[i];
}
const UPB_DESC(FieldOptions) * upb_FieldDef_Options(const upb_FieldDef* f) {
return f->opts;
}
bool upb_FieldDef_HasOptions(const upb_FieldDef* f) {
return f->opts != (void*)kUpbDefOptDefault;
}
const UPB_DESC(FeatureSet) *
upb_FieldDef_ResolvedFeatures(const upb_FieldDef* f) {
return f->resolved_features;
}
const char* upb_FieldDef_FullName(const upb_FieldDef* f) {
return f->full_name;
}
upb_CType upb_FieldDef_CType(const upb_FieldDef* f) {
return upb_FieldType_CType(f->type_);
}
upb_FieldType upb_FieldDef_Type(const upb_FieldDef* f) {
// TODO: remove once we can deprecate kUpb_FieldType_Group.
if (f->type_ == kUpb_FieldType_Message &&
UPB_DESC(FeatureSet_message_encoding)(f->resolved_features) ==
UPB_DESC(FeatureSet_DELIMITED)) {
return kUpb_FieldType_Group;
}
return f->type_;
}
uint32_t upb_FieldDef_Index(const upb_FieldDef* f) { return f->index_; }
upb_Label upb_FieldDef_Label(const upb_FieldDef* f) {
// TODO: remove once we can deprecate kUpb_Label_Required.
if (UPB_DESC(FeatureSet_field_presence)(f->resolved_features) ==
UPB_DESC(FeatureSet_LEGACY_REQUIRED)) {
return kUpb_Label_Required;
}
return f->label_;
}
uint32_t upb_FieldDef_Number(const upb_FieldDef* f) { return f->number_; }
bool upb_FieldDef_IsExtension(const upb_FieldDef* f) { return f->is_extension; }
bool _upb_FieldDef_IsPackable(const upb_FieldDef* f) {
return upb_FieldDef_IsRepeated(f) && upb_FieldDef_IsPrimitive(f);
}
bool upb_FieldDef_IsPacked(const upb_FieldDef* f) {
return _upb_FieldDef_IsPackable(f) &&
UPB_DESC(FeatureSet_repeated_field_encoding(f->resolved_features)) ==
UPB_DESC(FeatureSet_PACKED);
}
const char* upb_FieldDef_Name(const upb_FieldDef* f) {
return _upb_DefBuilder_FullToShort(f->full_name);
}
const char* upb_FieldDef_JsonName(const upb_FieldDef* f) {
return f->json_name;
}
bool upb_FieldDef_HasJsonName(const upb_FieldDef* f) {
return f->has_json_name;
}
const upb_FileDef* upb_FieldDef_File(const upb_FieldDef* f) { return f->file; }
const upb_MessageDef* upb_FieldDef_ContainingType(const upb_FieldDef* f) {
return f->msgdef;
}
const upb_MessageDef* upb_FieldDef_ExtensionScope(const upb_FieldDef* f) {
return f->is_extension ? f->scope.extension_scope : NULL;
}
const upb_OneofDef* upb_FieldDef_ContainingOneof(const upb_FieldDef* f) {
return f->is_extension ? NULL : f->scope.oneof;
}
const upb_OneofDef* upb_FieldDef_RealContainingOneof(const upb_FieldDef* f) {
const upb_OneofDef* oneof = upb_FieldDef_ContainingOneof(f);
if (!oneof || upb_OneofDef_IsSynthetic(oneof)) return NULL;
return oneof;
}
upb_MessageValue upb_FieldDef_Default(const upb_FieldDef* f) {
upb_MessageValue ret;
if (upb_FieldDef_IsRepeated(f) || upb_FieldDef_IsSubMessage(f)) {
return (upb_MessageValue){.msg_val = NULL};
}
switch (upb_FieldDef_CType(f)) {
case kUpb_CType_Bool:
return (upb_MessageValue){.bool_val = f->defaultval.boolean};
case kUpb_CType_Int64:
return (upb_MessageValue){.int64_val = f->defaultval.sint};
case kUpb_CType_UInt64:
return (upb_MessageValue){.uint64_val = f->defaultval.uint};
case kUpb_CType_Enum:
case kUpb_CType_Int32:
