// Protocol Buffers - Google's data interchange format
// Copyright 2008 Google Inc. All rights reserved.
// https://developers.google.com/protocol-buffers/
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#include <google/protobuf/util/internal/protostream_objectsource.h>
#include <utility>
#include <google/protobuf/stubs/casts.h>
#include <google/protobuf/stubs/logging.h>
#include <google/protobuf/stubs/common.h>
#include <google/protobuf/stubs/stringprintf.h>
#include <google/protobuf/stubs/time.h>
#include <google/protobuf/io/coded_stream.h>
#include <google/protobuf/io/zero_copy_stream_impl.h>
#include <google/protobuf/descriptor.h>
#include <google/protobuf/wire_format.h>
#include <google/protobuf/wire_format_lite.h>
#include <google/protobuf/util/internal/field_mask_utility.h>
#include <google/protobuf/util/internal/constants.h>
#include <google/protobuf/util/internal/utility.h>
#include <google/protobuf/stubs/strutil.h>
#include <google/protobuf/stubs/map_util.h>
#include <google/protobuf/stubs/status_macros.h>
namespace google {
namespace protobuf {
namespace util {
using util::Status;
using util::StatusOr;
namespace error {
using util::error::Code;
using util::error::INTERNAL;
}
namespace converter {
using google::protobuf::Descriptor;
using google::protobuf::EnumValueDescriptor;
using google::protobuf::FieldDescriptor;
using google::protobuf::internal::WireFormat;
using google::protobuf::internal::WireFormatLite;
using util::Status;
using util::StatusOr;
namespace {
static int kDefaultMaxRecursionDepth = 64;
// Finds a field with the given number. nullptr if none found.
const google::protobuf::Field* FindFieldByNumber(
const google::protobuf::Type& type, int number);
// Returns true if the field is packable.
bool IsPackable(const google::protobuf::Field& field);
// Finds an enum value with the given number. nullptr if none found.
const google::protobuf::EnumValue* FindEnumValueByNumber(
const google::protobuf::Enum& tech_enum, int number);
// Utility function to format nanos.
const string FormatNanos(uint32 nanos, bool with_trailing_zeros);
StatusOr<string> MapKeyDefaultValueAsString(
const google::protobuf::Field& field) {
switch (field.kind()) {
case google::protobuf::Field_Kind_TYPE_BOOL:
return string("false");
case google::protobuf::Field_Kind_TYPE_INT32:
case google::protobuf::Field_Kind_TYPE_INT64:
case google::protobuf::Field_Kind_TYPE_UINT32:
case google::protobuf::Field_Kind_TYPE_UINT64:
case google::protobuf::Field_Kind_TYPE_SINT32:
case google::protobuf::Field_Kind_TYPE_SINT64:
case google::protobuf::Field_Kind_TYPE_SFIXED32:
case google::protobuf::Field_Kind_TYPE_SFIXED64:
case google::protobuf::Field_Kind_TYPE_FIXED32:
case google::protobuf::Field_Kind_TYPE_FIXED64:
return string("0");
case google::protobuf::Field_Kind_TYPE_STRING:
return string();
default:
return Status(util::error::INTERNAL, "Invalid map key type.");
}
}
} // namespace
ProtoStreamObjectSource::ProtoStreamObjectSource(
google::protobuf::io::CodedInputStream* stream, TypeResolver* type_resolver,
const google::protobuf::Type& type)
: stream_(stream),
typeinfo_(TypeInfo::NewTypeInfo(type_resolver)),
own_typeinfo_(true),
type_(type),
use_lower_camel_for_enums_(false),
use_ints_for_enums_(false),
preserve_proto_field_names_(false),
recursion_depth_(0),
max_recursion_depth_(kDefaultMaxRecursionDepth),
render_unknown_fields_(false),
render_unknown_enum_values_(true),
add_trailing_zeros_for_timestamp_and_duration_(false) {
GOOGLE_LOG_IF(DFATAL, stream == nullptr) << "Input stream is nullptr.";
}
ProtoStreamObjectSource::ProtoStreamObjectSource(
google::protobuf::io::CodedInputStream* stream, const TypeInfo* typeinfo,
const google::protobuf::Type& type)
: stream_(stream),
typeinfo_(typeinfo),
own_typeinfo_(false),
type_(type),
use_lower_camel_for_enums_(false),
use_ints_for_enums_(false),
preserve_proto_field_names_(false),
recursion_depth_(0),
max_recursion_depth_(kDefaultMaxRecursionDepth),
render_unknown_fields_(false),
render_unknown_enum_values_(true),
add_trailing_zeros_for_timestamp_and_duration_(false) {
GOOGLE_LOG_IF(DFATAL, stream == nullptr) << "Input stream is nullptr.";
}
ProtoStreamObjectSource::~ProtoStreamObjectSource() {
if (own_typeinfo_) {
delete typeinfo_;
}
}
Status ProtoStreamObjectSource::NamedWriteTo(StringPiece name,
ObjectWriter* ow) const {
return WriteMessage(type_, name, 0, true, ow);
}
const google::protobuf::Field* ProtoStreamObjectSource::FindAndVerifyField(
const google::protobuf::Type& type, uint32 tag) const {
// Lookup the new field in the type by tag number.
const google::protobuf::Field* field = FindFieldByNumber(type, tag >> 3);
// Verify if the field corresponds to the wire type in tag.
