1d4897e19SAndi Kleenperf.data format 2d4897e19SAndi Kleen 3d4897e19SAndi KleenUptodate as of v4.7 4d4897e19SAndi Kleen 5d4897e19SAndi KleenThis document describes the on-disk perf.data format, generated by perf record 6d4897e19SAndi Kleenor perf inject and consumed by the other perf tools. 7d4897e19SAndi Kleen 8d4897e19SAndi KleenOn a high level perf.data contains the events generated by the PMUs, plus metadata. 9d4897e19SAndi Kleen 10d4897e19SAndi KleenAll fields are in native-endian of the machine that generated the perf.data. 11d4897e19SAndi Kleen 12d4897e19SAndi KleenWhen perf is writing to a pipe it uses a special version of the file 13d4897e19SAndi Kleenformat that does not rely on seeking to adjust data offsets. This 146d13491eSDavid Carrillo-Cisnerosformat is described in "Pipe-mode data" section. The pipe data version can be 156d13491eSDavid Carrillo-Cisnerosaugmented with additional events using perf inject. 16d4897e19SAndi Kleen 17d4897e19SAndi KleenThe file starts with a perf_header: 18d4897e19SAndi Kleen 19d4897e19SAndi Kleenstruct perf_header { 20d4897e19SAndi Kleen char magic[8]; /* PERFILE2 */ 21d4897e19SAndi Kleen uint64_t size; /* size of the header */ 22d4897e19SAndi Kleen uint64_t attr_size; /* size of an attribute in attrs */ 23d4897e19SAndi Kleen struct perf_file_section attrs; 24d4897e19SAndi Kleen struct perf_file_section data; 25d4897e19SAndi Kleen struct perf_file_section event_types; 26d4897e19SAndi Kleen uint64_t flags; 27d4897e19SAndi Kleen uint64_t flags1[3]; 28d4897e19SAndi Kleen}; 29d4897e19SAndi Kleen 30d4897e19SAndi KleenThe magic number identifies the perf file and the version. Current perf versions 31d4897e19SAndi Kleenuse PERFILE2. Old perf versions generated a version 1 format (PERFFILE). Version 1 32d4897e19SAndi Kleenis not described here. The magic number also identifies the endian. When the 33d4897e19SAndi Kleenmagic value is 64bit byte swapped compared the file is in non-native 34d4897e19SAndi Kleenendian. 35d4897e19SAndi Kleen 36d4897e19SAndi KleenA perf_file_section contains a pointer to another section of the perf file. 37d4897e19SAndi KleenThe header contains three such pointers: for attributes, data and event types. 38d4897e19SAndi Kleen 39d4897e19SAndi Kleenstruct perf_file_section { 40d4897e19SAndi Kleen uint64_t offset; /* offset from start of file */ 41d4897e19SAndi Kleen uint64_t size; /* size of the section */ 42d4897e19SAndi Kleen}; 43d4897e19SAndi Kleen 44d4897e19SAndi KleenFlags section: 45d4897e19SAndi Kleen 46d4897e19SAndi KleenThe header is followed by different optional headers, described by the bits set 47d4897e19SAndi Kleenin flags. Only headers for which the bit is set are included. Each header 48d4897e19SAndi Kleenconsists of a perf_file_section located after the initial header. 