return (upb_MessageValue){.int32_val = (int32_t)f->defaultval.sint};
case kUpb_CType_UInt32:
return (upb_MessageValue){.uint32_val = (uint32_t)f->defaultval.uint};
case kUpb_CType_Float:
return (upb_MessageValue){.float_val = f->defaultval.flt};
case kUpb_CType_Double:
return (upb_MessageValue){.double_val = f->defaultval.dbl};
case kUpb_CType_String:
case kUpb_CType_Bytes: {
str_t* str = f->defaultval.str;
if (str) {
return (upb_MessageValue){
.str_val = (upb_StringView){.data = str->str, .size = str->len}};
} else {
return (upb_MessageValue){
.str_val = (upb_StringView){.data = NULL, .size = 0}};
}
}
default:
UPB_UNREACHABLE();
}
return ret;
}
const upb_MessageDef* upb_FieldDef_MessageSubDef(const upb_FieldDef* f) {
return upb_FieldDef_CType(f) == kUpb_CType_Message ? f->sub.msgdef : NULL;
}
const upb_EnumDef* upb_FieldDef_EnumSubDef(const upb_FieldDef* f) {
return upb_FieldDef_CType(f) == kUpb_CType_Enum ? f->sub.enumdef : NULL;
}
const upb_MiniTableField* upb_FieldDef_MiniTable(const upb_FieldDef* f) {
if (upb_FieldDef_IsExtension(f)) {
const upb_FileDef* file = upb_FieldDef_File(f);
return (upb_MiniTableField*)_upb_FileDef_ExtensionMiniTable(
file, f->layout_index);
} else {
const upb_MiniTable* layout = upb_MessageDef_MiniTable(f->msgdef);
return &layout->fields[f->layout_index];
}
}
const upb_MiniTableExtension* _upb_FieldDef_ExtensionMiniTable(
const upb_FieldDef* f) {
UPB_ASSERT(upb_FieldDef_IsExtension(f));
const upb_FileDef* file = upb_FieldDef_File(f);
return _upb_FileDef_ExtensionMiniTable(file, f->layout_index);
}
bool _upb_FieldDef_IsClosedEnum(const upb_FieldDef* f) {
if (f->type_ != kUpb_FieldType_Enum) return false;
return upb_EnumDef_IsClosed(f->sub.enumdef);
}
bool _upb_FieldDef_IsProto3Optional(const upb_FieldDef* f) {
return f->is_proto3_optional;
}
int _upb_FieldDef_LayoutIndex(const upb_FieldDef* f) { return f->layout_index; }
bool _upb_FieldDef_ValidateUtf8(const upb_FieldDef* f) {
if (upb_FieldDef_Type(f) != kUpb_FieldType_String) return false;
return UPB_DESC(FeatureSet_utf8_validation(f->resolved_features)) ==
UPB_DESC(FeatureSet_VERIFY);
}
uint64_t _upb_FieldDef_Modifiers(const upb_FieldDef* f) {
uint64_t out = upb_FieldDef_IsPacked(f) ? kUpb_FieldModifier_IsPacked : 0;
if (upb_FieldDef_IsRepeated(f)) {
out |= kUpb_FieldModifier_IsRepeated;
} else if (upb_FieldDef_IsRequired(f)) {
out |= kUpb_FieldModifier_IsRequired;
} else if (!upb_FieldDef_HasPresence(f)) {
out |= kUpb_FieldModifier_IsProto3Singular;
}
if (_upb_FieldDef_IsClosedEnum(f)) {
out |= kUpb_FieldModifier_IsClosedEnum;
}
if (_upb_FieldDef_ValidateUtf8(f)) {
out |= kUpb_FieldModifier_ValidateUtf8;
}
return out;
}
bool upb_FieldDef_HasDefault(const upb_FieldDef* f) { return f->has_default; }
bool upb_FieldDef_HasPresence(const upb_FieldDef* f) { return f->has_presence; }
bool upb_FieldDef_HasSubDef(const upb_FieldDef* f) {
return upb_FieldDef_IsSubMessage(f) ||
upb_FieldDef_CType(f) == kUpb_CType_Enum;
}
bool upb_FieldDef_IsMap(const upb_FieldDef* f) {
return upb_FieldDef_IsRepeated(f) && upb_FieldDef_IsSubMessage(f) &&
