third_party/perfetto/src/profiling/memory/wire_protocol.h - cobalt - Git at Google

 /*
  * Copyright (C) 2018 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.
  */

 // The data types used for communication between heapprofd and the client
 // embedded in processes that are being profiled.

 #ifndef SRC_PROFILING_MEMORY_WIRE_PROTOCOL_H_
 #define SRC_PROFILING_MEMORY_WIRE_PROTOCOL_H_

 #include <cinttypes>

 #include <unwindstack/Elf.h>
 #include <unwindstack/MachineArm.h>
 #include <unwindstack/MachineArm64.h>
 #include <unwindstack/MachineMips.h>
 #include <unwindstack/MachineMips64.h>
 #include <unwindstack/MachineRiscv64.h>
 #include <unwindstack/MachineX86.h>
 #include <unwindstack/MachineX86_64.h>

 #include "perfetto/heap_profile.h"
 #include "src/profiling/memory/shared_ring_buffer.h"
 #include "src/profiling/memory/util.h"

 namespace perfetto {

 namespace base {
 class UnixSocketRaw;
 }

 namespace profiling {

 // C++11 std::max is not constexpr.
 constexpr size_t constexpr_max(size_t x, size_t y) {
   return x > y ? x : y;
 }

 // clang-format makes this unreadable. Turning it off for this block.
 // clang-format off
 constexpr size_t kMaxRegisterDataSize =
   constexpr_max(
     constexpr_max(
       constexpr_max(
         constexpr_max(
           constexpr_max(
               constexpr_max(
                 sizeof(uint32_t) * unwindstack::ARM_REG_LAST,
                 sizeof(uint64_t) * unwindstack::ARM64_REG_LAST),
               sizeof(uint32_t) * unwindstack::X86_REG_LAST),
             sizeof(uint64_t) * unwindstack::X86_64_REG_LAST),
           sizeof(uint32_t) * unwindstack::MIPS_REG_LAST),
         sizeof(uint64_t) * unwindstack::MIPS64_REG_LAST),
       sizeof(uint64_t) * unwindstack::RISCV64_REG_MAX
   );
 // clang-format on

 // Types needed for the wire format used for communication between the client
 // and heapprofd. The basic format of a record sent by the client is
 // record size (uint64_t) | record type (RecordType = uint64_t) | record
 // If record type is Malloc, the record format is AllocMetdata | raw stack.
 // If the record type is Free, the record is a FreeEntry.
 // If record type is HeapName, the record is a HeapName.
 // On connect, heapprofd sends one ClientConfiguration struct over the control
 // socket.

 // Use uint64_t to make sure the following data is aligned as 64bit is the
 // strongest alignment requirement.

 struct ClientConfigurationHeap {
   char name[HEAPPROFD_HEAP_NAME_SZ];
   PERFETTO_CROSS_ABI_ALIGNED(uint64_t) interval;
 };

 struct ClientConfiguration {
   // On average, sample one allocation every interval bytes,
   // If interval == 1, sample every allocation.
   // Must be >= 1.
   PERFETTO_CROSS_ABI_ALIGNED(uint64_t) default_interval;
   PERFETTO_CROSS_ABI_ALIGNED(uint64_t) block_client_timeout_us;
   PERFETTO_CROSS_ABI_ALIGNED(uint64_t) num_heaps;
   PERFETTO_CROSS_ABI_ALIGNED(uint64_t) adaptive_sampling_shmem_threshold;
   PERFETTO_CROSS_ABI_ALIGNED(uint64_t)
   adaptive_sampling_max_sampling_interval_bytes;
   alignas(8) ClientConfigurationHeap heaps[64];
   PERFETTO_CROSS_ABI_ALIGNED(bool) block_client;
   PERFETTO_CROSS_ABI_ALIGNED(bool) disable_fork_teardown;
   PERFETTO_CROSS_ABI_ALIGNED(bool) disable_vfork_detection;
   PERFETTO_CROSS_ABI_ALIGNED(bool) all_heaps;
   // Just double check that the array sizes are in correct order.
 };

 enum class RecordType : uint64_t {
   Free = 0,
   Malloc = 1,
   HeapName = 2,
 };

 // Make the whole struct 8-aligned. This is to make sizeof(AllocMetdata)
 // the same on 32 and 64-bit.
 struct alignas(8) AllocMetadata {
   PERFETTO_CROSS_ABI_ALIGNED(uint64_t) sequence_number;
   // Size of the allocation that was made.
   PERFETTO_CROSS_ABI_ALIGNED(uint64_t) alloc_size;
   // Total number of bytes attributed to this allocation.
   PERFETTO_CROSS_ABI_ALIGNED(uint64_t) sample_size;
   // Pointer returned by malloc(2) for this allocation.
   PERFETTO_CROSS_ABI_ALIGNED(uint64_t) alloc_address;
   // Current value of the stack pointer.
   PERFETTO_CROSS_ABI_ALIGNED(uint64_t) stack_pointer;
   PERFETTO_CROSS_ABI_ALIGNED(uint64_t) clock_monotonic_coarse_timestamp;
   // unwindstack::AsmGetRegs assumes this is aligned.
   alignas(8) char register_data[kMaxRegisterDataSize];
   PERFETTO_CROSS_ABI_ALIGNED(uint32_t) heap_id;
   // CPU architecture of the client.
   PERFETTO_CROSS_ABI_ALIGNED(unwindstack::ArchEnum) arch;
 };