// If there is any discrepancy, mark the field as not found.
if (field != nullptr) {
WireFormatLite::WireType expected_type =
WireFormatLite::WireTypeForFieldType(
static_cast<WireFormatLite::FieldType>(field->kind()));
WireFormatLite::WireType actual_type = WireFormatLite::GetTagWireType(tag);
if (actual_type != expected_type &&
(!IsPackable(*field) ||
actual_type != WireFormatLite::WIRETYPE_LENGTH_DELIMITED)) {
field = nullptr;
}
}
return field;
}
Status ProtoStreamObjectSource::WriteMessage(const google::protobuf::Type& type,
StringPiece name,
const uint32 end_tag,
bool include_start_and_end,
ObjectWriter* ow) const {
const TypeRenderer* type_renderer = FindTypeRenderer(type.name());
if (type_renderer != nullptr) {
return (*type_renderer)(this, type, name, ow);
}
const google::protobuf::Field* field = nullptr;
string field_name;
// last_tag set to dummy value that is different from tag.
uint32 tag = stream_->ReadTag(), last_tag = tag + 1;
google::protobuf::UnknownFieldSet unknown_fields;
if (include_start_and_end) {
ow->StartObject(name);
}
while (tag != end_tag) {
if (tag != last_tag) { // Update field only if tag is changed.
last_tag = tag;
field = FindAndVerifyField(type, tag);
if (field != nullptr) {
if (preserve_proto_field_names_) {
field_name = field->name();
} else {
field_name = field->json_name();
}
}
}
if (field == nullptr) {
// If we didn't find a field, skip this unknown tag.
// TODO(wpoon): Check return boolean value.
WireFormat::SkipField(stream_, tag,
render_unknown_fields_ ? &unknown_fields : nullptr);
tag = stream_->ReadTag();
continue;
}
if (field->cardinality() ==
google::protobuf::Field_Cardinality_CARDINALITY_REPEATED) {
bool check_maps = true;
if (check_maps && IsMap(*field)) {
ow->StartObject(field_name);
ASSIGN_OR_RETURN(tag, RenderMap(field, field_name, tag, ow));
ow->EndObject();
} else {
ASSIGN_OR_RETURN(tag, RenderList(field, field_name, tag, ow));
}
} else {
// Render the field.
RETURN_IF_ERROR(RenderField(field, field_name, ow));
tag = stream_->ReadTag();
}
}
if (include_start_and_end) {
ow->EndObject();
}
return util::Status();
}
StatusOr<uint32> ProtoStreamObjectSource::RenderList(
const google::protobuf::Field* field, StringPiece name, uint32 list_tag,
ObjectWriter* ow) const {
uint32 tag_to_return = 0;
ow->StartList(name);
if (IsPackable(*field) &&
list_tag ==
WireFormatLite::MakeTag(field->number(),
WireFormatLite::WIRETYPE_LENGTH_DELIMITED)) {
RETURN_IF_ERROR(RenderPacked(field, ow));
// Since packed fields have a single tag, read another tag from stream to
// return.
tag_to_return = stream_->ReadTag();
} else {
do {
RETURN_IF_ERROR(RenderField(field, "", ow));
} while ((tag_to_return = stream_->ReadTag()) == list_tag);
}
ow->EndList();
return tag_to_return;
}
StatusOr<uint32> ProtoStreamObjectSource::RenderMap(
const google::protobuf::Field* field, StringPiece name, uint32 list_tag,
ObjectWriter* ow) const {
const google::protobuf::Type* field_type =
typeinfo_->GetTypeByTypeUrl(field->type_url());
uint32 tag_to_return = 0;
do {
// Render map entry message type.
uint32 buffer32;
stream_->ReadVarint32(&buffer32); // message length
int old_limit = stream_->PushLimit(buffer32);
string map_key;
for (uint32 tag = stream_->ReadTag(); tag != 0; tag = stream_->ReadTag()) {
const google::protobuf::Field* field =
FindAndVerifyField(*field_type, tag);
if (field == nullptr) {
WireFormat::SkipField(stream_, tag, nullptr);
continue;
}
// Map field numbers are key = 1 and value = 2
if (field->number() == 1) {
map_key = ReadFieldValueAsString(*field);
} else if (field->number() == 2) {
if (map_key.empty()) {
// An absent map key is treated as the default.
const google::protobuf::Field* key_field =
FindFieldByNumber(*field_type, 1);
if (key_field == nullptr) {
// The Type info for this map entry is incorrect. It should always
// have a field named "key" and with field number 1.
return Status(util::error::INTERNAL, "Invalid map entry.");
}
ASSIGN_OR_RETURN(map_key, MapKeyDefaultValueAsString(*key_field));
}
RETURN_IF_ERROR(RenderField(field, map_key, ow));
} else {
// The Type info for this map entry is incorrect. It should contain
// exactly two fields with field number 1 and 2.
