matos/core/allocArea.c

#include "allocArea.h"
#include "alloc.h"
#include "assert.h"
#include "irq.h"
#include "kernel.h"
#include "list.h"
#include "mem.h"
#include "stdarg.h"

static struct memArea *freeArea;
static struct memArea *usedArea;

static int areaMergeFreeArea(struct memArea *prev, struct memArea *next);

void areaInit(vaddr_t firstMemUsed, vaddr_t lastUsed, vaddr_t stackBottom, vaddr_t stackTop)
{
    list_init(freeArea);
    list_init(usedArea);

    vaddr_t areaAddr, descAddr, entryAddr;
    allocSetup(sizeof(struct memArea), &areaAddr, &descAddr, &entryAddr);
    areaAdd(descAddr, descAddr + PAGE_SIZE, FALSE);
    if (entryAddr != descAddr)
        areaAdd(entryAddr, entryAddr + PAGE_SIZE, FALSE);
    if (areaAddr != descAddr && areaAddr != entryAddr)
        areaAdd(areaAddr, areaAddr + PAGE_SIZE, FALSE);

    // kernel bootstrap part
    areaAdd(ALIGN_DOWN(firstMemUsed, PAGE_SIZE), stackBottom, FALSE);

    // Initial kernel stack
    areaAdd(stackBottom, stackTop, FALSE);

    // Rest of kernel code
    areaAdd(stackTop, lastUsed, FALSE);

    // Rest of virtual mem is free
    areaAdd(areaAddr + PAGE_SIZE, AREA_MEM_TOP, TRUE);

    // Create allocBank for the rest of the system
    allocPopulate();
}

struct memArea *areaFindFit(unsigned int nbPages)
{
    struct memArea *area;
    int count;

    list_foreach(freeArea, area, count)
    {
        if (area->nbPages >= nbPages)
            return area;
    }
    return NULL;
}

static void insertSorted(struct memArea **list, struct memArea *item)
{
    struct memArea *prev, *cur;
    int count;
    prev = NULL;

    list_foreach(*list, cur, count)
    {
        if (cur->startAddr > item->startAddr)
            break;
        prev = cur;
    }
    if (prev)
        list_insert_after(*list, prev, item);
    else
        list_add_tail(*list, item);
}

vaddr_t areaBook(unsigned int nbPages, uint32_t flags)
{

    struct memArea *area;
    vaddr_t allocated;
    uint32_t irqFlags;

    disable_IRQs(irqFlags);

    area = areaFindFit(nbPages);
    if (!area) {
        printf("NULL<\n");
        restore_IRQs(irqFlags);

        return (vaddr_t)NULL;
    }

    if (area->nbPages == nbPages) {
        list_delete(freeArea, area);
        allocated = area->startAddr;
    } else {

        allocated = area->startAddr;

        area->nbPages -= nbPages;
        area->startAddr += nbPages * PAGE_SIZE;
    }

    if (flags & AREA_PHY_MAP) {
        for (uint i = 0; i < nbPages; i++) {
            paddr_t page = allocPhyPage(1);
            if (page) {
                if (pageMap(allocated + i * PAGE_SIZE, page, PAGING_MEM_WRITE)) {
                    unrefPhyPage(page);
                    page = (paddr_t)NULL;
                } else {
                    unrefPhyPage(page);
                }
            }
            if (page == (paddr_t)NULL) {
                areaFree(allocated);
                restore_IRQs(irqFlags);

                return (vaddr_t)NULL;
            }
        }
    }

    restore_IRQs(irqFlags);
    return allocated;
}

vaddr_t areaAlloc(unsigned int nbPages, uint32_t flags)
{
    struct memArea *area, *allocated;
    uint32_t irqFlags;

    disable_IRQs(irqFlags);

    area = areaFindFit(nbPages);
    if (!area) {
        restore_IRQs(irqFlags);

        return (vaddr_t)NULL;
    }

    if (area->nbPages == nbPages) {
        list_delete(freeArea, area);
        insertSorted(&usedArea, area);
        allocated = area;
    } else {
        struct memArea *newArea = (struct memArea *)malloc(sizeof(struct memArea));
        if (!newArea) {
            pr_devel("Failed to allocated area of %d pages\n", nbPages);
            restore_IRQs(irqFlags);
            return (vaddr_t)NULL;
        }

