Kernel: Store current processor pointer in IA32_GS_BASE

This allows easier access to processors fields
This commit is contained in:
Bananymous 2024-03-07 16:05:29 +02:00
parent efed67cbd0
commit 29fd682672
13 changed files with 119 additions and 98 deletions

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@ -18,9 +18,6 @@ namespace Kernel
gdt->write_entry(0x20, 0x00000000, 0xFFFFF, 0xF2, 0xC); // user data
gdt->write_tss();
gdt->flush_gdt();
gdt->flush_tss();
return gdt;
}

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@ -356,7 +356,7 @@ done:
extern "C" void syscall_asm();
IDT* IDT::create()
IDT* IDT::create(bool is_bsb)
{
auto* idt = new IDT();
ASSERT(idt);
@ -369,7 +369,7 @@ done:
// FIXME: distribute IRQs more evenly?
#define X(num) idt->register_interrupt_handler(IRQ_VECTOR_BASE + num, irq ## num);
if (Processor::current_is_bsb())
if (is_bsb)
{
IRQ_LIST_X
}
@ -377,18 +377,15 @@ done:
idt->register_syscall_handler(0x80, syscall_asm);
idt->flush();
return idt;
}
[[noreturn]] void IDT::force_triple_fault()
{
// load 0 sized IDT and trigger an interrupt to force triple fault
auto& processor = Processor::current();
processor.set_interrupt_state(InterruptState::Disabled);
processor.idt().m_idtr.size = 0;
processor.idt().flush();
Processor::set_interrupt_state(InterruptState::Disabled);
Processor::idt().m_idtr.size = 0;
Processor::idt().load();
asm volatile("int $0x00");
ASSERT_NOT_REACHED();
}

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@ -312,7 +312,7 @@ namespace Kernel
{
SpinLockGuard _(m_lock);
asm volatile("movq %0, %%cr3" :: "r"(m_highest_paging_struct));
Processor::current().m_current_page_table = this;
Processor::set_current_page_table(this);
}
void PageTable::invalidate(vaddr_t vaddr)

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@ -158,13 +158,6 @@ enable_sse:
movl %eax, %cr4
ret
initialize_lapic_id:
movl $1, %eax
cpuid
shrl $24, %ebx
movw %bx, %gs
ret
initialize_paging:
# enable PAE
movl %cr4, %ecx
@ -198,7 +191,6 @@ _start:
movl %ebx, V2P(bootloader_info)
movl $V2P(boot_stack_top), %esp
call initialize_lapic_id
call check_requirements
call enable_sse
@ -278,7 +270,6 @@ ap_protected_mode:
movl ap_stack_ptr, %esp
movb $1, V2P(g_ap_stack_loaded)
call V2P(initialize_lapic_id)
call V2P(enable_sse)

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@ -61,6 +61,7 @@ namespace Kernel
public:
static GDT* create();
void load() { flush_gdt(); flush_tss(); }
static constexpr inline bool is_user_segment(uint8_t segment)
{

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@ -34,23 +34,23 @@ namespace Kernel
BAN_NON_MOVABLE(IDT);
public:
static IDT* create();
static IDT* create(bool is_bsb);
[[noreturn]] static void force_triple_fault();
void register_irq_handler(uint8_t irq, Interruptable* interruptable);
void load()
{
asm volatile("lidt %0" :: "m"(m_idtr) : "memory");
}
private:
IDT() = default;
void register_interrupt_handler(uint8_t index, void (*handler)());
void register_syscall_handler(uint8_t index, void (*handler)());
void flush()
{
asm volatile("lidt %0" :: "m"(m_idtr) : "memory");
}
private:
BAN::Array<GateDescriptor, 0x100> m_idt;
IDTR m_idtr {

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@ -40,7 +40,7 @@ namespace Kernel
static void initialize();
static PageTable& kernel();
static PageTable& current() { return *reinterpret_cast<PageTable*>(Processor::current().m_current_page_table); }
static PageTable& current() { return *reinterpret_cast<PageTable*>(Processor::get_current_page_table()); }
static constexpr vaddr_t fast_page() { return KERNEL_OFFSET; }

