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/*

 * Copyright (c) 2001-2004 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 amd64mm

 * @{

 */

/** @file

 */

#include <arch/mm/page.h>

#include <genarch/mm/page_pt.h>

#include <arch/mm/frame.h>

#include <mm/page.h>

#include <mm/frame.h>

#include <mm/as.h>

#include <arch/interrupt.h>

#include <arch/asm.h>

#include <config.h>

#include <memstr.h>

#include <interrupt.h>

#include <print.h>

#include <panic.h>

#include <align.h>

/* Definitions for identity page mapper */

pte_t helper_ptl1[512] __attribute__((aligned (PAGE_SIZE)));

pte_t helper_ptl2[512] __attribute__((aligned (PAGE_SIZE)));

pte_t helper_ptl3[512] __attribute__((aligned (PAGE_SIZE)));

extern pte_t ptl_0; /* From boot.S */

#define PTL1_PRESENT(ptl0, page) (!(GET_PTL1_FLAGS_ARCH(ptl0, PTL0_INDEX_ARCH(page)) & PAGE_NOT_PRESENT))

#define PTL2_PRESENT(ptl1, page) (!(GET_PTL2_FLAGS_ARCH(ptl1, PTL1_INDEX_ARCH(page)) & PAGE_NOT_PRESENT))

#define PTL3_PRESENT(ptl2, page) (!(GET_PTL3_FLAGS_ARCH(ptl2, PTL2_INDEX_ARCH(page)) & PAGE_NOT_PRESENT))

#define PTL1_ADDR(ptl0, page) ((pte_t *)PA2KA(GET_PTL1_ADDRESS_ARCH(ptl0, PTL0_INDEX_ARCH(page))))

#define PTL2_ADDR(ptl1, page) ((pte_t *)PA2KA(GET_PTL2_ADDRESS_ARCH(ptl1, PTL1_INDEX_ARCH(page))))

#define PTL3_ADDR(ptl2, page) ((pte_t *)PA2KA(GET_PTL3_ADDRESS_ARCH(ptl2, PTL2_INDEX_ARCH(page))))

#define SETUP_PTL1(ptl0, page, tgt)  {  \

    SET_PTL1_ADDRESS_ARCH(ptl0, PTL0_INDEX_ARCH(page), (uintptr_t)KA2PA(tgt)); \

        SET_PTL1_FLAGS_ARCH(ptl0, PTL0_INDEX_ARCH(page), PAGE_WRITE | PAGE_EXEC); \

    }

#define SETUP_PTL2(ptl1, page, tgt)  {  \

    SET_PTL2_ADDRESS_ARCH(ptl1, PTL1_INDEX_ARCH(page), (uintptr_t)KA2PA(tgt)); \

        SET_PTL2_FLAGS_ARCH(ptl1, PTL1_INDEX_ARCH(page), PAGE_WRITE | PAGE_EXEC); \

    }

#define SETUP_PTL3(ptl2, page, tgt)  {  \

    SET_PTL3_ADDRESS_ARCH(ptl2, PTL2_INDEX_ARCH(page), (uintptr_t)KA2PA(tgt)); \

        SET_PTL3_FLAGS_ARCH(ptl2, PTL2_INDEX_ARCH(page), PAGE_WRITE | PAGE_EXEC); \

    }

#define SETUP_FRAME(ptl3, page, tgt)  { \

    SET_FRAME_ADDRESS_ARCH(ptl3, PTL3_INDEX_ARCH(page), (uintptr_t)KA2PA(tgt)); \

        SET_FRAME_FLAGS_ARCH(ptl3, PTL3_INDEX_ARCH(page), PAGE_WRITE | PAGE_EXEC); \

    }

void page_arch_init(void)

{

    uintptr_t cur;

    unsigned int i;

    int identity_flags = PAGE_CACHEABLE | PAGE_EXEC | PAGE_GLOBAL | PAGE_WRITE;

    if (config.cpu_active == 1) {

        page_mapping_operations = &pt_mapping_operations;

        /*

         * PA2KA(identity) mapping for all frames.

