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207 lines
7.3 KiB
C
207 lines
7.3 KiB
C
//----------------------------------------------------------------------------//
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// GNU GPL OS/K //
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// //
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// Desc: Mapping and checking memory related functions //
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// //
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// //
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// Copyright © 2018-2019 The OS/K Team //
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// //
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// This file is part of OS/K. //
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// //
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// OS/K is free software: you can redistribute it and/or modify //
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// it under the terms of the GNU General Public License as published by //
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// the Free Software Foundation, either version 3 of the License, or //
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// any later version. //
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// //
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// OS/K is distributed in the hope that it will be useful, //
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// but WITHOUT ANY WARRANTY//without even the implied warranty of //
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the //
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// GNU General Public License for more details. //
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// //
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// You should have received a copy of the GNU General Public License //
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// along with OS/K. If not, see <https://www.gnu.org/licenses/>. //
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//----------------------------------------------------------------------------//
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#include <mm/mm.h>
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#include <init/boot.h>
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#include <init/mboot.h>
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// Initializes globally the memory map
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MemoryMap_t memoryMap = { 0 };
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static error_t InitMemoryMap(void);
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//
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// Initilization of the memory map, and computation of the available ram size
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//
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void MmInitMemoryMap(void)
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{
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error_t rc;
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if ((rc = InitMemoryMap()))
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KeStartPanic("[Init] The memory map failed to initialize. Error : %d",
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rc
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);
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}
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static error_t InitMemoryMap(void)
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{
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multiboot_memory_map_t *currentEntry;
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multiboot_memory_map_t *mapEnd;
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uint i = 0;
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// sanity checks
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if (!BtMemoryInfo.memValid && BtMemoryInfo.mapValid)
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return ENXIO;
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if ((BtMemoryInfo.upMemory / (MB/KB)) <= MINIMUM_RAM_SIZE)
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return ENOMEM;
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// Ok then we can work
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// the memory map provided by GRUB via the BIOS
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currentEntry = (multiboot_memory_map_t*)BtMemoryInfo.mapAddr;
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// End address of the map
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mapEnd = (multiboot_memory_map_t*)
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((ulong)currentEntry + (ulong)BtMemoryInfo.mapLength);
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// fill the map
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while (currentEntry < mapEnd) {
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// memory zone address
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memoryMap.entry[i].addr = (void*)((ullong)currentEntry->addr_low +
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(((ullong)currentEntry->addr_high) << 32 ));
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// memory zone size in bytes
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memoryMap.entry[i].length = (ulong)currentEntry->len_low +
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(((ulong)currentEntry->len_high) << 32);
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// memory availability
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memoryMap.entry[i].type = (uint)currentEntry->type;
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// Adding the size to the size (yup)
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memoryMap.length++;
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// moving up !
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currentEntry = (multiboot_memory_map_t*) ((ulong)currentEntry +
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currentEntry->size + sizeof(currentEntry->size));
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i++;
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}
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DebugLog("[InitMemoryMap] %d entries detected in the memory map\n",
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memoryMap.length);
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// compute the free ram size
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for (i = 0; i < memoryMap.length; i++) {
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if (memoryMap.entry[i].type == AVAILABLE_ZONE) {
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memoryMap.freeRamSize += memoryMap.entry[i].length;
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} else {
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memoryMap.nonfreeRamSize += memoryMap.entry[i].length;
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}
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}
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// Trully strange if it happens...
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if (memoryMap.freeRamSize < MINIMUM_RAM_SIZE)
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return ENOMEM;
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DebugLog("[InitMemoryMap] Available Ram Size : %u Mio, Used Ram Size : %u Kio\n\n",
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memoryMap.freeRamSize / MB, memoryMap.nonfreeRamSize / KB);
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/*DebugLog("[InitMemoryMap] Physical Ram Size : %d Mio\n\n",
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(memoryMap.freeRamSize + memoryMap.nonfreeRamSize) / MB);*/
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// Magic value in memory to prevent smashing
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ulong * heapStart = BtLoaderInfo.stackEndAddr + 8;
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*heapStart = 0xbad00badbad00bad;
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return EOK;
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}
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size_t MmGetAvailZoneSize(void *start) {
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uint i;
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// Because the kernel is the kernel
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if (start < BtLoaderInfo.stackEndAddr + 16)
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return 0;
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// Search the zone where the start address is
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for (i = 0; i < memoryMap.length; i++) {
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// if the address is in an available zone, we can return the length
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if (
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memoryMap.entry[i].type == AVAILABLE_ZONE &&
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(ulong)start >= (ulong)memoryMap.entry[i].addr &&
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(ulong)start < ((ulong)memoryMap.entry[i].addr +
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(ulong)memoryMap.entry[i].length)
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) {
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return (size_t)((ulong)memoryMap.entry[i].length - (ulong)start);
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}
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}
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// If there is no zone, we return a 0 size
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return 0;
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}
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void *MmGetFirstAvailZone(void *start) {
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uint i;
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void *current = 0;
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// Because the kernel is the kernel
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if ((ulong)start < (ulong)BtLoaderInfo.stackEndAddr+16) {
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return MmGetFirstAvailZone(BtLoaderInfo.stackEndAddr+16);
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}
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// Search the zone where the start address is
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for (i = 0; i < memoryMap.length; i++) {
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// if the address is in an available zone, we can return the start address
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if (
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memoryMap.entry[i].type == AVAILABLE_ZONE &&
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(ulong)start >= (ulong)memoryMap.entry[i].addr &&
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(ulong)start < ((ulong)memoryMap.entry[i].addr +
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(ulong)memoryMap.entry[i].length)
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) {
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current = start;
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break;
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}
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}
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if (current)
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return current;
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// Search the first zone from start
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for (i = 0; i < memoryMap.length; i++) {
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// Return the first zone that is after start
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if (
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memoryMap.entry[i].type == AVAILABLE_ZONE &&
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(ulong)start <= (ulong)memoryMap.entry[i].addr
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) {
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current = memoryMap.entry[i].addr;
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break;
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}
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}
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return current;
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}
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void MmPrintMemoryMap(void) {
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char *avStr = "";
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for (uint i=0; i < memoryMap.length; i++) {
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switch (memoryMap.entry[i].type) {
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case AVAILABLE_ZONE: avStr="Available";
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break;
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case RESERVED_ZONE: avStr="Reserved";
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break;
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case ACPI_ZONE: avStr="ACPI ";
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break;
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case NVS_ZONE: avStr="NVS ";
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break;
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case BADRAM_ZONE: avStr="Bad Ram";
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break;
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default:;
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}
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ulong len = memoryMap.entry[i].length;
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KernLog("mem zone: %lp\t%s\twith length: %4luMB + %4luKB + %4luB\n",
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memoryMap.entry[i].addr, avStr,
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_ADDR_TO_MB(len), _ADDR_TO_KB(len), _ADDR_TO_B(len)
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);
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}
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}
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