        // Avoid insertSorted(freeArea, newArea) call by modifying area

        newArea->nbPages   = nbPages;
        newArea->startAddr = area->startAddr;

        area->nbPages -= nbPages;
        area->startAddr += nbPages * PAGE_SIZE;

        insertSorted(&usedArea, newArea);

        allocated = newArea;
    }

    if (flags & AREA_PHY_MAP) {
        for (uint i = 0; i < nbPages; i++) {
            paddr_t page = allocPhyPage(1);
            if (page) {
                if (pageMap(allocated->startAddr + i * PAGE_SIZE, page, PAGING_MEM_WRITE)) {
                    page = (paddr_t)NULL;
                } else {
                    unrefPhyPage(page);
                }
            }
            if (page == (paddr_t)NULL) {
                areaFree(allocated->startAddr);
                restore_IRQs(irqFlags);

                return (vaddr_t)NULL;
            }
        }
    }

    restore_IRQs(irqFlags);
    return allocated->startAddr;
}

int areaAdd(vaddr_t start, vaddr_t end, int isFree)
{
    struct memArea **area;

    int nbPages = (end - start) / PAGE_SIZE;
    pr_devel("Add %s area 0x%x->0x%x (%d)\n", isFree ? "free" : "used", start, end, nbPages);

    assert(nbPages > 0);
    assert(IS_ALIGNED(start, PAGE_SIZE));
    assert(IS_ALIGNED(end, PAGE_SIZE));

    struct memArea *newArea = (struct memArea *)malloc(sizeof(struct memArea));
    if (!newArea)
        return (vaddr_t)NULL;

    newArea->nbPages   = nbPages;
    newArea->startAddr = start;

    if (isFree) {
        area = &freeArea;
    } else {
        area = &usedArea;
    }

    insertSorted(area, newArea);

    if (isFree) {
        if (newArea->prev)
            areaMergeFreeArea(newArea->prev, *area);

        if (newArea->next)
            areaMergeFreeArea(*area, newArea->next);
    }

    return 0;
}

static int areaMergeFreeArea(struct memArea *prev, struct memArea *next)
{
    if (prev->startAddr + prev->nbPages * PAGE_SIZE != next->startAddr) {
        return -1;
    }

    prev->nbPages += next->nbPages;
    list_delete(freeArea, next);
    free(next);

    next = prev;

    return 0;
}

static struct memArea *areaFindMemArea(struct memArea *list, vaddr_t addr)
{
    struct memArea *area;
    int count;
    list_foreach(list, area, count)
    {
        if (area->startAddr <= addr && addr < area->startAddr + area->nbPages * PAGE_SIZE)
            return area;
    }

    return NULL;
}

int areaFree(vaddr_t addr)
{
    struct memArea *area;

    area = areaFindMemArea(usedArea, addr);
    if (!area) {
        pr_info("Cannot find memArea associated to %p\n", addr);
        return -1;
    }

    for (uint i = 0; i < area->nbPages; i++) {
        pageUnmap(area->startAddr + i * PAGE_SIZE);
    }

    list_delete(usedArea, area);
    insertSorted(&freeArea, area);

    if (area->prev)
        areaMergeFreeArea(area->prev, area);

    if (area->next)
        areaMergeFreeArea(area, area->next);

    return 0;
}
WIP: implement basic of alloc area 2021-02-10 23:22:57 +01:00			`#include "allocArea.h"`
			`#include "alloc.h"`
			`#include "assert.h"`
malloc: fix recursivity with areaAlloc 2021-10-28 23:18:05 +02:00			`#include "irq.h"`
Fix areaAlloc map failing and tests 2021-10-28 23:49:58 +02:00			`#include "kernel.h"`
WIP: implement basic of alloc area 2021-02-10 23:22:57 +01:00			`#include "list.h"`
			`#include "mem.h"`
			`#include "stdarg.h"`

			`static struct memArea *freeArea;`
			`static struct memArea *usedArea;`

bootstrap alloc and area 2021-08-09 09:26:10 +02:00			`static int areaMergeFreeArea(struct memArea prev, struct memArea next);`

