/* $OpenBSD: tsreg.h,v 1.6 2014/12/24 18:46:14 miod Exp $ */
/* $NetBSD: tsreg.h,v 1.1 1999/06/29 06:46:47 ross Exp $ */

/*-
 * Copyright (c) 1999 by Ross Harvey.  All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. 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.
 * 3. All advertising materials mentioning features or use of this software
 *    must display the following acknowledgement:
 *      This product includes software developed by Ross Harvey.
 * 4. The name of Ross Harvey may not be used to endorse or promote products
 *    derived from this software without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY ROSS HARVEY ``AS IS'' AND ANY EXPRESS
 * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
 * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURP0SE
 * ARE DISCLAIMED.  IN NO EVENT SHALL ROSS HARVEY 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.
 *
 */

/*
 * 21272 Core Logic registers and constants.
 */

#define tsreg() { Generate ctags(1) key. }

/*
 * Superpage pointer from physical address.
 */
#define S_PAGE(phys) ((void *)ALPHA_PHYS_TO_K0SEG(phys))

/*
 * {LD,ST}QP: LoaD and STore Quad Physical
 */
#define LDQP(a) (*(volatile long *)ALPHA_PHYS_TO_K0SEG(a))
#define STQP(a) LDQP(a)

/*
 * Define extraction functions for bit fields via length and left,right bitno
 */
#define TSFIELD(r,offs,len) (((r) >> (offs)) & (~0UL >> (64 - (len))))
#define TSFIELDBB(r,lb,rb) TSFIELD((r), (rb), (lb) - (rb) + 1)

/*
 * EV6 has a new superpage which can pass through 44 address bits.  (Umm, a
 * superduperpage?) But, the firmware doesn't turn it on, so we use the old
 * one and let the HW sign extend va/pa<40> to get us the pa<43> that makes
 * the needed I/O space access. This is just as well; it means we don't have
 * to worry about which GENERIC code might get called on other CPU models.
 *
 *      E.g., we want this:           0x0801##a000##0000
 *      We use this:                  0x0101##a000##0000
 *      ...mix in the old SP:   0xffff##fc00##0000##0000
 *      ...after PA sign ext:   0xffff##ff00##a000##0000
 *      (PA<42:41> ignored)
 */

/*
 * This hack allows us to map the I/O address space without using
 * the KSEG sign extension hack.
 */
#define TS_PHYSADDR(x)                                                  \
        (((x) & ~0x0100##0000##0000) | 0x0800##0000##0000)

/*
 * Cchip CSR Map
 */

#define TS_C_CSC        0x101##a000##0000UL     /* Cchip System Configuration */

#       define  CSC_P1P         (1L << 14)
#       define  CSC_BC(r)       TSFIELD((r), 0, 2)
#       define  CSC_AW          (1L << 8)

#define TS_C_MTR        0x101##a000##0040UL

#define TS_C_MISC       0x101##a000##0080UL     /* Miscellaneous Register */

#       define  MISC_REV(r)     TSFIELD((r), 39, 8)

#define TS_C_MPD        0x101##a000##00c0UL

#       define  MPD_DR  0x08    /* RO: Data receive */
#       define  MPD_CKR 0x04    /* RO: Clock receive */
#       define  MPD_DS  0x02    /* WO: Data send - Must be a 1 to receive */
#       define  MPD_CKS 0x01    /* WO: Clock send */

#define TS_C_AAR0       0x101##a000##0100UL
#define TS_C_AAR1       0x101##a000##0140UL
#define TS_C_AAR2       0x101##a000##0180UL
#define TS_C_AAR3       0x101##a000##01c0UL

#       define  AAR_ASIZ(r)     TSFIELD((r), 12, 4)
#       define  AAR_SPLIT       (1L << 8)

#define TS_C_DIM0       0x101##a000##0200UL
#define TS_C_DIM1       0x101##a000##0240UL
#define TS_C_DIR0       0x101##a000##0280UL
#define TS_C_DIR1       0x101##a000##02c0UL
#define TS_C_DRIR       0x101##a000##0300UL
#define TS_C_PRBEN      0x101##a000##0340UL
#define TS_C_IIC0       0x101##a000##0380UL
#define TS_C_IIC1       0x101##a000##03c0UL
#define TS_C_MPR0       0x101##a000##0400UL
#define TS_C_MPR1       0x101##a000##0440UL
#define TS_C_MPR2       0x101##a000##0480UL
#define TS_C_MPR3       0x101##a000##04c0UL
#define TS_C_MCTL       0x101##a000##0500UL

#define TS_C_TTR        0x101##a000##0580UL
#define TS_C_TDR        0x101##a000##05c0UL