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@ -22,18 +22,13 @@ namespace Kernel
class Processor
{
BAN_NON_COPYABLE(Processor);
BAN_NON_MOVABLE(Processor);
public:
static Processor& create(ProcessorID id);
static Processor& initialize();
static ProcessorID current_id()
{
uint16_t id;
asm volatile("movw %%gs, %0" : "=rm"(id));
return id;
}
static Processor& get(ProcessorID);
static Processor& current() { return get(current_id()); }
static ProcessorID current_id() { return read_gs_sized<ProcessorID>(offsetof(Processor, m_id)); }
static ProcessorID bsb_id() { return s_bsb_id; }
static bool current_is_bsb() { return current_id() == bsb_id(); }
@ -55,42 +50,71 @@ namespace Kernel
return InterruptState::Disabled;
};
uintptr_t stack_bottom() const { return reinterpret_cast<uintptr_t>(m_stack); }
uintptr_t stack_top() const { return stack_bottom() + m_stack_size; }
static uintptr_t current_stack_bottom() { return reinterpret_cast<uintptr_t>(read_gs_ptr(offsetof(Processor, m_stack))); }
static uintptr_t current_stack_top() { return current_stack_bottom() + s_stack_size; }
void initialize();
uintptr_t stack_bottom() const { return reinterpret_cast<uintptr_t>(m_stack); }
uintptr_t stack_top() const { return stack_bottom() + s_stack_size; }
GDT& gdt() { ASSERT(m_gdt); return *m_gdt; }
IDT& idt() { ASSERT(m_idt); return *m_idt; }
static GDT& gdt() { return *reinterpret_cast<GDT*>(read_gs_ptr(offsetof(Processor, m_gdt))); }
static IDT& idt() { return *reinterpret_cast<IDT*>(read_gs_ptr(offsetof(Processor, m_idt))); }
static void* get_current_page_table() { return read_gs_ptr(offsetof(Processor, m_current_page_table)); }
static void set_current_page_table(void* page_table) { write_gs_ptr(offsetof(Processor, m_current_page_table), page_table); }
private:
Processor() = default;
Processor(Processor&& other)
~Processor() { ASSERT_NOT_REACHED(); }
template<typename T>
static T read_gs_sized(uintptr_t offset) requires(sizeof(T) <= 8)
{
m_stack = other.m_stack;
other.m_stack = nullptr;
m_gdt = other.m_gdt;
other.m_gdt = nullptr;
m_idt = other.m_idt;
other.m_idt = nullptr;
#define __ASM_INPUT(operation) operation " %%gs:(%[offset]), %[result]" : [result]"=rm"(result) : [offset]"rm"(offset)
T result;
if constexpr(sizeof(T) == 8)
asm volatile(__ASM_INPUT("movq"));
if constexpr(sizeof(T) == 4)
asm volatile(__ASM_INPUT("movl"));
if constexpr(sizeof(T) == 2)
asm volatile(__ASM_INPUT("movw"));
if constexpr(sizeof(T) == 1)
asm volatile(__ASM_INPUT("movb"));
return result;
#undef __ASM_INPUT
}
~Processor();
template<typename T>
static void write_gs_sized(uintptr_t offset, T value) requires(sizeof(T) <= 8)
{
#define __ASM_INPUT(operation) operation " %[value], %%gs:(%[offset])" :: [value]"rm"(value), [offset]"rm"(offset) : "memory"
if constexpr(sizeof(T) == 8)
asm volatile(__ASM_INPUT("movq"));
if constexpr(sizeof(T) == 4)
asm volatile(__ASM_INPUT("movl"));
if constexpr(sizeof(T) == 2)
asm volatile(__ASM_INPUT("movw"));
if constexpr(sizeof(T) == 1)
asm volatile(__ASM_INPUT("movb"));
#undef __ASM_INPUT
}
static void* read_gs_ptr(uintptr_t offset) { return read_gs_sized<void*>(offset); }
static void write_gs_ptr(uintptr_t offset, void* value) { write_gs_sized<void*>(offset, value); }
private:
static ProcessorID s_bsb_id;
ProcessorID m_id { PROCESSOR_NONE };
static constexpr size_t s_stack_size { 4096 };
void* m_stack { nullptr };
static constexpr size_t m_stack_size { 4096 };
GDT* m_gdt { nullptr };
IDT* m_idt { nullptr };
void* m_current_page_table { nullptr };
friend class BAN::Vector<Processor>;
friend class PageTable;
friend class BAN::Array<Processor, 0xFF>;
};
#else
#error

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@ -232,10 +232,9 @@ namespace Kernel
dprintln("Trying to enable processor (lapic id {})", processor.apic_id);
Kernel::Processor::create(processor.processor_id);
auto& proc = Kernel::Processor::create(processor.processor_id);
PageTable::with_fast_page((paddr_t)g_ap_init_addr, [&] {
PageTable::fast_page_as_sized<uint32_t>(2) = V2P(Kernel::Processor::get(processor.processor_id).stack_top());
PageTable::fast_page_as_sized<uint32_t>(2) = V2P(proc.stack_top());
});
*g_ap_stack_loaded = 0;

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@ -8,11 +8,10 @@ namespace Kernel
void Interruptable::set_irq(int irq)
{
auto& processor = Processor::current();
if (m_irq != -1)
processor.idt().register_irq_handler(m_irq, nullptr);
Processor::idt().register_irq_handler(m_irq, nullptr);
m_irq = irq;
processor.idt().register_irq_handler(irq, this);
Processor::idt().register_irq_handler(irq, this);
}
void Interruptable::enable_interrupt()