upb_MessageDef_IsMapEntry(upb_FieldDef_MessageSubDef(f));
}
bool upb_FieldDef_IsOptional(const upb_FieldDef* f) {
return upb_FieldDef_Label(f) == kUpb_Label_Optional;
}
bool upb_FieldDef_IsPrimitive(const upb_FieldDef* f) {
return !upb_FieldDef_IsString(f) && !upb_FieldDef_IsSubMessage(f);
}
bool upb_FieldDef_IsRepeated(const upb_FieldDef* f) {
return upb_FieldDef_Label(f) == kUpb_Label_Repeated;
}
bool upb_FieldDef_IsRequired(const upb_FieldDef* f) {
return UPB_DESC(FeatureSet_field_presence)(f->resolved_features) ==
UPB_DESC(FeatureSet_LEGACY_REQUIRED);
}
bool upb_FieldDef_IsString(const upb_FieldDef* f) {
return upb_FieldDef_CType(f) == kUpb_CType_String ||
upb_FieldDef_CType(f) == kUpb_CType_Bytes;
}
bool upb_FieldDef_IsSubMessage(const upb_FieldDef* f) {
return upb_FieldDef_CType(f) == kUpb_CType_Message;
}
static bool between(int32_t x, int32_t low, int32_t high) {
return x >= low && x <= high;
}
bool upb_FieldDef_checklabel(int32_t label) { return between(label, 1, 3); }
bool upb_FieldDef_checktype(int32_t type) { return between(type, 1, 11); }
bool upb_FieldDef_checkintfmt(int32_t fmt) { return between(fmt, 1, 3); }
bool upb_FieldDef_checkdescriptortype(int32_t type) {
return between(type, 1, 18);
}
static bool streql2(const char* a, size_t n, const char* b) {
return n == strlen(b) && memcmp(a, b, n) == 0;
}
// Implement the transformation as described in the spec:
// 1. upper case all letters after an underscore.
// 2. remove all underscores.
static char* make_json_name(const char* name, size_t size, upb_Arena* a) {
char* out = upb_Arena_Malloc(a, size + 1); // +1 is to add a trailing '\0'
if (out == NULL) return NULL;
bool ucase_next = false;
char* des = out;
for (size_t i = 0; i < size; i++) {
if (name[i] == '_') {
ucase_next = true;
} else {
*des++ = ucase_next ? toupper(name[i]) : name[i];
ucase_next = false;
}
}
*des++ = '\0';
return out;
}
static str_t* newstr(upb_DefBuilder* ctx, const char* data, size_t len) {
str_t* ret = _upb_DefBuilder_Alloc(ctx, sizeof(*ret) + len);
if (!ret) _upb_DefBuilder_OomErr(ctx);
ret->len = len;
if (len) memcpy(ret->str, data, len);
ret->str[len] = '\0';
return ret;
}
static str_t* unescape(upb_DefBuilder* ctx, const upb_FieldDef* f,
const char* data, size_t len) {
// Size here is an upper bound; escape sequences could ultimately shrink it.
str_t* ret = _upb_DefBuilder_Alloc(ctx, sizeof(*ret) + len);
char* dst = &ret->str[0];
const char* src = data;
const char* end = data + len;
while (src < end) {
if (*src == '\\') {
src++;
*dst++ = _upb_DefBuilder_ParseEscape(ctx, f, &src, end);
} else {
*dst++ = *src++;
}
}
ret->len = dst - &ret->str[0];
return ret;
}
static void parse_default(upb_DefBuilder* ctx, const char* str, size_t len,
upb_FieldDef* f) {
char* end;
char nullz[64];
errno = 0;
switch (upb_FieldDef_CType(f)) {
case kUpb_CType_Int32:
case kUpb_CType_Int64:
case kUpb_CType_UInt32:
case kUpb_CType_UInt64:
case kUpb_CType_Double:
case kUpb_CType_Float:
// Standard C number parsing functions expect null-terminated strings.
