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/*
 * Copyright (C) 2006 Jakub Jermar
 * All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 *
 * - Redistributions of source code must retain the above copyright
 *   notice, this list of conditions and the following disclaimer.
 * - Redistributions in binary form must reproduce the above copyright
 *   notice, this list of conditions and the following disclaimer in the
 *   documentation and/or other materials provided with the distribution.
 * - The name of the author may not be used to endorse or promote products
 *   derived from this software without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
 * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
 * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
 * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 */

 /** @addtogroup ia64mm 
 * @{
 */
/** @file
 */

/*
 * TLB management.
 */

#include <mm/tlb.h>
#include <mm/asid.h>
#include <mm/page.h>
#include <mm/as.h>
#include <arch/mm/tlb.h>
#include <arch/mm/page.h>
#include <arch/mm/vhpt.h>
#include <arch/barrier.h>
#include <arch/interrupt.h>
#include <arch/pal/pal.h>
#include <arch/asm.h>
#include <typedefs.h>
#include <panic.h>
#include <print.h>
#include <arch.h>
#include <interrupt.h>

/** Invalidate all TLB entries. */
void tlb_invalidate_all(void)
{
        ipl_t ipl;
        uintptr_t adr;
        uint32_t count1, count2, stride1, stride2;
        
        int i,j;
        
        adr = PAL_PTCE_INFO_BASE();
        count1 = PAL_PTCE_INFO_COUNT1();
        count2 = PAL_PTCE_INFO_COUNT2();
        stride1 = PAL_PTCE_INFO_STRIDE1();
        stride2 = PAL_PTCE_INFO_STRIDE2();
        
        ipl = interrupts_disable();

        for(i = 0; i < count1; i++) {
            for(j = 0; j < count2; j++) {
                __asm__ volatile (
                    "ptc.e %0 ;;"
                    :
                    : "r" (adr)
                );
                adr += stride2;
            }
            adr += stride1;
        }

        interrupts_restore(ipl);

        srlz_d();
        srlz_i();
#ifdef CONFIG_VHPT
        vhpt_invalidate_all();
#endif  
}

/** Invalidate entries belonging to an address space.
 *
 * @param asid Address space identifier.
 */
void tlb_invalidate_asid(asid_t asid)
{
    tlb_invalidate_all();
}


void tlb_invalidate_pages(asid_t asid, uintptr_t page, count_t cnt)
{
    region_register rr;
    bool restore_rr = false;
    int b = 0;
    int c = cnt;

    uintptr_t va;
    va = page;

    rr.word = rr_read(VA2VRN(va));
    if ((restore_rr = (rr.map.rid != ASID2RID(asid, VA2VRN(va))))) {
        /*
         * The selected region register does not contain required RID.
         * Save the old content of the register and replace the RID.
         */
        region_register rr0;

        rr0 = rr;
        rr0.map.rid = ASID2RID(asid, VA2VRN(va));
        rr_write(VA2VRN(va), rr0.word);
        srlz_d();
        srlz_i();
    }
    
    while(c >>= 1)
        b++;
    b >>= 1;
    uint64_t ps;
    
    switch (b) {
        case 0: /*cnt 1-3*/
            ps = PAGE_WIDTH;
            break;
        case 1: /*cnt 4-15*/
            /*cnt=((cnt-1)/4)+1;*/
            ps = PAGE_WIDTH+2;
            va &= ~((1<<ps)-1);
            break;
        case 2: /*cnt 16-63*/
            /*cnt=((cnt-1)/16)+1;*/
            ps = PAGE_WIDTH+4;
            va &= ~((1<<ps)-1);
            break;
        case 3: /*cnt 64-255*/
            /*cnt=((cnt-1)/64)+1;*/
            ps = PAGE_WIDTH+6;
            va &= ~((1<<ps)-1);
            break;
        case 4: /*cnt 256-1023*/
            /*cnt=((cnt-1)/256)+1;*/
            ps = PAGE_WIDTH+8;
            va &= ~((1<<ps)-1);
            break;
        case 5: /*cnt 1024-4095*/
            /*cnt=((cnt-1)/1024)+1;*/
            ps = PAGE_WIDTH+10;
            va &= ~((1<<ps)-1);
            break;
        case 6: /*cnt 4096-16383*/
            /*cnt=((cnt-1)/4096)+1;*/
            ps = PAGE_WIDTH+12;
            va &= ~((1<<ps)-1);
            break;
        case 7: /*cnt 16384-65535*/
        case 8: /*cnt 65536-(256K-1)*/
            /*cnt=((cnt-1)/16384)+1;*/
            ps = PAGE_WIDTH+14;
            va &= ~((1<<ps)-1);
            break;
        default:
            /*cnt=((cnt-1)/(16384*16))+1;*/
            ps=PAGE_WIDTH+18;
            va&=~((1<<ps)-1);
            break;
    }
    /*cnt+=(page!=va);*/
    for(; va<(page+cnt*(PAGE_SIZE)); va += (1<<ps)) {
        __asm__ volatile (
            "ptc.l %0,%1;;"
            :
            : "r" (va), "r" (ps<<2)
        );
    }
    srlz_d();
    srlz_i();
    