return Status(util::error::INTERNAL, "Invalid map entry.");
}
}
stream_->PopLimit(old_limit);
} while ((tag_to_return = stream_->ReadTag()) == list_tag);
return tag_to_return;
}
Status ProtoStreamObjectSource::RenderPacked(
const google::protobuf::Field* field, ObjectWriter* ow) const {
uint32 length;
stream_->ReadVarint32(&length);
int old_limit = stream_->PushLimit(length);
while (stream_->BytesUntilLimit() > 0) {
RETURN_IF_ERROR(RenderField(field, StringPiece(), ow));
}
stream_->PopLimit(old_limit);
return util::Status();
}
Status ProtoStreamObjectSource::RenderTimestamp(
const ProtoStreamObjectSource* os, const google::protobuf::Type& type,
StringPiece field_name, ObjectWriter* ow) {
std::pair<int64, int32> p = os->ReadSecondsAndNanos(type);
int64 seconds = p.first;
int32 nanos = p.second;
if (seconds > kTimestampMaxSeconds || seconds < kTimestampMinSeconds) {
return Status(
util::error::INTERNAL,
StrCat("Timestamp seconds exceeds limit for field: ", field_name));
}
if (nanos < 0 || nanos >= kNanosPerSecond) {
return Status(
util::error::INTERNAL,
StrCat("Timestamp nanos exceeds limit for field: ", field_name));
}
ow->RenderString(field_name,
::google::protobuf::internal::FormatTime(seconds, nanos));
return util::Status();
}
Status ProtoStreamObjectSource::RenderDuration(
const ProtoStreamObjectSource* os, const google::protobuf::Type& type,
StringPiece field_name, ObjectWriter* ow) {
std::pair<int64, int32> p = os->ReadSecondsAndNanos(type);
int64 seconds = p.first;
int32 nanos = p.second;
if (seconds > kDurationMaxSeconds || seconds < kDurationMinSeconds) {
return Status(
util::error::INTERNAL,
StrCat("Duration seconds exceeds limit for field: ", field_name));
}
if (nanos <= -kNanosPerSecond || nanos >= kNanosPerSecond) {
return Status(
util::error::INTERNAL,
StrCat("Duration nanos exceeds limit for field: ", field_name));
}
string sign = "";
if (seconds < 0) {
if (nanos > 0) {
return Status(util::error::INTERNAL,
StrCat("Duration nanos is non-negative, but seconds is "
"negative for field: ",
field_name));
}
sign = "-";
seconds = -seconds;
nanos = -nanos;
} else if (seconds == 0 && nanos < 0) {
sign = "-";
nanos = -nanos;
}
string formatted_duration = StringPrintf(
"%s%lld%ss", sign.c_str(), seconds,
FormatNanos(nanos, os->add_trailing_zeros_for_timestamp_and_duration_)
.c_str());
ow->RenderString(field_name, formatted_duration);
return util::Status();
}
Status ProtoStreamObjectSource::RenderDouble(const ProtoStreamObjectSource* os,
const google::protobuf::Type& type,
StringPiece field_name,
ObjectWriter* ow) {
uint32 tag = os->stream_->ReadTag();
uint64 buffer64 = 0; // default value of Double wrapper value
if (tag != 0) {
os->stream_->ReadLittleEndian64(&buffer64);
os->stream_->ReadTag();
}
ow->RenderDouble(field_name, bit_cast<double>(buffer64));
return util::Status();
}
Status ProtoStreamObjectSource::RenderFloat(const ProtoStreamObjectSource* os,
const google::protobuf::Type& type,
StringPiece field_name,
ObjectWriter* ow) {
uint32 tag = os->stream_->ReadTag();
uint32 buffer32 = 0; // default value of Float wrapper value
if (tag != 0) {
os->stream_->ReadLittleEndian32(&buffer32);
os->stream_->ReadTag();
}
ow->RenderFloat(field_name, bit_cast<float>(buffer32));
return util::Status();
}
Status ProtoStreamObjectSource::RenderInt64(const ProtoStreamObjectSource* os,
const google::protobuf::Type& type,
StringPiece field_name,
ObjectWriter* ow) {
uint32 tag = os->stream_->ReadTag();
uint64 buffer64 = 0; // default value of Int64 wrapper value
if (tag != 0) {
os->stream_->ReadVarint64(&buffer64);
os->stream_->ReadTag();
}
ow->RenderInt64(field_name, bit_cast<int64>(buffer64));
return util::Status();
}
Status ProtoStreamObjectSource::RenderUInt64(const ProtoStreamObjectSource* os,
const google::protobuf::Type& type,
StringPiece field_name,
ObjectWriter* ow) {
uint32 tag = os->stream_->ReadTag();
uint64 buffer64 = 0; // default value of UInt64 wrapper value
if (tag != 0) {
os->stream_->ReadVarint64(&buffer64);
os->stream_->ReadTag();
}
ow->RenderUint64(field_name, bit_cast<uint64>(buffer64));
return util::Status();
}
Status ProtoStreamObjectSource::RenderInt32(const ProtoStreamObjectSource* os,
const google::protobuf::Type& type,
StringPiece field_name,
ObjectWriter* ow) {
uint32 tag = os->stream_->ReadTag();
uint32 buffer32 = 0; // default value of Int32 wrapper value
if (tag != 0) {
os->stream_->ReadVarint32(&buffer32);
os->stream_->ReadTag();
}
ow->RenderInt32(field_name, bit_cast<int32>(buffer32));
return util::Status();
}
Status ProtoStreamObjectSource::RenderUInt32(const ProtoStreamObjectSource* os,