if (len >= sizeof(nullz) - 1) {
_upb_DefBuilder_Errf(ctx, "Default too long: %.*s", (int)len, str);
}
memcpy(nullz, str, len);
nullz[len] = '\0';
str = nullz;
break;
default:
break;
}
switch (upb_FieldDef_CType(f)) {
case kUpb_CType_Int32: {
long val = strtol(str, &end, 0);
if (val > INT32_MAX || val < INT32_MIN || errno == ERANGE || *end) {
goto invalid;
}
f->defaultval.sint = val;
break;
}
case kUpb_CType_Enum: {
const upb_EnumDef* e = f->sub.enumdef;
const upb_EnumValueDef* ev =
upb_EnumDef_FindValueByNameWithSize(e, str, len);
if (!ev) {
goto invalid;
}
f->defaultval.sint = upb_EnumValueDef_Number(ev);
break;
}
case kUpb_CType_Int64: {
long long val = strtoll(str, &end, 0);
if (val > INT64_MAX || val < INT64_MIN || errno == ERANGE || *end) {
goto invalid;
}
f->defaultval.sint = val;
break;
}
case kUpb_CType_UInt32: {
unsigned long val = strtoul(str, &end, 0);
if (val > UINT32_MAX || errno == ERANGE || *end) {
goto invalid;
}
f->defaultval.uint = val;
break;
}
case kUpb_CType_UInt64: {
unsigned long long val = strtoull(str, &end, 0);
if (val > UINT64_MAX || errno == ERANGE || *end) {
goto invalid;
}
f->defaultval.uint = val;
break;
}
case kUpb_CType_Double: {
double val = strtod(str, &end);
if (errno == ERANGE || *end) {
goto invalid;
}
f->defaultval.dbl = val;
break;
}
case kUpb_CType_Float: {
float val = strtof(str, &end);
if (errno == ERANGE || *end) {
goto invalid;
}
f->defaultval.flt = val;
break;
}
case kUpb_CType_Bool: {
if (streql2(str, len, "false")) {
f->defaultval.boolean = false;
} else if (streql2(str, len, "true")) {
f->defaultval.boolean = true;
} else {
goto invalid;
}
break;
}
case kUpb_CType_String:
f->defaultval.str = newstr(ctx, str, len);
break;
case kUpb_CType_Bytes:
f->defaultval.str = unescape(ctx, f, str, len);
break;
case kUpb_CType_Message:
/* Should not have a default value. */
_upb_DefBuilder_Errf(ctx, "Message should not have a default (%s)",
upb_FieldDef_FullName(f));
}
return;
invalid:
_upb_DefBuilder_Errf(ctx, "Invalid default '%.*s' for field %s of type %d",
(int)len, str, upb_FieldDef_FullName(f),
(int)upb_FieldDef_Type(f));
}
static void set_default_default(upb_DefBuilder* ctx, upb_FieldDef* f) {
switch (upb_FieldDef_CType(f)) {
case kUpb_CType_Int32:
case kUpb_CType_Int64:
f->defaultval.sint = 0;
break;
case kUpb_CType_UInt64:
case kUpb_CType_UInt32:
f->defaultval.uint = 0;
break;
case kUpb_CType_Double:
case kUpb_CType_Float:
f->defaultval.dbl = 0;
break;
case kUpb_CType_String:
case kUpb_CType_Bytes:
f->defaultval.str = newstr(ctx, NULL, 0);
break;
case kUpb_CType_Bool:
f->defaultval.boolean = false;
break;
case kUpb_CType_Enum: {
const upb_EnumValueDef* v = upb_EnumDef_Value(f->sub.enumdef, 0);
f->defaultval.sint = upb_EnumValueDef_Number(v);
break;
}
case kUpb_CType_Message:
break;
}
}
static bool _upb_FieldDef_InferLegacyFeatures(
upb_DefBuilder* ctx, upb_FieldDef* f,
const UPB_DESC(FieldDescriptorProto*) proto,
const UPB_DESC(FieldOptions*) options, upb_Syntax syntax,
UPB_DESC(FeatureSet*) features) {
bool ret = false;
if (UPB_DESC(FieldDescriptorProto_label)(proto) == kUpb_Label_Required) {
if (syntax == kUpb_Syntax_Proto3) {
_upb_DefBuilder_Errf(ctx, "proto3 fields cannot be required (%s)",
f->full_name);
}
int val = UPB_DESC(FeatureSet_LEGACY_REQUIRED);
UPB_DESC(FeatureSet_set_field_presence(features, val));
ret = true;
}
if (UPB_DESC(FieldDescriptorProto_type)(proto) == kUpb_FieldType_Group) {
int val = UPB_DESC(FeatureSet_DELIMITED);
UPB_DESC(FeatureSet_set_message_encoding(features, val));
ret = true;
}
if (UPB_DESC(FieldOptions_has_packed)(options)) {
int val = UPB_DESC(FieldOptions_packed)(options)