49d4897e19SAndi KleenThe respective perf_file_section points to the data of the additional 50d4897e19SAndi Kleenheader and defines its size. 51d4897e19SAndi Kleen 52d4897e19SAndi KleenSome headers consist of strings, which are defined like this: 53d4897e19SAndi Kleen 54d4897e19SAndi Kleenstruct perf_header_string { 55d4897e19SAndi Kleen uint32_t len; 56d4897e19SAndi Kleen char string[len]; /* zero terminated */ 57d4897e19SAndi Kleen}; 58d4897e19SAndi Kleen 59d4897e19SAndi KleenSome headers consist of a sequence of strings, which start with a 60d4897e19SAndi Kleen 61d4897e19SAndi Kleenstruct perf_header_string_list { 62d4897e19SAndi Kleen uint32_t nr; 63d4897e19SAndi Kleen struct perf_header_string strings[nr]; /* variable length records */ 64d4897e19SAndi Kleen}; 65d4897e19SAndi Kleen 66d4897e19SAndi KleenThe bits are the flags bits in a 256 bit bitmap starting with 67d4897e19SAndi Kleenflags. These define the valid bits: 68d4897e19SAndi Kleen 69d4897e19SAndi Kleen HEADER_RESERVED = 0, /* always cleared */ 70d4897e19SAndi Kleen HEADER_FIRST_FEATURE = 1, 71d4897e19SAndi Kleen HEADER_TRACING_DATA = 1, 72d4897e19SAndi Kleen 73d4897e19SAndi KleenDescribe me. 74d4897e19SAndi Kleen 75d4897e19SAndi Kleen HEADER_BUILD_ID = 2, 76d4897e19SAndi Kleen 77d4897e19SAndi KleenThe header consists of an sequence of build_id_event. The size of each record 78d4897e19SAndi Kleenis defined by header.size (see perf_event.h). Each event defines a ELF build id 79d4897e19SAndi Kleenfor a executable file name for a pid. An ELF build id is a unique identifier 80d4897e19SAndi Kleenassigned by the linker to an executable. 81d4897e19SAndi Kleen 82d4897e19SAndi Kleenstruct build_id_event { 83d4897e19SAndi Kleen struct perf_event_header header; 84d4897e19SAndi Kleen pid_t pid; 85d4897e19SAndi Kleen uint8_t build_id[24]; 86d4897e19SAndi Kleen char filename[header.size - offsetof(struct build_id_event, filename)]; 87d4897e19SAndi Kleen}; 88d4897e19SAndi Kleen 89d4897e19SAndi Kleen HEADER_HOSTNAME = 3, 90d4897e19SAndi Kleen 91d4897e19SAndi KleenA perf_header_string with the hostname where the data was collected 92d4897e19SAndi Kleen(uname -n) 93d4897e19SAndi Kleen 94d4897e19SAndi Kleen HEADER_OSRELEASE = 4, 95d4897e19SAndi Kleen 96d4897e19SAndi KleenA perf_header_string with the os release where the data was collected 97d4897e19SAndi Kleen(uname -r) 98d4897e19SAndi Kleen 99d4897e19SAndi Kleen HEADER_VERSION = 5, 100d4897e19SAndi Kleen 101d4897e19SAndi KleenA perf_header_string with the perf user tool version where the 102d4897e19SAndi Kleendata was collected. This is the same as the version of the source tree 103d4897e19SAndi Kleenthe perf tool was built from. 104d4897e19SAndi Kleen 105d4897e19SAndi Kleen HEADER_ARCH = 6, 106d4897e19SAndi Kleen 107d4897e19SAndi KleenA perf_header_string with the CPU architecture (uname -m) 108d4897e19SAndi Kleen 109d4897e19SAndi Kleen HEADER_NRCPUS = 7, 110d4897e19SAndi Kleen 111d4897e19SAndi KleenA structure defining the number of CPUs. 112d4897e19SAndi Kleen 113d4897e19SAndi Kleenstruct nr_cpus { 114d4897e19SAndi Kleen uint32_t nr_cpus_online; 115d4897e19SAndi Kleen uint32_t nr_cpus_available; /* CPUs not yet onlined */ 116d4897e19SAndi Kleen}; 117d4897e19SAndi Kleen 118d4897e19SAndi Kleen HEADER_CPUDESC = 8, 119d4897e19SAndi Kleen 120d4897e19SAndi KleenA perf_header_string with description of the CPU. On x86 this is the model name 121d4897e19SAndi Kleenin /proc/cpuinfo 122d4897e19SAndi Kleen 123d4897e19SAndi Kleen HEADER_CPUID = 9, 124d4897e19SAndi Kleen 125d4897e19SAndi KleenA perf_header_string with the exact CPU type. On x86 this is 126d4897e19SAndi Kleenvendor,family,model,stepping. For example: GenuineIntel,6,69,1 127d4897e19SAndi Kleen 128d4897e19SAndi Kleen HEADER_TOTAL_MEM = 10, 129d4897e19SAndi Kleen 130d4897e19SAndi KleenAn uint64_t with the total memory in bytes. 131d4897e19SAndi Kleen 132d4897e19SAndi Kleen HEADER_CMDLINE = 11, 133d4897e19SAndi Kleen 134d4897e19SAndi KleenA perf_header_string with the perf command line used to collect the data. 135d4897e19SAndi Kleen 136d4897e19SAndi Kleen HEADER_EVENT_DESC = 12, 137d4897e19SAndi Kleen 138d4897e19SAndi KleenAnother description of the perf_event_attrs, more detailed than header.attrs 139d4897e19SAndi Kleenincluding IDs and names. See perf_event.h or the man page for a description 140d4897e19SAndi Kleenof a struct perf_event_attr. 141d4897e19SAndi Kleen 142d4897e19SAndi Kleenstruct { 143d4897e19SAndi Kleen uint32_t nr; /* number of events */ 144d4897e19SAndi Kleen uint32_t attr_size; /* size of each perf_event_attr */ 145d4897e19SAndi Kleen struct { 146d4897e19SAndi Kleen struct perf_event_attr attr; /* size of attr_size */ 147d4897e19SAndi Kleen uint32_t nr_ids; 148d4897e19SAndi Kleen struct perf_header_string event_string; 149d4897e19SAndi Kleen uint64_t ids[nr_ids]; 150d4897e19SAndi Kleen } events[nr]; /* Variable length records */ 151d4897e19SAndi Kleen}; 152d4897e19SAndi Kleen 153d4897e19SAndi Kleen HEADER_CPU_TOPOLOGY = 13, 154d4897e19SAndi Kleen 155d4897e19SAndi KleenString lists defining the core and CPU threads topology. 156d4897e19SAndi Kleen 157d4897e19SAndi Kleenstruct { 158d4897e19SAndi Kleen struct perf_header_string_list cores; /* Variable length */ 159d4897e19SAndi Kleen struct perf_header_string_list threads; /* Variable length */ 160d4897e19SAndi Kleen}; 161d4897e19SAndi Kleen 162d4897e19SAndi KleenExample: 163d4897e19SAndi Kleen sibling cores : 0-3 164d4897e19SAndi Kleen sibling threads : 0-1 165d4897e19SAndi Kleen sibling threads : 2-3 166d4897e19SAndi Kleen 167d4897e19SAndi Kleen HEADER_NUMA_TOPOLOGY = 14, 168d4897e19SAndi Kleen 169d4897e19SAndi Kleen A list of NUMA node descriptions 170d4897e19SAndi Kleen 171d4897e19SAndi Kleenstruct { 172d4897e19SAndi Kleen uint32_t nr; 173d4897e19SAndi Kleen struct { 174d4897e19SAndi Kleen uint32_t nodenr; 175d4897e19SAndi Kleen uint64_t mem_total; 176d4897e19SAndi Kleen uint64_t mem_free; 177d4897e19SAndi Kleen struct perf_header_string cpus; 