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/*
* Copyright (C) 2022 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "src/trace_processor/util/protozero_to_text.h"
#include <optional>
#include "perfetto/ext/base/string_utils.h"
#include "perfetto/ext/base/string_view.h"
#include "perfetto/protozero/proto_decoder.h"
#include "perfetto/protozero/proto_utils.h"
#include "protos/perfetto/common/descriptor.pbzero.h"
#include "src/trace_processor/util/descriptors.h"
// This is the highest level that this protozero to text supports.
#include "src/trace_processor/importers/proto/track_event.descriptor.h"
namespace perfetto {
namespace trace_processor {
namespace protozero_to_text {
namespace {
using protozero::proto_utils::ProtoWireType;
using FieldDescriptorProto = protos::pbzero::FieldDescriptorProto;
// This function matches the implementation of TextFormatEscaper.escapeBytes
// from the Java protobuf library.
std::string QuoteAndEscapeTextProtoString(base::StringView raw) {
std::string ret;
for (char c : raw) {
switch (c) {
case '\a':
ret += "\\a";
break;
case '\b':
ret += "\\b";
break;
case '\f':
ret += "\\f";
break;
case '\n':
ret += "\\n";
break;
case '\r':
ret += "\\r";
break;
case '\t':
ret += "\\t";
break;
case '\v':
ret += "\\v";
break;
case '\\':
ret += "\\\\";
break;
case '\'':
ret += "\\\'";
break;
case '"':
ret += "\\\"";
break;
default:
// Only ASCII characters between 0x20 (space) and 0x7e (tilde) are
// printable; other byte values are escaped with 3-character octal
// codes.
if (c >= 0x20 && c <= 0x7e) {
ret += c;
} else {
ret += '\\';
// Cast to unsigned char to make the right shift unsigned as well.
unsigned char uc = static_cast<unsigned char>(c);
ret += ('0' + ((uc >> 6) & 3));
ret += ('0' + ((uc >> 3) & 7));
ret += ('0' + (uc & 7));
}
break;
}
}
return '"' + ret + '"';
}
// Append |to_add| which is something string like to |out|.
template <typename T>
void StrAppend(std::string* out, const T& to_add) {
out->append(to_add);
}
template <typename T, typename... strings>
void StrAppend(std::string* out, const T& first, strings... values) {
StrAppend(out, first);
StrAppend(out, values...);
}
void IncreaseIndents(std::string* out) {
StrAppend(out, " ");
}
void DecreaseIndents(std::string* out) {
PERFETTO_DCHECK(out->size() >= 2);
out->erase(out->size() - 2);
}
void PrintUnknownVarIntField(uint16_t id, int64_t value, std::string* out) {
StrAppend(out, std::to_string(id), ": ", std::to_string(value));
}
void PrintEnumField(const FieldDescriptor& fd,
const DescriptorPool& pool,
uint16_t id,
int32_t enum_value,
std::string* out) {
auto opt_enum_descriptor_idx =
pool.FindDescriptorIdx(fd.resolved_type_name());
if (!opt_enum_descriptor_idx) {
PrintUnknownVarIntField(id, enum_value, out);
return;
}
auto opt_enum_string =
pool.descriptors()[*opt_enum_descriptor_idx].FindEnumString(enum_value);
// If the enum value is unknown, treat it like a completely unknown field.
if (!opt_enum_string) {
PrintUnknownVarIntField(id, enum_value, out);
return;
}
StrAppend(out, fd.name(), ": ", *opt_enum_string);
}
std::string FormattedFieldDescriptorName(
const FieldDescriptor& field_descriptor) {
if (field_descriptor.is_extension()) {
// Libprotobuf formatter always formats extension field names as fully
// qualified names.
// TODO(b/197625974): Assuming for now all our extensions will belong to the
// perfetto.protos package. Update this if we ever want to support extendees
// in different package.