Give stack information to area 2021-10-28 00:32:35 +02:00			`void areaInit(vaddr_t firstMemUsed, vaddr_t lastUsed, vaddr_t stackBottom, vaddr_t stackTop)`
WIP: implement basic of alloc area 2021-02-10 23:22:57 +01:00			`{`
			`list_init(freeArea);`
			`list_init(usedArea);`
bootstrap alloc and area 2021-08-09 09:26:10 +02:00
			`vaddr_t areaAddr, descAddr, entryAddr;`
			`allocSetup(sizeof(struct memArea), &areaAddr, &descAddr, &entryAddr);`
Modify areaAdd api to be able to do more check 2021-10-28 18:33:02 +02:00			`areaAdd(descAddr, descAddr + PAGE_SIZE, FALSE);`
bootstrap alloc and area 2021-08-09 09:26:10 +02:00			`if (entryAddr != descAddr)`
Modify areaAdd api to be able to do more check 2021-10-28 18:33:02 +02:00			`areaAdd(entryAddr, entryAddr + PAGE_SIZE, FALSE);`
bootstrap alloc and area 2021-08-09 09:26:10 +02:00			`if (areaAddr != descAddr && areaAddr != entryAddr)`
Modify areaAdd api to be able to do more check 2021-10-28 18:33:02 +02:00			`areaAdd(areaAddr, areaAddr + PAGE_SIZE, FALSE);`
link slab allocator to areaAlloc 2021-08-19 16:44:47 +02:00
Fix areaAlloc map failing and tests 2021-10-28 23:49:58 +02:00			`// kernel bootstrap part`
Modify areaAdd api to be able to do more check 2021-10-28 18:33:02 +02:00			`areaAdd(ALIGN_DOWN(firstMemUsed, PAGE_SIZE), stackBottom, FALSE);`
Fix initial area setup The inital kernel stack was not page aligned and thus was found in 2 area 2021-10-28 18:19:35 +02:00
Fix areaAlloc map failing and tests 2021-10-28 23:49:58 +02:00			`// Initial kernel stack`
Modify areaAdd api to be able to do more check 2021-10-28 18:33:02 +02:00			`areaAdd(stackBottom, stackTop, FALSE);`
Fix initial area setup The inital kernel stack was not page aligned and thus was found in 2 area 2021-10-28 18:19:35 +02:00
			`// Rest of kernel code`
Modify areaAdd api to be able to do more check 2021-10-28 18:33:02 +02:00			`areaAdd(stackTop, lastUsed, FALSE);`
Fix initial area setup The inital kernel stack was not page aligned and thus was found in 2 area 2021-10-28 18:19:35 +02:00
			`// Rest of virtual mem is free`
Modify areaAdd api to be able to do more check 2021-10-28 18:33:02 +02:00			`areaAdd(areaAddr + PAGE_SIZE, AREA_MEM_TOP, TRUE);`
Fix initial area setup The inital kernel stack was not page aligned and thus was found in 2 area 2021-10-28 18:19:35 +02:00
			`// Create allocBank for the rest of the system`
bootstrap alloc and area 2021-08-09 09:26:10 +02:00			`allocPopulate();`
WIP: implement basic of alloc area 2021-02-10 23:22:57 +01:00			`}`

			`struct memArea *areaFindFit(unsigned int nbPages)`
			`{`
			`struct memArea *area;`
			`int count;`

			`list_foreach(freeArea, area, count)`
			`{`
			`if (area->nbPages >= nbPages)`
			`return area;`
			`}`
			`return NULL;`
			`}`

link slab allocator to areaAlloc 2021-08-19 16:44:47 +02:00			`static void insertSorted(struct memArea *list, struct memArea item)`
WIP: implement basic of alloc area 2021-02-10 23:22:57 +01:00			`{`
			`struct memArea prev, cur;`
			`int count;`
			`prev = NULL;`

link slab allocator to areaAlloc 2021-08-19 16:44:47 +02:00			`list_foreach(*list, cur, count)`
WIP: implement basic of alloc area 2021-02-10 23:22:57 +01:00			`{`
			`if (cur->startAddr > item->startAddr)`
			`break;`
			`prev = cur;`
			`}`
			`if (prev)`
link slab allocator to areaAlloc 2021-08-19 16:44:47 +02:00			`list_insert_after(*list, prev, item);`
WIP: implement basic of alloc area 2021-02-10 23:22:57 +01:00			`else`
link slab allocator to areaAlloc 2021-08-19 16:44:47 +02:00			`list_add_tail(*list, item);`
WIP: implement basic of alloc area 2021-02-10 23:22:57 +01:00			`}`

