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https://github.com/LadybirdBrowser/ladybird.git
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0d934fc991
Alot of code is shared between i386/i686/x86 and x86_64 and a lot probably will be used for compatability modes. So we start by moving the headers into one Directory. We will probalby be able to move some cpp files aswell.
198 lines
6.7 KiB
C++
198 lines
6.7 KiB
C++
/*
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* Copyright (c) 2020, the SerenityOS developers
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions are met:
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*
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* 1. Redistributions of source code must retain the above copyright notice, this
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* list of conditions and the following disclaimer.
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*
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* 2. Redistributions in binary form must reproduce the above copyright notice,
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* this list of conditions and the following disclaimer in the documentation
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* and/or other materials provided with the distribution.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
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* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
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* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
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* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
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* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
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* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
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* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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#include <Kernel/Arch/x86/CPU.h>
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#include <Kernel/IO.h>
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#include <Kernel/Interrupts/APIC.h>
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#include <Kernel/Panic.h>
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#include <Kernel/Scheduler.h>
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#include <Kernel/Thread.h>
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#include <Kernel/Time/APICTimer.h>
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#include <Kernel/Time/TimeManagement.h>
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namespace Kernel {
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#define APIC_TIMER_MEASURE_CPU_CLOCK
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UNMAP_AFTER_INIT APICTimer* APICTimer::initialize(u8 interrupt_number, HardwareTimerBase& calibration_source)
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{
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auto timer = adopt(*new APICTimer(interrupt_number, nullptr));
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timer->register_interrupt_handler();
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if (!timer->calibrate(calibration_source)) {
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return nullptr;
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}
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return &timer.leak_ref();
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}
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UNMAP_AFTER_INIT APICTimer::APICTimer(u8 interrupt_number, Function<void(const RegisterState&)> callback)
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: HardwareTimer<GenericInterruptHandler>(interrupt_number, move(callback))
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{
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disable_remap();
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}
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UNMAP_AFTER_INIT bool APICTimer::calibrate(HardwareTimerBase& calibration_source)
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{
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VERIFY_INTERRUPTS_DISABLED();
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dmesgln("APICTimer: Using {} as calibration source", calibration_source.model());
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auto& apic = APIC::the();
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#ifdef APIC_TIMER_MEASURE_CPU_CLOCK
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bool supports_tsc = Processor::current().has_feature(CPUFeature::TSC);
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#endif
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// temporarily replace the timer callbacks
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const size_t ticks_in_100ms = calibration_source.ticks_per_second() / 10;
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Atomic<size_t, AK::memory_order_relaxed> calibration_ticks = 0;
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#ifdef APIC_TIMER_MEASURE_CPU_CLOCK
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volatile u64 start_tsc = 0, end_tsc = 0;
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#endif
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volatile u64 start_reference = 0, end_reference = 0;
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volatile u32 start_apic_count = 0, end_apic_count = 0;
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bool query_reference = calibration_source.can_query_raw();
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auto original_source_callback = calibration_source.set_callback([&](const RegisterState&) {
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u32 current_timer_count = apic.get_timer_current_count();
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#ifdef APIC_TIMER_MEASURE_CPU_CLOCK
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u64 current_tsc = supports_tsc ? read_tsc() : 0;
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#endif
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u64 current_reference = query_reference ? calibration_source.current_raw() : 0;
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auto prev_tick = calibration_ticks.fetch_add(1);
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if (prev_tick == 0) {
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#ifdef APIC_TIMER_MEASURE_CPU_CLOCK
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start_tsc = current_tsc;
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#endif
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start_apic_count = current_timer_count;
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start_reference = current_reference;
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} else if (prev_tick + 1 == ticks_in_100ms + 1) {
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#ifdef APIC_TIMER_MEASURE_CPU_CLOCK
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end_tsc = current_tsc;
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#endif
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end_apic_count = current_timer_count;
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end_reference = current_reference;
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}
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});
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// Setup a counter that should be much longer than our calibration time.
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// We don't want the APIC timer to actually fire. We do however want the
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// calbibration_source timer to fire so that we can read the current
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// tick count from the APIC timer
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auto original_callback = set_callback([&](const RegisterState&) {
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// TODO: How should we handle this?
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PANIC("APICTimer: Timer fired during calibration!");
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});
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apic.setup_local_timer(0xffffffff, APIC::TimerMode::Periodic, true);
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sti();
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// Loop for about 100 ms
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while (calibration_ticks.load() <= ticks_in_100ms)
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;
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cli();
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// Restore timer callbacks
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calibration_source.set_callback(move(original_source_callback));
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set_callback(move(original_callback));
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disable_local_timer();
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if (query_reference) {
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u64 one_tick_ns = calibration_source.raw_to_ns((end_reference - start_reference) / ticks_in_100ms);
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m_frequency = (u32)(1000000000ull / one_tick_ns);
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dmesgln("APICTimer: Ticks per second: {} ({}.{}ms)", m_frequency, one_tick_ns / 1000000, one_tick_ns % 1000000);
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} else {
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// For now, assume the frequency is exactly the same
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m_frequency = calibration_source.ticks_per_second();
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dmesgln("APICTimer: Ticks per second: {} (assume same frequency as reference clock)", m_frequency);
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}
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auto delta_apic_count = start_apic_count - end_apic_count; // The APIC current count register decrements!
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m_timer_period = (delta_apic_count * apic.get_timer_divisor()) / ticks_in_100ms;
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u64 apic_freq = delta_apic_count * apic.get_timer_divisor() * 10;
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dmesgln("APICTimer: Bus clock speed: {}.{} MHz", apic_freq / 1000000, apic_freq % 1000000);
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if (apic_freq < 1000000) {
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dmesgln("APICTimer: Frequency too slow!");
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return false;
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}
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#ifdef APIC_TIMER_MEASURE_CPU_CLOCK
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if (supports_tsc) {
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auto delta_tsc = (end_tsc - start_tsc) * 10;
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dmesgln("APICTimer: CPU clock speed: {}.{} MHz", delta_tsc / 1000000, delta_tsc % 1000000);
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}
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#endif
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enable_local_timer();
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return true;
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}
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void APICTimer::enable_local_timer()
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{
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APIC::the().setup_local_timer(m_timer_period, m_timer_mode, true);
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}
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void APICTimer::disable_local_timer()
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{
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APIC::the().setup_local_timer(0, APIC::TimerMode::OneShot, false);
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}
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size_t APICTimer::ticks_per_second() const
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{
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return m_frequency;
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}
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void APICTimer::set_periodic()
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{
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// FIXME: Implement it...
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VERIFY_NOT_REACHED();
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}
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void APICTimer::set_non_periodic()
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{
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// FIXME: Implement it...
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VERIFY_NOT_REACHED();
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}
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void APICTimer::reset_to_default_ticks_per_second()
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{
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}
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bool APICTimer::try_to_set_frequency([[maybe_unused]] size_t frequency)
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{
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return true;
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}
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bool APICTimer::is_capable_of_frequency([[maybe_unused]] size_t frequency) const
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{
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return false;
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}
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size_t APICTimer::calculate_nearest_possible_frequency([[maybe_unused]] size_t frequency) const
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{
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return 0;
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}
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}
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