const google::protobuf::Type& type,
StringPiece field_name,
ObjectWriter* ow) {
uint32 tag = os->stream_->ReadTag();
uint32 buffer32 = 0; // default value of UInt32 wrapper value
if (tag != 0) {
os->stream_->ReadVarint32(&buffer32);
os->stream_->ReadTag();
}
ow->RenderUint32(field_name, bit_cast<uint32>(buffer32));
return util::Status();
}
Status ProtoStreamObjectSource::RenderBool(const ProtoStreamObjectSource* os,
const google::protobuf::Type& type,
StringPiece field_name,
ObjectWriter* ow) {
uint32 tag = os->stream_->ReadTag();
uint64 buffer64 = 0; // results in 'false' value as default, which is the
// default value of Bool wrapper
if (tag != 0) {
os->stream_->ReadVarint64(&buffer64);
os->stream_->ReadTag();
}
ow->RenderBool(field_name, buffer64 != 0);
return util::Status();
}
Status ProtoStreamObjectSource::RenderString(const ProtoStreamObjectSource* os,
const google::protobuf::Type& type,
StringPiece field_name,
ObjectWriter* ow) {
uint32 tag = os->stream_->ReadTag();
uint32 buffer32;
string str; // default value of empty for String wrapper
if (tag != 0) {
os->stream_->ReadVarint32(&buffer32); // string size.
os->stream_->ReadString(&str, buffer32);
os->stream_->ReadTag();
}
ow->RenderString(field_name, str);
return util::Status();
}
Status ProtoStreamObjectSource::RenderBytes(const ProtoStreamObjectSource* os,
const google::protobuf::Type& type,
StringPiece field_name,
ObjectWriter* ow) {
uint32 tag = os->stream_->ReadTag();
uint32 buffer32;
string str;
if (tag != 0) {
os->stream_->ReadVarint32(&buffer32);
os->stream_->ReadString(&str, buffer32);
os->stream_->ReadTag();
}
ow->RenderBytes(field_name, str);
return util::Status();
}
Status ProtoStreamObjectSource::RenderStruct(const ProtoStreamObjectSource* os,
const google::protobuf::Type& type,
StringPiece field_name,
ObjectWriter* ow) {
const google::protobuf::Field* field = nullptr;
uint32 tag = os->stream_->ReadTag();
ow->StartObject(field_name);
while (tag != 0) {
field = os->FindAndVerifyField(type, tag);
// google.protobuf.Struct has only one field that is a map. Hence we use
// RenderMap to render that field.
if (os->IsMap(*field)) {
ASSIGN_OR_RETURN(tag, os->RenderMap(field, field_name, tag, ow));
}
}
ow->EndObject();
return util::Status();
}
Status ProtoStreamObjectSource::RenderStructValue(
const ProtoStreamObjectSource* os, const google::protobuf::Type& type,
StringPiece field_name, ObjectWriter* ow) {
const google::protobuf::Field* field = nullptr;
for (uint32 tag = os->stream_->ReadTag(); tag != 0;
tag = os->stream_->ReadTag()) {
field = os->FindAndVerifyField(type, tag);
if (field == nullptr) {
WireFormat::SkipField(os->stream_, tag, nullptr);
continue;
}
RETURN_IF_ERROR(os->RenderField(field, field_name, ow));
}
return util::Status();
}
// TODO(skarvaje): Avoid code duplication of for loops and SkipField logic.
Status ProtoStreamObjectSource::RenderStructListValue(
const ProtoStreamObjectSource* os, const google::protobuf::Type& type,
StringPiece field_name, ObjectWriter* ow) {
uint32 tag = os->stream_->ReadTag();
// Render empty list when we find empty ListValue message.
if (tag == 0) {
ow->StartList(field_name);
ow->EndList();
return util::Status();
}
while (tag != 0) {
const google::protobuf::Field* field = os->FindAndVerifyField(type, tag);
if (field == nullptr) {
WireFormat::SkipField(os->stream_, tag, nullptr);
tag = os->stream_->ReadTag();
continue;
}
ASSIGN_OR_RETURN(tag, os->RenderList(field, field_name, tag, ow));
}
return util::Status();
}
Status ProtoStreamObjectSource::RenderAny(const ProtoStreamObjectSource* os,
const google::protobuf::Type& type,
StringPiece field_name,
ObjectWriter* ow) {
// An Any is of the form { string type_url = 1; bytes value = 2; }
uint32 tag;
string type_url;
string value;
// First read out the type_url and value from the proto stream
for (tag = os->stream_->ReadTag(); tag != 0; tag = os->stream_->ReadTag()) {
const google::protobuf::Field* field = os->FindAndVerifyField(type, tag);
if (field == nullptr) {
WireFormat::SkipField(os->stream_, tag, nullptr);
continue;
}
// 'type_url' has field number of 1 and 'value' has field number 2
// //google/protobuf/any.proto
if (field->number() == 1) {
// read type_url
uint32 type_url_size;
os->stream_->ReadVarint32(&type_url_size);
os->stream_->ReadString(&type_url, type_url_size);
} else if (field->number() == 2) {
// read value
uint32 value_size;
os->stream_->ReadVarint32(&value_size);
os->stream_->ReadString(&value, value_size);
}
}
// If there is no value, we don't lookup the type, we just output it (if
// present). If both type and value are empty we output an empty object.
