feat: Various improvements
This commit is contained in:
@@ -15,7 +15,7 @@ namespace kcp {
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vector<const char*> result;
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cstringstream current_stream = cstringstream();
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do {
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while (true) {
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if (*str == delimiter || *str == '\0') {
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auto cstr = current_stream.c_str();
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auto cstr_len = Lib::strlen(cstr);
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@@ -35,7 +35,7 @@ namespace kcp {
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current_stream << (char)*str;
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str++;
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} while (*str != '\0');
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};
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return result;
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}
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@@ -25,7 +25,7 @@ kcp::cstringstream& kcp::cstringstream::operator<<(char c) {
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if (this->string == nullptr)
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{
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kerr << "kcp::cstringstream: Streaming failed due to failed allocation" << Kt::newline;
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Kt::KernelLogStream(Kt::ERROR, "kcp::cstringstream") << "Character streaming failed due to failed allocation.";
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return *this;
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}
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+7
-34
@@ -1,12 +1,12 @@
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/*
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* gdt.hpp
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* Intel Global Descriptor Table
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* Copyright (c) 2025 Daniel Hammer
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*/
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#include "GDT.hpp"
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#include "../Terminal/Terminal.hpp"
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// Limine loads a GDT of course, (CS = 0x28) but we will need to make a TSS someday... therefore we load our own now
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namespace Hal {
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using namespace Kt;
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@@ -14,39 +14,14 @@ namespace Hal {
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BasicGDT kernelGDT{};
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void PrepareGDT() {
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kout << "HardwareAbstraction: GDT at " << base::hex << (uint64_t)&kernelGDT << "\n";
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kernelGDT = {
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// Code segment offset 0x08
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// Data segment offset 0x10
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// Not sure if having LimitLow set to 0xFFFF for the Null segment is kosher
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{0xFFFF, 0, 0, 0x00, 0x00, 0},
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// Kernel code/data
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{0xFFFF, 0, 0, 0x9A, 0xA0, 0},
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{0xFFFF, 0, 0, 0x92, 0xA0, 0},
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{0xFFFF, 0, 0, 0x9A, 0xA0, 0},
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{0xFFFF, 0, 0, 0x92, 0xA0, 0},
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// User code/data
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{0xFFFF, 0, 0, 0x9A, 0xA0, 0},
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{0xFFFF, 0, 0, 0x92, 0xA0, 0},
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// One day this will point to our actual TSS
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{
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// Limit = sizeof(TSS) - 1
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0,
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// Base = &TSS
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0,
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0,
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// Access byte = 0xFA
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0xFA,
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// Granularity = 0x00
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0x00,
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0x0
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}
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{0, 0, 0, 0xFA, 0x00, 0x0},
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};
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gdtPointer = GDTPointer{
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@@ -60,11 +35,9 @@ namespace Hal {
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extern "C" void ReloadSegments();
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void BridgeLoadGDT() {
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// Puts the GDT pointer structure into the GDTR
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kout << "HardwareAbstraction: Setting GDTR" << Kt::newline;
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LoadGDT(&gdtPointer);
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kout << "HardwareAbstraction: Reloading segments" << Kt::newline;
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ReloadSegments();
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KernelLogStream(DEBUG, "HardwareAbstraction") << "Set new GDT (0x" << base::hex << (uint64_t)&kernelGDT << ")";
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}
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};
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+1
-22
@@ -1,5 +1,6 @@
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/*
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* gdt.hpp
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* Intel Global Descriptor Table
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* Copyright (c) 2025 Daniel Hammer
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*/
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@@ -8,50 +9,28 @@
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using namespace std;
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// __attribute__((packed)) is the GCC extensions way of telling the compiler to ensure that it doesn't mess with these structures or add packing bytes
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// for optimization because that would easily result in a triple fault.
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namespace Hal {
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class GDTEntry {
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public:
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// Base/Limit are obsolete in Long mode because segmentation is no longer used
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// Sadly we must still build and load the GDT during kernel init
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uint16_t LimitLow;
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uint16_t BaseLow;
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uint8_t BaseMiddle;
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// Determine which processor rings this segment can be used in
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uint8_t AccessByte;
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// Lower 4 bits are the higher 4 bits of limit
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uint8_t GranularityByte;
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uint8_t BaseHigh;
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// 16 + 16 + 8 + 8 = 48 bits
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}__attribute__((packed));
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struct BasicGDT {
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// Conventionally the first entry of the GDT has all values zeroed out.
