/*
 * CDDL HEADER START
 *
 * The contents of this file are subject to the terms of the
 * Common Development and Distribution License (the "License").
 * You may not use this file except in compliance with the License.
 *
 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
 * or http://www.opensolaris.org/os/licensing.
 * See the License for the specific language governing permissions
 * and limitations under the License.
 *
 * When distributing Covered Code, include this CDDL HEADER in each
 * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
 * If applicable, add the following below this CDDL HEADER, with the
 * fields enclosed by brackets "[]" replaced with your own identifying
 * information: Portions Copyright [yyyy] [name of copyright owner]
 *
 * CDDL HEADER END
 */
/*
 * Copyright 2010 Sun Microsystems, Inc.  All rights reserved.
 * Use is subject to license terms.
 */

/*
 * This file contains platform-dependent MMU support routines,
 * suitable for mmu methods with 2-cell physical addresses.
 * Use of these routines makes the caller platform-dependent,
 * since the caller assumes knowledge of the physical layout of
 * the machines address space.  Generic programs should use the
 * standard client interface memory allocators.
 */

#include <sys/promif.h>
#include <sys/promimpl.h>

ihandle_t
prom_mmu_ihandle(void)
{
        static ihandle_t immu;

        if (immu != (ihandle_t)0)
                return (immu);

        if (prom_getproplen(prom_chosennode(), "mmu") != sizeof (ihandle_t))
                return (immu = (ihandle_t)-1);

        (void) prom_getprop(prom_chosennode(), "mmu", (caddr_t)(&immu));
        return (immu);
}

/*
 * prom_map_phys:
 *
 * Create an MMU mapping for a given physical address to a given virtual
 * address. The given resources are assumed to be owned by the caller,
 * and are *not* removed from any free lists.
 *
 * This routine is suitable for mapping a 2-cell physical address.
 */

int
prom_map_phys(int mode, size_t size, caddr_t virt, unsigned long long physaddr)
{
        cell_t ci[11];
        int rv;
        ihandle_t immu = prom_mmu_ihandle();

        if ((immu == (ihandle_t)-1))
                return (-1);

        ci[0] = p1275_ptr2cell("call-method");  /* Service name */
        ci[1] = (cell_t)7;                      /* #argument cells */
        ci[2] = (cell_t)1;                      /* #result cells */
        ci[3] = p1275_ptr2cell("map");          /* Arg1: method name */
        ci[4] = p1275_ihandle2cell(immu);       /* Arg2: mmu ihandle */
        ci[5] = p1275_int2cell(mode);           /* Arg3: SA1: mode */
        ci[6] = p1275_size2cell(size);          /* Arg4: SA2: size */
        ci[7] = p1275_ptr2cell(virt);           /* Arg5: SA3: virt */
        ci[8] = p1275_ull2cell_high(physaddr);  /* Arg6: SA4: phys.hi */
        ci[9] = p1275_ull2cell_low(physaddr);   /* Arg7: SA5: phys.low */

        promif_preprom();
        rv = p1275_cif_handler(&ci);
        promif_postprom();

        if (rv != 0)
                return (-1);
        if (ci[10] != 0)                        /* Res1: Catch result */
                return (-1);
        return (0);
}

void
prom_unmap_phys(size_t size, caddr_t virt)
{
        (void) prom_unmap_virt(size, virt);
}

/*
 * Allocate aligned or unaligned virtual address space, unmapped.
 */
caddr_t
prom_allocate_virt(uint_t align, size_t size)
{
        cell_t ci[9];
        int rv;
        ihandle_t immu = prom_mmu_ihandle();

        if ((immu == (ihandle_t)-1))
                return ((caddr_t)-1);

        if (align == 0)
                align = 1;

        ci[0] = p1275_ptr2cell("call-method");  /* Service name */
        ci[1] = (cell_t)4;                      /* #argument cells */
        ci[2] = (cell_t)2;                      /* #result cells */
        ci[3] = p1275_ptr2cell("claim");        /* Arg1: Method name */
        ci[4] = p1275_ihandle2cell(immu);       /* Arg2: mmu ihandle */
        ci[5] = p1275_uint2cell(align);         /* Arg3: SA1: align */
        ci[6] = p1275_size2cell(size);          /* Arg4: SA2: size */

        promif_preprom();
        rv = p1275_cif_handler(&ci);
        promif_postprom();

        if (rv != 0)
                return ((caddr_t)-1);
        if (ci[7] != 0)                         /* Res1: Catch result */
                return ((caddr_t)-1);
        return (p1275_cell2ptr(ci[8]));         /* Res2: SR1: base */
}