? UPB_DESC(FeatureSet_PACKED)
: UPB_DESC(FeatureSet_EXPANDED);
UPB_DESC(FeatureSet_set_repeated_field_encoding(features, val));
ret = true;
}
// begin:google_only
// #ifndef UPB_BOOTSTRAP_STAGE0
// if (syntax == kUpb_Syntax_Proto3 &&
// UPB_DESC(FieldOptions_has_enforce_utf8)(options) &&
// !UPB_DESC(FieldOptions_enforce_utf8)(options)) {
// int val = UPB_DESC(FeatureSet_UNVERIFIED);
// UPB_DESC(FeatureSet_set_utf8_validation(features, val));
// ret = true;
// }
// #endif
// // clang-format off
// end:google_only
// clang-format on
return ret;
}
static void _upb_FieldDef_Create(upb_DefBuilder* ctx, const char* prefix,
const UPB_DESC(FeatureSet*) parent_features,
const UPB_DESC(FieldDescriptorProto*)
field_proto,
upb_MessageDef* m, upb_FieldDef* f) {
// Must happen before _upb_DefBuilder_Add()
f->file = _upb_DefBuilder_File(ctx);
const upb_StringView name = UPB_DESC(FieldDescriptorProto_name)(field_proto);
f->full_name = _upb_DefBuilder_MakeFullName(ctx, prefix, name);
f->label_ = (int)UPB_DESC(FieldDescriptorProto_label)(field_proto);
f->number_ = UPB_DESC(FieldDescriptorProto_number)(field_proto);
f->is_proto3_optional =
UPB_DESC(FieldDescriptorProto_proto3_optional)(field_proto);
f->msgdef = m;
f->scope.oneof = NULL;
UPB_DEF_SET_OPTIONS(f->opts, FieldDescriptorProto, FieldOptions, field_proto);
upb_Syntax syntax = upb_FileDef_Syntax(f->file);
const UPB_DESC(FeatureSet*) unresolved_features =
UPB_DESC(FieldOptions_features)(f->opts);
bool implicit = false;
if (syntax != kUpb_Syntax_Editions) {
upb_Message_Clear(ctx->legacy_features, UPB_DESC_MINITABLE(FeatureSet));
if (_upb_FieldDef_InferLegacyFeatures(ctx, f, field_proto, f->opts, syntax,
ctx->legacy_features)) {
implicit = true;
unresolved_features = ctx->legacy_features;
}
}
if (UPB_DESC(FieldDescriptorProto_has_oneof_index)(field_proto)) {
int oneof_index = UPB_DESC(FieldDescriptorProto_oneof_index)(field_proto);
if (!m) {
_upb_DefBuilder_Errf(ctx, "oneof field (%s) has no containing msg",
f->full_name);
}
if (oneof_index >= upb_MessageDef_OneofCount(m)) {
_upb_DefBuilder_Errf(ctx, "oneof_index out of range (%s)", f->full_name);
}
upb_OneofDef* oneof = (upb_OneofDef*)upb_MessageDef_Oneof(m, oneof_index);
f->scope.oneof = oneof;
parent_features = upb_OneofDef_ResolvedFeatures(oneof);
_upb_OneofDef_Insert(ctx, oneof, f, name.data, name.size);
}
f->resolved_features = _upb_DefBuilder_DoResolveFeatures(
ctx, parent_features, unresolved_features, implicit);
if (!UPB_DESC(FieldDescriptorProto_has_name)(field_proto)) {
_upb_DefBuilder_Errf(ctx, "field has no name");
}
f->has_json_name = UPB_DESC(FieldDescriptorProto_has_json_name)(field_proto);
if (f->has_json_name) {
const upb_StringView sv =
UPB_DESC(FieldDescriptorProto_json_name)(field_proto);
f->json_name = upb_strdup2(sv.data, sv.size, ctx->arena);
} else {
f->json_name = make_json_name(name.data, name.size, ctx->arena);
}
if (!f->json_name) _upb_DefBuilder_OomErr(ctx);
const bool has_type = UPB_DESC(FieldDescriptorProto_has_type)(field_proto);
const bool has_type_name =
UPB_DESC(FieldDescriptorProto_has_type_name)(field_proto);
f->type_ = (int)UPB_DESC(FieldDescriptorProto_type)(field_proto);
if (has_type) {
switch (f->type_) {
case kUpb_FieldType_Message:
case kUpb_FieldType_Group:
case kUpb_FieldType_Enum:
if (!has_type_name) {
_upb_DefBuilder_Errf(ctx, "field of type %d requires type name (%s)",
(int)f->type_, f->full_name);
}
break;
default:
if (has_type_name) {
_upb_DefBuilder_Errf(
ctx, "invalid type for field with type_name set (%s, %d)",
f->full_name, (int)f->type_);
}
}
}
if (!has_type && has_type_name) {
f->type_ =
