free, lock, reserve and unreserve pages

kernel/src/PageFrameAllocator.cpp

@@ -32,7 +32,15 @@ void PageFrameAllocator::ReadEFIMemoryMap(EFI_MEMORY_DESCRIPTOR* mMap, size_t mM
     InitBitmap(bitmapSize, largestFreeMemSeg);
 
     // lock pages of bitmap
+	LockPages(&PageBitmap, PageBitmap.Size / 4096 + 1);
+
     //reserve pages of unsable/reserverd memory
+	for (int i = 0; i < mMapEntries; i++) {
+        EFI_MEMORY_DESCRIPTOR* desc = (EFI_MEMORY_DESCRIPTOR*)((uint64_t)mMap + (i * mMapDescSize));
+        if (desc->type != 7) { // not efiConventionalMemory
+			ReservePages(desc->physAddr, desc->numPages);
+		}
+	}
 }
 
 void PageFrameAllocator::InitBitmap(size_t bitmapSize, void* bufferAddress){
@@ -42,3 +50,80 @@ void PageFrameAllocator::InitBitmap(size_t bitmapSize, void* bufferAddress){
         *(uint8_t*)(PageBitmap.Buffer + i) = 0; 
     }
 }
+
+void PageFrameAllocator::FreePage(void* address) {
+	uint64_t index = (uint64_t)address / 4096;
+	if (PageBitmap[index] == false) return; // page is already free
+
+	// free page in bitmap
+	PageBitmap.Set(index, false);
+	freeMemory += 4096;
+	usedMemory -= 4096;
+}
+
+void PageFrameAllocator::FreePages(void* address, uint64_t pageCount) {
+	for (int t = 0; t < pageCount; t++) {
+		FreePage((void*)((uint64_t)address + (t * 4096)));
+	}
+}
+
+void PageFrameAllocator::LockPage(void* address) {
+	uint64_t index = (uint64_t)address / 4096;
+	if (PageBitmap[index] == true) return; // page is already locked
+
+	// lock page in bitmap
+	PageBitmap.Set(index, true);
+	freeMemory -= 4096;
+	usedMemory += 4096;
+}
+
+void PageFrameAllocator::LockPages(void* address, uint64_t pageCount) {
+	for (int t = 0; t < pageCount; t++) {
+		LockPage((void*)((uint64_t)address + (t * 4096)));
+	}
+}
+
+void PageFrameAllocator::UnreservePage(void* address) {
+	uint64_t index = (uint64_t)address / 4096;
+	if (PageBitmap[index] == false) return; // page is already free
+
+	// free page in bitmap
+	PageBitmap.Set(index, false);
+	freeMemory += 4096;
+	reservedMemory -= 4096;
+}
+
+void PageFrameAllocator::UnreservePages(void* address, uint64_t pageCount) {
+	for (int t = 0; t < pageCount; t++) {
+		UnreservePage((void*)((uint64_t)address + (t * 4096)));
+	}
+}
+
+void PageFrameAllocator::ReservePage(void* address) {
+	uint64_t index = (uint64_t)address / 4096;
+	if (PageBitmap[index] == true) return; // page is already locked
+
+	// lock page in bitmap
+	PageBitmap.Set(index, true);
+	freeMemory -= 4096;
+	reservedMemory += 4096;
+}
+
+void PageFrameAllocator::ReservePages(void* address, uint64_t pageCount) {
+	for (int t = 0; t < pageCount; t++) {
+		ReservePage((void*)((uint64_t)address + (t * 4096)));
+	}
+}
+
+
+uint64_t PageFrameAllocator::GetFreeRAM() {
+	return freeMemory;
+}
+
+uint64_t PageFrameAllocator::GetUsedRAM() {
+	return usedMemory;
+}
+
+uint64_t PageFrameAllocator::GetReservedRAM() {
+	return reservedMemory;
+}

kernel/src/PageFrameAllocator.h

@@ -9,7 +9,18 @@ class PageFrameAllocator {
     public:
     void ReadEFIMemoryMap(EFI_MEMORY_DESCRIPTOR* mMap, size_t mMapSize, size_t mMapDescSize);
 	Bitmap PageBitmap;
+	void FreePage(void* address);
+	void FreePages(void* address, uint64_t pageCount);
+	void LockPage(void* address);
+	void LockPages(void* address, uint64_t pageCount);
+	uint64_t GetFreeRAM();
+	uint64_t GetUsedRAM();
+	uint64_t GetReservedRAM();
 
     private:
     void InitBitmap(size_t bitmapSize, void* bufferAddress);
+	void ReservePage(void* address);
+	void ReservePages(void* address, uint64_t pageCount);
+	void UnreservePage(void* address);
+	void UnreservePages(void* address, uint64_t pageCount);
 };

kernel/src/kernel.cpp

@@ -5,6 +5,7 @@
 #include "efiMemory.h"
 #include "memory.h"
 #include "Bitmap.h"
+#include "PageFrameAllocator.h"
 
 struct BootInfo {
 	Framebuffer* framebuffer;
@@ -27,6 +28,22 @@ extern "C" void _start(BootInfo* bootInfo) {
 	uint64_t mMapEntries = bootInfo->mMapSize / bootInfo->mMapDescriptorSize;
 
 
+	PageFrameAllocator newAllocator;
+	newAllocator.ReadEFIMemoryMap(bootInfo->mMap, bootInfo->mMapSize, bootInfo->mMapDescriptorSize);
+
+	newRenderer.Print(0xFFFFFFFF, "Free RAM: ");
+	newRenderer.Print(0xFF00FFFF, to_string(newAllocator.GetFreeRAM() / 1024));
+	newRenderer.Print(0xFF00FFFF, " KB");
+	newRenderer.cursorPosition = {0, newRenderer.cursorPosition.y + 18};
+	newRenderer.Print(0xFFFFFFFF, "Used RAM: ");
+	newRenderer.Print(0xFF00FFFF, to_string(newAllocator.GetUsedRAM() / 1024));
+	newRenderer.Print(0xFF00FFFF, " KB");
+	newRenderer.cursorPosition = {0, newRenderer.cursorPosition.y + 18};
+	newRenderer.Print(0xFFFFFFFF, "Reserved RAM: ");
+	newRenderer.Print(0xFF00FFFF, to_string(newAllocator.GetReservedRAM() / 1024));
+	newRenderer.Print(0xFF00FFFF, " KB");
+	newRenderer.cursorPosition = {0, newRenderer.cursorPosition.y + 18};
+
 	//newRenderer.Print(0xFFFFFFFF, to_string(GetMemorySize(bootInfo->mMap, mMapEntries, bootInfo ->mMapDescriptorSize)));