os-k/kaleid/kernel/mm/palloc.c

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//----------------------------------------------------------------------------//
// GNU GPL OS/K //
// //
// Desc: Page allocator related functions //
// //
// //
// Copyright © 2018-2019 The OS/K Team //
// //
// This file is part of OS/K. //
// //
// OS/K is free software: you can redistribute it and/or modify //
// it under the terms of the GNU General Public License as published by //
// the Free Software Foundation, either version 3 of the License, or //
// any later version. //
// //
// OS/K is distributed in the hope that it will be useful, //
// but WITHOUT ANY WARRANTY//without even the implied warranty of //
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the //
// GNU General Public License for more details. //
// //
// You should have received a copy of the GNU General Public License //
// along with OS/K. If not, see <https://www.gnu.org/licenses/>. //
//----------------------------------------------------------------------------//
#include <kernel.h>
#include <init/boot.h>
#include <ex/malloc.h>
#include <mm/paging.h>
#include <mm/palloc.h>
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#include <mm/map.h>
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#include <io/vga.h>
//---------
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enum
{
Whatever = 1UL << 52,
Whatever2 = 1UL << 62
};
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static AllocatedPage_t busyPagesList = { (void*)0, 0, (AllocatedPage_t*)0 };
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extern MemoryMap_t memoryMap;
extern ulong MmPhysLastKernAddress;
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//---------
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static bool isPageBusy(void *phyPageAddr)
{
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AllocatedPage_t *busyPage = &busyPagesList;
bool isBusy = false;
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// In case of NVS, ACPI or BADRAM zone, considered busy
if (!MmGetAvailZoneSize(phyPageAddr))
return true;
// Search in the busylist if the phy addr is here
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while(busyPage->next) {
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busyPage = busyPage->next;
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if (phyPageAddr == busyPage->phyAddress) {
isBusy = true;
break;
}
}
return isBusy;
}
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static void printBusyPages(void)
{
AllocatedPage_t *busyPage = &busyPagesList;
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if (!busyPage->next) {
KernLog("No busy page\n");
} else {
while(busyPage->next) {
busyPage = busyPage->next;
KernLog("Busy page at %p\n", busyPage->phyAddress);
}
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}
}
static void addPageToBusyList(void *phyPageAddr, ulong id)
{
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AllocatedPage_t *busyPage = &busyPagesList;
while(busyPage->next) {
busyPage = busyPage->next;
}
AllocatedPage_t *newBusyPage = (AllocatedPage_t*)malloc(sizeof(AllocatedPage_t));
newBusyPage->phyAddress = phyPageAddr;
newBusyPage->id = id;
busyPage->next = newBusyPage;
}
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static void removePageFromBusyList(void *phyPageAddr)
{
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AllocatedPage_t *busyPage = &busyPagesList;
AllocatedPage_t *prevBusyPage = NULL;
while(busyPage->next) {
prevBusyPage = busyPage;
busyPage = busyPage->next;
if (phyPageAddr == busyPage->phyAddress) {
prevBusyPage->next = busyPage->next;
free(busyPage);
break;
}
}
}
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//
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// Returns an id to identify a page frame allocated (kernel)
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//
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ulong MmAllocPageFrame(void ***frameListPtr, size_t *pageNumber, size_t size, bool contiguous)
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{
static ulong id = 0;
*pageNumber = (((ulong)size - 1) / KPAGESIZE) + 1;
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*frameListPtr = (void**)malloc(sizeof(void*)*(*pageNumber));
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size_t curNumber = 0;
bool inBlock = false;
// Incrementing id
id++;
// Maximum PHYSICAL address in memory
ulong phRamSize = memoryMap.freeRamSize + memoryMap.nonfreeRamSize;
DebugLog("Allocating %d pages...\n", *pageNumber);
for (void *curPage = (void*)MmPhysLastKernAddress; curPage < (void*)phRamSize; curPage += KPAGESIZE) {
if (!isPageBusy(curPage)) {
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(*frameListPtr)[curNumber] = curPage;
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inBlock = true;
//DebugLog("Select page : %p\n", curPage);
if (++curNumber >= *pageNumber) {
break;
}
} else {
inBlock = false;
}
if (contiguous)
if (!inBlock)
curNumber = 0;
}
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for (size_t i = 0; i < *pageNumber; i++) {
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addPageToBusyList((*frameListPtr)[i], id);
//DebugLog("Allocating page : %p\n", *frameListPtr[i]);
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}
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return id;
}
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//
// Frees a page frame by its id
//
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void MmFreePageFrame(ulong id)
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{
AllocatedPage_t *busyPage = &busyPagesList;
while(busyPage->next) {
busyPage = busyPage->next;
if (id == busyPage->id) {
removePageFromBusyList(busyPage->phyAddress);
}
}
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}
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error_t MmTestBusyPage(void)
{
DebugLog("\nBusy pages\n");
printBusyPages();
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void **ptr = NULL;
size_t n = 0;
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ulong id1 = MmAllocPageFrame(&ptr, &n, 6677, NORMAL);
DebugLog("\nAlloc 6677 bytes : %p, %d pages, first at %p\n", ptr, n, ptr[0]);
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void **ptr2 = NULL;
size_t n2 = 0;
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ulong id2 = MmAllocPageFrame(&ptr2, &n2, 9045, NORMAL);
DebugLog("\nAlloc 9045 bytes: %p, %d pages, first at %p\n", ptr2, n2, ptr2[0]);
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void **ptr3 = NULL;
size_t n3 = 0;
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ulong id3 = MmAllocPageFrame(&ptr3, &n3, 1200, NORMAL);
DebugLog("\nAlloc 1200 bytes: %p, %d pages, first at %p\n", ptr3, n3, ptr3[0]);
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void **ptr4 = NULL;
size_t n4 = 0;
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ulong id4 = MmAllocPageFrame(&ptr4, &n4, 4096, NORMAL);
DebugLog("\nAlloc 4096 bytes: %p, %d pages, first at %p\n", ptr4, n4, ptr4[0]);
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void **ptr5 = NULL;
size_t n5 = 0;
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ulong id5 = MmAllocPageFrame(&ptr5, &n5, 4097, NORMAL);
DebugLog("\nAlloc 4097 bytes: %p, %d pages, first at %p\n", ptr5, n5, ptr5[0]);
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printBusyPages();
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MmFreePageFrame(id1);
MmFreePageFrame(id3);
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DebugLog("\nFree 6677 and 1200 bytes\n");
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void **ptr6 = NULL;
size_t n6 = 0;
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ulong id6 = MmAllocPageFrame(&ptr6, &n6, 10000, NORMAL);
DebugLog("\nAlloc 10000 bytes: %p, %d pages, first at %p\n", ptr6, n6, ptr6[0]);
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printBusyPages();
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MmFreePageFrame(id6);
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DebugLog("\nFree 10000 bytes\n");
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printBusyPages();
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void **ptr7 = NULL;
size_t n7 = 0;
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ulong id7 = MmAllocPageFrame(&ptr7, &n7, 10000, CONTIGUOUS);
DebugLog("\nAlloc 10000 bytes contiguous: %p, %d pages, first at %p\n", ptr7, n7, ptr7[0]);
printBusyPages();
MmFreePageFrame(id1);
MmFreePageFrame(id2);
MmFreePageFrame(id3);
MmFreePageFrame(id4);
MmFreePageFrame(id5);
MmFreePageFrame(id6);
MmFreePageFrame(id7);
DebugLog("\nFree all bytes\n");
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printBusyPages();
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return EOK;
}