UPB_FIELD_TYPE_UNSPECIFIED; // We'll assign this in resolve_subdef()
} else {
if (f->type_ < kUpb_FieldType_Double || f->type_ > kUpb_FieldType_SInt64) {
_upb_DefBuilder_Errf(ctx, "invalid type for field %s (%d)", f->full_name,
f->type_);
}
}
if (f->label_ < kUpb_Label_Optional || f->label_ > kUpb_Label_Repeated) {
_upb_DefBuilder_Errf(ctx, "invalid label for field %s (%d)", f->full_name,
f->label_);
}
/* We can't resolve the subdef or (in the case of extensions) the containing
* message yet, because it may not have been defined yet. We stash a pointer
* to the field_proto until later when we can properly resolve it. */
f->sub.unresolved = field_proto;
if (UPB_DESC(FieldDescriptorProto_has_oneof_index)(field_proto)) {
if (upb_FieldDef_Label(f) != kUpb_Label_Optional) {
_upb_DefBuilder_Errf(ctx, "fields in oneof must have OPTIONAL label (%s)",
f->full_name);
}
}
f->has_presence =
(!upb_FieldDef_IsRepeated(f)) &&
(f->type_ == kUpb_FieldType_Message || f->type_ == kUpb_FieldType_Group ||
upb_FieldDef_ContainingOneof(f) ||
UPB_DESC(FeatureSet_field_presence)(f->resolved_features) !=
UPB_DESC(FeatureSet_IMPLICIT));
}
static void _upb_FieldDef_CreateExt(upb_DefBuilder* ctx, const char* prefix,
const UPB_DESC(FeatureSet*) parent_features,
const UPB_DESC(FieldDescriptorProto*)
field_proto,
upb_MessageDef* m, upb_FieldDef* f) {
f->is_extension = true;
_upb_FieldDef_Create(ctx, prefix, parent_features, field_proto, m, f);
if (UPB_DESC(FieldDescriptorProto_has_oneof_index)(field_proto)) {
_upb_DefBuilder_Errf(ctx, "oneof_index provided for extension field (%s)",
f->full_name);
}
f->scope.extension_scope = m;
_upb_DefBuilder_Add(ctx, f->full_name, _upb_DefType_Pack(f, UPB_DEFTYPE_EXT));
f->layout_index = ctx->ext_count++;
if (ctx->layout) {
UPB_ASSERT(upb_MiniTableExtension_Number(
_upb_FieldDef_ExtensionMiniTable(f)) == f->number_);
}
}
static void _upb_FieldDef_CreateNotExt(upb_DefBuilder* ctx, const char* prefix,
const UPB_DESC(FeatureSet*)
parent_features,
const UPB_DESC(FieldDescriptorProto*)
field_proto,
upb_MessageDef* m, upb_FieldDef* f) {
f->is_extension = false;
_upb_FieldDef_Create(ctx, prefix, parent_features, field_proto, m, f);
if (!UPB_DESC(FieldDescriptorProto_has_oneof_index)(field_proto)) {
if (f->is_proto3_optional) {
_upb_DefBuilder_Errf(
ctx,
"non-extension field (%s) with proto3_optional was not in a oneof",
f->full_name);
}
}
_upb_MessageDef_InsertField(ctx, m, f);
}
upb_FieldDef* _upb_Extensions_New(upb_DefBuilder* ctx, int n,
const UPB_DESC(FieldDescriptorProto*)
const* protos,
const UPB_DESC(FeatureSet*) parent_features,
const char* prefix, upb_MessageDef* m) {
_upb_DefType_CheckPadding(sizeof(upb_FieldDef));
upb_FieldDef* defs =
(upb_FieldDef*)_upb_DefBuilder_Alloc(ctx, sizeof(upb_FieldDef) * n);
for (int i = 0; i < n; i++) {
upb_FieldDef* f = &defs[i];
_upb_FieldDef_CreateExt(ctx, prefix, parent_features, protos[i], m, f);
f->index_ = i;
}
return defs;
}
upb_FieldDef* _upb_FieldDefs_New(upb_DefBuilder* ctx, int n,
const UPB_DESC(FieldDescriptorProto*)
const* protos,
const UPB_DESC(FeatureSet*) parent_features,
const char* prefix, upb_MessageDef* m,
bool* is_sorted) {
_upb_DefType_CheckPadding(sizeof(upb_FieldDef));
upb_FieldDef* defs =
(upb_FieldDef*)_upb_DefBuilder_Alloc(ctx, sizeof(upb_FieldDef) * n);
uint32_t previous = 0;
for (int i = 0; i < n; i++) {
upb_FieldDef* f = &defs[i];
_upb_FieldDef_CreateNotExt(ctx, prefix, parent_features, protos[i], m, f);
f->index_ = i;
if (!ctx->layout) {
// Speculate that the def fields are sorted. We will always sort the
// MiniTable fields, so if defs are sorted then indices will match.