/*
 * Dchip CSR Map
 */

#define TS_D_DSC        0x101##b000##0800UL
#define TS_D_STR        0x101##b000##0840UL
#define TS_D_DREV       0x101##b000##0880UL
#define TS_D_DSC2       0x101##b000##08c0UL

/*
 * Pchip CSR Offsets
 */

#define P_WSBA0         0x0000
#define P_WSBA1         0x0040
#define P_WSBA2         0x0080
#define P_WSBA3         0x00c0

#       define  WSBA_ADDR(r) (TSFIELDBB((r), 31, 20) << 20)
#       define  WSBA_SG      2
#       define  WSBA_ENA     1

#define P_WSM0          0x0100
#define P_WSM1          0x0140
#define P_WSM2          0x0180
#define P_WSM3          0x01c0

#       define  WSM_AM(r)    TSFIELDBB((r), 31, 20)
#       define  WSM_LEN(r)   ((WSM_AM(r) + 1) << 20)

#define P_TBA0          0x0200
#define P_TBA1          0x0240
#define P_TBA2          0x0280
#define P_TBA3          0x02c0

#define P_PCTL          0x0300
#define P_PLAT          0x0340
        /* reserved     0x0380 */
#define P_PERROR        0x03c0

#define P_PERRMASK      0x0400
#define P_PERRSET       0x0440
#define P_TLBIV         0x0480
#define P_TLBIA         0x04c0

#define P_PMONCTL       0x0500
#define P_PMONCNT       0x0540

#define P_SPRST         0x0800

#define TS_STEP         0x40

/*
 * Pchip I/O offsets
 */

#define P_CSRBASE        0x001##8000##0000UL
#define P_PCI_MEM        0x800##0000##0000UL
#define P_PCI_IO         0x001##fc00##0000UL
#define P_PCI_CONFIG     0x001##fe00##0000UL

/*
 * Construct EV6 I/O Space Address for Pchip 0 and Pchip 1.
 */

#define TS_P0(offs)     (0x100##0000##0000UL + (offs))
#define TS_P1(offs)     (0x102##0000##0000UL + (offs))
#define TS_Pn(n, offs)  (0x100##0000##0000UL + 0x2##0000##0000UL * (n) + (offs))

/*
 * Tsunami Generic Register Type
 */
typedef struct _ts_gr {
        volatile u_int64_t tsg_r;
        long    tsg_deadspace[7];
} TS_GR;

/*
 * Tsunami Pchip
 */

struct  ts_pport {
        TS_GR   tsp_resA;
        TS_GR   tsp_error;      /* Pchip Error */

        TS_GR   tsp_perrmask;   /* Pchip Error Mask */
        TS_GR   tsp_perrset;    /* Pchip Error Set */
        TS_GR   tsp_tlbiv;      /* Translation Buffer Invalidate Virtual */
        TS_GR   tsp_tlbia;      /* Translation Buffer Invalidate All */

        TS_GR   tsp_pmonctl;    /* PChip Monitor Control */
        TS_GR   tsp_pmoncnt;    /* PChip Monitor Counters */
        TS_GR   tsp_resB;
        TS_GR   tsp_resC;

        TS_GR   tsp_resD_K[8];
};

struct  ts_gport {
        TS_GR   tsp_resA[2];
        TS_GR   tsp_serror;
        TS_GR   tsp_serrmask;
        TS_GR   tsp_serrset;
        TS_GR   tsp_resB;
        TS_GR   tsp_gperrmask;
        TS_GR   tsp_gperren;
        TS_GR   tsp_gperrset;
        TS_GR   tsp_resC;
        TS_GR   tsp_tlbiv;
        TS_GR   tsp_tlbia;
        TS_GR   tsp_resD[2];
        TS_GR   tsp_sctl;
        TS_GR   tsp_resE[3];
};

struct  ts_aport {
        TS_GR   tsp_resA[2];
        TS_GR   tsp_agperror;
        TS_GR   tsp_agperrmask;
        TS_GR   tsp_agperrset;
        TS_GR   tsp_agplastwr;
        TS_GR   tsp_aperror;
        TS_GR   tsp_aperrmask;
        TS_GR   tsp_aperrset;
        TS_GR   tsp_resB;
        TS_GR   tsp_tlbiv;
        TS_GR   tsp_tlbia;
        TS_GR   tsp_resC[6];
};

struct  ts_pchip {
        TS_GR   tsp_wsba[4];    /* Window Space Base Address */

        TS_GR   tsp_wsm[4];     /* Window Space Mask */

        TS_GR   tsp_tba[4];     /* Translated Base Address */

        TS_GR   tsp_pctl;       /* Pchip Control */
        TS_GR   tsp_plat;       /* Pchip Latency */

        union {
                struct ts_pport p;
                struct ts_gport g;
                struct ts_aport a;
        } port;

        TS_GR   tsp_sprts;      /* ??? */
        TS_GR   tsp_res[31];
};