if (value.empty()) {
ow->StartObject(field_name);
if (!type_url.empty()) {
ow->RenderString("@type", type_url);
}
ow->EndObject();
return util::Status();
}
// If there is a value but no type, we cannot render it, so report an error.
if (type_url.empty()) {
// TODO(sven): Add an external message once those are ready.
return util::Status(util::error::INTERNAL,
"Invalid Any, the type_url is missing.");
}
util::StatusOr<const google::protobuf::Type*> resolved_type =
os->typeinfo_->ResolveTypeUrl(type_url);
if (!resolved_type.ok()) {
// Convert into an internal error, since this means the backend gave us
// an invalid response (missing or invalid type information).
return util::Status(util::error::INTERNAL,
resolved_type.status().error_message());
}
// nested_type cannot be null at this time.
const google::protobuf::Type* nested_type = resolved_type.ValueOrDie();
google::protobuf::io::ArrayInputStream zero_copy_stream(value.data(), value.size());
google::protobuf::io::CodedInputStream in_stream(&zero_copy_stream);
// We know the type so we can render it. Recursively parse the nested stream
// using a nested ProtoStreamObjectSource using our nested type information.
ProtoStreamObjectSource nested_os(&in_stream, os->typeinfo_, *nested_type);
// TODO(htuch): This is somewhat fragile, since new options may be omitted.
// We should probably do this via the constructor or some object grouping
// options.
nested_os.set_use_lower_camel_for_enums(os->use_lower_camel_for_enums_);
nested_os.set_use_ints_for_enums(os->use_ints_for_enums_);
nested_os.set_preserve_proto_field_names(os->preserve_proto_field_names_);
// We manually call start and end object here so we can inject the @type.
ow->StartObject(field_name);
ow->RenderString("@type", type_url);
util::Status result =
nested_os.WriteMessage(nested_os.type_, "value", 0, false, ow);
ow->EndObject();
return result;
}
Status ProtoStreamObjectSource::RenderFieldMask(
const ProtoStreamObjectSource* os, const google::protobuf::Type& type,
StringPiece field_name, ObjectWriter* ow) {
string combined;
uint32 buffer32;
uint32 paths_field_tag = 0;
for (uint32 tag = os->stream_->ReadTag(); tag != 0;
tag = os->stream_->ReadTag()) {
if (paths_field_tag == 0) {
const google::protobuf::Field* field = os->FindAndVerifyField(type, tag);
if (field != nullptr && field->number() == 1 &&
field->name() == "paths") {
paths_field_tag = tag;
}
}
if (paths_field_tag != tag) {
return util::Status(util::error::INTERNAL,
"Invalid FieldMask, unexpected field.");
}
string str;
os->stream_->ReadVarint32(&buffer32); // string size.
os->stream_->ReadString(&str, buffer32);
if (!combined.empty()) {
combined.append(",");
}
combined.append(ConvertFieldMaskPath(str, &ToCamelCase));
}
ow->RenderString(field_name, combined);
return util::Status();
}
hash_map<string, ProtoStreamObjectSource::TypeRenderer>*
ProtoStreamObjectSource::renderers_ = NULL;
GOOGLE_PROTOBUF_DECLARE_ONCE(source_renderers_init_);
void ProtoStreamObjectSource::InitRendererMap() {
renderers_ = new hash_map<string, ProtoStreamObjectSource::TypeRenderer>();
(*renderers_)["google.protobuf.Timestamp"] =
&ProtoStreamObjectSource::RenderTimestamp;
(*renderers_)["google.protobuf.Duration"] =
&ProtoStreamObjectSource::RenderDuration;
(*renderers_)["google.protobuf.DoubleValue"] =
&ProtoStreamObjectSource::RenderDouble;
(*renderers_)["google.protobuf.FloatValue"] =
&ProtoStreamObjectSource::RenderFloat;
(*renderers_)["google.protobuf.Int64Value"] =
&ProtoStreamObjectSource::RenderInt64;
(*renderers_)["google.protobuf.UInt64Value"] =
&ProtoStreamObjectSource::RenderUInt64;
(*renderers_)["google.protobuf.Int32Value"] =
&ProtoStreamObjectSource::RenderInt32;
(*renderers_)["google.protobuf.UInt32Value"] =
&ProtoStreamObjectSource::RenderUInt32;
(*renderers_)["google.protobuf.BoolValue"] =
&ProtoStreamObjectSource::RenderBool;
(*renderers_)["google.protobuf.StringValue"] =
&ProtoStreamObjectSource::RenderString;
(*renderers_)["google.protobuf.BytesValue"] =
&ProtoStreamObjectSource::RenderBytes;
(*renderers_)["google.protobuf.Any"] = &ProtoStreamObjectSource::RenderAny;
(*renderers_)["google.protobuf.Struct"] =
&ProtoStreamObjectSource::RenderStruct;
(*renderers_)["google.protobuf.Value"] =
&ProtoStreamObjectSource::RenderStructValue;
(*renderers_)["google.protobuf.ListValue"] =
&ProtoStreamObjectSource::RenderStructListValue;
(*renderers_)["google.protobuf.FieldMask"] =
&ProtoStreamObjectSource::RenderFieldMask;
::google::protobuf::internal::OnShutdown(&DeleteRendererMap);
}
void ProtoStreamObjectSource::DeleteRendererMap() {
delete ProtoStreamObjectSource::renderers_;
renderers_ = NULL;
}
// static
ProtoStreamObjectSource::TypeRenderer*
ProtoStreamObjectSource::FindTypeRenderer(const string& type_url) {
::google::protobuf::GoogleOnceInit(&source_renderers_init_, &InitRendererMap);
return FindOrNull(*renderers_, type_url);
}
Status ProtoStreamObjectSource::RenderField(
const google::protobuf::Field* field, StringPiece field_name,
ObjectWriter* ow) const {
// Short-circuit message types as it tends to call WriteMessage recursively
// and ends up using a lot of stack space. Keep the stack usage of this
// message small in order to preserve stack space and not crash.