//
// If this is incorrect, we will overwrite later.
f->layout_index = i;
}
const uint32_t current = f->number_;
if (previous > current) *is_sorted = false;
previous = current;
}
return defs;
}
static void resolve_subdef(upb_DefBuilder* ctx, const char* prefix,
upb_FieldDef* f) {
const UPB_DESC(FieldDescriptorProto)* field_proto = f->sub.unresolved;
upb_StringView name = UPB_DESC(FieldDescriptorProto_type_name)(field_proto);
bool has_name = UPB_DESC(FieldDescriptorProto_has_type_name)(field_proto);
switch ((int)f->type_) {
case UPB_FIELD_TYPE_UNSPECIFIED: {
// Type was not specified and must be inferred.
UPB_ASSERT(has_name);
upb_deftype_t type;
const void* def =
_upb_DefBuilder_ResolveAny(ctx, f->full_name, prefix, name, &type);
switch (type) {
case UPB_DEFTYPE_ENUM:
f->sub.enumdef = def;
f->type_ = kUpb_FieldType_Enum;
break;
case UPB_DEFTYPE_MSG:
f->sub.msgdef = def;
f->type_ = kUpb_FieldType_Message; // It appears there is no way of
// this being a group.
f->has_presence = !upb_FieldDef_IsRepeated(f);
break;
default:
_upb_DefBuilder_Errf(ctx, "Couldn't resolve type name for field %s",
f->full_name);
}
break;
}
case kUpb_FieldType_Message:
case kUpb_FieldType_Group:
UPB_ASSERT(has_name);
f->sub.msgdef = _upb_DefBuilder_Resolve(ctx, f->full_name, prefix, name,
UPB_DEFTYPE_MSG);
break;
case kUpb_FieldType_Enum:
UPB_ASSERT(has_name);
f->sub.enumdef = _upb_DefBuilder_Resolve(ctx, f->full_name, prefix, name,
UPB_DEFTYPE_ENUM);
break;
default:
// No resolution necessary.
break;
}
}
static int _upb_FieldDef_Compare(const void* p1, const void* p2) {
const uint32_t v1 = (*(upb_FieldDef**)p1)->number_;
const uint32_t v2 = (*(upb_FieldDef**)p2)->number_;
return (v1 < v2) ? -1 : (v1 > v2);
}
// _upb_FieldDefs_Sorted() is mostly a pure function of its inputs, but has one
// critical side effect that we depend on: it sets layout_index appropriately
// for non-sorted lists of fields.
const upb_FieldDef** _upb_FieldDefs_Sorted(const upb_FieldDef* f, int n,
upb_Arena* a) {
// TODO: Replace this arena alloc with a persistent scratch buffer.