    if (restore_rr) {
        rr_write(VA2VRN(va), rr.word);
        srlz_d();
        srlz_i();
    }
}

/** Insert data into data translation cache.
 *
 * @param va Virtual page address.
 * @param asid Address space identifier.
 * @param entry The rest of TLB entry as required by TLB insertion format.
 */
void dtc_mapping_insert(uintptr_t va, asid_t asid, tlb_entry_t entry)
{
    tc_mapping_insert(va, asid, entry, true);
}

/** Insert data into instruction translation cache.
 *
 * @param va Virtual page address.
 * @param asid Address space identifier.
 * @param entry The rest of TLB entry as required by TLB insertion format.
 */
void itc_mapping_insert(uintptr_t va, asid_t asid, tlb_entry_t entry)
{
    tc_mapping_insert(va, asid, entry, false);
}

/** Insert data into instruction or data translation cache.
 *
 * @param va Virtual page address.
 * @param asid Address space identifier.
 * @param entry The rest of TLB entry as required by TLB insertion format.
 * @param dtc If true, insert into data translation cache, use instruction translation cache otherwise.
 */
void tc_mapping_insert(uintptr_t va, asid_t asid, tlb_entry_t entry, bool dtc)
{
    region_register rr;
    bool restore_rr = false;

    rr.word = rr_read(VA2VRN(va));
    if ((restore_rr = (rr.map.rid != ASID2RID(asid, VA2VRN(va))))) {
        /*
         * The selected region register does not contain required RID.
         * Save the old content of the register and replace the RID.
         */
        region_register rr0;

        rr0 = rr;
        rr0.map.rid = ASID2RID(asid, VA2VRN(va));
        rr_write(VA2VRN(va), rr0.word);
        srlz_d();
        srlz_i();
    }
    
    __asm__ volatile (
        "mov r8=psr;;\n"
        "rsm %0;;\n"            /* PSR_IC_MASK */
        "srlz.d;;\n"
        "srlz.i;;\n"
        "mov cr.ifa=%1\n"       /* va */
        "mov cr.itir=%2;;\n"        /* entry.word[1] */
        "cmp.eq p6,p7 = %4,r0;;\n"  /* decide between itc and dtc */ 
        "(p6) itc.i %3;;\n"
        "(p7) itc.d %3;;\n"
        "mov psr.l=r8;;\n"
        "srlz.d;;\n"
        :
        : "i" (PSR_IC_MASK), "r" (va), "r" (entry.word[1]), "r" (entry.word[0]), "r" (dtc)
        : "p6", "p7", "r8"
    );
    
    if (restore_rr) {
        rr_write(VA2VRN(va), rr.word);
        srlz_d();
        srlz_i();
    }
}

/** Insert data into instruction translation register.
 *
 * @param va Virtual page address.
 * @param asid Address space identifier.
 * @param entry The rest of TLB entry as required by TLB insertion format.
 * @param tr Translation register.
 */
void itr_mapping_insert(uintptr_t va, asid_t asid, tlb_entry_t entry, index_t tr)
{
    tr_mapping_insert(va, asid, entry, false, tr);
}

/** Insert data into data translation register.
 *
 * @param va Virtual page address.
 * @param asid Address space identifier.
 * @param entry The rest of TLB entry as required by TLB insertion format.
 * @param tr Translation register.
 */
void dtr_mapping_insert(uintptr_t va, asid_t asid, tlb_entry_t entry, index_t tr)
{
    tr_mapping_insert(va, asid, entry, true, tr);
}