if (field->kind() == google::protobuf::Field_Kind_TYPE_MESSAGE) {
uint32 buffer32;
stream_->ReadVarint32(&buffer32); // message length
int old_limit = stream_->PushLimit(buffer32);
// Get the nested message type for this field.
const google::protobuf::Type* type =
typeinfo_->GetTypeByTypeUrl(field->type_url());
if (type == nullptr) {
return Status(util::error::INTERNAL,
StrCat("Invalid configuration. Could not find the type: ",
field->type_url()));
}
// Short-circuit any special type rendering to save call-stack space.
const TypeRenderer* type_renderer = FindTypeRenderer(type->name());
bool use_type_renderer = type_renderer != nullptr;
if (use_type_renderer) {
RETURN_IF_ERROR((*type_renderer)(this, *type, field_name, ow));
} else {
RETURN_IF_ERROR(IncrementRecursionDepth(type->name(), field_name));
RETURN_IF_ERROR(WriteMessage(*type, field_name, 0, true, ow));
--recursion_depth_;
}
if (!stream_->ConsumedEntireMessage()) {
return Status(util::error::INVALID_ARGUMENT,
"Nested protocol message not parsed in its entirety.");
}
stream_->PopLimit(old_limit);
} else {
// Render all other non-message types.
return RenderNonMessageField(field, field_name, ow);
}
return util::Status();
}
Status ProtoStreamObjectSource::RenderNonMessageField(
const google::protobuf::Field* field, StringPiece field_name,
ObjectWriter* ow) const {
// Temporary buffers of different types.
uint32 buffer32;
uint64 buffer64;
string strbuffer;
switch (field->kind()) {
case google::protobuf::Field_Kind_TYPE_BOOL: {
stream_->ReadVarint64(&buffer64);
ow->RenderBool(field_name, buffer64 != 0);
break;
}
case google::protobuf::Field_Kind_TYPE_INT32: {
stream_->ReadVarint32(&buffer32);
ow->RenderInt32(field_name, bit_cast<int32>(buffer32));
break;
}
case google::protobuf::Field_Kind_TYPE_INT64: {
stream_->ReadVarint64(&buffer64);
ow->RenderInt64(field_name, bit_cast<int64>(buffer64));
break;
}
case google::protobuf::Field_Kind_TYPE_UINT32: {
stream_->ReadVarint32(&buffer32);
ow->RenderUint32(field_name, bit_cast<uint32>(buffer32));
break;
}
case google::protobuf::Field_Kind_TYPE_UINT64: {
stream_->ReadVarint64(&buffer64);
ow->RenderUint64(field_name, bit_cast<uint64>(buffer64));
break;
}
case google::protobuf::Field_Kind_TYPE_SINT32: {
stream_->ReadVarint32(&buffer32);
ow->RenderInt32(field_name, WireFormatLite::ZigZagDecode32(buffer32));
break;
}
case google::protobuf::Field_Kind_TYPE_SINT64: {
stream_->ReadVarint64(&buffer64);
ow->RenderInt64(field_name, WireFormatLite::ZigZagDecode64(buffer64));
break;
}
case google::protobuf::Field_Kind_TYPE_SFIXED32: {
stream_->ReadLittleEndian32(&buffer32);
ow->RenderInt32(field_name, bit_cast<int32>(buffer32));
break;
}
case google::protobuf::Field_Kind_TYPE_SFIXED64: {
stream_->ReadLittleEndian64(&buffer64);
ow->RenderInt64(field_name, bit_cast<int64>(buffer64));
break;
}
case google::protobuf::Field_Kind_TYPE_FIXED32: {
stream_->ReadLittleEndian32(&buffer32);
ow->RenderUint32(field_name, bit_cast<uint32>(buffer32));
break;
}
case google::protobuf::Field_Kind_TYPE_FIXED64: {
stream_->ReadLittleEndian64(&buffer64);
ow->RenderUint64(field_name, bit_cast<uint64>(buffer64));
break;
}
case google::protobuf::Field_Kind_TYPE_FLOAT: {
stream_->ReadLittleEndian32(&buffer32);
ow->RenderFloat(field_name, bit_cast<float>(buffer32));
break;
}
case google::protobuf::Field_Kind_TYPE_DOUBLE: {
stream_->ReadLittleEndian64(&buffer64);
ow->RenderDouble(field_name, bit_cast<double>(buffer64));
break;
}
case google::protobuf::Field_Kind_TYPE_ENUM: {
stream_->ReadVarint32(&buffer32);
// If the field represents an explicit NULL value, render null.