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GDTEntry Null;
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// Kernel code segment descriptor
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GDTEntry KernelCode;
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// Kernel data segment descriptor
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GDTEntry KernelData;
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// UM code segment descriptor
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GDTEntry UserCode;
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// UM data segment descriptor
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GDTEntry UserData;
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// Task State Segment
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GDTEntry TSS;
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}__attribute__((packed));
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// Simple structure that tells the CPU the size of the GDT, and it's address
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struct GDTPointer {
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uint16_t Size;
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uint64_t GDTAddress;
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@@ -56,11 +56,7 @@ namespace Hal {
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template<size_t i>
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__attribute__((interrupt)) void ExceptionHandler(System::PanicFrame* frame)
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{
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// kcp::cstringstream stream;
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// stream << "Caught " << base::hex << "0x" << i << " " << ExceptionStrings[i] << " in kernel";
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frame->InterruptVector = i;
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Panic(ExceptionStrings[i], frame);
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}
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@@ -119,10 +115,10 @@ namespace Hal {
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SetHandler<0, 31>::run();
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kout << "HardwareAbstraction: Created exception interrupt vectors" << "\n";
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Kt::KernelLogStream(Kt::OK, "HardwareAbstraction") << "Created exception interrupt vectors";
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LoadIDT(IDTR);
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kout << "HardwareAbstraction: Loaded new IDT" << "\n";
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Kt::KernelLogStream(Kt::OK, "HardwareAbstraction") << "Loaded new IDT";
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}
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};
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+6
-4
@@ -29,6 +29,7 @@
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#include <Hal/IDT.hpp>
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#include <Memory/PageFrameAllocator.hpp>
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#include <Memory/HHDM.hpp>
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using namespace Kt;
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@@ -47,7 +48,7 @@ extern void (*__init_array_end[])();
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extern "C" void kmain() {
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if (LIMINE_BASE_REVISION_SUPPORTED == false) {
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hcf();
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Hal::Halt();
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}
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// Call global constructors.
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@@ -57,7 +58,7 @@ extern "C" void kmain() {
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if (framebuffer_request.response == nullptr
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|| framebuffer_request.response->framebuffer_count < 1) {
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hcf();
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Hal::Halt();
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}
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limine_framebuffer *framebuffer{framebuffer_request.response->framebuffers[0]};
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@@ -84,11 +85,12 @@ extern "C" void kmain() {
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Memory::HHDMBase = hhdm_offset;
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if (memmap_request.response != nullptr) {
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kout << "MemoryManagement: Creating global PageFrameAllocator" << newline;
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Kt::KernelLogStream(OK, "MemoryManagement") << "Creating PageFrameAllocator";
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Memory::PageFrameAllocator pmm(Memory::Scan(memmap_request.response));
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Memory::g_pfa = &pmm;
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Kt::KernelLogStream(OK, "MemoryManagement") << "Creating HeapAllocator";
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Memory::HeapAllocator heap{};
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Memory::g_heap = &heap;
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@@ -102,5 +104,5 @@ extern "C" void kmain() {
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Hal::IDTInitialize();
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#endif
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hcf();
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Hal::Halt();
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}
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@@ -51,10 +51,12 @@ namespace Memory
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HeapAllocator::HeapAllocator()
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{
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InsertPagesToFreelist(8);
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InsertPagesToFreelist(0x32);
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}
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void* HeapAllocator::Request(size_t size) {
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Lock.Acquire();
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Node* current = head.next;
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Node* prev = &head;
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@@ -80,11 +82,14 @@ namespace Memory
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InsertToFreelist(rest, newBlockSize);
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}
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Lock.Release();
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return block;
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}
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prev = current;
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current = current->next;
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Lock.Release();
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}
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// First pass allocation failed
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@@ -106,6 +111,8 @@ namespace Memory
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}
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void HeapAllocator::Free(void* ptr) {
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Lock.Acquire();
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Header* header = GetHeader(ptr);
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auto size = header->size;
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@@ -118,6 +125,8 @@ namespace Memory
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void* actualBlock = (void*)header;
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InsertToFreelist(actualBlock, size);
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Lock.Release();
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}
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// Traverses the Allocator's linked list for debugging
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@@ -126,7 +135,7 @@ namespace Memory
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size_t i{0};
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while (current != nullptr) {
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kout << "HeapAllocator: " << base::dec << i << " " << current->size << " bytes & address 0x" << base::hex << (uint64_t)current << Kt::newline;
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Kt::KernelLogStream(Kt::DEBUG, "HeapAllocator") << base::dec << i << " " << current->size << " bytes & address 0x" << base::hex << (uint64_t)current;
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current = current->next;
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i++;
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}
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@@ -1,9 +1,11 @@
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#pragma once
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#include "Memmap.hpp"
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#include <CppLib/Spinlock.hpp>
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namespace Memory {
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class HeapAllocator {
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static constexpr std::size_t headerMagic = 0x6CEF9AB4;
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kcp::Spinlock Lock;
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struct Node {
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size_t size;
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@@ -18,8 +18,6 @@ namespace Memory {
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}
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if (entry->type == LIMINE_MEMMAP_USABLE) {
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kout << "MemoryManagement: Found conventional memory section (size = " << base::dec << entry->length << " bytes, address = 0x" << base::hex << (uint64_t)entry->base << ")" << newline;
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if (entry->length > currentLargestSection.size) {
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currentLargestSection = {
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.address = (uint64_t)entry->base,
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@@ -22,6 +22,8 @@ namespace Memory {
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head.next = (Page*)g_section.address;
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head.next->size = section.size;
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head.next->next = nullptr;
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Kt::KernelLogStream(Kt::DEBUG, "PageFrameAllocator") << "New pool size: " << section.size;
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}
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void* PageFrameAllocator::Allocate() {
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@@ -12,6 +12,6 @@
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// but should not be removed, unless you know what you are doing.