178d4897e19SAndi Kleen } nodes[nr]; /* Variable length records */ 179d4897e19SAndi Kleen}; 180d4897e19SAndi Kleen 181d4897e19SAndi Kleen HEADER_BRANCH_STACK = 15, 182d4897e19SAndi Kleen 183d4897e19SAndi KleenNot implemented in perf. 184d4897e19SAndi Kleen 185d4897e19SAndi Kleen HEADER_PMU_MAPPINGS = 16, 186d4897e19SAndi Kleen 187d4897e19SAndi Kleen A list of PMU structures, defining the different PMUs supported by perf. 188d4897e19SAndi Kleen 189d4897e19SAndi Kleenstruct { 190d4897e19SAndi Kleen uint32_t nr; 191d4897e19SAndi Kleen struct pmu { 192d4897e19SAndi Kleen uint32_t pmu_type; 193d4897e19SAndi Kleen struct perf_header_string pmu_name; 194d4897e19SAndi Kleen } [nr]; /* Variable length records */ 195d4897e19SAndi Kleen}; 196d4897e19SAndi Kleen 197d4897e19SAndi Kleen HEADER_GROUP_DESC = 17, 198d4897e19SAndi Kleen 199d4897e19SAndi Kleen Description of counter groups ({...} in perf syntax) 200d4897e19SAndi Kleen 201d4897e19SAndi Kleenstruct { 202d4897e19SAndi Kleen uint32_t nr; 203d4897e19SAndi Kleen struct { 204d4897e19SAndi Kleen struct perf_header_string string; 205d4897e19SAndi Kleen uint32_t leader_idx; 206d4897e19SAndi Kleen uint32_t nr_members; 207d4897e19SAndi Kleen } [nr]; /* Variable length records */ 208d4897e19SAndi Kleen}; 209d4897e19SAndi Kleen 210d4897e19SAndi Kleen HEADER_AUXTRACE = 18, 211d4897e19SAndi Kleen 212d4897e19SAndi KleenDefine additional auxtrace areas in the perf.data. auxtrace is used to store 213d4897e19SAndi Kleenundecoded hardware tracing information, such as Intel Processor Trace data. 214d4897e19SAndi Kleen 215d4897e19SAndi Kleen/** 216d4897e19SAndi Kleen * struct auxtrace_index_entry - indexes a AUX area tracing event within a 217d4897e19SAndi Kleen * perf.data file. 218d4897e19SAndi Kleen * @file_offset: offset within the perf.data file 219d4897e19SAndi Kleen * @sz: size of the event 220d4897e19SAndi Kleen */ 221d4897e19SAndi Kleenstruct auxtrace_index_entry { 222d4897e19SAndi Kleen u64 file_offset; 223d4897e19SAndi Kleen u64 sz; 224d4897e19SAndi Kleen}; 225d4897e19SAndi Kleen 226d4897e19SAndi Kleen#define PERF_AUXTRACE_INDEX_ENTRY_COUNT 256 227d4897e19SAndi Kleen 228d4897e19SAndi Kleen/** 229d4897e19SAndi Kleen * struct auxtrace_index - index of AUX area tracing events within a perf.data 230d4897e19SAndi Kleen * file. 231d4897e19SAndi Kleen * @list: linking a number of arrays of entries 232d4897e19SAndi Kleen * @nr: number of entries 233d4897e19SAndi Kleen * @entries: array of entries 234d4897e19SAndi Kleen */ 235d4897e19SAndi Kleenstruct auxtrace_index { 236d4897e19SAndi Kleen struct list_head list; 237d4897e19SAndi Kleen size_t nr; 238d4897e19SAndi Kleen struct auxtrace_index_entry entries[PERF_AUXTRACE_INDEX_ENTRY_COUNT]; 239d4897e19SAndi Kleen}; 240d4897e19SAndi Kleen 24135c0a81aSAndi Kleen HEADER_STAT = 19, 24235c0a81aSAndi Kleen 24335c0a81aSAndi KleenThis is merely a flag signifying that the data section contains data 24435c0a81aSAndi Kleenrecorded from perf stat record. 