Fix areaAlloc map failing and tests 2021-10-28 23:49:58 +02:00			`vaddr_t areaBook(unsigned int nbPages, uint32_t flags)`
			`{`
malloc: fix recursivity with areaAlloc 2021-10-28 23:18:05 +02:00
			`struct memArea *area;`
			`vaddr_t allocated;`
			`uint32_t irqFlags;`

			`disable_IRQs(irqFlags);`

			`area = areaFindFit(nbPages);`
Fix areaAlloc map failing and tests 2021-10-28 23:49:58 +02:00			`if (!area) {`
malloc: fix recursivity with areaAlloc 2021-10-28 23:18:05 +02:00			`printf("NULL<\n");`
			`restore_IRQs(irqFlags);`

			`return (vaddr_t)NULL;`
			`}`

			`if (area->nbPages == nbPages) {`
			`list_delete(freeArea, area);`
			`allocated = area->startAddr;`
			`} else {`

			`allocated = area->startAddr;`

			`area->nbPages -= nbPages;`
			`area->startAddr += nbPages * PAGE_SIZE;`
			`}`

			`if (flags & AREA_PHY_MAP) {`
			`for (uint i = 0; i < nbPages; i++) {`
			`paddr_t page = allocPhyPage(1);`
			`if (page) {`
Fix areaAlloc map failing and tests 2021-10-28 23:49:58 +02:00			`if (pageMap(allocated + i * PAGE_SIZE, page, PAGING_MEM_WRITE)) {`
			`unrefPhyPage(page);`
			`page = (paddr_t)NULL;`
			`} else {`
			`unrefPhyPage(page);`
			`}`
			`}`
			`if (page == (paddr_t)NULL) {`
allocArea: implement allocPhy failure case 2021-10-29 23:06:03 +02:00			`areaFree(allocated);`
Fix areaAlloc map failing and tests 2021-10-28 23:49:58 +02:00			`restore_IRQs(irqFlags);`
allocArea: implement allocPhy failure case 2021-10-29 23:06:03 +02:00
Fix areaAlloc map failing and tests 2021-10-28 23:49:58 +02:00			`return (vaddr_t)NULL;`
malloc: fix recursivity with areaAlloc 2021-10-28 23:18:05 +02:00			`}`
			`}`
			`}`

			`restore_IRQs(irqFlags);`
			`return allocated;`
			`}`

area alloc: mapping optionnal 2021-10-26 22:29:51 +02:00			`vaddr_t areaAlloc(unsigned int nbPages, uint32_t flags)`
WIP: implement basic of alloc area 2021-02-10 23:22:57 +01:00			`{`
			`struct memArea area, allocated;`
malloc: fix recursivity with areaAlloc 2021-10-28 23:18:05 +02:00			`uint32_t irqFlags;`

			`disable_IRQs(irqFlags);`
WIP: implement basic of alloc area 2021-02-10 23:22:57 +01:00
			`area = areaFindFit(nbPages);`
Fix areaAlloc map failing and tests 2021-10-28 23:49:58 +02:00			`if (!area) {`
malloc: fix recursivity with areaAlloc 2021-10-28 23:18:05 +02:00			`restore_IRQs(irqFlags);`