 struct FreeEntry {
   PERFETTO_CROSS_ABI_ALIGNED(uint64_t) sequence_number;
   PERFETTO_CROSS_ABI_ALIGNED(uint64_t) addr;
   PERFETTO_CROSS_ABI_ALIGNED(uint32_t) heap_id;
 };

 struct HeapName {
   PERFETTO_CROSS_ABI_ALIGNED(uint64_t) sample_interval;
   PERFETTO_CROSS_ABI_ALIGNED(uint32_t) heap_id;
   PERFETTO_CROSS_ABI_ALIGNED(char) heap_name[HEAPPROFD_HEAP_NAME_SZ];
 };

 // Make sure the sizes do not change on different architectures.
 static_assert(sizeof(AllocMetadata) == 328,
               "AllocMetadata needs to be the same size across ABIs.");
 static_assert(sizeof(FreeEntry) == 24,
               "FreeEntry needs to be the same size across ABIs.");
 static_assert(sizeof(HeapName) == 80,
               "HeapName needs to be the same size across ABIs.");
 static_assert(sizeof(ClientConfiguration) == 4656,
               "ClientConfiguration needs to be the same size across ABIs.");

 enum HandshakeFDs : size_t {
   kHandshakeMaps = 0,
   kHandshakeMem,
   kHandshakeSize,
 };

 struct WireMessage {
   RecordType record_type;

   AllocMetadata* alloc_header;
   FreeEntry* free_header;
   HeapName* heap_name_header;

   char* payload;
   size_t payload_size;
 };

 int64_t SendWireMessage(SharedRingBuffer* buf, const WireMessage& msg);

 // Parse message received over the wire.
 // |buf| has to outlive |out|.
 // If buf is not a valid message, return false.
 bool ReceiveWireMessage(char* buf, size_t size, WireMessage* out);

 uint64_t GetHeapSamplingInterval(const ClientConfiguration& cli_config,
                                  const char* heap_name);

 constexpr const char* kHeapprofdSocketEnvVar = "ANDROID_SOCKET_heapprofd";
 constexpr const char* kHeapprofdSocketFile = "/dev/socket/heapprofd";

 }  // namespace profiling
 }  // namespace perfetto

 #endif  // SRC_PROFILING_MEMORY_WIRE_PROTOCOL_H_
	/*
	* Copyright (C) 2018 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.
	*/

	// The data types used for communication between heapprofd and the client
	// embedded in processes that are being profiled.

	#ifndef SRC_PROFILING_MEMORY_WIRE_PROTOCOL_H_
	#define SRC_PROFILING_MEMORY_WIRE_PROTOCOL_H_

	#include <cinttypes>

	#include <unwindstack/Elf.h>
	#include <unwindstack/MachineArm.h>
	#include <unwindstack/MachineArm64.h>
	#include <unwindstack/MachineMips.h>
	#include <unwindstack/MachineMips64.h>
	#include <unwindstack/MachineRiscv64.h>
	#include <unwindstack/MachineX86.h>
	#include <unwindstack/MachineX86_64.h>

	#include "perfetto/heap_profile.h"
	#include "src/profiling/memory/shared_ring_buffer.h"
	#include "src/profiling/memory/util.h"

	namespace perfetto {

	namespace base {
	class UnixSocketRaw;
	}

	namespace profiling {

	// C++11 std::max is not constexpr.
	constexpr size_t constexpr_max(size_t x, size_t y) {
	return x > y ? x : y;
	}

	// clang-format makes this unreadable. Turning it off for this block.
	// clang-format off
	constexpr size_t kMaxRegisterDataSize =
	constexpr_max(
	constexpr_max(
	constexpr_max(
	constexpr_max(
	constexpr_max(
	constexpr_max(
	sizeof(uint32_t) * unwindstack::ARM_REG_LAST,
	sizeof(uint64_t) * unwindstack::ARM64_REG_LAST),
	sizeof(uint32_t) * unwindstack::X86_REG_LAST),
	sizeof(uint64_t) * unwindstack::X86_64_REG_LAST),
	sizeof(uint32_t) * unwindstack::MIPS_REG_LAST),
	sizeof(uint64_t) * unwindstack::MIPS64_REG_LAST),
	sizeof(uint64_t) * unwindstack::RISCV64_REG_MAX
	);
	// clang-format on

	// Types needed for the wire format used for communication between the client
	// and heapprofd. The basic format of a record sent by the client is
	// record size (uint64_t) \| record type (RecordType = uint64_t) \| record
	// If record type is Malloc, the record format is AllocMetdata \| raw stack.
	// If the record type is Free, the record is a FreeEntry.
	// If record type is HeapName, the record is a HeapName.
	// On connect, heapprofd sends one ClientConfiguration struct over the control
	// socket.