upb_FieldDef** out = (upb_FieldDef**)upb_Arena_Malloc(a, n * sizeof(void*));
if (!out) return NULL;
for (int i = 0; i < n; i++) {
out[i] = (upb_FieldDef*)&f[i];
}
qsort(out, n, sizeof(void*), _upb_FieldDef_Compare);
for (int i = 0; i < n; i++) {
out[i]->layout_index = i;
}
return (const upb_FieldDef**)out;
}
bool upb_FieldDef_MiniDescriptorEncode(const upb_FieldDef* f, upb_Arena* a,
upb_StringView* out) {
UPB_ASSERT(f->is_extension);
upb_DescState s;
_upb_DescState_Init(&s);
const int number = upb_FieldDef_Number(f);
const uint64_t modifiers = _upb_FieldDef_Modifiers(f);
if (!_upb_DescState_Grow(&s, a)) return false;
s.ptr = upb_MtDataEncoder_EncodeExtension(&s.e, s.ptr, f->type_, number,
modifiers);
*s.ptr = '\0';
out->data = s.buf;
out->size = s.ptr - s.buf;
return true;
}
static void resolve_extension(upb_DefBuilder* ctx, const char* prefix,
upb_FieldDef* f,
const UPB_DESC(FieldDescriptorProto) *
field_proto) {
if (!UPB_DESC(FieldDescriptorProto_has_extendee)(field_proto)) {
_upb_DefBuilder_Errf(ctx, "extension for field '%s' had no extendee",
f->full_name);
}
upb_StringView name = UPB_DESC(FieldDescriptorProto_extendee)(field_proto);
const upb_MessageDef* m =
_upb_DefBuilder_Resolve(ctx, f->full_name, prefix, name, UPB_DEFTYPE_MSG);
f->msgdef = m;
if (!_upb_MessageDef_IsValidExtensionNumber(m, f->number_)) {
_upb_DefBuilder_Errf(
ctx,
"field number %u in extension %s has no extension range in message %s",
(unsigned)f->number_, f->full_name, upb_MessageDef_FullName(m));
}
}
void _upb_FieldDef_BuildMiniTableExtension(upb_DefBuilder* ctx,
const upb_FieldDef* f) {
const upb_MiniTableExtension* ext = _upb_FieldDef_ExtensionMiniTable(f);
if (ctx->layout) {
UPB_ASSERT(upb_FieldDef_Number(f) == upb_MiniTableExtension_Number(ext));
} else {
upb_StringView desc;
if (!upb_FieldDef_MiniDescriptorEncode(f, ctx->tmp_arena, &desc)) {
_upb_DefBuilder_OomErr(ctx);
}
upb_MiniTableExtension* mut_ext = (upb_MiniTableExtension*)ext;
upb_MiniTableSub sub = {NULL};
if (upb_FieldDef_IsSubMessage(f)) {
sub.submsg = upb_MessageDef_MiniTable(f->sub.msgdef);
} else if (_upb_FieldDef_IsClosedEnum(f)) {
sub.subenum = _upb_EnumDef_MiniTable(f->sub.enumdef);
}
bool ok2 = upb_MiniTableExtension_Init(desc.data, desc.size, mut_ext,
upb_MessageDef_MiniTable(f->msgdef),
sub, ctx->status);
if (!ok2) _upb_DefBuilder_Errf(ctx, "Could not build extension mini table");
}
bool ok = _upb_DefPool_InsertExt(ctx->symtab, ext, f);
if (!ok) _upb_DefBuilder_OomErr(ctx);
}
static void resolve_default(upb_DefBuilder* ctx, upb_FieldDef* f,
const UPB_DESC(FieldDescriptorProto) *
field_proto) {
// Have to delay resolving of the default value until now because of the enum
// case, since enum defaults are specified with a label.
if (UPB_DESC(FieldDescriptorProto_has_default_value)(field_proto)) {
upb_StringView defaultval =
UPB_DESC(FieldDescriptorProto_default_value)(field_proto);
if (upb_FileDef_Syntax(f->file) == kUpb_Syntax_Proto3) {
_upb_DefBuilder_Errf(ctx,
"proto3 fields cannot have explicit defaults (%s)",
f->full_name);
}
if (upb_FieldDef_IsSubMessage(f)) {
_upb_DefBuilder_Errf(ctx,
"message fields cannot have explicit defaults (%s)",
f->full_name);
}
parse_default(ctx, defaultval.data, defaultval.size, f);
f->has_default = true;
} else {
set_default_default(ctx, f);
f->has_default = false;
}
}
void _upb_FieldDef_Resolve(upb_DefBuilder* ctx, const char* prefix,
upb_FieldDef* f) {
// We have to stash this away since resolve_subdef() may overwrite it.
const UPB_DESC(FieldDescriptorProto)* field_proto = f->sub.unresolved;
resolve_subdef(ctx, prefix, f);
resolve_default(ctx, f, field_proto);
if (f->is_extension) {
resolve_extension(ctx, prefix, f, field_proto);
}
}