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@ -1,57 +1,70 @@
#include <BAN/Vector.h>
#include <kernel/Memory/kmalloc.h>
#include <kernel/Processor.h>
#include <kernel/Debug.h>
namespace Kernel
{
static constexpr uint32_t MSR_IA32_GS_BASE = 0xC0000101;
ProcessorID Processor::s_bsb_id { PROCESSOR_NONE };
static BAN::Vector<Processor> s_processors;
static BAN::Array<Processor, 0xFF> s_processors;
static ProcessorID read_processor_id()
{
uint8_t id;
asm volatile(
"movl $1, %%eax;"
"cpuid;"
"shrl $24, %%ebx;"
"movb %%bl, %0;"
: "=rm"(id)
:: "eax", "ebx", "ecx", "edx"
);
return id;
}
Processor& Processor::create(ProcessorID id)
{
// bsb is the first processor
if (s_bsb_id == PROCESSOR_NONE)
s_bsb_id = id;
s_bsb_id = id = read_processor_id();
while (s_processors.size() <= id)
MUST(s_processors.emplace_back());
auto& processor = s_processors[id];
if (processor.m_stack == nullptr)
{
processor.m_stack = kmalloc(m_stack_size, 4096, true);
ASSERT(processor.m_stack);
}
ASSERT(processor.m_id == PROCESSOR_NONE);
processor.m_id = id;
processor.m_stack = kmalloc(s_stack_size, 4096, true);
ASSERT(processor.m_stack);
processor.m_gdt = GDT::create();
ASSERT(processor.m_gdt);
processor.m_idt = IDT::create(id == s_bsb_id);
ASSERT(processor.m_idt);
return processor;
}
Processor::~Processor()
Processor& Processor::initialize()
{
if (m_stack)
kfree(m_stack);
m_stack = nullptr;
auto id = read_processor_id();
auto& processor = s_processors[id];
if (m_gdt)
delete m_gdt;
m_gdt = nullptr;
}
// set gs base to pointer to this processor
uint64_t ptr = reinterpret_cast<uint64_t>(&processor);
asm volatile("wrmsr" :: "d"(ptr >> 32), "a"(ptr), "c"(MSR_IA32_GS_BASE));
Processor& Processor::get(ProcessorID id)
{
return s_processors[id];
}
ASSERT(processor.m_gdt);
processor.gdt().load();
void Processor::initialize()
{
ASSERT(this == &Processor::current());
ASSERT(processor.m_idt);
processor.idt().load();
ASSERT(m_gdt == nullptr);
m_gdt = GDT::create();
ASSERT(m_gdt);
ASSERT(m_idt == nullptr);
m_idt = IDT::create();
ASSERT(m_idt);
return processor;
}
}

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@ -18,7 +18,7 @@ namespace Kernel
ALWAYS_INLINE static void load_temp_stack()
{
asm volatile("movq %0, %%rsp" :: "rm"(Processor::current().stack_top()));
asm volatile("movq %0, %%rsp" :: "rm"(Processor::current_stack_top()));
}
BAN::ErrorOr<void> Scheduler::initialize()
@ -223,7 +223,7 @@ namespace Kernel
#if SCHEDULER_VERIFY_STACK
vaddr_t rsp;
read_rsp(rsp);
ASSERT(Processor::current().stack_bottom() <= rsp && rsp <= Processor::current().stack_top());
ASSERT(Processor::current_stack_bottom() <= rsp && rsp <= Processor::current_stack_top());
ASSERT(&PageTable::current() == &PageTable::kernel());
#endif
@ -256,7 +256,7 @@ namespace Kernel
if (current->has_process())
{
current->process().page_table().load();
Processor::current().gdt().set_tss_stack(current->interrupt_stack_base() + current->interrupt_stack_size());
Processor::gdt().set_tss_stack(current->interrupt_stack_base() + current->interrupt_stack_size());
}
else
PageTable::kernel().load();

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@ -102,8 +102,8 @@ extern "C" void kernel_main(uint32_t boot_magic, uint32_t boot_info)
parse_boot_info(boot_magic, boot_info);
dprintln("boot info parsed");
Processor::create(Processor::current_id());
Processor::current().initialize();
Processor::create(0);
Processor::initialize();
dprintln("BSP initialized");
PageTable::initialize();
@ -211,7 +211,7 @@ extern "C" void ap_main()
{
using namespace Kernel;
Processor::current().initialize();
Processor::initialize();
PageTable::kernel().initial_load();
dprintln("ap{} initialized", Processor::current_id());