// // Copyright © 2017 Arm Ltd. All rights reserved. // SPDX-License-Identifier: MIT // #include "ProfilingUtils.hpp" #include #include #include #include #include namespace armnn { namespace profiling { uint16_t GetNextUid() { // Static mutex for reading and modifying the global UID a single thread at the time static std::mutex mutex; std::unique_lock lock(mutex); // The UID used for profiling objects and events. The first valid UID is 1, as 0 is a reserved value // (it is used to indicate that a record is not associated with any device) static uint16_t uid{ 0 }; // Check that it is possible to generate the next UID without causing an overflow if (uid == std::numeric_limits::max()) { throw RuntimeException("Generating the next UID for profiling would result in an overflow"); } // Thread safe increment, the value that is incremented is the value checked for overflow, // as this whole function is mutexed return ++uid; } void WriteUint64(unsigned char* buffer, unsigned int offset, uint64_t value) { BOOST_ASSERT(buffer); buffer[offset] = static_cast(value & 0xFF); buffer[offset + 1] = static_cast((value >> 8) & 0xFF); buffer[offset + 2] = static_cast((value >> 16) & 0xFF); buffer[offset + 3] = static_cast((value >> 24) & 0xFF); buffer[offset + 4] = static_cast((value >> 32) & 0xFF); buffer[offset + 5] = static_cast((value >> 40) & 0xFF); buffer[offset + 6] = static_cast((value >> 48) & 0xFF); buffer[offset + 7] = static_cast((value >> 56) & 0xFF); } void WriteUint32(unsigned char* buffer, unsigned int offset, uint32_t value) { BOOST_ASSERT(buffer); buffer[offset] = static_cast(value & 0xFF); buffer[offset + 1] = static_cast((value >> 8) & 0xFF); buffer[offset + 2] = static_cast((value >> 16) & 0xFF); buffer[offset + 3] = static_cast((value >> 24) & 0xFF); } void WriteUint16(unsigned char* buffer, unsigned int offset, uint16_t value) { BOOST_ASSERT(buffer); buffer[offset] = static_cast(value & 0xFF); buffer[offset + 1] = static_cast((value >> 8) & 0xFF); } uint64_t ReadUint64(const unsigned char* buffer, unsigned int offset) { BOOST_ASSERT(buffer); uint64_t value = 0; value = static_cast(buffer[offset]); value |= static_cast(buffer[offset + 1]) << 8; value |= static_cast(buffer[offset + 2]) << 16; value |= static_cast(buffer[offset + 3]) << 24; value |= static_cast(buffer[offset + 4]) << 32; value |= static_cast(buffer[offset + 5]) << 40; value |= static_cast(buffer[offset + 6]) << 48; value |= static_cast(buffer[offset + 7]) << 56; return value; } uint32_t ReadUint32(const unsigned char* buffer, unsigned int offset) { BOOST_ASSERT(buffer); uint32_t value = 0; value = static_cast(buffer[offset]); value |= static_cast(buffer[offset + 1]) << 8; value |= static_cast(buffer[offset + 2]) << 16; value |= static_cast(buffer[offset + 3]) << 24; return value; } uint16_t ReadUint16(const unsigned char* buffer, unsigned int offset) { BOOST_ASSERT(buffer); uint32_t value = 0; value = static_cast(buffer[offset]); value |= static_cast(buffer[offset + 1]) << 8; return static_cast(value); } std::string GetSoftwareInfo() { return std::string("ArmNN"); } std::string GetHardwareVersion() { return std::string(); } std::string GetSoftwareVersion() { std::string armnnVersion(ARMNN_VERSION); std::string result = "Armnn " + armnnVersion.substr(2,2) + "." + armnnVersion.substr(4,2); return result; } std::string GetProcessName() { std::ifstream comm("/proc/self/comm"); std::string name; getline(comm, name); return name; } } // namespace profiling } // namespace armnn