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Here is the nds32 patch set based on 4.20-rc1. Contained in here are 1. Perf support 2. Power management support 3. FPU support 4. Hardware prefetcher support 5. Build error fixed 6. Performance enhancement These are the LTP20170427 testing results. Total Tests: 1902 Total Skipped Tests: 603 Total Failures: 410 Kernel Version: 4.20.0-rc1-00016-ge0db606bc023 Machine Architecture: nds32 Hostname: greentime-d15-ae3xx -----BEGIN PGP SIGNATURE----- Version: GnuPG v2.0.17 (GNU/Linux) iQIcBAABAgAGBQJcJdsZAAoJEHfB0l0b2JxEV7QQAJLwF0ixvOhCO+y4tM9596ai BiV+duMg9tvJkbrfM4Rli5Bd2PpZdNoWtwXRi6azgORkczx5ioYJFSFmkodvhlb9 WQfYiDeD1PF1/kWQyT9xQm4x/kpDTWDHROacUENLlwJn/36iqTKVPn2aSFR5hhDv fVbYUyCqvUq+jRaxvcL95KirGMJZNFZhT+OMnLwVbxwcFCstOTkTAS+K5GIOfg6Z I0ONlcM+N9ezrsqfIiaO45nXD9OVsTTHGqrXVuh5GF8KMVARImCOxAtehpt5jdmE xw3YMlzUNzKfdB8olu9rb903UcW1Vy2g/5H9paFhPGPNmWtlMV5zgKrTAQM1ETWC JNJaL4oDWfQPJdV191rmAgcTOxvZbbAGlGjjViOZMvwgrjUIWgA0+vAzmBQvW0cQ EYj4nHwaAIVA2p3Mobt5i9inH/xm7vKoLHqvqUNgdl4JVDbtyGBOxV2f9pEtU7ij AZCDc0EBhR/3Tqj48YLSrInkMVyc4CRtSPTZxkQmot02+iJsEROo7GZyDTwmxdgw epKDZeMnTGNF3atGBtuVLBhrj+l2W88WGFq52hT841WqfFknTar0J/M4b3FXCm6g EjeADk6Oy9eI/gDAAWnRDptZbZEqtA0qguTBrNtS5kqI1rX6kREMJnnJ3KuqB0bK qT/3aw6a4nFOVdtgYw5z =Gy5E -----END PGP SIGNATURE----- Merge tag 'nds32-for-linus-4.21' of git://git.kernel.org/pub/scm/linux/kernel/git/greentime/linux Pull nds32 updates from Greentime Hu: - Perf support - Power management support - FPU support - Hardware prefetcher support - Build error fixed - Performance enhancement * tag 'nds32-for-linus-4.21' of git://git.kernel.org/pub/scm/linux/kernel/git/greentime/linux: nds32: support hardware prefetcher nds32: Fix the items of hwcap_str ordering issue. math-emu/soft-fp.h: (_FP_ROUND_ZERO) cast 0 to void to fix warning math-emu/op-2.h: Use statement expressions to prevent negative constant shift nds32: support denormalized result through FP emulator nds32: Support FP emulation nds32: nds32 FPU port nds32: Remove duplicated include from pm.c nds32: Power management for nds32 nds32: Add document for NDS32 PMU. nds32: Add perf call-graph support. nds32: Perf porting nds32: Fix bug in bitfield.h nds32: Fix gcc 8.0 compiler option incompatible. nds32: Fill all TLB entries with kernel image mapping nds32: Remove the redundant assignment |
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arch | ||
Build | ||
jevents.c | ||
jevents.h | ||
jsmn.c | ||
jsmn.h | ||
json.c | ||
json.h | ||
pmu-events.h | ||
README |
The contents of this directory allow users to specify PMU events in their CPUs by their symbolic names rather than raw event codes (see example below). The main program in this directory, is the 'jevents', which is built and executed _BEFORE_ the perf binary itself is built. The 'jevents' program tries to locate and process JSON files in the directory tree tools/perf/pmu-events/arch/foo. - Regular files with '.json' extension in the name are assumed to be JSON files, each of which describes a set of PMU events. - The CSV file that maps a specific CPU to its set of PMU events is to be named 'mapfile.csv' (see below for mapfile format). - Directories are traversed, but all other files are ignored. - To reduce JSON event duplication per architecture, platform JSONs may use "ArchStdEvent" keyword to dereference an "Architecture standard events", defined in architecture standard JSONs. Architecture standard JSONs must be located in the architecture root folder. Matching is based on the "EventName" field. The PMU events supported by a CPU model