From 5e3b22e336217dd2b0aec771ce80b69caa07d571 Mon Sep 17 00:00:00 2001 From: Amos <48657826+Mauler125@users.noreply.github.com> Date: Wed, 2 Mar 2022 23:44:27 +0100 Subject: Add 'protobuf' library to project Library is configured to compile as 'lite'. --- .../util/internal/protostream_objectwriter.cc | 1400 ++++++++++++++++++++ 1 file changed, 1400 insertions(+) create mode 100644 NorthstarDedicatedTest/include/protobuf/util/internal/protostream_objectwriter.cc (limited to 'NorthstarDedicatedTest/include/protobuf/util/internal/protostream_objectwriter.cc') diff --git a/NorthstarDedicatedTest/include/protobuf/util/internal/protostream_objectwriter.cc b/NorthstarDedicatedTest/include/protobuf/util/internal/protostream_objectwriter.cc new file mode 100644 index 00000000..5f3a1a68 --- /dev/null +++ b/NorthstarDedicatedTest/include/protobuf/util/internal/protostream_objectwriter.cc @@ -0,0 +1,1400 @@ +// 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 + +#include +#include +#include +#include +#include + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + + +#include + +namespace google { +namespace protobuf { +namespace util { +namespace converter { + +using ::PROTOBUF_NAMESPACE_ID::internal::WireFormatLite; +using std::placeholders::_1; +using util::Status; + + +ProtoStreamObjectWriter::ProtoStreamObjectWriter( + TypeResolver* type_resolver, const google::protobuf::Type& type, + strings::ByteSink* output, ErrorListener* listener, + const ProtoStreamObjectWriter::Options& options) + : ProtoWriter(type_resolver, type, output, listener), + master_type_(type), + current_(nullptr), + options_(options) { + set_ignore_unknown_fields(options_.ignore_unknown_fields); + set_ignore_unknown_enum_values(options_.ignore_unknown_enum_values); + set_use_lower_camel_for_enums(options_.use_lower_camel_for_enums); + set_case_insensitive_enum_parsing(options_.case_insensitive_enum_parsing); + set_use_json_name_in_missing_fields(options.use_json_name_in_missing_fields); +} + +ProtoStreamObjectWriter::ProtoStreamObjectWriter( + const TypeInfo* typeinfo, const google::protobuf::Type& type, + strings::ByteSink* output, ErrorListener* listener, + const ProtoStreamObjectWriter::Options& options) + : ProtoWriter(typeinfo, type, output, listener), + master_type_(type), + current_(nullptr), + options_(options) { + set_ignore_unknown_fields(options_.ignore_unknown_fields); + set_use_lower_camel_for_enums(options.use_lower_camel_for_enums); + set_case_insensitive_enum_parsing(options_.case_insensitive_enum_parsing); + set_use_json_name_in_missing_fields(options.use_json_name_in_missing_fields); +} + +ProtoStreamObjectWriter::ProtoStreamObjectWriter( + const TypeInfo* typeinfo, const google::protobuf::Type& type, + strings::ByteSink* output, ErrorListener* listener) + : ProtoWriter(typeinfo, type, output, listener), + master_type_(type), + current_(nullptr), + options_(ProtoStreamObjectWriter::Options::Defaults()) {} + +ProtoStreamObjectWriter::~ProtoStreamObjectWriter() { + if (current_ == nullptr) return; + // Cleanup explicitly in order to avoid destructor stack overflow when input + // is deeply nested. + // Cast to BaseElement to avoid doing additional checks (like missing fields) + // during pop(). + std::unique_ptr element( + static_cast(current_.get())->pop()); + while (element != nullptr) { + element.reset(element->pop()); + } +} + +namespace { +// Utility method to split a string representation of Timestamp or Duration and +// return the parts. +void SplitSecondsAndNanos(StringPiece input, StringPiece* seconds, + StringPiece* nanos) { + size_t idx = input.rfind('.'); + if (idx != std::string::npos) { + *seconds = input.substr(0, idx); + *nanos = input.substr(idx + 1); + } else { + *seconds = input; + *nanos = StringPiece(); + } +} + +Status GetNanosFromStringPiece(StringPiece s_nanos, + const char* parse_failure_message, + const char* exceeded_limit_message, + int32_t* nanos) { + *nanos = 0; + + // Count the number of leading 0s and consume them. + int num_leading_zeros = 0; + while (s_nanos.Consume("0")) { + num_leading_zeros++; + } + int32_t i_nanos = 0; + // 's_nanos' contains fractional seconds -- i.e. 'nanos' is equal to + // "0." + s_nanos.ToString() seconds. An int32 is used for the + // conversion to 'nanos', rather than a double, so that there is no + // loss of precision. + if (!s_nanos.empty() && !safe_strto32(s_nanos, &i_nanos)) { + return util::InvalidArgumentError(parse_failure_message); + } + if (i_nanos > kNanosPerSecond || i_nanos < 0) { + return util::InvalidArgumentError(exceeded_limit_message); + } + // s_nanos should only have digits. No whitespace. + if (s_nanos.find_first_not_of("0123456789") != StringPiece::npos) { + return util::InvalidArgumentError(parse_failure_message); + } + + if (i_nanos > 0) { + // 'scale' is the number of digits to the right of the decimal + // point in "0." + s_nanos.ToString() + int32_t scale = num_leading_zeros + s_nanos.size(); + // 'conversion' converts i_nanos into nanoseconds. + // conversion = kNanosPerSecond / static_cast(std::pow(10, scale)) + // For efficiency, we precompute the conversion factor. + int32_t conversion = 0; + switch (scale) { + case 1: + conversion = 100000000; + break; + case 2: + conversion = 10000000; + break; + case 3: + conversion = 1000000; + break; + case 