return "[perfetto.protos." + field_descriptor.name() + "]";
} else {
return field_descriptor.name();
}
}
void PrintVarIntField(const FieldDescriptor* fd,
const protozero::Field& field,
const DescriptorPool& pool,
std::string* out) {
uint32_t type = fd ? fd->type() : 0;
switch (type) {
case FieldDescriptorProto::TYPE_INT32:
StrAppend(out, fd->name(), ": ", std::to_string(field.as_int32()));
return;
case FieldDescriptorProto::TYPE_SINT32:
StrAppend(out, fd->name(), ": ", std::to_string(field.as_sint32()));
return;
case FieldDescriptorProto::TYPE_UINT32:
StrAppend(out, fd->name(), ": ", std::to_string(field.as_uint32()));
return;
case FieldDescriptorProto::TYPE_INT64:
StrAppend(out, fd->name(), ": ", std::to_string(field.as_int64()));
return;
case FieldDescriptorProto::TYPE_SINT64:
StrAppend(out, fd->name(), ": ", std::to_string(field.as_sint64()));
return;
case FieldDescriptorProto::TYPE_UINT64:
StrAppend(out, fd->name(), ": ", std::to_string(field.as_uint64()));
return;
case FieldDescriptorProto::TYPE_BOOL:
StrAppend(out, fd->name(), ": ", field.as_bool() ? "true" : "false");
return;
case FieldDescriptorProto::TYPE_ENUM:
PrintEnumField(*fd, pool, field.id(), field.as_int32(), out);
return;
case 0:
default:
PrintUnknownVarIntField(field.id(), field.as_int64(), out);
return;
}
}
void PrintFixed32Field(const FieldDescriptor* fd,
const protozero::Field& field,
std::string* out) {
uint32_t type = fd ? fd->type() : 0;
switch (type) {
case FieldDescriptorProto::TYPE_SFIXED32:
StrAppend(out, fd->name(), ": ", std::to_string(field.as_int32()));
break;
case FieldDescriptorProto::TYPE_FIXED32:
StrAppend(out, fd->name(), ": ", std::to_string(field.as_uint32()));
break;
case FieldDescriptorProto::TYPE_FLOAT:
StrAppend(out, fd->name(), ": ", std::to_string(field.as_float()));
break;
case 0:
default:
base::StackString<12> padded_hex("0x%08" PRIx32, field.as_uint32());
StrAppend(out, std::to_string(field.id()), ": ", padded_hex.c_str());
break;
}
}
void PrintFixed64Field(const FieldDescriptor* fd,
const protozero::Field& field,
std::string* out) {
uint32_t type = fd ? fd->type() : 0;
switch (type) {
case FieldDescriptorProto::TYPE_SFIXED64:
StrAppend(out, fd->name(), ": ", std::to_string(field.as_int64()));
break;
case FieldDescriptorProto::TYPE_FIXED64:
StrAppend(out, fd->name(), ": ", std::to_string(field.as_uint64()));
break;
case FieldDescriptorProto::TYPE_DOUBLE:
StrAppend(out, fd->name(), ": ", std::to_string(field.as_double()));
break;
case 0:
default:
base::StackString<20> padded_hex("0x%016" PRIx64, field.as_uint64());
StrAppend(out, std::to_string(field.id()), ": ", padded_hex.c_str());
break;
}
}
void ProtozeroToTextInternal(const std::string& type,
protozero::ConstBytes protobytes,
NewLinesMode new_lines_mode,
const DescriptorPool& pool,
std::string* indents,
std::string* output);
template <protozero::proto_utils::ProtoWireType wire_type, typename T>
void PrintPackedField(const FieldDescriptor& fd,
const protozero::Field& field,
NewLinesMode new_lines_mode,
const std::string& indents,
const DescriptorPool& pool,
std::string* out) {
const bool include_new_lines = new_lines_mode == kIncludeNewLines;
bool err = false;
bool first_output = true;
for (protozero::PackedRepeatedFieldIterator<wire_type, T> it(
field.data(), field.size(), &err);
it; it++) {
T value = *it;
if (!first_output) {
if (include_new_lines) {
StrAppend(out, "\n", indents);
} else {
StrAppend(out, " ");
}
}
std::string serialized_value;
if (fd.type() == FieldDescriptorProto::TYPE_ENUM) {
PrintEnumField(fd, pool, field.id(), static_cast<int32_t>(value), out);
} else {
StrAppend(out, fd.name(), ": ", std::to_string(value));
}
first_output = false;
}
if (err) {
if (!first_output) {
if (include_new_lines) {
StrAppend(out, "\n", indents);
} else {
