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serenity/Kernel/PerformanceManager.h
Brian Gianforcaro 92844a6af6 Kernel: Access Processor static methods statically 
SonarCloud flagged this "Code Smell", where we are accessing these
static methods as if they are instance methods. While it is technically
possible, it is very confusing to read when you realize they are static
functions.
2021-10-02 18:16:15 +02:00

152 lines
6 KiB
C++
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/*
* Copyright (c) 2021, Brian Gianforcaro <bgianf@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include <Kernel/PerformanceEventBuffer.h>
#include <Kernel/Process.h>
#include <Kernel/Thread.h>
namespace Kernel {
class PerformanceManager {
public:
inline static void add_process_created_event(Process& process)
{
if (g_profiling_all_threads) {
VERIFY(g_global_perf_events);
g_global_perf_events->add_process(process, ProcessEventType::Create);
}
}
inline static void add_process_exec_event(Process& process)
{
if (auto* event_buffer = process.current_perf_events_buffer()) {
event_buffer->add_process(process, ProcessEventType::Exec);
}
}
inline static void add_process_exit_event(Process& process)
{
if (g_profiling_all_threads) {
VERIFY(g_global_perf_events);
[[maybe_unused]] auto rc = g_global_perf_events->append_with_ip_and_bp(
process.pid(), 0, 0, 0, PERF_EVENT_PROCESS_EXIT, 0, 0, 0, nullptr);
}
}
inline static void add_thread_created_event(Thread& thread)
{
if (thread.is_profiling_suppressed())
return;
if (auto* event_buffer = thread.process().current_perf_events_buffer()) {
[[maybe_unused]] auto rc = event_buffer->append(PERF_EVENT_THREAD_CREATE, thread.tid().value(), 0, nullptr, &thread);
}
}
inline static void add_thread_exit_event(Thread& thread)
{
// As an exception this doesn't check whether profiling is suppressed for
// the thread so we can record the thread_exit event anyway.
if (auto* event_buffer = thread.process().current_perf_events_buffer()) {
[[maybe_unused]] auto rc = event_buffer->append(PERF_EVENT_THREAD_EXIT, thread.tid().value(), 0, nullptr, &thread);
}
}
inline static void add_cpu_sample_event(Thread& current_thread, const RegisterState& regs, u32 lost_time)
{
if (current_thread.is_profiling_suppressed())
return;
if (auto* event_buffer = current_thread.process().current_perf_events_buffer()) {
[[maybe_unused]] auto rc = event_buffer->append_with_ip_and_bp(
current_thread.pid(), current_thread.tid(),
regs.ip(), regs.bp(), PERF_EVENT_SAMPLE, lost_time, 0, 0, nullptr);
}
}
inline static void add_mmap_perf_event(Process& current_process, Memory::Region const& region)
{
if (auto* event_buffer = current_process.current_perf_events_buffer()) {
[[maybe_unused]] auto res = event_buffer->append(PERF_EVENT_MMAP, region.vaddr().get(), region.size(), region.name());
}
}
inline static void add_unmap_perf_event(Process& current_process, Memory::VirtualRange const& region)
{
if (auto* event_buffer = current_process.current_perf_events_buffer()) {
[[maybe_unused]] auto res = event_buffer->append(PERF_EVENT_MUNMAP, region.base().get(), region.size(), nullptr);
}
}
inline static void add_context_switch_perf_event(Thread& current_thread, Thread& next_thread)
{
if (current_thread.is_profiling_suppressed())
return;
if (auto* event_buffer = current_thread.process().current_perf_events_buffer()) {
[[maybe_unused]] auto res = event_buffer->append(PERF_EVENT_CONTEXT_SWITCH, next_thread.pid().value(), next_thread.tid().value(), nullptr);
}
}
inline static void add_kmalloc_perf_event(Thread& current_thread, size_t size, FlatPtr ptr)
{
if (current_thread.is_profiling_suppressed())
return;
if (auto* event_buffer = current_thread.process().current_perf_events_buffer()) {
[[maybe_unused]] auto res = event_buffer->append(PERF_EVENT_KMALLOC, size, ptr, nullptr);
}
}
inline static void add_kfree_perf_event(Thread& current_thread, size_t size, FlatPtr ptr)
{
if (current_thread.is_profiling_suppressed())
return;
if (auto* event_buffer = current_thread.process().current_perf_events_buffer()) {
[[maybe_unused]] auto res = event_buffer->append(PERF_EVENT_KFREE, size, ptr, nullptr);
}
}
inline static void add_page_fault_event(Thread& thread, const RegisterState& regs)
{
if (thread.is_profiling_suppressed())
return;
if (auto* event_buffer = thread.process().current_perf_events_buffer()) {
[[maybe_unused]] auto rc = event_buffer->append_with_ip_and_bp(
thread.pid(), thread.tid(),
regs.ip(), regs.bp(), PERF_EVENT_PAGE_FAULT, 0, 0, 0, nullptr);
}
}
inline static void add_syscall_event(Thread& thread, const RegisterState& regs)
{
if (thread.is_profiling_suppressed())
return;
if (auto* event_buffer = thread.process().current_perf_events_buffer()) {
[[maybe_unused]] auto rc = event_buffer->append_with_ip_and_bp(
thread.pid(), thread.tid(),
regs.ip(), regs.bp(), PERF_EVENT_SYSCALL, 0, 0, 0, nullptr);
}
}
inline static void timer_tick(RegisterState const& regs)
{
static Time last_wakeup;
auto now = kgettimeofday();
constexpr auto ideal_interval = Time::from_microseconds(1000'000 / OPTIMAL_PROFILE_TICKS_PER_SECOND_RATE);
auto expected_wakeup = last_wakeup + ideal_interval;
auto delay = (now > expected_wakeup) ? now - expected_wakeup : Time::from_microseconds(0);
last_wakeup = now;
auto current_thread = Thread::current();
// FIXME: We currently don't collect samples while idle.
// That will be an interesting mode to add in the future. :^)
if (!current_thread || current_thread == Processor::idle_thread())
return;
auto lost_samples = delay.to_microseconds() / ideal_interval.to_microseconds();
PerformanceManager::add_cpu_sample_event(*current_thread, regs, lost_samples);
}
};
}
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