4: + conversion = 100000; + break; + case 5: + conversion = 10000; + break; + case 6: + conversion = 1000; + break; + case 7: + conversion = 100; + break; + case 8: + conversion = 10; + break; + case 9: + conversion = 1; + break; + default: + return util::InvalidArgumentError(exceeded_limit_message); + } + *nanos = i_nanos * conversion; + } + + return Status(); +} + +} // namespace + +ProtoStreamObjectWriter::AnyWriter::AnyWriter(ProtoStreamObjectWriter* parent) + : parent_(parent), + ow_(), + invalid_(false), + data_(), + output_(&data_), + depth_(0), + is_well_known_type_(false), + well_known_type_render_(nullptr) {} + +ProtoStreamObjectWriter::AnyWriter::~AnyWriter() {} + +void ProtoStreamObjectWriter::AnyWriter::StartObject(StringPiece name) { + ++depth_; + // If an object writer is absent, that means we have not called StartAny() + // before reaching here, which happens when we have data before the "@type" + // field. + if (ow_ == nullptr) { + // Save data before the "@type" field for later replay. + uninterpreted_events_.push_back(Event(Event::START_OBJECT, name)); + } else if (is_well_known_type_ && depth_ == 1) { + // For well-known types, the only other field besides "@type" should be a + // "value" field. + if (name != "value" && !invalid_) { + parent_->InvalidValue("Any", + "Expect a \"value\" field for well-known types."); + invalid_ = true; + } + ow_->StartObject(""); + } else { + // Forward the call to the child writer if: + // 1. the type is not a well-known type. + // 2. or, we are in a nested Any, Struct, or Value object. + ow_->StartObject(name); + } +} + +bool ProtoStreamObjectWriter::AnyWriter::EndObject() { + --depth_; + if (ow_ == nullptr) { + if (depth_ >= 0) { + // Save data before the "@type" field for later replay. + uninterpreted_events_.push_back(Event(Event::END_OBJECT)); + } + } else if (depth_ >= 0 || !is_well_known_type_) { + // As long as depth_ >= 0, we know we haven't reached the end of Any. + // Propagate these EndObject() calls to the contained ow_. For regular + // message types, we propagate the end of Any as well. + ow_->EndObject(); + } + // A negative depth_ implies that we have reached the end of Any + // object. Now we write out its contents. + if (depth_ < 0) { + WriteAny(); + return false; + } + return true; +} + +void ProtoStreamObjectWriter::AnyWriter::StartList(StringPiece name) { + ++depth_; + if (ow_ == nullptr) { + // Save data before the "@type" field for later replay. + uninterpreted_events_.push_back(Event(Event::START_LIST, name)); + } else if (is_well_known_type_ && depth_ == 1) { + if (name != "value" && !invalid_) { + parent_->InvalidValue("Any", + "Expect a \"value\" field for well-known types."); + invalid_ = true; + } + ow_->StartList(""); + } else { + ow_->StartList(name); + } +} + +void ProtoStreamObjectWriter::AnyWriter::EndList() { + --depth_; + if (depth_ < 0) { + GOOGLE_LOG(DFATAL) << "Mismatched EndList found, should not be possible"; + depth_ = 0; + } + if (ow_ == nullptr) { + // Save data before the "@type" field for later replay. + uninterpreted_events_.push_back(Event(Event::END_LIST)); + } else { + ow_->EndList(); + } +} + +void ProtoStreamObjectWriter::AnyWriter::RenderDataPiece( + StringPiece name, const DataPiece& value) { + // Start an Any only at depth_ 0. Other RenderDataPiece calls with "@type" + // should go to the contained ow_ as they indicate nested Anys. + if (depth_ == 0 && ow_ == nullptr && name == "@type") { + StartAny(value); + } else if (ow_ == nullptr) { + // Save data before the "@type" field. + uninterpreted_events_.push_back(Event(name, value)); + } else if (depth_ == 0 && is_well_known_type_) { + if (name != "value" && !invalid_) { + parent_->InvalidValue("Any", + "Expect a \"value\" field for well-known types."); + invalid_ = true; + } + if (well_known_type_render_ == nullptr) { + // Only Any and Struct don't have a special type render but both of + // them expect a JSON object (i.e., a StartObject() call). + if (value.type() != DataPiece::TYPE_NULL && !invalid_) { + parent_->InvalidValue("Any", "Expect a JSON object."); + invalid_ = true; + } + } else { + ow_->ProtoWriter::StartObject(""); + Status status = (*well_known_type_render_)(ow_.get(), value); + if (!status.ok()) ow_->InvalidValue("Any", status.message()); + ow_->ProtoWriter::EndObject(); + } + } else { + ow_->RenderDataPiece(name, value); + } +} + +void ProtoStreamObjectWriter::AnyWriter::StartAny(const DataPiece& value) { + // Figure out the type url. This is a copy-paste from WriteString but we also + // need the value, so we can't just call through to that. + if (value.type() == DataPiece::TYPE_STRING) { + type_url_ = std::string(value.str()); + } else { + util::StatusOr s = value.ToString(); + if (!s.ok()) { + parent_->InvalidValue("String", s.status().message()); + invalid_ = true; + return; + } + type_url_ = s.value(); + } + // Resolve the type url, and report an error if we failed to resolve it. + util::StatusOr resolved_type = + parent_->typeinfo()->ResolveTypeUrl(type_url_); + if (!resolved_type.ok()) { + parent_->InvalidValue("Any", resolved_type.status().message()); + invalid_ = true; + return; + } + // At this point, type is never null. + const google::protobuf::Type* type = resolved_type.value(); + + well_known_type_render_ = FindTypeRenderer(type_url_); + if (well_known_type_render_ != nullptr || + // Explicitly list Any and Struct here because they don't have a + // custom renderer. + type->name() == kAnyType || type->name() == kStructType) { + is_well_known_type_ = true; + } + + // Create our object writer and initialize it with the first StartObject + // call. + ow_.reset(new ProtoStreamObjectWriter(parent_->typeinfo(), *type, &output_, + parent_->listener(), + parent_->options_)); + + // Don't call StartObject() for well-known types yet. Depending on the + // type of actual data, we may not need to call StartObject(). For + // example: + // { + // "@type": "type.googleapis.com/google.protobuf.Value", + // "value": [1, 2, 3], + // } + // With the above JSON representation, we will only call StartList() on the + // contained ow_. + if (!is_well_known_type_) { + ow_->StartObject(""); + } + + // Now we know the proto type and can interpret all data fields we gathered + // before the "@type" field. + for (int i = 0; i < uninterpreted_events_.size(); ++i) { + uninterpreted_events_[i].Replay(this); + } +} + +void ProtoStreamObjectWriter::AnyWriter::WriteAny() { + if (ow_ == nullptr) { + if (uninterpreted_events_.empty()) { + // We never got any content, so just return immediately, which is + // equivalent to writing an empty Any. + return; + } else { + // There are uninterpreted data, but we never got a "@type" field. + if (!invalid_) { + parent_->InvalidValue("Any", + StrCat("Missing @type for any field in ", + parent_->master_type_.name())); + invalid_ = true; + } + return; + } + } + // Render the type_url and value fields directly to the stream. + // type_url has tag 1 and value has tag 2. + WireFormatLite::WriteString(1, type_url_, parent_->stream()); + if (!data_.empty()) { + WireFormatLite::WriteBytes(2, data_, parent_->stream()); + } +} + +void ProtoStreamObjectWriter::AnyWriter::Event::Replay( + AnyWriter* writer) const { + switch (type_) { + case START_OBJECT: + writer->StartObject(name_); + break; + case END_OBJECT: + writer->EndObject(); + break; + case START_LIST: + writer->StartList(name_); + break; + case END_LIST: + writer->EndList(); + break; + case RENDER_DATA_PIECE: + writer->RenderDataPiece(name_, value_); + break; + } +} + +void ProtoStreamObjectWriter::AnyWriter::Event::DeepCopy() { + // DataPiece only contains a string reference. To make sure the referenced + // string value stays valid, we make a copy of the string value and update + // DataPiece to reference our own copy. + if (value_.type() == DataPiece::TYPE_STRING) { + StrAppend(&value_storage_, value_.str()); + value_ = DataPiece(value_storage_, value_.use_strict_base64_decoding()); + } else if (value_.type() == DataPiece::TYPE_BYTES) { + value_storage_ = value_.ToBytes().value(); + value_ = + DataPiece(value_storage_, true, value_.use_strict_base64_decoding()); + } +} + +ProtoStreamObjectWriter::Item::Item(ProtoStreamObjectWriter* enclosing, + ItemType item_type, bool is_placeholder, + bool is_list) + : BaseElement(nullptr), + ow_(enclosing), + any_(), + item_type_(item_type), + is_placeholder_(is_placeholder), + is_list_(is_list) { + if (item_type_ == ANY) { + any_.reset(new AnyWriter(ow_)); + } + if (item_type == MAP) { + map_keys_.reset(new std::unordered_set); + } +} + +ProtoStreamObjectWriter::Item::Item(ProtoStreamObjectWriter::Item* parent, + ItemType item_type, bool is_placeholder, + bool is_list) + : BaseElement(parent), + ow_(this->parent()->ow_), + any_(), + item_type_(item_type), + is_placeholder_(is_placeholder), + is_list_(is_list) { + if (item_type == ANY) { + any_.reset(new AnyWriter(ow_)); + } + if (item_type == MAP) { + map_keys_.reset(new std::unordered_set); + } +} + +bool ProtoStreamObjectWriter::Item::InsertMapKeyIfNotPresent( + StringPiece map_key) { + return InsertIfNotPresent(map_keys_.get(), std::string(map_key)); +} + + +ProtoStreamObjectWriter* ProtoStreamObjectWriter::StartObject( + StringPiece name) { + if (invalid_depth() > 0) { + IncrementInvalidDepth(); + return this; + } + + // Starting the root message. Create the root Item and return. + // ANY message type does not need special handling, just set the ItemType + // to ANY. + if (current_ == nullptr) { + ProtoWriter::StartObject(name); + current_.reset(new Item( + this, master_type_.name() == kAnyType ? Item::ANY : Item::MESSAGE, + false, false)); + + // If master type is a special type that needs extra values to be written to + // stream, we write those values. + if (master_type_.name() == kStructType) { + // Struct has a map field called "fields". + // https://github.com/protocolbuffers/protobuf/blob/master/src/google/protobuf/struct.proto + // "fields": [ + Push("fields", Item::MAP, true, true); + return this; + } + + if (master_type_.name() == kStructValueType) { + // We got a StartObject call with google.protobuf.Value field. The only + // object within that type is a struct type. So start a struct. + // + // The struct field in Value type is named "struct_value" + // https://github.com/protocolbuffers/protobuf/blob/master/src/google/protobuf/struct.proto + // Also start the map field "fields" within the struct. + // "struct_value": { + // "fields": [ + Push("struct_value", Item::MESSAGE, true, false); + Push("fields", Item::MAP, true, true); + return this; + } + + if (master_type_.name() == kStructListValueType) { + InvalidValue(kStructListValueType, + "Cannot start root message with ListValue."); + } + + return this; + } + + // Send all ANY events to AnyWriter. + if (current_->IsAny()) { + current_->any()->StartObject(name); + return this; + } + + // If we are within a map, we render name as keys and send StartObject to the + // value field. + if (current_->IsMap()) { + if (!ValidMapKey(name)) { + IncrementInvalidDepth(); + return this; + } + + // Map is a repeated field of message type with a "key" and a "value" field. + // https://developers.google.com/protocol-buffers/docs/proto3?hl=en#maps + // message MapFieldEntry { + // key_type key = 1; + // value_type value = 2; + // } + // + // repeated MapFieldEntry map_field = N; + // + // That means, we render the following element within a list (hence no + // name): + // { "key": "", "value": { + Push("", Item::MESSAGE, false, false); + ProtoWriter::RenderDataPiece("key", + DataPiece(name, use_strict_base64_decoding())); + Push("value", IsAny(*Lookup("value")) ? Item::ANY : Item::MESSAGE, true, + false); + + // Make sure we are valid so far after starting map fields. + if (invalid_depth() > 0) return this; + + // If top of stack is g.p.Struct type, start the struct the map field within + // it. + if (element() != nullptr && IsStruct(*element()->parent_field())) { + // Render "fields": [ + Push("fields", Item::MAP, true, true); + return this; + } + + // If top of stack is g.p.Value type, start the Struct within it. + if (element() != nullptr && IsStructValue(*element()->parent_field())) { + // Render + // "struct_value": { + // "fields": [ + Push("struct_value", Item::MESSAGE, true, false); + Push("fields", Item::MAP, true, true); + } + return this; + } + + const google::protobuf::Field* field = BeginNamed(name, false); + + if (field == nullptr) return this; + + // Legacy JSON map is a list of key value pairs. Starts a map entry object. + if (options_.use_legacy_json_map_format && name.empty()) { + Push(name, IsAny(*field) ? Item::ANY : Item::MESSAGE, false, false); + return this; + } + + if (IsMap(*field)) { + // Begin a map. A map is triggered by a StartObject() call if the current + // field has a map type. + // A map type is always repeated, hence set is_list to true. + // Render + // "": [ + Push(name, Item::MAP, false, true); + return this; + } + + if (options_.disable_implicit_message_list) { + // If the incoming object is repeated, the top-level object on stack should + // be list. Report an error otherwise. + if (IsRepeated(*field) && !current_->is_list()) { + IncrementInvalidDepth(); + + if (!options_.suppress_implicit_message_list_error) { + InvalidValue( + field->name(), + "Starting an object in a repeated field but the parent object " + "is not a list"); + } + return this; + } + } + + if (IsStruct(*field)) { + // Start a struct object. + // Render + // "": { + // "fields": { + Push(name, Item::MESSAGE, false, false); + Push("fields", Item::MAP, true, true); + return this; + } + + if (IsStructValue(*field)) { + // We got a StartObject call with google.protobuf.Value field. The only + // object within that type is a struct type. So start a struct. + // Render + // "": { + // "struct_value": { + // "fields": { + Push(name, Item::MESSAGE, false, false); + Push("struct_value", Item::MESSAGE, true, false); + Push("fields", Item::MAP, true, true); + return this; + } + + if (field->kind() != google::protobuf::Field::TYPE_GROUP && + field->kind() != google::protobuf::Field::TYPE_MESSAGE) { + IncrementInvalidDepth(); + if (!options_.suppress_object_to_scalar_error) { + InvalidValue(field->name(), "Starting an object on a scalar field"); + } + + return this; + } + + // A regular message type. Pass it directly to ProtoWriter. + // Render + // "": { + Push(name, IsAny(*field) ? Item::ANY : Item::MESSAGE, false, false); + return this; +} + +ProtoStreamObjectWriter* ProtoStreamObjectWriter::EndObject() { + if (invalid_depth() > 0) { + DecrementInvalidDepth(); + return this; + } + + if (current_ == nullptr) return this; + + if (current_->IsAny()) { + if (current_->any()->EndObject()) return this; + } + + Pop(); + + return this; +} + + +ProtoStreamObjectWriter* ProtoStreamObjectWriter::StartList( + StringPiece name) { + if (invalid_depth() > 0) { + IncrementInvalidDepth(); + return this; + } + + // Since we cannot have a top-level repeated item in protobuf, the only way + // this is valid is if we start a special type google.protobuf.ListValue or + // google.protobuf.Value. + if (current_ == nullptr) { + if (!name.empty()) { + InvalidName(name, "Root element should not be named."); + IncrementInvalidDepth(); + return this; + } + + // If master type is a special type that needs extra values to be written to + // stream, we write those values. + if (master_type_.name() == kStructValueType) { + // We got a StartList with google.protobuf.Value master type. This means + // we have to start the "list_value" within google.protobuf.Value. + // + // See + // https://github.com/protocolbuffers/protobuf/blob/master/src/google/protobuf/struct.proto + // + // Render + // "": { + // "list_value": { + // "values": [ // Start this list. + ProtoWriter::StartObject(name); + current_.reset(new