if (field->type_url() == kStructNullValueTypeUrl) {
ow->RenderNull(field_name);
break;
}
// Get the nested enum type for this field.
// TODO(skarvaje): Avoid string manipulation. Find ways to speed this
// up.
const google::protobuf::Enum* en =
typeinfo_->GetEnumByTypeUrl(field->type_url());
// Lookup the name of the enum, and render that. Unknown enum values
// are printed as integers.
if (en != nullptr) {
const google::protobuf::EnumValue* enum_value =
FindEnumValueByNumber(*en, buffer32);
if (enum_value != nullptr) {
if (use_ints_for_enums_) {
ow->RenderInt32(field_name, buffer32);
} else if (use_lower_camel_for_enums_) {
ow->RenderString(field_name,
EnumValueNameToLowerCamelCase(enum_value->name()));
} else {
ow->RenderString(field_name, enum_value->name());
}
} else if (render_unknown_enum_values_) {
ow->RenderInt32(field_name, buffer32);
}
} else if (render_unknown_enum_values_) {
ow->RenderInt32(field_name, buffer32);
}
break;
}
case google::protobuf::Field_Kind_TYPE_STRING: {
stream_->ReadVarint32(&buffer32); // string size.
stream_->ReadString(&strbuffer, buffer32);
ow->RenderString(field_name, strbuffer);
break;
}
case google::protobuf::Field_Kind_TYPE_BYTES: {
stream_->ReadVarint32(&buffer32); // bytes size.
stream_->ReadString(&strbuffer, buffer32);
ow->RenderBytes(field_name, strbuffer);
break;
}
default:
break;
}
return util::Status();
}
// TODO(skarvaje): Fix this to avoid code duplication.
const string ProtoStreamObjectSource::ReadFieldValueAsString(
const google::protobuf::Field& field) const {
string result;
switch (field.kind()) {
case google::protobuf::Field_Kind_TYPE_BOOL: {
uint64 buffer64;
stream_->ReadVarint64(&buffer64);
result = buffer64 != 0 ? "true" : "false";
break;
}
case google::protobuf::Field_Kind_TYPE_INT32: {
uint32 buffer32;
stream_->ReadVarint32(&buffer32);
result = SimpleItoa(bit_cast<int32>(buffer32));
break;
}
case google::protobuf::Field_Kind_TYPE_INT64: {
uint64 buffer64;
stream_->ReadVarint64(&buffer64);
result = SimpleItoa(bit_cast<int64>(buffer64));
break;
}
case google::protobuf::Field_Kind_TYPE_UINT32: {
uint32 buffer32;
stream_->ReadVarint32(&buffer32);
result = SimpleItoa(bit_cast<uint32>(buffer32));
break;
}
case google::protobuf::Field_Kind_TYPE_UINT64: {
uint64 buffer64;
stream_->ReadVarint64(&buffer64);
result = SimpleItoa(bit_cast<uint64>(buffer64));
break;
}
case google::protobuf::Field_Kind_TYPE_SINT32: {
uint32 buffer32;
stream_->ReadVarint32(&buffer32);
result = SimpleItoa(WireFormatLite::ZigZagDecode32(buffer32));
break;
}
case google::protobuf::Field_Kind_TYPE_SINT64: {
uint64 buffer64;
stream_->ReadVarint64(&buffer64);
result = SimpleItoa(WireFormatLite::ZigZagDecode64(buffer64));
break;
}
case google::protobuf::Field_Kind_TYPE_SFIXED32: {
uint32 buffer32;
stream_->ReadLittleEndian32(&buffer32);
result = SimpleItoa(bit_cast<int32>(buffer32));
break;
}
case google::protobuf::Field_Kind_TYPE_SFIXED64: {
uint64 buffer64;
stream_->ReadLittleEndian64(&buffer64);
result = SimpleItoa(bit_cast<int64>(buffer64));
break;
}
case google::protobuf::Field_Kind_TYPE_FIXED32: {
uint32 buffer32;
stream_->ReadLittleEndian32(&buffer32);
result = SimpleItoa(bit_cast<uint32>(buffer32));
break;
}
case google::protobuf::Field_Kind_TYPE_FIXED64: {
uint64 buffer64;
stream_->ReadLittleEndian64(&buffer64);
result = SimpleItoa(bit_cast<uint64>(buffer64));
break;
}
case google::protobuf::Field_Kind_TYPE_FLOAT: {
uint32 buffer32;
stream_->ReadLittleEndian32(&buffer32);
result = SimpleFtoa(bit_cast<float>(buffer32));
break;
}
case google::protobuf::Field_Kind_TYPE_DOUBLE: {
uint64 buffer64;
stream_->ReadLittleEndian64(&buffer64);
result = SimpleDtoa(bit_cast<double>(buffer64));
break;
}
case google::protobuf::Field_Kind_TYPE_ENUM: {
uint32 buffer32;
stream_->ReadVarint32(&buffer32);
// Get the nested enum type for this field.