are expected to grouped into topics such as Pipelining, Cache, Memory, Floating-point etc. All events for a topic should be placed in a separate JSON file - where the file name identifies the topic. Eg: "Floating-point.json". All the topic JSON files for a CPU model/family should be in a separate sub directory. Thus for the Silvermont X86 CPU: $ ls tools/perf/pmu-events/arch/x86/Silvermont_core Cache.json Memory.json Virtual-Memory.json Frontend.json Pipeline.json The JSONs folder for a CPU model/family may be placed in the root arch folder, or may be placed in a vendor sub-folder under the arch folder for instances where the arch and vendor are not the same. Using the JSON files and the mapfile, 'jevents' generates the C source file, 'pmu-events.c', which encodes the two sets of tables: - Set of 'PMU events tables' for all known CPUs in the architecture, (one table like the following, per JSON file; table name 'pme_power8' is derived from JSON file name, 'power8.json'). struct pmu_event pme_power8[] = { ... { .name = "pm_1plus_ppc_cmpl", .event = "event=0x100f2", .desc = "1 or more ppc insts finished,", }, ... } - A 'mapping table' that maps each CPU of the architecture, to its 'PMU events table' struct pmu_events_map pmu_events_map[] = { { .cpuid = "004b0000", .version = "1", .type = "core", .table = pme_power8 }, ... }; After the 'pmu-events.c' is generated, it is compiled and the resulting 'pmu-events.o' is added to 'libperf.a' which is then used to build perf. NOTES: 1. Several CPUs can support same set of events and hence use a common JSON file. Hence several entries in the pmu_events_map[] could map to a single 'PMU events table'. 2. The 'pmu-events.h' has an extern declaration for the mapping table and the generated 'pmu-events.c' defines this table. 3. _All_ known CPU tables for architecture are included in the perf binary. At run time, perf determines the actual CPU it is running on, finds the matching events table and builds aliases for those events. This allows users to specify events by their name: $ perf stat -e pm_1plus_ppc_cmpl sleep 1 where 'pm_1plus_ppc_cmpl' is a Power8 PMU event. However some errors in processing may cause the perf build to fail. Mapfile format =============== The mapfile enables multiple CPU models to share a single set of PMU events. It is required even if such mapping is 1:1. The mapfile.csv format is expected to be: Header line CPUID,Version,Dir/path/name,Type where: Comma: is the required field delimiter (i.e other fields cannot have commas within them). Comments: Lines in which the first character is either '\n' or '#' are ignored. Header line The header line is the first line in the file, which is always _IGNORED_. It can empty. CPUID: CPUID is an arch-specific char string, that can be used to identify CPU (and associate it with a set of PMU events it supports). Multiple CPUIDS can point to the same File/path/name.json. Example: CPUID == 'GenuineIntel-6-2E' (on x86). CPUID == '004b0100' (PVR value in Powerpc) Version: is the Version of the mapfile. Dir/path/name: is the pathname to the directory containing the CPU's JSON files, relative to the directory containing the mapfile.csv Type: indicates whether the events or "core" or "uncore" events. Eg: $ grep Silvermont tools/perf/pmu-events/arch/x86/mapfile.csv GenuineIntel-6-37,V13,Silvermont_core,core GenuineIntel-6-4D,V13,Silvermont_core,core GenuineIntel-6-4C,V13,Silvermont_core,core i.e the three CPU models use the JSON files (i.e PMU events) listed in the directory 'tools/perf/pmu-events/arch/x86/Silvermont_core'.