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#include <arch/mm/page.h>

#include <arch/mm/frame.h>

#include <arch/asm.h>

#include <arch/interrupt.h>

#include <mm/page.h>

#include <arch.h>

#include <arch/types.h>

#include <arch/exception.h>

#include <print.h>

#include <symtab.h>

/** Try to find PTE for faulting address

 *

 * Try to find PTE for faulting address.

 * The as->lock must be held on entry to this function

 * if lock is true.

 *

 * @param as       Address space.

 * @param lock     Lock/unlock the address space.

 * @param badvaddr Faulting virtual address.

 * @param access   Access mode that caused the fault.

 * @param istate   Pointer to interrupted state.

 * @param pfrc     Pointer to variable where as_page_fault() return code will be stored.

 * @return         PTE on success, NULL otherwise.

 *

 */

static pte_t *find_mapping_and_check(as_t *as, bool lock, __address badvaddr, int access, istate_t *istate, int *pfrc)

{

    /*

     * Check if the mapping exists in page tables.

     */

    pte_t *pte = page_mapping_find(as, badvaddr);

    if ((pte) && (pte->p)) {

        /*

         * Mapping found in page tables.

         * Immediately succeed.

         */

        return pte;

    } else {

        int rc;

        /*

         * Mapping not found in page tables.

         * Resort to higher-level page fault handler.

         */

        page_table_unlock(as, lock);

        switch (rc = as_page_fault(badvaddr, access, istate)) {

            case AS_PF_OK:

                /*

                 * The higher-level page fault handler succeeded,

                 * The mapping ought to be in place.

                 */

                page_table_lock(as, lock);

                pte = page_mapping_find(as, badvaddr);

                ASSERT((pte) && (pte->p));

                return pte;

            case AS_PF_DEFER:

                page_table_lock(as, lock);

                *pfrc = rc;

                return NULL;

            case AS_PF_FAULT:

                page_table_lock(as, lock);

                printf("Page fault.\n");

                *pfrc = rc;

                return NULL;

            default:

                panic("unexpected rc (%d)\n", rc);

        }  

    }

}

static void pht_refill_fail(__address badvaddr, istate_t *istate)

{

    char *symbol = "";

    char *sym2 = "";

    char *s = get_symtab_entry(istate->pc);

    if (s)

        symbol = s;

    s = get_symtab_entry(istate->lr);

    if (s)

        sym2 = s;

    panic("%p: PHT Refill Exception at %p (%s<-%s)\n", badvaddr, istate->pc, symbol, sym2);

}

static void pht_insert(const __address vaddr, const pfn_t pfn)

{

    __u32 page = (vaddr >> 12) & 0xffff;

    __u32 api = (vaddr >> 22) & 0x3f;

    __u32 vsid;

    asm volatile (

        "mfsrin %0, %1\n"

        : "=r" (vsid)

        : "r" (vaddr)

    );

    __u32 sdr1;

    asm volatile (

        "mfsdr1 %0\n"

        : "=r" (sdr1)

    );

    phte_t *phte = (phte_t *) PA2KA(sdr1 & 0xffff0000);

    /* Primary hash (xor) */

    __u32 h = 0;

    __u32 hash = vsid ^ page;

    __u32 base = (hash & 0x3ff) << 3;

    __u32 i;

    bool found = false;

    /* Find unused or colliding

       PTE in PTEG */

    for (i = 0; i < 8; i++) {

        if ((!phte[base + i].v) || ((phte[base + i].vsid == vsid) && (phte[base + i].api == api))) {

            found = true;

            break;

        }

    }

    if (!found) {

        /* Secondary hash (not) */

        __u32 base2 = (~hash & 0x3ff) << 3;

        /* Find unused or colliding

           PTE in PTEG */

        for (i = 0; i < 8; i++) {

            if ((!phte[base2 + i].v) || ((phte[base2 + i].vsid == vsid) && (phte[base2 + i].api == api))) {

                found = true;

                base = base2;

                h = 1;

                break;

            }

        }

        if (!found) {

            // TODO: A/C precedence groups

            i = page % 8;

        }

    }

    phte[base + i].v = 1;

    phte[base + i].vsid = vsid;

    phte[base + i].h = h;

    phte[base + i].api = api;

    phte[base + i].rpn = pfn;

    phte[base + i].r = 0;

    phte[base + i].c = 0;

    phte[base + i].pp = 2; // FIXME

}

static void pht_real_insert(const __address vaddr, const pfn_t pfn)