/** Insert data into instruction or data translation register.
 *
 * @param va Virtual page address.
 * @param asid Address space identifier.
 * @param entry The rest of TLB entry as required by TLB insertion format.
 * @param dtr If true, insert into data translation register, use instruction translation register otherwise.
 * @param tr Translation register.
 */
void tr_mapping_insert(uintptr_t va, asid_t asid, tlb_entry_t entry, bool dtr, index_t tr)
{
    region_register rr;
    bool restore_rr = false;

    rr.word = rr_read(VA2VRN(va));
    if ((restore_rr = (rr.map.rid != ASID2RID(asid, VA2VRN(va))))) {
        /*
         * The selected region register does not contain required RID.
         * Save the old content of the register and replace the RID.
         */
        region_register rr0;

        rr0 = rr;
        rr0.map.rid = ASID2RID(asid, VA2VRN(va));
        rr_write(VA2VRN(va), rr0.word);
        srlz_d();
        srlz_i();
    }

    __asm__ volatile (
        "mov r8=psr;;\n"
        "rsm %0;;\n"            /* PSR_IC_MASK */
        "srlz.d;;\n"
        "srlz.i;;\n"
        "mov cr.ifa=%1\n"           /* va */         
        "mov cr.itir=%2;;\n"        /* entry.word[1] */ 
        "cmp.eq p6,p7=%5,r0;;\n"    /* decide between itr and dtr */
        "(p6) itr.i itr[%4]=%3;;\n"
        "(p7) itr.d dtr[%4]=%3;;\n"
        "mov psr.l=r8;;\n"
        "srlz.d;;\n"
        :
        : "i" (PSR_IC_MASK), "r" (va), "r" (entry.word[1]), "r" (entry.word[0]), "r" (tr), "r" (dtr)
        : "p6", "p7", "r8"
    );
    
    if (restore_rr) {
        rr_write(VA2VRN(va), rr.word);
        srlz_d();
        srlz_i();
    }
}

/** Insert data into DTLB.
 *
 * @param page Virtual page address including VRN bits.
 * @param frame Physical frame address.
 * @param dtr If true, insert into data translation register, use data translation cache otherwise.
 * @param tr Translation register if dtr is true, ignored otherwise.
 */
void dtlb_kernel_mapping_insert(uintptr_t page, uintptr_t frame, bool dtr, index_t tr)
{
    tlb_entry_t entry;
    
    entry.word[0] = 0;
    entry.word[1] = 0;
    
    entry.p = true;         /* present */
    entry.ma = MA_WRITEBACK;
    entry.a = true;         /* already accessed */
    entry.d = true;         /* already dirty */
    entry.pl = PL_KERNEL;
    entry.ar = AR_READ | AR_WRITE;
    entry.ppn = frame >> PPN_SHIFT;
    entry.ps = PAGE_WIDTH;
    
    if (dtr)
        dtr_mapping_insert(page, ASID_KERNEL, entry, tr);
    else
        dtc_mapping_insert(page, ASID_KERNEL, entry);
}

/** Purge kernel entries from DTR.
 *
 * Purge DTR entries used by the kernel.
 *
 * @param page Virtual page address including VRN bits.
 * @param width Width of the purge in bits.
 */
void dtr_purge(uintptr_t page, count_t width)
{
    __asm__ volatile ("ptr.d %0, %1\n" : : "r" (page), "r" (width<<2));
}


/** Copy content of PTE into data translation cache.
 *
 * @param t PTE.
 */
void dtc_pte_copy(pte_t *t)
{
    tlb_entry_t entry;

    entry.word[0] = 0;
    entry.word[1] = 0;
    
    entry.p = t->p;
    entry.ma = t->c ? MA_WRITEBACK : MA_UNCACHEABLE;
    entry.a = t->a;
    entry.d = t->d;
    entry.pl = t->k ? PL_KERNEL : PL_USER;
    entry.ar = t->w ? AR_WRITE : AR_READ;
    entry.ppn = t->frame >> PPN_SHIFT;
    entry.ps = PAGE_WIDTH;
    
    dtc_mapping_insert(t->page, t->as->asid, entry);
#ifdef CONFIG_VHPT
    vhpt_mapping_insert(t->page, t->as->asid, entry);
#endif  
}