// TODO(skarvaje): Avoid string manipulation. Find ways to speed this
// up.
const google::protobuf::Enum* en =
typeinfo_->GetEnumByTypeUrl(field.type_url());
// Lookup the name of the enum, and render that. Skips unknown enums.
if (en != nullptr) {
const google::protobuf::EnumValue* enum_value =
FindEnumValueByNumber(*en, buffer32);
if (enum_value != nullptr) {
result = enum_value->name();
}
}
break;
}
case google::protobuf::Field_Kind_TYPE_STRING: {
uint32 buffer32;
stream_->ReadVarint32(&buffer32); // string size.
stream_->ReadString(&result, buffer32);
break;
}
case google::protobuf::Field_Kind_TYPE_BYTES: {
uint32 buffer32;
stream_->ReadVarint32(&buffer32); // bytes size.
stream_->ReadString(&result, buffer32);
break;
}
default:
break;
}
return result;
}
// Field is a map if it is a repeated message and it has an option "map_type".
// TODO(skarvaje): Consider pre-computing the IsMap() into Field directly.
bool ProtoStreamObjectSource::IsMap(
const google::protobuf::Field& field) const {
const google::protobuf::Type* field_type =
typeinfo_->GetTypeByTypeUrl(field.type_url());
return field.kind() == google::protobuf::Field_Kind_TYPE_MESSAGE &&
google::protobuf::util::converter::IsMap(field, *field_type);
}
std::pair<int64, int32> ProtoStreamObjectSource::ReadSecondsAndNanos(
const google::protobuf::Type& type) const {
uint64 seconds = 0;
uint32 nanos = 0;
uint32 tag = 0;
int64 signed_seconds = 0;
int32 signed_nanos = 0;
for (tag = stream_->ReadTag(); tag != 0; tag = stream_->ReadTag()) {
const google::protobuf::Field* field = FindAndVerifyField(type, tag);
if (field == nullptr) {
WireFormat::SkipField(stream_, tag, nullptr);
continue;
}
// 'seconds' has field number of 1 and 'nanos' has field number 2
// //google/protobuf/timestamp.proto & duration.proto
if (field->number() == 1) {
// read seconds
stream_->ReadVarint64(&seconds);
signed_seconds = bit_cast<int64>(seconds);
} else if (field->number() == 2) {
// read nanos
stream_->ReadVarint32(&nanos);
signed_nanos = bit_cast<int32>(nanos);
}
}
return std::pair<int64, int32>(signed_seconds, signed_nanos);
}
Status ProtoStreamObjectSource::IncrementRecursionDepth(
StringPiece type_name, StringPiece field_name) const {
if (++recursion_depth_ > max_recursion_depth_) {
return Status(
util::error::INVALID_ARGUMENT,
StrCat("Message too deep. Max recursion depth reached for type '",
type_name, "', field '", field_name, "'"));
}
return util::Status();
}
namespace {
// TODO(skarvaje): Speed this up by not doing a linear scan.
const google::protobuf::Field* FindFieldByNumber(
const google::protobuf::Type& type, int number) {
for (int i = 0; i < type.fields_size(); ++i) {
if (type.fields(i).number() == number) {
return &type.fields(i);
}
}
return nullptr;
}
// TODO(skarvaje): Replace FieldDescriptor by implementing IsTypePackable()
// using tech Field.
bool IsPackable(const google::protobuf::Field& field) {
return field.cardinality() ==
google::protobuf::Field_Cardinality_CARDINALITY_REPEATED &&
google::protobuf::FieldDescriptor::IsTypePackable(
static_cast<google::protobuf::FieldDescriptor::Type>(field.kind()));
}
// TODO(skarvaje): Speed this up by not doing a linear scan.
const google::protobuf::EnumValue* FindEnumValueByNumber(
const google::protobuf::Enum& tech_enum, int number) {
for (int i = 0; i < tech_enum.enumvalue_size(); ++i) {
const google::protobuf::EnumValue& ev = tech_enum.enumvalue(i);
if (ev.number() == number) {
return &ev;
}
}
return nullptr;
}
// TODO(skarvaje): Look into optimizing this by not doing computation on
// double.
const string FormatNanos(uint32 nanos, bool with_trailing_zeros) {
if (nanos == 0) {
return with_trailing_zeros ? ".000" : "";
}
const char* format =
(nanos % 1000 != 0) ? "%.9f" : (nanos % 1000000 != 0) ? "%.6f" : "%.3f";
string formatted =
StringPrintf(format, static_cast<double>(nanos) / kNanosPerSecond);
// remove the leading 0 before decimal.
return formatted.substr(1);
}
} // namespace
} // namespace converter
} // namespace util
} // namespace protobuf
} // namespace google
