Boot organization
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965d12d2cd
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1aef44b1af
6
Makefile
6
Makefile
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@ -165,13 +165,13 @@ $(KOBJDIR)/kernel/malloc.o: $(KERNELDIR)/kernel/mm/malloc.c
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./ProjectTree: ./.stylehlp_sh
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@cat ./.stylehlp_sh > ./ProjectTree
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@echo "\n" >> ./ProjectTree
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@tree >> ./ProjectTree
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@tree --dirsfirst >> ./ProjectTree
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@echo ${CL2}[$@] ${CL}Generated.${CL3}
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## MAIN MAKEFILE ------------------------------------------------------------- #
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.PHONY: test
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test: all
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@qemu-system-x86_64 -hda build/bin/disk.img -d cpu_reset,guest_errors,pcall,int -enable-kvm 2> qemu.log &
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@qemu-system-x86_64 -m 5G -hda build/bin/disk.img -d cpu_reset,guest_errors,pcall,int -enable-kvm 2> qemu.log &
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@ndisasm $(BINDIR)/kaleid -o 0x00100000 -b 64 > loader_disasm64.asm
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@ndisasm $(BINDIR)/kaleid -o 0x00100000 -b 32 > loader_disasm32.asm
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.PHONY: test32
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@ -182,7 +182,7 @@ test32: all
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.PHONY: debug
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debug: all
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@qemu-system-x86_64 -hda build/bin/disk.img -d cpu_reset,guest_errors,pcall,int -s -S -enable-kvm 2> qemu.log &
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@qemu-system-x86_64 -m 5G -hda build/bin/disk.img -d cpu_reset,guest_errors,pcall,int -s -S -enable-kvm 2> qemu.log &
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@ndisasm $(BINDIR)/kaleid -o 0x00100000 -b 64 > loader_disasm64.asm
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@ndisasm $(BINDIR)/kaleid -o 0x00100000 -b 32 > loader_disasm32.asm
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@ -154,6 +154,7 @@ _loader64:
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call write
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;; Launch the kernel !
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;; XXX CHECK THE RAM BEFORE CALLING KERNEL !
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call tritemporize ; Let time to see
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mov rdi, [mbInfo]
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@ -102,15 +102,18 @@ struct BootInfo_t
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{
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// The Bootloader infos (GRUB in our case)
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struct {
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ushort valid;
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uint grubFlags; //flags
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uint modulesCount; //mods_count
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void *modulesAddr; //mods_addr
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uint grubName; //boot_loader_name
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char *grubName; //boot_loader_name
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void *mbHeaderAddr;
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} btldr;
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// Informations about drives
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struct {
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ushort drvValid;
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ushort bufferValid;
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uint bootDrv; //boot_device
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uint bufferLength; //drives_length
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void *bufferAddr; //drives_addr
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@ -118,6 +121,9 @@ struct BootInfo_t
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// Informations about memory
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struct {
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ushort memValid;
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ushort mapValid;
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//BIOS provided low and up memory
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uint lowMemory; //mem_lower
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uint upMemory; //mem_upper
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@ -125,10 +131,13 @@ struct BootInfo_t
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//GRUB provided memory map
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uint mapLength; //mmap_length
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void *mapAddr; //mmap_addr
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uint ramSize; //The ram (init by map.c)
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} memory;
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// Informations about the video drive
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struct {
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ushort valid;
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uint vbeControl; //vbe_control_info
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uint vbeModeInfo; //vbe_mode_info
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ushort vbeMode; //vbe_mode
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@ -145,6 +154,8 @@ struct BootInfo_t
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// Informations about the microcode firmware (BIOS/EFI)
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struct {
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ushort apmValid;
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ushort romValid;
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uint apmTable; //apm_table
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uint romTable; //config_table
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} firmware;
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@ -25,6 +25,8 @@
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#include <kernel/multiboot.h>
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#include <kernel/base.h>
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#define MINIMUM_RAM_SIZE 16 //Mio, the minimum RAM size.
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//
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// Returns a pointer to the first entry of the memory map
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//
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@ -29,7 +29,7 @@
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//
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// BootInfo_t initialization. It is necessary because grub will potentially be
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// wiped since it is below 1MB....
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// wiped since it is below 1MB.... And we must reorganize all that stuff.