Item(this, Item::MESSAGE, false, false)); + Push("list_value", Item::MESSAGE, true, false); + Push("values", Item::MESSAGE, true, true); + return this; + } + + if (master_type_.name() == kStructListValueType) { + // We got a StartList with google.protobuf.ListValue master type. This + // means we have to start the "values" within google.protobuf.ListValue. + // + // Render + // "": { + // "values": [ // Start this list. + ProtoWriter::StartObject(name); + current_.reset(new Item(this, Item::MESSAGE, false, false)); + Push("values", Item::MESSAGE, true, true); + return this; + } + + // Send the event to ProtoWriter so proper errors can be reported. + // + // Render a regular list: + // "": [ + ProtoWriter::StartList(name); + current_.reset(new Item(this, Item::MESSAGE, false, true)); + return this; + } + + if (current_->IsAny()) { + current_->any()->StartList(name); + return this; + } + + // If the top of stack is a map, we are starting a list value within a map. + // Since map does not allow repeated values, this can only happen when the map + // value is of a special type that renders a list in JSON. These can be one + // of 3 cases: + // i. We are rendering a list value within google.protobuf.Struct + // ii. We are rendering a list value within google.protobuf.Value + // iii. We are rendering a list value with type google.protobuf.ListValue. + if (current_->IsMap()) { + if (!ValidMapKey(name)) { + IncrementInvalidDepth(); + return this; + } + + // Start the repeated map entry object. + // Render + // { "key": "", "value": { + Push("", Item::MESSAGE, false, false); + ProtoWriter::RenderDataPiece("key", + DataPiece(name, use_strict_base64_decoding())); + Push("value", Item::MESSAGE, true, false); + + // Make sure we are valid after pushing all above items. + if (invalid_depth() > 0) return this; + + // case i and ii above. Start "list_value" field within g.p.Value + if (element() != nullptr && element()->parent_field() != nullptr) { + // Render + // "list_value": { + // "values": [ // Start this list + if (IsStructValue(*element()->parent_field())) { + Push("list_value", Item::MESSAGE, true, false); + Push("values", Item::MESSAGE, true, true); + return this; + } + + // Render + // "values": [ + if (IsStructListValue(*element()->parent_field())) { + // case iii above. Bind directly to g.p.ListValue + Push("values", Item::MESSAGE, true, true); + return this; + } + } + + // Report an error. + InvalidValue("Map", StrCat("Cannot have repeated items ('", name, + "') within a map.")); + return this; + } + + // When name is empty and stack is not empty, we are rendering an item within + // a list. + if (name.empty()) { + if (element() != nullptr && element()->parent_field() != nullptr) { + if (IsStructValue(*element()->parent_field())) { + // Since it is g.p.Value, we bind directly to the list_value. + // Render + // { // g.p.Value item within the list + // "list_value": { + // "values": [ + Push("", Item::MESSAGE, false, false); + Push("list_value", Item::MESSAGE, true, false); + Push("values", Item::MESSAGE, true, true); + return this; + } + + if (IsStructListValue(*element()->parent_field())) { + // Since it is g.p.ListValue, we bind to it directly. + // Render + // { // g.p.ListValue item within the list + // "values": [ + Push("", Item::MESSAGE, false, false); + Push("values", Item::MESSAGE, true, true); + return this; + } + } + + // Pass the event to underlying ProtoWriter. + Push(name, Item::MESSAGE, false, true); + return this; + } + + // name is not empty + const google::protobuf::Field* field = Lookup(name); + + if (field == nullptr) { + IncrementInvalidDepth(); + return this; + } + + if (IsStructValue(*field)) { + // If g.p.Value is repeated, start that list. Otherwise, start the + // "list_value" within it. + if (IsRepeated(*field)) { + // Render it just like a regular repeated field. + // "": [ + Push(name, Item::MESSAGE, false, true); + return this; + } + + // Start the "list_value" field. + // Render + // "": { + // "list_value": { + // "values": [ + Push(name, Item::MESSAGE, false, false); + Push("list_value", Item::MESSAGE, true, false); + Push("values", Item::MESSAGE, true, true); + return this; + } + + if (IsStructListValue(*field)) { + // If g.p.ListValue is repeated, start that list. Otherwise, start the + // "values" within it. + if (IsRepeated(*field)) { + // Render it just like a regular repeated field. + // "": [ + Push(name, Item::MESSAGE, false, true); + return this; + } + + // Start the "values" field within g.p.ListValue. + // Render + // "": { + // "values": [ + Push(name, Item::MESSAGE, false, false); + Push("values", Item::MESSAGE, true, true); + return this; + } + + // If we are here, the field should be repeated. Report an error otherwise. + if (!IsRepeated(*field)) { + IncrementInvalidDepth(); + InvalidName(name, "Proto field is not repeating, cannot start list."); + return this; + } + + if (IsMap(*field)) { + if (options_.use_legacy_json_map_format) { + Push(name, Item::MESSAGE, false, true); + return this; + } + InvalidValue("Map", StrCat("Cannot bind a list to map for field '", + name, "'.")); + IncrementInvalidDepth(); + return this; + } + + // Pass the event to ProtoWriter. + // Render + // "": [ + Push(name, Item::MESSAGE, false, true); + return this; +} + +ProtoStreamObjectWriter* ProtoStreamObjectWriter::EndList() { + if (invalid_depth() > 