/*
 * Claim a region of virtual address space, unmapped.
 */
caddr_t
prom_claim_virt(size_t size, caddr_t virt)
{
        cell_t ci[10];
        int rv;
        ihandle_t immu = prom_mmu_ihandle();

        if ((immu == (ihandle_t)-1))
                return ((caddr_t)-1);

        ci[0] = p1275_ptr2cell("call-method");  /* Service name */
        ci[1] = (cell_t)5;                      /* #argument cells */
        ci[2] = (cell_t)2;                      /* #result cells */
        ci[3] = p1275_ptr2cell("claim");        /* Arg1: Method name */
        ci[4] = p1275_ihandle2cell(immu);       /* Arg2: mmu ihandle */
        ci[5] = (cell_t)0;                      /* Arg3: align */
        ci[6] = p1275_size2cell(size);          /* Arg4: length */
        ci[7] = p1275_ptr2cell(virt);           /* Arg5: virt */

        promif_preprom();
        rv = p1275_cif_handler(&ci);
        promif_postprom();

        if (rv != 0)
                return ((caddr_t)-1);
        if (ci[8] != 0)                         /* Res1: Catch result */
                return ((caddr_t)-1);
        return (p1275_cell2ptr(ci[9]));         /* Res2: base */
}

/*
 * Free virtual address resource (no unmapping is done).
 */
void
prom_free_virt(size_t size, caddr_t virt)
{
        cell_t ci[7];
        ihandle_t immu = prom_mmu_ihandle();

        if ((immu == (ihandle_t)-1))
                return;

        ci[0] = p1275_ptr2cell("call-method");  /* Service name */
        ci[1] = (cell_t)4;                      /* #argument cells */
        ci[2] = (cell_t)0;                      /* #return cells */
        ci[3] = p1275_ptr2cell("release");      /* Arg1: Method name */
        ci[4] = p1275_ihandle2cell(immu);       /* Arg2: mmu ihandle */
        ci[5] = p1275_size2cell(size);          /* Arg3: length */
        ci[6] = p1275_ptr2cell(virt);           /* Arg4: virt */

        promif_preprom();
        (void) p1275_cif_handler(&ci);
        promif_postprom();
}

/*
 * Un-map virtual address. Does not free underlying resources.
 */
void
prom_unmap_virt(size_t size, caddr_t virt)
{
        cell_t ci[7];
        ihandle_t immu = prom_mmu_ihandle();

        if ((immu == (ihandle_t)-1))
                return;

        ci[0] = p1275_ptr2cell("call-method");  /* Service name */
        ci[1] = (cell_t)4;                      /* #argument cells */
        ci[2] = (cell_t)0;                      /* #result cells */
        ci[3] = p1275_ptr2cell("unmap");        /* Arg1: Method name */
        ci[4] = p1275_ihandle2cell(immu);       /* Arg2: mmu ihandle */
        ci[5] = p1275_size2cell(size);          /* Arg3: SA1: size */
        ci[6] = p1275_ptr2cell(virt);           /* Arg4: SA2: virt */

        promif_preprom();
        (void) p1275_cif_handler(&ci);
        promif_postprom();
}

static pnode_t
prom_mmu_phandle(void)
{
        static pnode_t pmmu = 0;

        if (pmmu == (pnode_t)0)  {
                ihandle_t ih;

                if ((ih = prom_mmu_ihandle()) == (ihandle_t)-1)
                        prom_panic("Can't get mmu ihandle");
                pmmu = prom_getphandle(ih);
        }
        return (pmmu);
}


int
prom_virt_avail_len(void)
{
        return (prom_getproplen(prom_mmu_phandle(), "available"));
}

int
prom_virt_avail(caddr_t prop)
{
        return (prom_getprop(prom_mmu_phandle(), "available", prop));
}

/*
 * Translate virtual address to physical address.
 * Returns 0: Success; Non-zero: failure.
 * Returns *phys_hi, *phys_lo and *mode only if successful.
 */
int
prom_translate_virt(caddr_t virt, int *valid,
                unsigned long long *physaddr, int *mode)
{
        cell_t ci[11];
        int rv;
        ihandle_t immu = prom_mmu_ihandle();

        *valid = 0;

        if ((immu == (ihandle_t)-1))
                return (-1);

        ci[0] = p1275_ptr2cell("call-method");  /* Service name */
        ci[1] = (cell_t)3;                      /* #argument cells */
        ci[2] = (cell_t)5;                      /* #result cells */
        ci[3] = p1275_ptr2cell("translate");    /* Arg1: Method name */
        ci[4] = p1275_ihandle2cell(immu);       /* Arg2: mmu ihandle */
        ci[5] = p1275_ptr2cell(virt);           /* Arg3: virt */
        ci[6] = 0;                              /* Res1: catch-resule */
        ci[7] = 0;                              /* Res2: sr1: valid */

        promif_preprom();
        rv = p1275_cif_handler(&ci);
        promif_postprom();

        if (rv == -1)                           /* Did the call fail ? */
                return (-1);
        if (ci[6] != 0)                         /* Catch result */
                return (-1);

        if (p1275_cell2int(ci[7]) != -1)        /* Valid results ? */
                return (0);

        *mode = p1275_cell2int(ci[8]);          /* Res3: sr2: mode, if valid */
        *physaddr = p1275_cells2ull(ci[9], ci[10]);
                                /* Res4: sr3: phys-hi ... Res5: sr4: phys-lo */
        *valid = -1;                            /* Indicate valid result */
        return (0);
}