         */

        for (cur = 0; cur < last_frame; cur += FRAME_SIZE) {

            /* Standard identity mapping */

            page_mapping_insert(AS_KERNEL, PA2KA(cur), cur, identity_flags);

        }

        /* Upper kernel mapping

         * - from zero to top of kernel (include bottom addresses

         *   because some are needed for init)

         */

        for (cur = PA2KA_CODE(0); cur < config.base + config.kernel_size; cur += FRAME_SIZE)

            page_mapping_insert(AS_KERNEL, cur, KA2PA(cur), identity_flags);

        for (cur = config.stack_base; cur < config.stack_base + config.stack_size; cur += FRAME_SIZE)

            page_mapping_insert(AS_KERNEL, cur, KA2PA(cur), identity_flags);

        for (i = 0; i < init.cnt; i++) {

            for (cur = init.tasks[i].addr; cur < init.tasks[i].addr + init.tasks[i].size; cur += FRAME_SIZE)

                page_mapping_insert(AS_KERNEL, PA2KA_CODE(KA2PA(cur)), KA2PA(cur), identity_flags);

        }

        exc_register(14, "page_fault", (iroutine) page_fault);

        write_cr3((uintptr_t) AS_KERNEL->genarch.page_table);

    } else

        write_cr3((uintptr_t) AS_KERNEL->genarch.page_table);

}

/** Identity page mapper

 *

 * We need to map whole physical memory identically before the page subsystem

 * is initializaed. This thing clears page table and fills in the specific

 * items.

 */

void ident_page_fault(int n, istate_t *istate)

{

    uintptr_t page;

    static uintptr_t oldpage = 0;

    pte_t *aptl_1, *aptl_2, *aptl_3;

    page = read_cr2();

    if (oldpage) {

        /* Unmap old address */

        aptl_1 = PTL1_ADDR(&ptl_0, oldpage);

        aptl_2 = PTL2_ADDR(aptl_1, oldpage);

        aptl_3 = PTL3_ADDR(aptl_2, oldpage);

        SET_FRAME_FLAGS_ARCH(aptl_3, PTL3_INDEX_ARCH(oldpage), PAGE_NOT_PRESENT);

        if (KA2PA(aptl_3) == KA2PA(helper_ptl3))

            SET_PTL3_FLAGS_ARCH(aptl_2, PTL2_INDEX_ARCH(oldpage), PAGE_NOT_PRESENT);

        if (KA2PA(aptl_2) == KA2PA(helper_ptl2))

            SET_PTL2_FLAGS_ARCH(aptl_1, PTL1_INDEX_ARCH(oldpage), PAGE_NOT_PRESENT);

        if (KA2PA(aptl_1) == KA2PA(helper_ptl1))

            SET_PTL1_FLAGS_ARCH(&ptl_0, PTL0_INDEX_ARCH(oldpage), PAGE_NOT_PRESENT);

    }

    if (PTL1_PRESENT(&ptl_0, page))

        aptl_1 = PTL1_ADDR(&ptl_0, page);

    else {

        SETUP_PTL1(&ptl_0, page, helper_ptl1);

        aptl_1 = helper_ptl1;

    }

    if (PTL2_PRESENT(aptl_1, page))

        aptl_2 = PTL2_ADDR(aptl_1, page);

    else {

        SETUP_PTL2(aptl_1, page, helper_ptl2);

        aptl_2 = helper_ptl2;

    }

    if (PTL3_PRESENT(aptl_2, page))

        aptl_3 = PTL3_ADDR(aptl_2, page);

    else {

        SETUP_PTL3(aptl_2, page, helper_ptl3);

        aptl_3 = helper_ptl3;

    }

    SETUP_FRAME(aptl_3, page, page);

    oldpage = page;

}

void page_fault(int n, istate_t *istate)

{

    uintptr_t page;

    pf_access_t access;

    page = read_cr2();

    if (istate->error_word & PFERR_CODE_RSVD)

        panic("Reserved bit set in page table entry.\n");

    if (istate->error_word & PFERR_CODE_RW)

        access = PF_ACCESS_WRITE;

    else if (istate->error_word & PFERR_CODE_ID)

        access = PF_ACCESS_EXEC;

    else

        access = PF_ACCESS_READ;

    if (as_page_fault(page, access, istate) == AS_PF_FAULT) {

        fault_if_from_uspace(istate, "Page fault: %#x", page);

        decode_istate(n, istate);

        printf("Page fault address: %llx\n", page);

        panic("page fault\n");

    }

}

uintptr_t hw_map(uintptr_t physaddr, size_t size)

{

    if (last_frame + ALIGN_UP(size, PAGE_SIZE) > KA2PA(KERNEL_ADDRESS_SPACE_END_ARCH))

        panic("Unable to map physical memory %p (%d bytes)", physaddr, size)

    uintptr_t virtaddr = PA2KA(last_frame);

    pfn_t i;

    for (i = 0; i < ADDR2PFN(ALIGN_UP(size, PAGE_SIZE)); i++)

        page_mapping_insert(AS_KERNEL, virtaddr + PFN2ADDR(i), physaddr + PFN2ADDR(i), PAGE_NOT_CACHEABLE | PAGE_WRITE);

    last_frame = ALIGN_UP(last_frame + size, FRAME_SIZE);

    return virtaddr;

}

/** @}

 */