StrAppend(out, " ");
}
}
StrAppend(out, "# Packed decoding failure for field ", fd.name(), "\n");
}
}
void PrintLengthDelimitedField(const FieldDescriptor* fd,
const protozero::Field& field,
NewLinesMode new_lines_mode,
std::string* indents,
const DescriptorPool& pool,
std::string* out) {
const bool include_new_lines = new_lines_mode == kIncludeNewLines;
uint32_t type = fd ? fd->type() : 0;
switch (type) {
case FieldDescriptorProto::TYPE_BYTES:
case FieldDescriptorProto::TYPE_STRING: {
std::string value = QuoteAndEscapeTextProtoString(field.as_string());
StrAppend(out, fd->name(), ": ", value);
return;
}
case FieldDescriptorProto::TYPE_MESSAGE:
StrAppend(out, FormattedFieldDescriptorName(*fd), " {");
if (include_new_lines) {
IncreaseIndents(indents);
}
ProtozeroToTextInternal(fd->resolved_type_name(), field.as_bytes(),
new_lines_mode, pool, indents, out);
if (include_new_lines) {
DecreaseIndents(indents);
StrAppend(out, "\n", *indents, "}");
} else {
StrAppend(out, " }");
}
return;
case FieldDescriptorProto::TYPE_DOUBLE:
PrintPackedField<protozero::proto_utils::ProtoWireType::kFixed64, double>(
*fd, field, new_lines_mode, *indents, pool, out);
return;
case FieldDescriptorProto::TYPE_FLOAT:
PrintPackedField<protozero::proto_utils::ProtoWireType::kFixed32, float>(
*fd, field, new_lines_mode, *indents, pool, out);
return;
case FieldDescriptorProto::TYPE_INT64:
PrintPackedField<protozero::proto_utils::ProtoWireType::kVarInt, int64_t>(
*fd, field, new_lines_mode, *indents, pool, out);
return;
case FieldDescriptorProto::TYPE_UINT64:
PrintPackedField<protozero::proto_utils::ProtoWireType::kVarInt,
uint64_t>(*fd, field, new_lines_mode, *indents, pool,
out);
return;
case FieldDescriptorProto::TYPE_INT32:
PrintPackedField<protozero::proto_utils::ProtoWireType::kVarInt, int32_t>(
*fd, field, new_lines_mode, *indents, pool, out);
return;
case FieldDescriptorProto::TYPE_FIXED64:
PrintPackedField<protozero::proto_utils::ProtoWireType::kFixed64,
uint64_t>(*fd, field, new_lines_mode, *indents, pool,
out);
return;
case FieldDescriptorProto::TYPE_FIXED32:
PrintPackedField<protozero::proto_utils::ProtoWireType::kFixed32,
uint32_t>(*fd, field, new_lines_mode, *indents, pool,
out);
return;
case FieldDescriptorProto::TYPE_UINT32:
PrintPackedField<protozero::proto_utils::ProtoWireType::kVarInt,
uint32_t>(*fd, field, new_lines_mode, *indents, pool,
out);
return;
case FieldDescriptorProto::TYPE_SFIXED32:
PrintPackedField<protozero::proto_utils::ProtoWireType::kFixed32,
int32_t>(*fd, field, new_lines_mode, *indents, pool,
out);
return;
case FieldDescriptorProto::TYPE_SFIXED64:
PrintPackedField<protozero::proto_utils::ProtoWireType::kFixed64,
int64_t>(*fd, field, new_lines_mode, *indents, pool,
out);
return;
case FieldDescriptorProto::TYPE_ENUM:
PrintPackedField<protozero::proto_utils::ProtoWireType::kVarInt, int32_t>(
*fd, field, new_lines_mode, *indents, pool, out);
return;
// Our protoc plugin cannot generate code for packed repeated fields with
// these types. Output a comment and then fall back to the raw field_id:
// string representation.
case FieldDescriptorProto::TYPE_BOOL:
case FieldDescriptorProto::TYPE_SINT32:
case FieldDescriptorProto::TYPE_SINT64:
StrAppend(out, "# Packed type ", std::to_string(type),
" not supported. Printing raw string.", "\n", *indents);
break;
case 0:
default:
break;
}
std::string value = QuoteAndEscapeTextProtoString(field.as_string());
StrAppend(out, std::to_string(field.id()), ": ", value);
}
// Recursive case function, Will parse |protobytes| assuming it is a proto of
// |type| and will use |pool| to look up the |type|. All output will be placed
// in |output|, using |new_lines_mode| to separate fields. When called for
// |indents| will be increased by 2 spaces to improve readability.
