#include <smp.hpp>
#include <interrupts.hpp>
#include <memory.hpp>
#include <assert.h>
#include <cpu.hpp>
#include "../../../kernel.h"
#include "../acpi.hpp"
#include "apic.hpp"
extern "C" uint64_t _trampoline_start, _trampoline_end;
enum SMPTrampolineAddress
{
PAGE_TABLE = 0x500,
START_ADDR = 0x520,
STACK = 0x570,
GDT = 0x580,
IDT = 0x590,
CORE = 0x600,
TRAMPOLINE_START = 0x2000
};
volatile bool CPUEnabled = false;
#pragma GCC diagnostic ignored "-Wmissing-field-initializers"
static __attribute__((aligned(PAGE_SIZE))) CPUData CPUs[MAX_CPU] = {0};
CPUData *GetCPU(long id) { return &CPUs[id]; }
SafeFunction CPUData *GetCurrentCPU()
{
if (unlikely(!Interrupts::apic[0]))
return &CPUs[0]; /* No APIC means we are on the BSP. */
int CoreID = ((APIC::APIC *)Interrupts::apic[0])->Read(APIC::APIC_ID) >> 24;
if (unlikely((&CPUs[CoreID])->IsActive != true))
{
error("CPU %d is not active!", CoreID);
assert((&CPUs[0])->IsActive == true); /* We can't continue without the BSP. */
return &CPUs[0];
}
assert((&CPUs[CoreID])->Checksum == CPU_DATA_CHECKSUM); /* This should never happen. */
return &CPUs[CoreID];
}
extern "C" void StartCPU()
{
CPU::Interrupts(CPU::Disable);
uint64_t CoreID = (int)*reinterpret_cast<int *>(CORE);
CPU::InitializeFeatures(CoreID);
// Initialize GDT and IDT
Interrupts::Initialize(CoreID);
Interrupts::Enable(CoreID);
Interrupts::InitializeTimer(CoreID);
CPU::Interrupts(CPU::Enable);
KPrint("\e058C19CPU \e8888FF%d \e058C19is online", CoreID);
CPUEnabled = true;
CPU::Halt(true);
}
namespace SMP
{
int CPUCores = 0;
void Initialize(void *madt)
{
int Cores = ((ACPI::MADT *)madt)->CPUCores + 1;
if (Config.Cores > ((ACPI::MADT *)madt)->CPUCores + 1)
KPrint("More cores requested than available. Using %d cores", ((ACPI::MADT *)madt)->CPUCores + 1);
else if (Config.Cores != 0)
Cores = Config.Cores;
CPUCores = Cores;
for (int i = 0; i < Cores; i++)
{
debug("Initializing CPU %d", i);
if ((((APIC::APIC *)Interrupts::apic[0])->Read(APIC::APIC_ID) >> 24) != ((ACPI::MADT *)madt)->lapic[i]->ACPIProcessorId)
{
((APIC::APIC *)Interrupts::apic[0])->Write(APIC::APIC_ICRHI, (((ACPI::MADT *)madt)->lapic[i]->APICId << 24));
((APIC::APIC *)Interrupts::apic[0])->Write(APIC::APIC_ICRLO, 0x500);
Memory::Virtual().Map(0x0, 0x0, Memory::PTFlag::RW | Memory::PTFlag::US);
uint64_t TrampolineLength = (uintptr_t)&_trampoline_end - (uintptr_t)&_trampoline_start;
for (uint64_t i = 0; i < (TrampolineLength / PAGE_SIZE) + 2; i++)
Memory::Virtual().Map((void *)(TRAMPOLINE_START + (i * PAGE_SIZE)), (void *)(TRAMPOLINE_START + (i * PAGE_SIZE)), Memory::PTFlag::RW | Memory::PTFlag::US);
memcpy((void *)TRAMPOLINE_START, &_trampoline_start, TrampolineLength);
POKE(volatile uint64_t, PAGE_TABLE) = CPU::x64::readcr3().raw;
POKE(volatile uint64_t, STACK) = (uint64_t)KernelAllocator.RequestPages(TO_PAGES(STACK_SIZE)) + STACK_SIZE;
POKE(volatile uint64_t, CORE) = i;
asmv("sgdt [0x580]\n"
"sidt [0x590]\n");
POKE(volatile uint64_t, START_ADDR) = (uintptr_t)&StartCPU;
((APIC::APIC *)Interrupts::apic[0])->SendInitIPI(((ACPI::MADT *)madt)->lapic[i]->APICId);
((APIC::APIC *)Interrupts::apic[0])->SendStartupIPI(((ACPI::MADT *)madt)->lapic[i]->APICId, TRAMPOLINE_START);
while (!CPUEnabled)
CPU::Pause();
trace("CPU %d loaded.", ((ACPI::MADT *)madt)->lapic[i]->APICId);
KernelAllocator.FreePages((void *)*reinterpret_cast<long *>(STACK), TO_PAGES(STACK_SIZE));
CPUEnabled = false;
}
else
KPrint("\e058C19CPU \e8888FF%d \e058C19is the BSP", ((ACPI::MADT *)madt)->lapic[i]->APICId);
}
}
}