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//
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void InitBootInfo(multiboot_info_t *mbi)
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{
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@ -37,41 +37,69 @@ void InitBootInfo(multiboot_info_t *mbi)
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KalAlwaysAssert(mbi);
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extern uint MB_header;
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//Retrieves the bootloader informations
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//Retrieves the bootloader flags to ensure infos are valid
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GetBootInfo(btldr).grubFlags = mbi->flags;
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GetBootInfo(btldr).grubName = (mbi->boot_loader_name);
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if (
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(GetBootInfo(btldr).grubFlags & MULTIBOOT_INFO_BOOT_LOADER_NAME) == MULTIBOOT_INFO_BOOT_LOADER_NAME &&
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(GetBootInfo(btldr).grubFlags & MULTIBOOT_INFO_MODS) == MULTIBOOT_INFO_MODS
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) {
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GetBootInfo(btldr).grubName = (char*)(ullong)(mbi->boot_loader_name);
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GetBootInfo(btldr).modulesCount = mbi->mods_count;
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GetBootInfo(btldr).modulesAddr = (void*)(ullong)mbi->mods_addr;
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GetBootInfo(btldr).mbHeaderAddr = (void*)(ullong)&MB_header;
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DebugLog("\n[InitBootInfo] %s\n", GetBootInfo(btldr).grubName);
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DebugLog("[InitBootInfo] Header address : %p, modules address : %p\n",
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GetBootInfo(btldr).mbHeaderAddr, GetBootInfo(btldr).modulesAddr);
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DebugLog("[InitBootInfo] GRUB flags : %x\n", GetBootInfo(btldr).grubFlags);
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GetBootInfo(btldr).valid = 1;
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}
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//Retrieves the drives informations
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GetBootInfo(drives).bootDrv = mbi->boot_device;
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if ((GetBootInfo(btldr).grubFlags & MULTIBOOT_INFO_DRIVE_INFO) == MULTIBOOT_INFO_DRIVE_INFO) {
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GetBootInfo(drives).bufferLength = mbi->drives_length;
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GetBootInfo(drives).bufferAddr = (void*)(ullong)mbi->drives_addr;
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DebugLog("[InitBootInfo] Root drive : %x\n",
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GetBootInfo(drives).bootDrv);
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GetBootInfo(drives).bufferValid = 1;
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}
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if ((GetBootInfo(btldr).grubFlags & MULTIBOOT_INFO_BOOTDEV) == MULTIBOOT_INFO_BOOTDEV) {
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GetBootInfo(drives).bootDrv = mbi->boot_device;
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GetBootInfo(drives).drvValid = 1;
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}
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//Retrieves the memory informations
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if ((GetBootInfo(btldr).grubFlags & MULTIBOOT_INFO_MEMORY) == MULTIBOOT_INFO_MEMORY) {
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GetBootInfo(memory).lowMemory = mbi->mem_lower;
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GetBootInfo(memory).upMemory = mbi->mem_upper;
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GetBootInfo(memory).memValid = 1;
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}
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if ((GetBootInfo(btldr).grubFlags & MULTIBOOT_INFO_MEM_MAP) == MULTIBOOT_INFO_MEM_MAP) {
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GetBootInfo(memory).mapAddr = (void*)(ullong)mbi->mmap_addr;
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GetBootInfo(memory).mapLength = mbi->mmap_length;
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DebugLog("[InitBootInfo] Low memory : %d Kio, Up memory : %d Mio\n",
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GetBootInfo(memory).lowMemory, GetBootInfo(memory).upMemory / (MB/KB));
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DebugLog("[InitBootInfo] Memory map address : %p, length : %d\n",
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GetBootInfo(memory).mapAddr, GetBootInfo(memory).mapLength);
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GetBootInfo(memory).mapValid = 1;
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}
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// XXX assign video infos, but unused at this time
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// Retrieves the firmware infos
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GetBootInfo(firmware).apmTable = mbi->apm_table;
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if ((GetBootInfo(btldr).grubFlags & MULTIBOOT_INFO_CONFIG_TABLE) == MULTIBOOT_INFO_CONFIG_TABLE) {
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GetBootInfo(firmware).romTable = mbi->config_table;
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DebugLog("[InitBootInfo] APM Table : %p, ROM Table : %p\n",
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GetBootInfo(firmware).apmTable, GetBootInfo(firmware).romTable);
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GetBootInfo(firmware).romValid = 1;
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}
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if ((GetBootInfo(btldr).grubFlags & MULTIBOOT_INFO_APM_TABLE ) == MULTIBOOT_INFO_APM_TABLE ) {
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GetBootInfo(firmware).apmTable = mbi->apm_table;
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GetBootInfo(firmware).apmValid = 1;
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}
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//Now we check (debug)
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DebugLog("\n[InitBootInfo] Boot loader %s",
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GetBootInfo(btldr).valid ? "OK" : "");
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DebugLog("\n[InitBootInfo] Boot drive %s",
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GetBootInfo(drives).drvValid ? "OK" : "");
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DebugLog("\n[InitBootInfo] Disk buffer %s",
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GetBootInfo(drives).bufferValid ? "OK" : "");
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DebugLog("\n[InitBootInfo] Basic mem %s",
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GetBootInfo(memory).memValid ? "OK" : "");
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DebugLog("\n[InitBootInfo] Memory map %s",
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GetBootInfo(memory).mapValid ? "OK" : "");
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DebugLog("\n[InitBootInfo] ROM table %s",
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GetBootInfo(firmware).romValid ? "OK" : "");
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DebugLog("\n[InitBootInfo] APM table %s",
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GetBootInfo(firmware).apmValid ? "OK\n" : "\n");
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}
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@ -96,7 +124,9 @@ noreturn void StartKern(multiboot_info_t *mbInfo, int mbMagic)
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InitBootInfo(mbInfo);
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//Memory mapping
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InitMemoryMap();
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error_t mapBad = InitMemoryMap();
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if (mapBad)
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StartPanic("[Init] The memory map failed to initialize. Error : %d", mapBad);
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// We're out
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KernLog("\n[Init] Evil never dies !");
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@ -27,8 +27,16 @@
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error_t InitMemoryMap(void)
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{
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uint mapIsValid = (GetBootInfo(btldr).grubFlags & MULTIBOOT_INFO_MEM_MAP) == MULTIBOOT_INFO_MEM_MAP;
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KalAlwaysAssert(mapIsValid);
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if (!GetBootInfo(memory).memValid && GetBootInfo(memory).mapValid)
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return ENXIO;
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DebugLog("[InitMemoryMap] Memory map address : %p, length : %d\n",
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GetBootInfo(memory).mapAddr, GetBootInfo(memory).mapLength);
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if ((GetBootInfo(memory).upMemory / (MB/KB)) <= MINIMUM_RAM_SIZE) //XXX before loading kernel...
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return ENOMEM;
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DebugLog("[InitMemoryMap] Low memory : %d Kio, Up memory : %d Mio\n",
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GetBootInfo(memory).lowMemory, GetBootInfo(memory).upMemory / (MB/KB));
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return EOK;
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}
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