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extern "C" {
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int __cxa_atexit(void (*)(void *), void *, void *) { return 0; }
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void __cxa_pure_virtual() { hcf(); }
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void __cxa_pure_virtual() { Hal::Halt(); }
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void *__dso_handle;
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}
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@@ -5,16 +5,18 @@
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*/
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// Halt and catch fire function.
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void hcf()
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{
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namespace Hal {
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__attribute__((noreturn)) void Halt()
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{
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for (;;)
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{
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#if defined(__x86_64__)
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#if defined(__x86_64__)
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asm("hlt");
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#elif defined(__aarch64__) || defined(__riscv)
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#elif defined(__aarch64__) || defined(__riscv)
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asm("wfi");
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#elif defined(__loongarch64)
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#elif defined(__loongarch64)
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asm("idle 0");
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#endif
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#endif
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}
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}
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}
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};
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@@ -7,4 +7,6 @@
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#pragma once
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// Halt and catch fire function.
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void hcf();
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namespace Hal {
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__attribute__((noreturn)) void Halt();
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};
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@@ -15,6 +15,18 @@ namespace Kt
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{
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constexpr const char *clear = "\033[2J";
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constexpr const char *cursor_reset = "\033[H";
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namespace colors {
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constexpr const char* black = "\u001b[30m";
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constexpr const char* red = "\u001b[31m";
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constexpr const char* green = "\u001b[32m";
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constexpr const char* blue = "\u001b[34m";
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constexpr const char* cyan = "\u001b[36m";
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constexpr const char* yellow = "\u001b[33m";
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constexpr const char* magenta = "\u001b[35m";
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constexpr const char* white = "\u001b[37m";
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};
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};
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void Initialize(std::uint32_t *framebuffer, std::size_t width, std::size_t height, std::size_t pitch,
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@@ -77,7 +89,67 @@ namespace Kt
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}
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};
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// This will be on the kernel entry point's stack. Which is totally fine since we don't ever exit from that function
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enum KernelLogLevel {
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INFO,
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WARNING,
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ERROR,
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DEBUG,
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OK
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};
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class KernelLogStream {
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KernelOutStream localStream{};
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KernelLogLevel level;
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const char* componentName = "";
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public:
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KernelLogStream(KernelLogLevel desiredLevel, const char* desiredComponentName) {
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level = desiredLevel;
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componentName = desiredComponentName;
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switch (level) {
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case INFO: {
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localStream << screen::colors::cyan << "INFO " << screen::colors::white;
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break;
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}
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case WARNING: {
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localStream << screen::colors::yellow << "WARNING " << screen::colors::white;
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break;
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}
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case ERROR: {
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localStream << screen::colors::red << "ERROR " << screen::colors::white;
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break;
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}
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case DEBUG: {
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localStream << screen::colors::magenta << "DEBUG " << screen::colors::white;
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break;
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}
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case OK: {
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localStream << screen::colors::green << "OK " << screen::colors::white;
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break ;
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}
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}
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localStream << componentName << ": ";
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}
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~KernelLogStream() {
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localStream << newline;
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}
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template<typename T>
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KernelLogStream &operator<<(T item) {
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localStream << item;
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return *this;
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}
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};
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};
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extern Kt::KernelOutStream kout;
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Block a user