24535c0a81aSAndi Kleen 24635c0a81aSAndi Kleen HEADER_CACHE = 20, 24735c0a81aSAndi Kleen 24835c0a81aSAndi KleenDescription of the cache hierarchy. Based on the Linux sysfs format 24935c0a81aSAndi Kleenin /sys/devices/system/cpu/cpu*/cache/ 25035c0a81aSAndi Kleen 25135c0a81aSAndi Kleen u32 version Currently always 1 25235c0a81aSAndi Kleen u32 number_of_cache_levels 25335c0a81aSAndi Kleen 25435c0a81aSAndi Kleenstruct { 25535c0a81aSAndi Kleen u32 level; 25635c0a81aSAndi Kleen u32 line_size; 25735c0a81aSAndi Kleen u32 sets; 25835c0a81aSAndi Kleen u32 ways; 25935c0a81aSAndi Kleen struct perf_header_string type; 26035c0a81aSAndi Kleen struct perf_header_string size; 26135c0a81aSAndi Kleen struct perf_header_string map; 26235c0a81aSAndi Kleen}[number_of_cache_levels]; 26335c0a81aSAndi Kleen 2646011518dSJin Yao HEADER_SAMPLE_TIME = 21, 2656011518dSJin Yao 2666011518dSJin YaoTwo uint64_t for the time of first sample and the time of last sample. 2676011518dSJin Yao 268d4897e19SAndi Kleen other bits are reserved and should ignored for now 269d4897e19SAndi Kleen HEADER_FEAT_BITS = 256, 270d4897e19SAndi Kleen 271d4897e19SAndi KleenAttributes 272d4897e19SAndi Kleen 273d4897e19SAndi KleenThis is an array of perf_event_attrs, each attr_size bytes long, which defines 274d4897e19SAndi Kleeneach event collected. See perf_event.h or the man page for a detailed 275d4897e19SAndi Kleendescription. 276d4897e19SAndi Kleen 277d4897e19SAndi KleenData 278d4897e19SAndi Kleen 279d4897e19SAndi KleenThis section is the bulk of the file. It consist of a stream of perf_events 280d4897e19SAndi Kleendescribing events. This matches the format generated by the kernel. 281d4897e19SAndi KleenSee perf_event.h or the manpage for a detailed description. 282d4897e19SAndi Kleen 283d4897e19SAndi KleenSome notes on parsing: 284d4897e19SAndi Kleen 285d4897e19SAndi KleenOrdering 286d4897e19SAndi Kleen 287d4897e19SAndi KleenThe events are not necessarily in time stamp order, as they can be 288d4897e19SAndi Kleencollected in parallel on different CPUs. If the events should be 289d4897e19SAndi Kleenprocessed in time order they need to be sorted first. It is possible 290d4897e19SAndi Kleento only do a partial sort using the FINISHED_ROUND event header (see 291d4897e19SAndi Kleenbelow). perf record guarantees that there is no reordering over a 292d4897e19SAndi KleenFINISHED_ROUND. 293d4897e19SAndi Kleen 294d4897e19SAndi KleenID vs IDENTIFIER 295d4897e19SAndi Kleen 296d4897e19SAndi KleenWhen the event stream contains multiple events each event is identified 297d4897e19SAndi Kleenby an ID. This can be either through the PERF_SAMPLE_ID or the 298d4897e19SAndi KleenPERF_SAMPLE_IDENTIFIER header. The PERF_SAMPLE_IDENTIFIER header is 299d4897e19SAndi Kleenat a fixed offset from the event header, which allows reliable 3001291927aSKim Phillipsparsing of the header. Relying on ID may be ambiguous. 