# Logging Mechanisms HIP provides a logging mechanism, which is a convenient way of printing important information so as to trace HIP API and runtime codes during the execution of HIP application. It assists HIP development team in the development of HIP runtime, and is useful for HIP application developers as well. Depending on the setting of logging level and logging mask, HIP logging will print different kinds of information, for different types of functionalities such as HIP APIs, executed kernels, queue commands and queue contents, etc. ## HIP Logging Level: By default, HIP logging is disabled, it can be enabled via the `AMD_LOG_LEVEL` environment variable. The value controls the logging level. The levels are defined as: ```cpp enum LogLevel { LOG_NONE = 0, LOG_ERROR = 1, LOG_WARNING = 2, LOG_INFO = 3, LOG_DEBUG = 4 }; ``` ## HIP Logging Mask: Logging mask is designed to print types of functionalities during the execution of HIP application. It can be set as one of the following values, ```cpp enum LogMask { LOG_API = 1, //!< (0x1) API call LOG_CMD = 2, //!< (0x2) Kernel and Copy Commands and Barriers LOG_WAIT = 4, //!< (0x4) Synchronization and waiting for commands to finish LOG_AQL = 8, //!< (0x8) Decode and display AQL packets LOG_QUEUE = 16, //!< (0x10) Queue commands and queue contents LOG_SIG = 32, //!< (0x20) Signal creation, allocation, pool LOG_LOCK = 64, //!< (0x40) Locks and thread-safety code. LOG_KERN = 128, //!< (0x80) Kernel creations and arguments, etc. LOG_COPY = 256, //!< (0x100) Copy debug LOG_COPY2 = 512, //!< (0x200) Detailed copy debug LOG_RESOURCE = 1024, //!< (0x400) Resource allocation, performance-impacting events. LOG_INIT = 2048, //!< (0x800) Initialization and shutdown LOG_MISC = 4096, //!< (0x1000) Misc debug, not yet classified LOG_AQL2 = 8192, //!< (0x2000) Show raw bytes of AQL packet LOG_CODE = 16384, //!< (0x4000) Show code creation debug LOG_CMD2 = 32768, //!< (0x8000) More detailed command info, including barrier commands LOG_LOCATION = 65536, //!< (0x10000) Log message location LOG_MEM = 131072, //!< (0x20000) Memory allocation LOG_MEM_POOL = 262144, //!< (0x40000) Memory pool allocation, including memory in graphs LOG_ALWAYS = -1 //!< (0xFFFFFFFF) Log always even mask flag is zero }; ``` Once `AMD_LOG_LEVEL` is set, logging mask is set as default with the value `-1`. However, for different purpose of logging functionalities, logging mask can be defined as well via environment variable `AMD_LOG_MASK` ## HIP Logging command: To pring HIP logging information, the function is defined as ```cpp #define ClPrint(level, mask, format, ...) \ do { \ if (AMD_LOG_LEVEL >= level) { \ if (AMD_LOG_MASK & mask || mask == amd::LOG_ALWAYS) { \ if (AMD_LOG_MASK & amd::LOG_LOCATION) { \ amd::log_printf(level, __FILENAME__, __LINE__, format, ##__VA_ARGS__);\ } else { \ amd::log_printf(level, "", 0, format, ##__VA_ARGS__); \ } \ } \ } \ } while (false) ``` So in HIP code, call `ClPrint()` function with proper input varibles as needed, for example, ```cpp ClPrint(amd::LOG_INFO, amd::LOG_INIT, "Initializing HSA stack."); ``` ## HIP Logging Example: Below is an example to enable HIP logging and get logging information during execution of hipinfo on Linux, ```console user@user-test:~/hip/bin$ export AMD_LOG_LEVEL=4 user@user-test:~/hip/bin$ ./hipinfo :3:rocdevice.cpp :453 : 23647210092: Initializing HSA stack. :3:comgrctx.cpp :33 : 23647639336: Loading COMGR library. :3:rocdevice.cpp :203 : 23647687108: Numa select cpu agent[0]=0x13407c0(fine=0x13409a0,coarse=0x1340ad0) for gpu agent=0x1346150 :4:runtime.cpp :82 : 23647698669: init :3:hip_device_runtime.cpp :473 : 23647698869: 5617 : [7fad295dd840] hipGetDeviceCount: Returned hipSuccess :3:hip_device_runtime.cpp :502 : 23647698990: 5617 : [7fad295dd840] hipSetDevice ( 0 ) :3:hip_device_runtime.cpp :507 : 23647699042: 5617 : [7fad295dd840] hipSetDevice: Returned hipSuccess -------------------------------------------------------------------------------- device# 0 :3:hip_device.cpp :150 : 23647699276: 5617 : [7fad295dd840] hipGetDeviceProperties ( 0x7ffdbe7db730, 0 ) :3:hip_device.cpp :237 : 23647699335: 5617 : [7fad295dd840] hipGetDeviceProperties: Returned hipSuccess Name: Device 7341 pciBusID: 3 pciDeviceID: 0 pciDomainID: 0 multiProcessorCount: 11 maxThreadsPerMultiProcessor: 2560 isMultiGpuBoard: 0 clockRate: 1900 Mhz memoryClockRate: 875 Mhz memoryBusWidth: 0 clockInstructionRate: 1000 Mhz totalGlobalMem: 7.98 GB maxSharedMemoryPerMultiProcessor: 64.00 KB totalConstMem: 8573157376 sharedMemPerBlock: 64.00 KB canMapHostMemory: 1 regsPerBlock: 0 warpSize: 32 l2CacheSize: 0 computeMode: 0 maxThreadsPerBlock: 1024 maxThreadsDim.x: 1024 maxThreadsDim.y: 1024 maxThreadsDim.z: 1024 maxGridSize.x: 2147483647 maxGridSize.y: 2147483647 maxGridSize.z: 2147483647 major: 10 minor: 12 concurrentKernels: 1 cooperativeLaunch: 0 cooperativeMultiDeviceLaunch: 0 arch.hasGlobalInt32Atomics: 1 ... gcnArch: 1012 isIntegrated: 0 maxTexture1D: 65536 maxTexture2D.width: 16384 maxTexture2D.height: 16384 maxTexture3D.width: 2048 maxTexture3D.height: 2048 maxTexture3D.depth: 2048 isLargeBar: 0 :3:hip_device_runtime.cpp :471 : 23647701557: 5617 : [7fad295dd840] hipGetDeviceCount ( 0x7ffdbe7db714 ) :3:hip_device_runtime.cpp :473 : 23647701608: 5617 : [7fad295dd840] hipGetDeviceCount: Returned hipSuccess :3:hip_peer.cpp :76 : 23647701731: 5617 : [7fad295dd840] hipDeviceCanAccessPeer ( 0x7ffdbe7db728, 0, 0 ) :3:hip_peer.cpp :60 : 23647701784: 5617 : [7fad295dd840] canAccessPeer: Returned hipSuccess :3:hip_peer.cpp :77 : 23647701831: 5617 : [7fad295dd840] hipDeviceCanAccessPeer: Returned hipSuccess peers: :3:hip_peer.cpp :76 : 23647701921: 5617 : [7fad295dd840] hipDeviceCanAccessPeer ( 0x7ffdbe7db728, 0, 0 ) :3:hip_peer.cpp :60 : 23647701965: 5617 : [7fad295dd840] canAccessPeer: Returned hipSuccess :3:hip_peer.cpp :77 : 23647701998: 5617 : [7fad295dd840] hipDeviceCanAccessPeer: Returned hipSuccess non-peers: device#0 :3:hip_memory.cpp :345 : 23647702191: 5617 : [7fad295dd840] hipMemGetInfo ( 0x7ffdbe7db718, 0x7ffdbe7db720 ) :3:hip_memory.cpp :360 : 23647702243: 5617 : [7fad295dd840] hipMemGetInfo: Returned hipSuccess memInfo.total: 7.98 GB memInfo.free: 7.98 GB (100%) ``` On Windows, AMD_LOG_LEVEL can be set via environment variable from advanced system setting, or from Command prompt run as administrator, as shown below as an example, which shows some debug log information calling backend runtime on Windows. ``` C:\hip\bin>set AMD_LOG_LEVEL=4 C:\hip\bin>hipinfo :3:C:\constructicon\builds\gfx\two\22.40\drivers\compute\vdi\device\comgrctx.cpp:33 : 605413686305 us: 29864: [tid:0x9298] Loading COMGR library. :4:C:\constructicon\builds\gfx\two\22.40\drivers\compute\vdi\platform\runtime.cpp:83 : 605413869411 us: 29864: [tid:0x9298] init :3:C:\constructicon\builds\gfx\two\22.40\drivers\compute\hipamd\src\hip_context.cpp:47 : 605413869502 us: 29864: [tid:0x9298] Direct Dispatch: 0 :3:C:\constructicon\builds\gfx\two\22.40\drivers\compute\hipamd\src\hip_device_runtime.cpp:543 : 605413870553 us: 29864: [tid:0x9298] hipGetDeviceCount: Returned hipSuccess : :3:C:\constructicon\builds\gfx\two\22.40\drivers\compute\hipamd\src\hip_device_runtime.cpp:556 : 605413870631 us: 29864: [tid:0x9298] ←[32m hipSetDevice ( 0 ) ←[0m :3:C:\constructicon\builds\gfx\two\22.40\drivers\compute\hipamd\src\hip_device_runtime.cpp:561 : 605413870848 us: 29864: [tid:0x9298] hipSetDevice: Returned hipSuccess : -------------------------------------------------------------------------------- device# 0 :3:C:\constructicon\builds\gfx\two\22.40\drivers\compute\hipamd\src\hip_device.cpp:346 : 605413871623 us: 29864: [tid:0x9298] ←[32m hipGetDeviceProperties ( 0000008AEBEFF8C8, 0 ) ←[0m :3:C:\constructicon\builds\gfx\two\22.40\drivers\compute\hipamd\src\hip_device.cpp:348 : 605413871695 us: 29864: [tid:0x9298] hipGetDeviceProperties: Returned hipSuccess : Name: AMD Radeon(TM) Graphics pciBusID: 3 pciDeviceID: 0 pciDomainID: 0 multiProcessorCount: 7 maxThreadsPerMultiProcessor: 2560 isMultiGpuBoard: 0 clockRate: 1600 Mhz memoryClockRate: 1333 Mhz memoryBusWidth: 0 totalGlobalMem: 12.06 GB totalConstMem: 2147483647 sharedMemPerBlock: 64.00 KB ... gcnArchName: gfx90c:xnack- :3:C:\constructicon\builds\gfx\two\22.40\drivers\compute\hipamd\src\hip_device_runtime.cpp:541 : 605413924779 us: 29864: [tid:0x9298] ←[32m hipGetDeviceCount ( 0000008AEBEFF8A4 ) ←[0m :3:C:\constructicon\builds\gfx\two\22.40\drivers\compute\hipamd\src\hip_device_runtime.cpp:543 : 605413925075 us: 29864: [tid:0x9298] hipGetDeviceCount: Returned hipSuccess : peers: :3:C:\constructicon\builds\gfx\two\22.40\drivers\compute\hipamd\src\hip_peer.cpp:176 : 605413928643 us: 29864: [tid:0x9298] ←[32m hipDeviceCanAccessPeer ( 0000008AEBEFF890, 0, 0 ) ←[0m :3:C:\constructicon\builds\gfx\two\22.40\drivers\compute\hipamd\src\hip_peer.cpp:177 : 605413928743 us: 29864: [tid:0x9298] hipDeviceCanAccessPeer: Returned hipSuccess : non-peers: :3:C:\constructicon\builds\gfx\two\22.40\drivers\compute\hipamd\src\hip_peer.cpp:176 : 605413930830 us: 29864: [tid:0x9298] ←[32m hipDeviceCanAccessPeer ( 0000008AEBEFF890, 0, 0 ) ←[0m :3:C:\constructicon\builds\gfx\two\22.40\drivers\compute\hipamd\src\hip_peer.cpp:177 : 605413930882 us: 29864: [tid:0x9298] hipDeviceCanAccessPeer: Returned hipSuccess : device#0 ... :4:C:\constructicon\builds\gfx\two\22.40\drivers\compute\vdi\device\pal\palmemory.cpp:430 : 605414517802 us: 29864: [tid:0x9298] Free-: 8000 bytes, VM[ 3007c8000, 3007d0000] :3:C:\constructicon\builds\gfx\two\22.40\drivers\compute\vdi\device\devprogram.cpp:2979: 605414517893 us: 29864: [tid:0x9298] For Init/Fini: Kernel Name: __amd_rocclr_copyBufferToImage :3:C:\constructicon\builds\gfx\two\22.40\drivers\compute\vdi\device\devprogram.cpp:2979: 605414518259 us: 29864: [tid:0x9298] For Init/Fini: Kernel Name: __amd_rocclr_copyBuffer ... :4:C:\constructicon\builds\gfx\two\22.40\drivers\compute\vdi\device\pal\palmemory.cpp:206 : 605414523422 us: 29864: [tid:0x9298] Alloc: 100000 bytes, ptr[00000003008D0000-00000003009D0000], obj[00000003007D0000-00000003047D0000] :4:C:\constructicon\builds\gfx\two\22.40\drivers\compute\vdi\device\pal\palmemory.cpp:206 : 605414523767 us: 29864: [tid:0x9298] Alloc: 100000 bytes, ptr[00000003009D0000-0000000300AD0000], obj[00000003007D0000-00000003047D0000] :3:C:\constructicon\builds\gfx\two\22.40\drivers\compute\hipamd\src\hip_memory.cpp:681 : 605414524092 us: 29864: [tid:0x9298] hipMemGetInfo: Returned hipSuccess : memInfo.total: 12.06 GB memInfo.free: 11.93 GB (99%) ``` ## HIP Logging Tips: - HIP logging works for both release and debug version of HIP application. - Logging function with different logging level can be called in the code as needed. - Information with logging level less than AMD_LOG_LEVEL will be printed. - If need to save the HIP logging output information in a file, just define the file at the command when run the application at the terminal, for example, ```console user@user-test:~/hip/bin$ ./hipinfo > ~/hip_log.txt ```