/** Copy content of PTE into instruction translation cache.
 *
 * @param t PTE.
 */
void itc_pte_copy(pte_t *t)
{
    tlb_entry_t entry;

    entry.word[0] = 0;
    entry.word[1] = 0;
    
    ASSERT(t->x);
    
    entry.p = t->p;
    entry.ma = t->c ? MA_WRITEBACK : MA_UNCACHEABLE;
    entry.a = t->a;
    entry.pl = t->k ? PL_KERNEL : PL_USER;
    entry.ar = t->x ? (AR_EXECUTE | AR_READ) : AR_READ;
    entry.ppn = t->frame >> PPN_SHIFT;
    entry.ps = PAGE_WIDTH;
    
    itc_mapping_insert(t->page, t->as->asid, entry);
#ifdef CONFIG_VHPT
    vhpt_mapping_insert(t->page, t->as->asid, entry);
#endif  
}

/** Instruction TLB fault handler for faults with VHPT turned off.
 *
 * @param vector Interruption vector.
 * @param istate Structure with saved interruption state.
 */
void alternate_instruction_tlb_fault(uint64_t vector, istate_t *istate)
{
    region_register rr;
    rid_t rid;
    uintptr_t va;
    pte_t *t;
    
    va = istate->cr_ifa;    /* faulting address */
    rr.word = rr_read(VA2VRN(va));
    rid = rr.map.rid;

    page_table_lock(AS, true);
    t = page_mapping_find(AS, va);
    if (t) {
        /*
         * The mapping was found in software page hash table.
         * Insert it into data translation cache.
         */
        itc_pte_copy(t);
        page_table_unlock(AS, true);
    } else {
        /*
         * Forward the page fault to address space page fault handler.
         */
        page_table_unlock(AS, true);
        if (as_page_fault(va, PF_ACCESS_EXEC, istate) == AS_PF_FAULT) {
            fault_if_from_uspace(istate,"Page fault at %p",va);
            panic("%s: va=%p, rid=%d, iip=%p\n", __FUNCTION__, va, rid, istate->cr_iip);
        }
    }
}

/** Data TLB fault handler for faults with VHPT turned off.
 *
 * @param vector Interruption vector.
 * @param istate Structure with saved interruption state.
 */
void alternate_data_tlb_fault(uint64_t vector, istate_t *istate)
{
    region_register rr;
    rid_t rid;
    uintptr_t va;
    pte_t *t;
    
    va = istate->cr_ifa;    /* faulting address */
    rr.word = rr_read(VA2VRN(va));
    rid = rr.map.rid;
    if (RID2ASID(rid) == ASID_KERNEL) {
        if (VA2VRN(va) == VRN_KERNEL) {
            /*
             * Provide KA2PA(identity) mapping for faulting piece of
             * kernel address space.
             */
            dtlb_kernel_mapping_insert(va, KA2PA(va), false, 0);
            return;
        }
    }

    page_table_lock(AS, true);
    t = page_mapping_find(AS, va);
    if (t) {
        /*
         * The mapping was found in software page hash table.
         * Insert it into data translation cache.
         */
        dtc_pte_copy(t);
        page_table_unlock(AS, true);
    } else {
        /*
         * Forward the page fault to address space page fault handler.
         */
        page_table_unlock(AS, true);
        if (as_page_fault(va, PF_ACCESS_READ, istate) == AS_PF_FAULT) {
            fault_if_from_uspace(istate,"Page fault at %p",va);
            panic("%s: va=%p, rid=%d, iip=%p\n", __FUNCTION__, va, rid, istate->cr_iip);
        }
    }
}

/** Data nested TLB fault handler.
 *
 * This fault should not occur.
 *
 * @param vector Interruption vector.
 * @param istate Structure with saved interruption state.
 */
void data_nested_tlb_fault(uint64_t vector, istate_t *istate)
{
    panic("%s\n", __FUNCTION__);
}