{

    __u32 page = (vaddr >> 12) & 0xffff;

    __u32 api = (vaddr >> 22) & 0x3f;

    __u32 vsid;

    asm volatile (

        "mfsrin %0, %1\n"

        : "=r" (vsid)

        : "r" (vaddr)

    );

    __u32 sdr1;

    asm volatile (

        "mfsdr1 %0\n"

        : "=r" (sdr1)

    );

    phte_t *phte_physical = (phte_t *) (sdr1 & 0xffff0000);

    /* Primary hash (xor) */

    __u32 h = 0;

    __u32 hash = vsid ^ page;

    __u32 base = (hash & 0x3ff) << 3;

    __u32 i;

    bool found = false;

    /* Find unused or colliding

       PTE in PTEG */

    for (i = 0; i < 8; i++) {

        if ((!phte_physical[base + i].v) || ((phte_physical[base + i].vsid == vsid) && (phte_physical[base + i].api == api))) {

            found = true;

            break;

        }

    }

    if (!found) {

        /* Secondary hash (not) */

        __u32 base2 = (~hash & 0x3ff) << 3;

        /* Find unused or colliding

           PTE in PTEG */

        for (i = 0; i < 8; i++) {

            if ((!phte_physical[base2 + i].v) || ((phte_physical[base2 + i].vsid == vsid) && (phte_physical[base2 + i].api == api))) {

                found = true;

                base = base2;

                h = 1;

                break;

            }

        }

        if (!found) {

            // TODO: A/C precedence groups

            i = page % 8;

        }

    }

    phte_physical[base + i].v = 1;

    phte_physical[base + i].vsid = vsid;

    phte_physical[base + i].h = h;

    phte_physical[base + i].api = api;

    phte_physical[base + i].rpn = pfn;

    phte_physical[base + i].r = 0;

    phte_physical[base + i].c = 0;

    phte_physical[base + i].pp = 2; // FIXME

}

/** Process Instruction/Data Storage Interrupt

 *

 * @param n Interrupt vector number.

 * @param istate Interrupted register context.

 *

 */

void pht_refill(int n, istate_t *istate)

{

    __address badvaddr;

    pte_t *pte;

    int pfrc;

    as_t *as;

    bool lock;

    if (AS == NULL) {

        as = AS_KERNEL;

        lock = false;

    } else {

        as = AS;

        lock = true;

    }

    if (n == VECTOR_DATA_STORAGE) {

        asm volatile (

            "mfdar %0\n"

            : "=r" (badvaddr)

        );

    } else

        badvaddr = istate->pc;

    page_table_lock(as, lock);

    pte = find_mapping_and_check(as, lock, badvaddr, PF_ACCESS_READ /* FIXME */, istate, &pfrc);

    if (!pte) {

        switch (pfrc) {

            case AS_PF_FAULT:

                goto fail;

                break;

            case AS_PF_DEFER:

                /*

                 * The page fault came during copy_from_uspace()

                 * or copy_to_uspace().

                 */

                page_table_unlock(as, lock);

                return;

            default:

                panic("Unexpected pfrc (%d)\n", pfrc);

        }

    }

    pte->a = 1; /* Record access to PTE */

    pht_insert(badvaddr, pte->pfn);

    page_table_unlock(as, lock);

    return;

fail:

    page_table_unlock(as, lock);

    pht_refill_fail(badvaddr, istate);

}

/** Process Instruction/Data Storage Interrupt in Real Mode

 *

 * @param n Interrupt vector number.

 * @param istate Interrupted register context.

 *

 */

bool pht_real_refill(int n, istate_t *istate)

{

    __address badvaddr;

    if (n == VECTOR_DATA_STORAGE) {

        asm volatile (

            "mfdar %0\n"

            : "=r" (badvaddr)

        );

    } else

        badvaddr = istate->pc;

    __u32 physmem;

    asm volatile (

        "mfsprg3 %0\n"

        : "=r" (physmem)

    );

    if ((badvaddr >= PA2KA(0)) && (badvaddr <= PA2KA(physmem))) {

        pht_real_insert(badvaddr, KA2PA(badvaddr) >> 12);

        return true;

    }

    return false;

}

void pht_init(void)

{

    // FIXME

    __u32 sdr1;

    asm volatile (

        "mfsdr1 %0\n"

        : "=r" (sdr1)

    );

    phte_t *phte = (phte_t *) PA2KA(sdr1 & 0xffff0000);

    memsetb((__address) phte, 65536, 0);

}