301d4897e19SAndi KleenIDENTIFIER is only supported by newer Linux kernels. 302d4897e19SAndi Kleen 303d4897e19SAndi KleenPerf record specific events: 304d4897e19SAndi Kleen 305d4897e19SAndi KleenIn addition to the kernel generated event types perf record adds its 306d4897e19SAndi Kleenown event types (in addition it also synthesizes some kernel events, 307d4897e19SAndi Kleenfor example MMAP events) 308d4897e19SAndi Kleen 309d4897e19SAndi Kleen PERF_RECORD_USER_TYPE_START = 64, 310d4897e19SAndi Kleen PERF_RECORD_HEADER_ATTR = 64, 311d4897e19SAndi Kleen 312d4897e19SAndi Kleenstruct attr_event { 313d4897e19SAndi Kleen struct perf_event_header header; 314d4897e19SAndi Kleen struct perf_event_attr attr; 315d4897e19SAndi Kleen uint64_t id[]; 316d4897e19SAndi Kleen}; 317d4897e19SAndi Kleen 3181291927aSKim Phillips PERF_RECORD_HEADER_EVENT_TYPE = 65, /* deprecated */ 319d4897e19SAndi Kleen 320d4897e19SAndi Kleen#define MAX_EVENT_NAME 64 321d4897e19SAndi Kleen 322d4897e19SAndi Kleenstruct perf_trace_event_type { 323d4897e19SAndi Kleen uint64_t event_id; 324d4897e19SAndi Kleen char name[MAX_EVENT_NAME]; 325d4897e19SAndi Kleen}; 326d4897e19SAndi Kleen 327d4897e19SAndi Kleenstruct event_type_event { 328d4897e19SAndi Kleen struct perf_event_header header; 329d4897e19SAndi Kleen struct perf_trace_event_type event_type; 330d4897e19SAndi Kleen}; 331d4897e19SAndi Kleen 332d4897e19SAndi Kleen 333d4897e19SAndi Kleen PERF_RECORD_HEADER_TRACING_DATA = 66, 334d4897e19SAndi Kleen 335d4897e19SAndi KleenDescribe me 336d4897e19SAndi Kleen 337d4897e19SAndi Kleenstruct tracing_data_event { 338d4897e19SAndi Kleen struct perf_event_header header; 339d4897e19SAndi Kleen uint32_t size; 340d4897e19SAndi Kleen}; 341d4897e19SAndi Kleen 342d4897e19SAndi Kleen PERF_RECORD_HEADER_BUILD_ID = 67, 343d4897e19SAndi Kleen 344d4897e19SAndi KleenDefine a ELF build ID for a referenced executable. 345d4897e19SAndi Kleen 346d4897e19SAndi Kleen struct build_id_event; /* See above */ 347d4897e19SAndi Kleen 348d4897e19SAndi Kleen PERF_RECORD_FINISHED_ROUND = 68, 349d4897e19SAndi Kleen 350d4897e19SAndi KleenNo event reordering over this header. No payload. 351d4897e19SAndi Kleen 352d4897e19SAndi Kleen PERF_RECORD_ID_INDEX = 69, 353d4897e19SAndi Kleen 354d4897e19SAndi KleenMap event ids to CPUs and TIDs. 355d4897e19SAndi Kleen 356d4897e19SAndi Kleenstruct id_index_entry { 357d4897e19SAndi Kleen uint64_t id; 358d4897e19SAndi Kleen uint64_t idx; 359d4897e19SAndi Kleen uint64_t cpu; 360d4897e19SAndi Kleen uint64_t tid; 361d4897e19SAndi Kleen}; 362d4897e19SAndi Kleen 363d4897e19SAndi Kleenstruct id_index_event { 364d4897e19SAndi Kleen struct perf_event_header header; 365d4897e19SAndi Kleen uint64_t nr; 366d4897e19SAndi Kleen struct id_index_entry entries[nr]; 367d4897e19SAndi Kleen}; 368d4897e19SAndi Kleen 369d4897e19SAndi Kleen PERF_RECORD_AUXTRACE_INFO = 70, 370d4897e19SAndi Kleen 371d4897e19SAndi KleenAuxtrace