WIP: implement basic of alloc area 2021-02-10 23:22:57 +01:00			`return (vaddr_t)NULL;`
malloc: fix recursivity with areaAlloc 2021-10-28 23:18:05 +02:00			`}`
WIP: implement basic of alloc area 2021-02-10 23:22:57 +01:00
			`if (area->nbPages == nbPages) {`
			`list_delete(freeArea, area);`
link slab allocator to areaAlloc 2021-08-19 16:44:47 +02:00			`insertSorted(&usedArea, area);`
WIP: implement basic of alloc area 2021-02-10 23:22:57 +01:00			`allocated = area;`
area alloc: mapping optionnal 2021-10-26 22:29:51 +02:00			`} else {`
			`struct memArea newArea = (struct memArea )malloc(sizeof(struct memArea));`
			`if (!newArea) {`
			`pr_devel("Failed to allocated area of %d pages\n", nbPages);`
malloc: fix recursivity with areaAlloc 2021-10-28 23:18:05 +02:00			`restore_IRQs(irqFlags);`
area alloc: mapping optionnal 2021-10-26 22:29:51 +02:00			`return (vaddr_t)NULL;`
			`}`
WIP: implement basic of alloc area 2021-02-10 23:22:57 +01:00
area alloc: mapping optionnal 2021-10-26 22:29:51 +02:00			`// Avoid insertSorted(freeArea, newArea) call by modifying area`
WIP: implement basic of alloc area 2021-02-10 23:22:57 +01:00
area alloc: mapping optionnal 2021-10-26 22:29:51 +02:00			`newArea->nbPages = nbPages;`
			`newArea->startAddr = area->startAddr;`
WIP: implement basic of alloc area 2021-02-10 23:22:57 +01:00
area alloc: mapping optionnal 2021-10-26 22:29:51 +02:00			`area->nbPages -= nbPages;`
			`area->startAddr += nbPages * PAGE_SIZE;`
WIP: implement basic of alloc area 2021-02-10 23:22:57 +01:00
area alloc: mapping optionnal 2021-10-26 22:29:51 +02:00			`insertSorted(&usedArea, newArea);`
WIP: implement basic of alloc area 2021-02-10 23:22:57 +01:00
area alloc: mapping optionnal 2021-10-26 22:29:51 +02:00			`allocated = newArea;`
			`}`
WIP: implement basic of alloc area 2021-02-10 23:22:57 +01:00
area alloc: mapping optionnal 2021-10-26 22:29:51 +02:00			`if (flags & AREA_PHY_MAP) {`
			`for (uint i = 0; i < nbPages; i++) {`
			`paddr_t page = allocPhyPage(1);`
			`if (page) {`
Fix areaAlloc map failing and tests 2021-10-28 23:49:58 +02:00			`if (pageMap(allocated->startAddr + i * PAGE_SIZE, page, PAGING_MEM_WRITE)) {`
			`page = (paddr_t)NULL;`
			`} else {`
			`unrefPhyPage(page);`
			`}`
			`}`
			`if (page == (paddr_t)NULL) {`
allocArea: implement allocPhy failure case 2021-10-29 23:06:03 +02:00			`areaFree(allocated->startAddr);`
Fix areaAlloc map failing and tests 2021-10-28 23:49:58 +02:00			`restore_IRQs(irqFlags);`
allocArea: implement allocPhy failure case 2021-10-29 23:06:03 +02:00
Fix areaAlloc map failing and tests 2021-10-28 23:49:58 +02:00			`return (vaddr_t)NULL;`
area alloc: mapping optionnal 2021-10-26 22:29:51 +02:00			`}`
WIP: implement basic of alloc area 2021-02-10 23:22:57 +01:00			`}`
			`}`

malloc: fix recursivity with areaAlloc 2021-10-28 23:18:05 +02:00			`restore_IRQs(irqFlags);`
WIP: implement basic of alloc area 2021-02-10 23:22:57 +01:00			`return allocated->startAddr;`
			`}`

Modify areaAdd api to be able to do more check 2021-10-28 18:33:02 +02:00			`int areaAdd(vaddr_t start, vaddr_t end, int isFree)`
bootstrap alloc and area 2021-08-09 09:26:10 +02:00			`{`
link slab allocator to areaAlloc 2021-08-19 16:44:47 +02:00			`struct memArea **area;`
bootstrap alloc and area 2021-08-09 09:26:10 +02:00
Fix areaAlloc map failing and tests 2021-10-28 23:49:58 +02:00			`int nbPages = (end - start) / PAGE_SIZE;`
			`pr_devel("Add %s area 0x%x->0x%x (%d)\n", isFree ? "free" : "used", start, end, nbPages);`
Modify areaAdd api to be able to do more check 2021-10-28 18:33:02 +02:00
Fix areaAlloc map failing and tests 2021-10-28 23:49:58 +02:00			`assert(nbPages > 0);`
Modify areaAdd api to be able to do more check 2021-10-28 18:33:02 +02:00			`assert(IS_ALIGNED(start, PAGE_SIZE));`
			`assert(IS_ALIGNED(end, PAGE_SIZE));`