	// Use uint64_t to make sure the following data is aligned as 64bit is the
	// strongest alignment requirement.

	struct ClientConfigurationHeap {
	char name[HEAPPROFD_HEAP_NAME_SZ];
	PERFETTO_CROSS_ABI_ALIGNED(uint64_t) interval;
	};

	struct ClientConfiguration {
	// On average, sample one allocation every interval bytes,
	// If interval == 1, sample every allocation.
	// Must be >= 1.
	PERFETTO_CROSS_ABI_ALIGNED(uint64_t) default_interval;
	PERFETTO_CROSS_ABI_ALIGNED(uint64_t) block_client_timeout_us;
	PERFETTO_CROSS_ABI_ALIGNED(uint64_t) num_heaps;
	PERFETTO_CROSS_ABI_ALIGNED(uint64_t) adaptive_sampling_shmem_threshold;
	PERFETTO_CROSS_ABI_ALIGNED(uint64_t)
	adaptive_sampling_max_sampling_interval_bytes;
	alignas(8) ClientConfigurationHeap heaps[64];
	PERFETTO_CROSS_ABI_ALIGNED(bool) block_client;
	PERFETTO_CROSS_ABI_ALIGNED(bool) disable_fork_teardown;
	PERFETTO_CROSS_ABI_ALIGNED(bool) disable_vfork_detection;
	PERFETTO_CROSS_ABI_ALIGNED(bool) all_heaps;
	// Just double check that the array sizes are in correct order.
	};

	enum class RecordType : uint64_t {
	Free = 0,
	Malloc = 1,
	HeapName = 2,
	};

	// Make the whole struct 8-aligned. This is to make sizeof(AllocMetdata)
	// the same on 32 and 64-bit.
	struct alignas(8) AllocMetadata {
	PERFETTO_CROSS_ABI_ALIGNED(uint64_t) sequence_number;
	// Size of the allocation that was made.
	PERFETTO_CROSS_ABI_ALIGNED(uint64_t) alloc_size;
	// Total number of bytes attributed to this allocation.
	PERFETTO_CROSS_ABI_ALIGNED(uint64_t) sample_size;
	// Pointer returned by malloc(2) for this allocation.
	PERFETTO_CROSS_ABI_ALIGNED(uint64_t) alloc_address;
	// Current value of the stack pointer.
	PERFETTO_CROSS_ABI_ALIGNED(uint64_t) stack_pointer;
	PERFETTO_CROSS_ABI_ALIGNED(uint64_t) clock_monotonic_coarse_timestamp;
	// unwindstack::AsmGetRegs assumes this is aligned.
	alignas(8) char register_data[kMaxRegisterDataSize];
	PERFETTO_CROSS_ABI_ALIGNED(uint32_t) heap_id;
	// CPU architecture of the client.
	PERFETTO_CROSS_ABI_ALIGNED(unwindstack::ArchEnum) arch;
	};

	struct FreeEntry {
	PERFETTO_CROSS_ABI_ALIGNED(uint64_t) sequence_number;
	PERFETTO_CROSS_ABI_ALIGNED(uint64_t) addr;
	PERFETTO_CROSS_ABI_ALIGNED(uint32_t) heap_id;
	};

	struct HeapName {
	PERFETTO_CROSS_ABI_ALIGNED(uint64_t) sample_interval;
	PERFETTO_CROSS_ABI_ALIGNED(uint32_t) heap_id;
	PERFETTO_CROSS_ABI_ALIGNED(char) heap_name[HEAPPROFD_HEAP_NAME_SZ];
	};

	// Make sure the sizes do not change on different architectures.
	static_assert(sizeof(AllocMetadata) == 328,
	"AllocMetadata needs to be the same size across ABIs.");
	static_assert(sizeof(FreeEntry) == 24,
	"FreeEntry needs to be the same size across ABIs.");
	static_assert(sizeof(HeapName) == 80,
	"HeapName needs to be the same size across ABIs.");
	static_assert(sizeof(ClientConfiguration) == 4656,
	"ClientConfiguration needs to be the same size across ABIs.");

	enum HandshakeFDs : size_t {
	kHandshakeMaps = 0,
	kHandshakeMem,
	kHandshakeSize,
	};

	struct WireMessage {
	RecordType record_type;

	AllocMetadata* alloc_header;
	FreeEntry* free_header;
	HeapName* heap_name_header;

	char* payload;
	size_t payload_size;
	};

	int64_t SendWireMessage(SharedRingBuffer* buf, const WireMessage& msg);

	// Parse message received over the wire.
	// \|buf\| has to outlive \|out\|.
	// If buf is not a valid message, return false.
	bool ReceiveWireMessage(char* buf, size_t size, WireMessage* out);

	uint64_t GetHeapSamplingInterval(const ClientConfiguration& cli_config,
	const char* heap_name);

	constexpr const char* kHeapprofdSocketEnvVar = "ANDROID_SOCKET_heapprofd";
	constexpr const char* kHeapprofdSocketFile = "/dev/socket/heapprofd";

	} // namespace profiling
	} // namespace perfetto

	#endif // SRC_PROFILING_MEMORY_WIRE_PROTOCOL_H_