0) { + DecrementInvalidDepth(); + return this; + } + + if (current_ == nullptr) return this; + + if (current_->IsAny()) { + current_->any()->EndList(); + return this; + } + + Pop(); + return this; +} + +Status ProtoStreamObjectWriter::RenderStructValue(ProtoStreamObjectWriter* ow, + const DataPiece& data) { + std::string struct_field_name; + switch (data.type()) { + case DataPiece::TYPE_INT32: { + if (ow->options_.struct_integers_as_strings) { + util::StatusOr int_value = data.ToInt32(); + if (int_value.ok()) { + ow->ProtoWriter::RenderDataPiece( + "string_value", + DataPiece(SimpleDtoa(int_value.value()), true)); + return Status(); + } + } + struct_field_name = "number_value"; + break; + } + case DataPiece::TYPE_UINT32: { + if (ow->options_.struct_integers_as_strings) { + util::StatusOr int_value = data.ToUint32(); + if (int_value.ok()) { + ow->ProtoWriter::RenderDataPiece( + "string_value", + DataPiece(SimpleDtoa(int_value.value()), true)); + return Status(); + } + } + struct_field_name = "number_value"; + break; + } + case DataPiece::TYPE_INT64: { + // If the option to treat integers as strings is set, then render them as + // strings. Otherwise, fallback to rendering them as double. + if (ow->options_.struct_integers_as_strings) { + util::StatusOr int_value = data.ToInt64(); + if (int_value.ok()) { + ow->ProtoWriter::RenderDataPiece( + "string_value", DataPiece(StrCat(int_value.value()), true)); + return Status(); + } + } + struct_field_name = "number_value"; + break; + } + case DataPiece::TYPE_UINT64: { + // If the option to treat integers as strings is set, then render them as + // strings. Otherwise, fallback to rendering them as double. + if (ow->options_.struct_integers_as_strings) { + util::StatusOr int_value = data.ToUint64(); + if (int_value.ok()) { + ow->ProtoWriter::RenderDataPiece( + "string_value", DataPiece(StrCat(int_value.value()), true)); + return Status(); + } + } + struct_field_name = "number_value"; + break; + } + case DataPiece::TYPE_FLOAT: { + if (ow->options_.struct_integers_as_strings) { + util::StatusOr float_value = data.ToFloat(); + if (float_value.ok()) { + ow->ProtoWriter::RenderDataPiece( + "string_value", + DataPiece(SimpleDtoa(float_value.value()), true)); + return Status(); + } + } + struct_field_name = "number_value"; + break; + } + case DataPiece::TYPE_DOUBLE: { + if (ow->options_.struct_integers_as_strings) { + util::StatusOr double_value = data.ToDouble(); + if (double_value.ok()) { + ow->ProtoWriter::RenderDataPiece( + "string_value", + DataPiece(SimpleDtoa(double_value.value()), true)); + return Status(); + } + } + struct_field_name = "number_value"; + break; + } + case DataPiece::TYPE_STRING: { + struct_field_name = "string_value"; + break; + } + case DataPiece::TYPE_BOOL: { + struct_field_name = "bool_value"; + break; + } + case DataPiece::TYPE_NULL: { + struct_field_name = "null_value"; + break; + } + default: { + return util::InvalidArgumentError( + "Invalid struct data type. Only number, string, boolean or null " + "values are supported."); + } + } + ow->ProtoWriter::RenderDataPiece(struct_field_name, data); + return Status(); +} + +Status ProtoStreamObjectWriter::RenderTimestamp(ProtoStreamObjectWriter* ow, + const DataPiece& data) { + if (data.type() == DataPiece::TYPE_NULL) return Status(); + if (data.type() != DataPiece::TYPE_STRING) { + return util::InvalidArgumentError( + StrCat("Invalid data type for timestamp, value is ", + data.ValueAsStringOrDefault(""))); + } + + StringPiece value(data.str()); + + int64 seconds; + int32 nanos; + if (!::google::protobuf::internal::ParseTime(value.ToString(), &seconds, + &nanos)) { + return util::InvalidArgumentError(StrCat("Invalid time format: ", value)); + } + + + ow->ProtoWriter::RenderDataPiece("seconds", DataPiece(seconds)); + ow->ProtoWriter::RenderDataPiece("nanos", DataPiece(nanos)); + return Status(); +} + +static inline util::Status RenderOneFieldPath(ProtoStreamObjectWriter* ow, + StringPiece path) { + ow->ProtoWriter::RenderDataPiece( + "paths", DataPiece(ConvertFieldMaskPath(path, &ToSnakeCase), true)); + return Status(); +} + +Status ProtoStreamObjectWriter::RenderFieldMask(ProtoStreamObjectWriter* ow, + const DataPiece& data) { + if (data.type() == DataPiece::TYPE_NULL) return Status(); + if (data.type() != DataPiece::TYPE_STRING) { + return util::InvalidArgumentError( + StrCat("Invalid data type for field mask, value is ", + data.ValueAsStringOrDefault(""))); + } + + // TODO(tsun): figure out how to do proto descriptor based snake case + // conversions as much as possible. Because ToSnakeCase sometimes returns the + // wrong value. + return DecodeCompactFieldMaskPaths(data.str(), + std::bind(&RenderOneFieldPath, ow, _1)); +} + +Status ProtoStreamObjectWriter::RenderDuration(ProtoStreamObjectWriter* ow, + const DataPiece& data) { + if (data.type() == DataPiece::TYPE_NULL) return Status(); + if (data.type() != DataPiece::TYPE_STRING) { + return util::InvalidArgumentError( + StrCat("Invalid data type for duration, value is ", + data.ValueAsStringOrDefault(""))); + } + + StringPiece value(data.str()); + + if (!HasSuffixString(value, "s")) { + return util::InvalidArgumentError( + "Illegal duration format; duration must end with 's'"); + } + value = value.substr(0, value.size() - 1); + int sign = 1; + if (HasPrefixString(value, "-")) { + sign = -1; + value = value.substr(1); + } + + StringPiece s_secs, s_nanos; + SplitSecondsAndNanos(value, &s_secs, &s_nanos); + uint64_t unsigned_seconds; + if (!safe_strtou64(s_secs, &unsigned_seconds)) { + return util::InvalidArgumentError( + "Invalid duration format, failed to parse seconds"); + } + + int32_t nanos = 0; + Status nanos_status = GetNanosFromStringPiece( + s_nanos, "Invalid duration format, failed to parse nano seconds", + "Duration value exceeds limits", &nanos); + if (!nanos_status.ok()) { + return nanos_status; + } + nanos = sign * nanos; + + int64_t seconds = sign * unsigned_seconds; + if (seconds > kDurationMaxSeconds || seconds < kDurationMinSeconds || + nanos <= -kNanosPerSecond || nanos >= kNanosPerSecond) { + return util::InvalidArgumentError("Duration value exceeds limits"); + } + + ow->ProtoWriter::RenderDataPiece("seconds", DataPiece(seconds)); + ow->ProtoWriter::RenderDataPiece("nanos", DataPiece(nanos)); + return Status(); +} + +Status ProtoStreamObjectWriter::RenderWrapperType(ProtoStreamObjectWriter* ow, + const DataPiece& data) { + if (data.type() == DataPiece::TYPE_NULL) return Status(); + ow->ProtoWriter::RenderDataPiece("value", data); + return Status(); +} + +ProtoStreamObjectWriter* ProtoStreamObjectWriter::RenderDataPiece( + StringPiece name, const DataPiece& data) { + Status status; + if (invalid_depth() > 0) return this; + + if (current_ == nullptr) { + const TypeRenderer* type_renderer = + FindTypeRenderer(GetFullTypeWithUrl(master_type_.name())); + if (type_renderer == nullptr) { + InvalidName(name, "Root element must be a message."); + return this; + } + // Render the special type. + // "": { + // ... Render special type ... + // } + ProtoWriter::StartObject(name); + status = (*type_renderer)(this, data); + if (!status.ok()) { + InvalidValue(master_type_.name(), + StrCat("Field '", name, "', ", status.message())); + } + ProtoWriter::EndObject(); + return this; + } + + if (current_->IsAny()) { + current_->any()->RenderDataPiece(name, data); + return this; + } + + const google::protobuf::Field* field = nullptr; + if (current_->IsMap()) { + if (!ValidMapKey(name)) return this; + + field = Lookup("value"); + if (field == nullptr) { + GOOGLE_LOG(DFATAL) << "Map does not have a value field."; + return this; + } + + if (options_.ignore_null_value_map_entry) { + // If we are rendering explicit null values and the backend proto field is + // not of the google.protobuf.NullType type, interpret null as absence. + if (data.type() == DataPiece::TYPE_NULL && + field->type_url() != kStructNullValueTypeUrl) { + return this; + } + } + + // Render an item in repeated map list. + // { "key": "", "value": + Push("", Item::MESSAGE, false, false); + ProtoWriter::RenderDataPiece("key", + DataPiece(name, use_strict_base64_decoding())); + + const TypeRenderer* type_renderer = FindTypeRenderer(field->type_url()); + if (type_renderer != nullptr) { + // Map's value type is a special type. Render it like a message: + // "value": { + // ... Render special type ... + // } + Push("value", Item::MESSAGE, true, false); + status = (*type_renderer)(this, data); + if (!status.ok()) { + InvalidValue(field->type_url(), + StrCat("Field '", name, "', ", status.message())); + } + Pop(); + return this; + } + + // If we are rendering explicit null values and the backend proto field is + // not of the google.protobuf.NullType type, we do nothing. + if (data.type() == DataPiece::TYPE_NULL && + field->type_url() != kStructNullValueTypeUrl) { + Pop(); + return this; + } + + // Render the map value as a primitive type. + ProtoWriter::RenderDataPiece("value", data); + Pop(); + return this; + } + + field = Lookup(name); + if (field == nullptr) return this; + + // Check if the field is of special type. Render it accordingly if so. + const TypeRenderer* type_renderer = FindTypeRenderer(field->type_url()); + if (type_renderer != nullptr) { + // Pass through null value only for google.protobuf.Value. For other + // types we ignore null value just like for regular field types. + if (data.type() != DataPiece::TYPE_NULL || + field->type_url() == kStructValueTypeUrl) { + Push(name, Item::MESSAGE, false, false); + status = (*type_renderer)(this, data); + if (!status.ok()) { + InvalidValue(field->type_url(), + StrCat("Field '", name, "', ", status.message())); + } + Pop(); + } + return this; + } + + // If we are rendering explicit null values and the backend proto field is + // not of the google.protobuf.NullType type, we do nothing. + if (data.type() == DataPiece::TYPE_NULL && + field->type_url() != kStructNullValueTypeUrl) { + return this; + } + + if (IsRepeated(*field) && !current_->is_list()) { + if (options_.disable_implicit_scalar_list) { + if (!options_.suppress_implicit_scalar_list_error) { + InvalidValue( + field->name(), + "Starting an primitive in a repeated field but the parent field " + "is not a list"); + } + + return this; + } + } + + ProtoWriter::RenderDataPiece(name, data); + return this; +} + +// Map of functions that are responsible for rendering well known type +// represented by the key. +std::unordered_map* + ProtoStreamObjectWriter::renderers_ = nullptr; +PROTOBUF_NAMESPACE_ID::internal::once_flag writer_renderers_init_; + +void ProtoStreamObjectWriter::InitRendererMap() { + renderers_ = new std::unordered_map(); + (*renderers_)["type.googleapis.com/google.protobuf.Timestamp"] = + &ProtoStreamObjectWriter::RenderTimestamp; + (*renderers_)["type.googleapis.com/google.protobuf.Duration"] = + &ProtoStreamObjectWriter::RenderDuration; + (*renderers_)["type.googleapis.com/google.protobuf.FieldMask"] = + &ProtoStreamObjectWriter::RenderFieldMask; + (*renderers_)["type.googleapis.com/google.protobuf.Double"] = + &ProtoStreamObjectWriter::RenderWrapperType; + (*renderers_)["type.googleapis.com/google.protobuf.Float"] = + &ProtoStreamObjectWriter::RenderWrapperType; + (*renderers_)["type.googleapis.com/google.protobuf.Int64"] = + &ProtoStreamObjectWriter::RenderWrapperType; + (*renderers_)["type.googleapis.com/google.protobuf.UInt64"] = + &ProtoStreamObjectWriter::RenderWrapperType; + (*renderers_)["type.googleapis.com/google.protobuf.Int32"] = + &ProtoStreamObjectWriter::RenderWrapperType; + (*renderers_)["type.googleapis.com/google.protobuf.UInt32"] = + &ProtoStreamObjectWriter::RenderWrapperType; + (*renderers_)["type.googleapis.com/google.protobuf.Bool"] = + &ProtoStreamObjectWriter::RenderWrapperType; + (*renderers_)["type.googleapis.com/google.protobuf.String"] = + &ProtoStreamObjectWriter::RenderWrapperType; + (*renderers_)["type.googleapis.com/google.protobuf.Bytes"] = + &ProtoStreamObjectWriter::RenderWrapperType; + (*renderers_)["type.googleapis.com/google.protobuf.DoubleValue"] = + &ProtoStreamObjectWriter::RenderWrapperType; + (*renderers_)["type.googleapis.com/google.protobuf.FloatValue"] = + &ProtoStreamObjectWriter::RenderWrapperType; + (*renderers_)["type.googleapis.com/google.protobuf.Int64Value"] = + &ProtoStreamObjectWriter::RenderWrapperType; + (*renderers_)["type.googleapis.com/google.protobuf.UInt64Value"] = + &ProtoStreamObjectWriter::RenderWrapperType; + (*renderers_)["type.googleapis.com/google.protobuf.Int32Value"] = + &ProtoStreamObjectWriter::RenderWrapperType; + (*renderers_)["type.googleapis.com/google.protobuf.UInt32Value"] = + &ProtoStreamObjectWriter::RenderWrapperType; + (*renderers_)["type.googleapis.com/google.protobuf.BoolValue"] = + &ProtoStreamObjectWriter::RenderWrapperType; + (*renderers_)["type.googleapis.com/google.protobuf.StringValue"] = + &ProtoStreamObjectWriter::RenderWrapperType; + (*renderers_)["type.googleapis.com/google.protobuf.BytesValue"] = + &ProtoStreamObjectWriter::RenderWrapperType; + (*renderers_)["type.googleapis.com/google.protobuf.Value"] = + &ProtoStreamObjectWriter::RenderStructValue; + ::google::protobuf::internal::OnShutdown(&DeleteRendererMap); +} + +void ProtoStreamObjectWriter::DeleteRendererMap() { + delete ProtoStreamObjectWriter::renderers_; + renderers_ = nullptr; +} + +ProtoStreamObjectWriter::TypeRenderer* +ProtoStreamObjectWriter::FindTypeRenderer(const std::string& type_url) { + PROTOBUF_NAMESPACE_ID::internal::call_once(writer_renderers_init_, + InitRendererMap); + return FindOrNull(*renderers_, type_url); +} + +bool ProtoStreamObjectWriter::ValidMapKey(StringPiece unnormalized_name) { + if (current_ == nullptr) return true; + + if (!current_->InsertMapKeyIfNotPresent(unnormalized_name)) { + listener()->InvalidName( + location(), unnormalized_name, + StrCat("Repeated map key: '", unnormalized_name, + "' is already set.")); + return false; + } + + return true; +} + +void ProtoStreamObjectWriter::Push( + StringPiece name, Item::ItemType item_type, bool is_placeholder, + bool is_list) { + is_list ? ProtoWriter::StartList(name) : ProtoWriter::StartObject(name); + + // invalid_depth == 0 means it is a successful StartObject or StartList. + if (invalid_depth() == 0) + current_.reset( + new Item(current_.release(), item_type, is_placeholder, is_list)); +} + +void ProtoStreamObjectWriter::Pop() { + // Pop all placeholder items sending StartObject or StartList events to + // ProtoWriter according to is_list value. + while (current_ != nullptr && current_->is_placeholder()) { + PopOneElement(); + } + if (current_ != nullptr) { + PopOneElement(); + } +} + +void ProtoStreamObjectWriter::PopOneElement() { + current_->is_list() ? ProtoWriter::EndList() : ProtoWriter::EndObject(); + current_.reset(current_->pop()); +} + +bool ProtoStreamObjectWriter::IsMap(const google::protobuf::Field& field) { + if (field.type_url().empty() || + field.kind() != google::protobuf::Field::TYPE_MESSAGE || + field.cardinality() != google::protobuf::Field::CARDINALITY_REPEATED) { + return false; + } + const google::protobuf::Type* field_type = + typeinfo()->GetTypeByTypeUrl(field.type_url()); + + return converter::IsMap(field, *field_type); +} + +bool ProtoStreamObjectWriter::IsAny(const google::protobuf::Field& field) { + return GetTypeWithoutUrl(field.type_url()) == kAnyType; +} + +bool ProtoStreamObjectWriter::IsStruct(const google::protobuf::Field& field) { + return GetTypeWithoutUrl(field.type_url()) == kStructType; +} + +bool ProtoStreamObjectWriter::IsStructValue( + const google::protobuf::Field& field) { + return GetTypeWithoutUrl(field.type_url()) == kStructValueType; +} + +bool ProtoStreamObjectWriter::IsStructListValue( + const google::protobuf::Field& field) { + return GetTypeWithoutUrl(field.type_url()) == kStructListValueType; +} + +} // namespace converter +} // namespace util +} // namespace protobuf +} // namespace google -- cgit v1.2.3