bootstrap alloc and area 2021-08-09 09:26:10 +02:00			`struct memArea newArea = (struct memArea )malloc(sizeof(struct memArea));`
			`if (!newArea)`
			`return (vaddr_t)NULL;`

			`newArea->nbPages = nbPages;`
Modify areaAdd api to be able to do more check 2021-10-28 18:33:02 +02:00			`newArea->startAddr = start;`
bootstrap alloc and area 2021-08-09 09:26:10 +02:00
			`if (isFree) {`
link slab allocator to areaAlloc 2021-08-19 16:44:47 +02:00			`area = &freeArea;`
bootstrap alloc and area 2021-08-09 09:26:10 +02:00			`} else {`
link slab allocator to areaAlloc 2021-08-19 16:44:47 +02:00			`area = &usedArea;`
bootstrap alloc and area 2021-08-09 09:26:10 +02:00			`}`

			`insertSorted(area, newArea);`

			`if (isFree) {`
			`if (newArea->prev)`
link slab allocator to areaAlloc 2021-08-19 16:44:47 +02:00			`areaMergeFreeArea(newArea->prev, *area);`
bootstrap alloc and area 2021-08-09 09:26:10 +02:00
			`if (newArea->next)`
link slab allocator to areaAlloc 2021-08-19 16:44:47 +02:00			`areaMergeFreeArea(*area, newArea->next);`
bootstrap alloc and area 2021-08-09 09:26:10 +02:00			`}`

			`return 0;`
			`}`

WIP: implement basic of alloc area 2021-02-10 23:22:57 +01:00			`static int areaMergeFreeArea(struct memArea prev, struct memArea next)`
			`{`
			`if (prev->startAddr + prev->nbPages * PAGE_SIZE != next->startAddr) {`
			`return -1;`
			`}`

			`prev->nbPages += next->nbPages;`
			`list_delete(freeArea, next);`
			`free(next);`

			`next = prev;`

			`return 0;`
			`}`

			`static struct memArea areaFindMemArea(struct memArea list, vaddr_t addr)`
			`{`
			`struct memArea *area;`
			`int count;`
			`list_foreach(list, area, count)`
			`{`
Fix Area research and init size 2021-10-26 21:42:57 +02:00			`if (area->startAddr <= addr && addr < area->startAddr + area->nbPages * PAGE_SIZE)`
WIP: implement basic of alloc area 2021-02-10 23:22:57 +01:00			`return area;`
			`}`

			`return NULL;`
			`}`

			`int areaFree(vaddr_t addr)`
			`{`
			`struct memArea *area;`

			`area = areaFindMemArea(usedArea, addr);`
			`if (!area) {`
			`pr_info("Cannot find memArea associated to %p\n", addr);`
			`return -1;`
			`}`
Fix initial area setup The inital kernel stack was not page aligned and thus was found in 2 area 2021-10-28 18:19:35 +02:00
			`for (uint i = 0; i < area->nbPages; i++) {`
			`pageUnmap(area->startAddr + i * PAGE_SIZE);`
area alloc: mapping optionnal 2021-10-26 22:29:51 +02:00			`}`
Fix initial area setup The inital kernel stack was not page aligned and thus was found in 2 area 2021-10-28 18:19:35 +02:00
WIP: implement basic of alloc area 2021-02-10 23:22:57 +01:00			`list_delete(usedArea, area);`
link slab allocator to areaAlloc 2021-08-19 16:44:47 +02:00			`insertSorted(&freeArea, area);`
WIP: implement basic of alloc area 2021-02-10 23:22:57 +01:00
			`if (area->prev)`
			`areaMergeFreeArea(area->prev, area);`

			`if (area->next)`
			`areaMergeFreeArea(area, area->next);`

			`return 0;`
			`}`