/** Data Dirty bit fault handler.
 *
 * @param vector Interruption vector.
 * @param istate Structure with saved interruption state.
 */
void data_dirty_bit_fault(uint64_t vector, istate_t *istate)
{
    region_register rr;
    rid_t rid;
    uintptr_t va;
    pte_t *t;
    
    va = istate->cr_ifa;    /* faulting address */
    rr.word = rr_read(VA2VRN(va));
    rid = rr.map.rid;

    page_table_lock(AS, true);
    t = page_mapping_find(AS, va);
    ASSERT(t && t->p);
    if (t && t->p && t->w) {
        /*
         * Update the Dirty bit in page tables and reinsert
         * the mapping into DTC.
         */
        t->d = true;
        dtc_pte_copy(t);
    } else {
        if (as_page_fault(va, PF_ACCESS_WRITE, istate) == AS_PF_FAULT) {
            fault_if_from_uspace(istate,"Page fault at %p",va);
            panic("%s: va=%p, rid=%d, iip=%p\n", __FUNCTION__, va, rid, istate->cr_iip);
            t->d = true;
            dtc_pte_copy(t);
        }
    }
    page_table_unlock(AS, true);
}

/** Instruction access bit fault handler.
 *
 * @param vector Interruption vector.
 * @param istate Structure with saved interruption state.
 */
void instruction_access_bit_fault(uint64_t vector, istate_t *istate)
{
    region_register rr;
    rid_t rid;
    uintptr_t va;
    pte_t *t;   

    va = istate->cr_ifa;    /* faulting address */
    rr.word = rr_read(VA2VRN(va));
    rid = rr.map.rid;

    page_table_lock(AS, true);
    t = page_mapping_find(AS, va);
    ASSERT(t && t->p);
    if (t && t->p && t->x) {
        /*
         * Update the Accessed bit in page tables and reinsert
         * the mapping into ITC.
         */
        t->a = true;
        itc_pte_copy(t);
    } else {
        if (as_page_fault(va, PF_ACCESS_EXEC, istate) == AS_PF_FAULT) {
            fault_if_from_uspace(istate,"Page fault at %p",va);
            panic("%s: va=%p, rid=%d, iip=%p\n", __FUNCTION__, va, rid, istate->cr_iip);
            t->a = true;
            itc_pte_copy(t);
        }
    }
    page_table_unlock(AS, true);
}

/** Data access bit fault handler.
 *
 * @param vector Interruption vector.
 * @param istate Structure with saved interruption state.
 */
void data_access_bit_fault(uint64_t vector, istate_t *istate)
{
    region_register rr;
    rid_t rid;
    uintptr_t va;
    pte_t *t;

    va = istate->cr_ifa;    /* faulting address */
    rr.word = rr_read(VA2VRN(va));
    rid = rr.map.rid;

    page_table_lock(AS, true);
    t = page_mapping_find(AS, va);
    ASSERT(t && t->p);
    if (t && t->p) {
        /*
         * Update the Accessed bit in page tables and reinsert
         * the mapping into DTC.
         */
        t->a = true;
        dtc_pte_copy(t);
    } else {
        if (as_page_fault(va, PF_ACCESS_READ, istate) == AS_PF_FAULT) {
            fault_if_from_uspace(istate,"Page fault at %p",va);
            panic("%s: va=%p, rid=%d, iip=%p\n", __FUNCTION__, va, rid, istate->cr_iip);
            t->a = true;
            itc_pte_copy(t);
        }
    }
    page_table_unlock(AS, true);
}

/** Page not present fault handler.
 *
 * @param vector Interruption vector.
 * @param istate Structure with saved interruption state.
 */
void page_not_present(uint64_t vector, istate_t *istate)
{
    region_register rr;
    rid_t rid;
    uintptr_t va;
    pte_t *t;
    
    va = istate->cr_ifa;    /* faulting address */
    rr.word = rr_read(VA2VRN(va));
    rid = rr.map.rid;

    page_table_lock(AS, true);
    t = page_mapping_find(AS, va);
    ASSERT(t);
    
    if (t->p) {
        /*
         * If the Present bit is set in page hash table, just copy it
         * and update ITC/DTC.
         */
        if (t->x)
            itc_pte_copy(t);
        else
            dtc_pte_copy(t);
        page_table_unlock(AS, true);
    } else {
        page_table_unlock(AS, true);
        if (as_page_fault(va, PF_ACCESS_READ, istate) == AS_PF_FAULT) {
            fault_if_from_uspace(istate,"Page fault at %p",va);
            panic("%s: va=%p, rid=%d\n", __FUNCTION__, va, rid);
        }
    }
}

 /** @}
 */