178 lines
4.2 KiB
C
178 lines
4.2 KiB
C
#include "assert.h"
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#include "errno.h"
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#include "kernel.h"
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#include "klibc.h"
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#include "list.h"
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#include "mem.h"
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#include "types.h"
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static struct phyMemDesc *pageDesc = (struct phyMemDesc *)&__ld_kernel_end;
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static struct phyMemDesc *phyFreePage;
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static struct phyMemDesc *phyUsedPage;
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paddr_t pageDescEnd;
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paddr_t upperMem;
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static unsigned long allocatedPage = 0;
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int memSetup(paddr_t upperMemKB, paddr_t *firstUsed, paddr_t *lastMemUsedOut)
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{
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list_init(phyFreePage);
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list_init(phyUsedPage);
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// Align upper mem (in kB) on page size even if it does loose a page
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upperMemKB = ALIGN_DOWN(upperMemKB, PAGE_SIZE / 1024);
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unsigned long nbPage = ((upperMemKB) / (PAGE_SIZE / 1024));
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printf("Available Mem from 0x%x to 0x%x: %dMB in %d Pages of %dB\n", &__ld_kernel_end,
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upperMemKB * 1024, (upperMemKB * 1024 - (uint32_t)&__ld_kernel_end) / (1024 * 1024),
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nbPage, PAGE_SIZE);
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// Memory description is stored after the kernel. We need some place to store it
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pageDescEnd = (unsigned long)pageDesc + nbPage * sizeof(struct phyMemDesc);
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*lastMemUsedOut = ALIGN(pageDescEnd, PAGE_SIZE);
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upperMem = upperMemKB * 1024;
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*firstUsed = ALIGN_DOWN((paddr_t)&__ld_kernel_begin, PAGE_SIZE);
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// Remove addr from 0 to PAGE_SIZE so we can return 0 for no page available
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memAddBank(0, PAGE_SIZE, 0);
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memAddBank(*lastMemUsedOut, *lastMemUsedOut, 0);
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return 0;
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}
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int memAddBank(paddr_t bottomMem, paddr_t topMem, int isFree)
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{
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topMem = min(topMem, upperMem);
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for (uint i = (bottomMem >> PAGE_SHIFT); i < (topMem >> PAGE_SHIFT); i++) {
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struct phyMemDesc *mem = &pageDesc[i];
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if (isFree) {
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mem->ref = 0;
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list_add_tail(phyFreePage, mem);
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} else {
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mem->ref = 1;
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list_add_tail(phyUsedPage, mem);
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}
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mem->phy_addr = i * PAGE_SIZE;
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}
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return 0;
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}
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void memGetStat(uint *free, uint *used)
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{
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uint idx;
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struct phyMemDesc *mem;
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list_foreach(phyFreePage, mem, idx)
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{
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continue;
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}
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*free = idx;
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list_foreach(phyUsedPage, mem, idx)
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{
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continue;
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}
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*used = idx;
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}
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struct phyMemDesc *addr2memDesc(paddr_t addr)
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{
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int idx = addr >> PAGE_SHIFT;
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return pageDesc + idx;
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}
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struct phyMemDesc *memFindConsecutiveFreePage(uint nbPage)
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{
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struct phyMemDesc *mem, *head;
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uint memIdx, count;
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if (list_is_empty(phyFreePage)) {
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return NULL;
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}
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count = 1;
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memIdx = 0;
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head = phyFreePage;
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mem = phyFreePage;
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while (count < nbPage && (!memIdx || mem != phyFreePage)) {
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memIdx++;
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mem = mem->next;
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if (mem->phy_addr == head->phy_addr + count * PAGE_SIZE) {
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count++;
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} else {
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count = 1;
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head = mem;
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}
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}
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if (count < nbPage) {
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return NULL;
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}
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return head;
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}
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paddr_t allocPhyPage(uint nbPage)
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{
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struct phyMemDesc *mem, *head, *next;
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uint count;
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head = memFindConsecutiveFreePage(nbPage);
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if (head == NULL) {
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pr_devel("Cannot find %d consecutive page\n", nbPage);
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return (unsigned long)NULL;
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}
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mem = head;
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next = head->next;
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for (count = 0; count < nbPage; count++) {
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list_delete(phyFreePage, mem);
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mem->ref = 1;
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list_add_tail(phyUsedPage, mem);
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mem = next;
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next = mem->next;
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}
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allocatedPage += nbPage;
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return head->phy_addr;
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}
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int unrefPhyPage(paddr_t addr)
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{
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struct phyMemDesc *mem = addr2memDesc(addr);
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if (!mem) {
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return -EINVAL;
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}
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if(mem->ref <= 0)
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return -EINVAL;
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mem->ref--;
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if (mem->ref == 0) {
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allocatedPage--;
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list_delete(phyUsedPage, mem);
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list_add_tail(phyFreePage, mem); // TODO find the right place to keep free_page sorted;
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}
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return mem->ref;
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}
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int refPhyPage(paddr_t addr)
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{
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struct phyMemDesc *mem = addr2memDesc(addr);
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if (!mem) {
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return -1;
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}
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mem->ref++;
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if (mem->ref == 1) {
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allocatedPage++;
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list_add_tail(phyUsedPage, mem);
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list_delete(phyFreePage, mem);
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}
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return 0;
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}
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unsigned long getNbAllocatedPage(void)
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{
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return allocatedPage;
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}
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