The definition of the MemInfoBlock is shared between the memprof compiler-rt runtime and llvm/lib/ProfileData/. This change removes the memprof_meminfoblock header and moves the struct to the shared include file. To enable this sharing, the Print method is moved to the memprof_allocator (the only place it is used) and the remaining uses are updated to refer to the MemInfoBlock defined in the MemProfData.inc file. Also a couple of other minor changes which improve usability of the types in MemProfData.inc. * Update the PACKED macro to handle commas. * Add constructors and equality operators. * Don't initialize the buildid field. Differential Revision: https://reviews.llvm.org/D116780
153 lines
5.6 KiB
C++
153 lines
5.6 KiB
C++
#ifndef MEMPROF_DATA_INC
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#define MEMPROF_DATA_INC
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/*===-- MemProfData.inc - MemProf profiling runtime structures -*- C++ -*-=== *\
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|*
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|* Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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|* See https://llvm.org/LICENSE.txt for license information.
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|* SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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|*
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\*===----------------------------------------------------------------------===*/
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/*
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* This is the main file that defines all the data structure, signature,
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* constant literals that are shared across profiling runtime library,
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* and host tools (reader/writer).
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*
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* This file has two identical copies. The primary copy lives in LLVM and
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* the other one sits in compiler-rt/include/profile directory. To make changes
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* in this file, first modify the primary copy and copy it over to compiler-rt.
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* Testing of any change in this file can start only after the two copies are
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* synced up.
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*
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\*===----------------------------------------------------------------------===*/
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#ifdef _MSC_VER
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#define PACKED(...) __pragma(pack(push,1)) __VA_ARGS__ __pragma(pack(pop))
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#else
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#define PACKED(...) __VA_ARGS__ __attribute__((__packed__))
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#endif
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// A 64-bit magic number to uniquely identify the raw binary memprof profile file.
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#define MEMPROF_RAW_MAGIC_64 \
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((uint64_t)255 << 56 | (uint64_t)'m' << 48 | (uint64_t)'p' << 40 | (uint64_t)'r' << 32 | \
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(uint64_t)'o' << 24 | (uint64_t)'f' << 16 | (uint64_t)'r' << 8 | (uint64_t)129)
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// The version number of the raw binary format.
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#define MEMPROF_RAW_VERSION 1ULL
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namespace llvm {
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namespace memprof {
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// A struct describing the header used for the raw binary memprof profile format.
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PACKED(struct Header {
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uint64_t Magic;
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uint64_t Version;
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uint64_t TotalSize;
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uint64_t SegmentOffset;
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uint64_t MIBOffset;
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uint64_t StackOffset;
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});
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// A struct describing the information necessary to describe a /proc/maps
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// segment entry for a particular binary/library identified by its build id.
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PACKED(struct SegmentEntry {
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uint64_t Start;
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uint64_t End;
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uint64_t Offset;
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// This field is unused until sanitizer procmaps support for build ids for
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// Linux-Elf is implemented.
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uint8_t BuildId[32] = {0};
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SegmentEntry(uint64_t S, uint64_t E, uint64_t O) :
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Start(S), End(E), Offset(O) {}
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SegmentEntry(const SegmentEntry& S) {
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Start = S.Start;
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End = S.End;
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Offset = S.Offset;
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}
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SegmentEntry& operator=(const SegmentEntry& S) {
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Start = S.Start;
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End = S.End;
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Offset = S.Offset;
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return *this;
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}
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bool operator==(const SegmentEntry& S) const {
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return Start == S.Start &&
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End == S.End &&
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Offset == S.Offset;
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}
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});
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// A struct representing the heap allocation characteristics of a particular
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// runtime context. This struct is shared between the compiler-rt runtime and
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// the raw profile reader. The indexed format uses a separate, self-describing
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// backwards compatible format.
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PACKED(struct MemInfoBlock {
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uint32_t alloc_count;
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uint64_t total_access_count, min_access_count, max_access_count;
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uint64_t total_size;
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uint32_t min_size, max_size;
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uint32_t alloc_timestamp, dealloc_timestamp;
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uint64_t total_lifetime;
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uint32_t min_lifetime, max_lifetime;
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uint32_t alloc_cpu_id, dealloc_cpu_id;
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uint32_t num_migrated_cpu;
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// Only compared to prior deallocated object currently.
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uint32_t num_lifetime_overlaps;
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uint32_t num_same_alloc_cpu;
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uint32_t num_same_dealloc_cpu;
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uint64_t data_type_id; // TODO: hash of type name
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MemInfoBlock() : alloc_count(0) {}
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MemInfoBlock(uint32_t size, uint64_t access_count, uint32_t alloc_timestamp,
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uint32_t dealloc_timestamp, uint32_t alloc_cpu, uint32_t dealloc_cpu)
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: alloc_count(1), total_access_count(access_count),
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min_access_count(access_count), max_access_count(access_count),
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total_size(size), min_size(size), max_size(size),
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alloc_timestamp(alloc_timestamp), dealloc_timestamp(dealloc_timestamp),
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total_lifetime(dealloc_timestamp - alloc_timestamp),
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min_lifetime(total_lifetime), max_lifetime(total_lifetime),
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alloc_cpu_id(alloc_cpu), dealloc_cpu_id(dealloc_cpu),
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num_lifetime_overlaps(0), num_same_alloc_cpu(0),
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num_same_dealloc_cpu(0) {
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num_migrated_cpu = alloc_cpu_id != dealloc_cpu_id;
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}
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void Merge(const MemInfoBlock &newMIB) {
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alloc_count += newMIB.alloc_count;
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total_access_count += newMIB.total_access_count;
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min_access_count = newMIB.min_access_count < min_access_count ? newMIB.min_access_count : min_access_count;
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max_access_count = newMIB.max_access_count < max_access_count ? newMIB.max_access_count : max_access_count;
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total_size += newMIB.total_size;
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min_size = newMIB.min_size < min_size ? newMIB.min_size : min_size;
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max_size = newMIB.max_size < max_size ? newMIB.max_size : max_size;
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total_lifetime += newMIB.total_lifetime;
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min_lifetime = newMIB.min_lifetime < min_lifetime ? newMIB.min_lifetime : min_lifetime;
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max_lifetime = newMIB.max_lifetime > max_lifetime ? newMIB.max_lifetime : max_lifetime;
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// We know newMIB was deallocated later, so just need to check if it was
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// allocated before last one deallocated.
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num_lifetime_overlaps += newMIB.alloc_timestamp < dealloc_timestamp;
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alloc_timestamp = newMIB.alloc_timestamp;
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dealloc_timestamp = newMIB.dealloc_timestamp;
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num_same_alloc_cpu += alloc_cpu_id == newMIB.alloc_cpu_id;
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num_same_dealloc_cpu += dealloc_cpu_id == newMIB.dealloc_cpu_id;
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alloc_cpu_id = newMIB.alloc_cpu_id;
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dealloc_cpu_id = newMIB.dealloc_cpu_id;
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}
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});
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} // namespace memprof
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} // namespace llvm
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#endif
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