type specific information. Describe me 372d4897e19SAndi Kleen 373d4897e19SAndi Kleenstruct auxtrace_info_event { 374d4897e19SAndi Kleen struct perf_event_header header; 375d4897e19SAndi Kleen uint32_t type; 376d4897e19SAndi Kleen uint32_t reserved__; /* For alignment */ 377d4897e19SAndi Kleen uint64_t priv[]; 378d4897e19SAndi Kleen}; 379d4897e19SAndi Kleen 380d4897e19SAndi Kleen PERF_RECORD_AUXTRACE = 71, 381d4897e19SAndi Kleen 382d4897e19SAndi KleenDefines auxtrace data. Followed by the actual data. The contents of 383d4897e19SAndi Kleenthe auxtrace data is dependent on the event and the CPU. For example 384d4897e19SAndi Kleenfor Intel Processor Trace it contains Processor Trace data generated 385d4897e19SAndi Kleenby the CPU. 386d4897e19SAndi Kleen 387d4897e19SAndi Kleenstruct auxtrace_event { 388d4897e19SAndi Kleen struct perf_event_header header; 389d4897e19SAndi Kleen uint64_t size; 390d4897e19SAndi Kleen uint64_t offset; 391d4897e19SAndi Kleen uint64_t reference; 392d4897e19SAndi Kleen uint32_t idx; 393d4897e19SAndi Kleen uint32_t tid; 394d4897e19SAndi Kleen uint32_t cpu; 395d4897e19SAndi Kleen uint32_t reserved__; /* For alignment */ 396d4897e19SAndi Kleen}; 397d4897e19SAndi Kleen 398d4897e19SAndi Kleenstruct aux_event { 399d4897e19SAndi Kleen struct perf_event_header header; 400d4897e19SAndi Kleen uint64_t aux_offset; 401d4897e19SAndi Kleen uint64_t aux_size; 402d4897e19SAndi Kleen uint64_t flags; 403d4897e19SAndi Kleen}; 404d4897e19SAndi Kleen 405d4897e19SAndi Kleen PERF_RECORD_AUXTRACE_ERROR = 72, 406d4897e19SAndi Kleen 407d4897e19SAndi KleenDescribes an error in hardware tracing 408d4897e19SAndi Kleen 409d4897e19SAndi Kleenenum auxtrace_error_type { 410d4897e19SAndi Kleen PERF_AUXTRACE_ERROR_ITRACE = 1, 411d4897e19SAndi Kleen PERF_AUXTRACE_ERROR_MAX 412d4897e19SAndi Kleen}; 413d4897e19SAndi Kleen 414d4897e19SAndi Kleen#define MAX_AUXTRACE_ERROR_MSG 64 415d4897e19SAndi Kleen 416d4897e19SAndi Kleenstruct auxtrace_error_event { 417d4897e19SAndi Kleen struct perf_event_header header; 418d4897e19SAndi Kleen uint32_t type; 419d4897e19SAndi Kleen uint32_t code; 420d4897e19SAndi Kleen uint32_t cpu; 421d4897e19SAndi Kleen uint32_t pid; 422d4897e19SAndi Kleen uint32_t tid; 423d4897e19SAndi Kleen uint32_t reserved__; /* For alignment */ 424d4897e19SAndi Kleen uint64_t ip; 425d4897e19SAndi Kleen char msg[MAX_AUXTRACE_ERROR_MSG]; 426d4897e19SAndi Kleen}; 427d4897e19SAndi Kleen 428e9def1b2SDavid Carrillo-Cisneros PERF_RECORD_HEADER_FEATURE = 80, 429e9def1b2SDavid Carrillo-Cisneros 430e9def1b2SDavid Carrillo-CisnerosDescribes a header feature. These are records used in pipe-mode that 431e9def1b2SDavid Carrillo-Cisneroscontain information that otherwise would be in perf.data file's header. 