void ProtozeroToTextInternal(const std::string& type,
protozero::ConstBytes protobytes,
NewLinesMode new_lines_mode,
const DescriptorPool& pool,
std::string* indents,
std::string* output) {
std::optional<uint32_t> opt_proto_desc_idx = pool.FindDescriptorIdx(type);
const ProtoDescriptor* opt_proto_descriptor =
opt_proto_desc_idx ? &pool.descriptors()[*opt_proto_desc_idx] : nullptr;
const bool include_new_lines = new_lines_mode == kIncludeNewLines;
protozero::ProtoDecoder decoder(protobytes.data, protobytes.size);
for (auto field = decoder.ReadField(); field.valid();
field = decoder.ReadField()) {
if (!output->empty()) {
if (include_new_lines) {
StrAppend(output, "\n", *indents);
} else {
StrAppend(output, " ", *indents);
}
} else {
StrAppend(output, *indents);
}
auto* opt_field_descriptor =
opt_proto_descriptor ? opt_proto_descriptor->FindFieldByTag(field.id())
: nullptr;
switch (field.type()) {
case ProtoWireType::kVarInt:
PrintVarIntField(opt_field_descriptor, field, pool, output);
break;
case ProtoWireType::kLengthDelimited:
PrintLengthDelimitedField(opt_field_descriptor, field, new_lines_mode,
indents, pool, output);
break;
case ProtoWireType::kFixed32:
PrintFixed32Field(opt_field_descriptor, field, output);
break;
case ProtoWireType::kFixed64:
PrintFixed64Field(opt_field_descriptor, field, output);
break;
}
}
if (decoder.bytes_left() != 0) {
if (!output->empty()) {
if (include_new_lines) {
StrAppend(output, "\n", *indents);
} else {
StrAppend(output, " ", *indents);
}
}
StrAppend(
output, "# Extra bytes: ",
QuoteAndEscapeTextProtoString(base::StringView(
reinterpret_cast<const char*>(decoder.end() - decoder.bytes_left()),
decoder.bytes_left())),
"\n");
}
}
} // namespace
std::string ProtozeroToText(const DescriptorPool& pool,
const std::string& type,
protozero::ConstBytes protobytes,
NewLinesMode new_lines_mode,
uint32_t initial_indent_depth) {
std::string indent = std::string(2 * initial_indent_depth, ' ');
std::string final_result;
ProtozeroToTextInternal(type, protobytes, new_lines_mode, pool, &indent,
&final_result);
return final_result;
}
std::string DebugTrackEventProtozeroToText(const std::string& type,
protozero::ConstBytes protobytes) {
DescriptorPool pool;
auto status = pool.AddFromFileDescriptorSet(kTrackEventDescriptor.data(),
kTrackEventDescriptor.size());
PERFETTO_DCHECK(status.ok());
return ProtozeroToText(pool, type, protobytes, kIncludeNewLines);
}
std::string ShortDebugTrackEventProtozeroToText(
const std::string& type,
protozero::ConstBytes protobytes) {
DescriptorPool pool;
auto status = pool.AddFromFileDescriptorSet(kTrackEventDescriptor.data(),
kTrackEventDescriptor.size());
PERFETTO_DCHECK(status.ok());
return ProtozeroToText(pool, type, protobytes, kSkipNewLines);
}
std::string ProtozeroEnumToText(const std::string& type, int32_t enum_value) {
DescriptorPool pool;
auto status = pool.AddFromFileDescriptorSet(kTrackEventDescriptor.data(),
kTrackEventDescriptor.size());
PERFETTO_DCHECK(status.ok());
auto opt_enum_descriptor_idx = pool.FindDescriptorIdx(type);
if (!opt_enum_descriptor_idx) {
// Fall back to the integer representation of the field.
return std::to_string(enum_value);
}
auto opt_enum_string =
pool.descriptors()[*opt_enum_descriptor_idx].FindEnumString(enum_value);
if (!opt_enum_string) {
// Fall back to the integer representation of the field.
return std::to_string(enum_value);
}
return *opt_enum_string;
}
std::string ProtozeroToText(const DescriptorPool& pool,
const std::string& type,
const std::vector<uint8_t>& protobytes,
NewLinesMode new_lines_mode) {
return ProtozeroToText(
pool, type, protozero::ConstBytes{protobytes.data(), protobytes.size()},
new_lines_mode);
}
} // namespace protozero_to_text
} // namespace trace_processor
} // namespace perfetto