432e9def1b2SDavid Carrillo-Cisneros 433d4897e19SAndi KleenEvent types 434d4897e19SAndi Kleen 435d4897e19SAndi KleenDefine the event attributes with their IDs. 436d4897e19SAndi Kleen 437d4897e19SAndi KleenAn array bound by the perf_file_section size. 438d4897e19SAndi Kleen 439d4897e19SAndi Kleen struct { 440d4897e19SAndi Kleen struct perf_event_attr attr; /* Size defined by header.attr_size */ 441d4897e19SAndi Kleen struct perf_file_section ids; 442d4897e19SAndi Kleen } 443d4897e19SAndi Kleen 444d4897e19SAndi Kleenids points to a array of uint64_t defining the ids for event attr attr. 445d4897e19SAndi Kleen 4466d13491eSDavid Carrillo-CisnerosPipe-mode data 4476d13491eSDavid Carrillo-Cisneros 4486d13491eSDavid Carrillo-CisnerosPipe-mode avoid seeks in the file by removing the perf_file_section and flags 4496d13491eSDavid Carrillo-Cisnerosfrom the struct perf_header. The trimmed header is: 4506d13491eSDavid Carrillo-Cisneros 4516d13491eSDavid Carrillo-Cisnerosstruct perf_pipe_file_header { 4526d13491eSDavid Carrillo-Cisneros u64 magic; 4536d13491eSDavid Carrillo-Cisneros u64 size; 4546d13491eSDavid Carrillo-Cisneros}; 4556d13491eSDavid Carrillo-Cisneros 4566d13491eSDavid Carrillo-CisnerosThe information about attrs, data, and event_types is instead in the 457e9def1b2SDavid Carrillo-Cisnerossynthesized events PERF_RECORD_ATTR, PERF_RECORD_HEADER_TRACING_DATA, 458e9def1b2SDavid Carrillo-CisnerosPERF_RECORD_HEADER_EVENT_TYPE, and PERF_RECORD_HEADER_FEATURE 459e9def1b2SDavid Carrillo-Cisnerosthat are generated by perf record in pipe-mode. 4606d13491eSDavid Carrillo-Cisneros 4616d13491eSDavid Carrillo-Cisneros 462d4897e19SAndi KleenReferences: 463d4897e19SAndi Kleen 464d4897e19SAndi Kleeninclude/uapi/linux/perf_event.h 465d4897e19SAndi Kleen 466d4897e19SAndi KleenThis is the canonical description of the kernel generated perf_events 467d4897e19SAndi Kleenand the perf_event_attrs. 468d4897e19SAndi Kleen 469d4897e19SAndi Kleenperf_events manpage 470d4897e19SAndi Kleen 471d4897e19SAndi KleenA manpage describing perf_event and perf_event_attr is here: 472d4897e19SAndi Kleenhttp://web.eece.maine.edu/~vweaver/projects/perf_events/programming.html 473d4897e19SAndi KleenThis tends to be slightly behind the kernel include, but has better 474d4897e19SAndi Kleendescriptions. An (typically older) version of the man page may be 475d4897e19SAndi Kleenincluded with the standard Linux man pages, available with "man 476d4897e19SAndi Kleenperf_events" 477d4897e19SAndi Kleen 478d4897e19SAndi Kleenpmu-tools 479d4897e19SAndi Kleen 480d4897e19SAndi Kleenhttps://github.com/andikleen/pmu-tools/tree/master/parser 481d4897e19SAndi Kleen 482d4897e19SAndi KleenA definition of the perf.data format in python "construct" format is available 483d4897e19SAndi Kleenin pmu-tools parser. This allows to read perf.data from python and dump it. 484d4897e19SAndi Kleen 485d4897e19SAndi Kleenquipper 486d4897e19SAndi Kleen 487d4897e19SAndi KleenThe quipper C++ parser is available at 4882427b432SStephane Eranianhttp://github.com/google/perf_data_converter/tree/master/src/quipper 4892acad195SSimon Que 490