uts: make emu10k non-verbose

[unleashed.git] / include / sys / ecppvar.h

/*
 * CDDL HEADER START
 *
 * The contents of this file are subject to the terms of the
 * Common Development and Distribution License, Version 1.0 only
 * (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 2004 Sun Microsystems, Inc.  All rights reserved.
 * Use is subject to license terms.
 */

#ifndef _SYS_ECPPVAR_H
#define _SYS_ECPPVAR_H

#include <sys/note.h>
#include <sys/sysmacros.h>

#ifdef  __cplusplus
extern "C" {
#endif

struct ecppunit;

/*
 * Hardware-abstraction structure
 */
struct ecpp_hw {
        int     (*map_regs)(struct ecppunit *);         /* map registers */
        void    (*unmap_regs)(struct ecppunit *);       /* unmap registers */
        int     (*config_chip)(struct ecppunit *);      /* configure SuperIO */
        void    (*config_mode)(struct ecppunit *);      /* config new mode */
        void    (*mask_intr)(struct ecppunit *);        /* mask interrupts */
        void    (*unmask_intr)(struct ecppunit *);      /* unmask interrupts */
        int     (*dma_start)(struct ecppunit *);        /* start DMA transfer */
        int     (*dma_stop)(struct ecppunit *, size_t *); /* stop DMA xfer */
        size_t  (*dma_getcnt)(struct ecppunit *);       /* get DMA counter */
        ddi_dma_attr_t  *attr;                          /* DMA attributes */
};

#define ECPP_MAP_REGS(pp)               (pp)->hw->map_regs(pp)
#define ECPP_UNMAP_REGS(pp)             (pp)->hw->unmap_regs(pp)
#define ECPP_CONFIG_CHIP(pp)            (pp)->hw->config_chip(pp)
#define ECPP_CONFIG_MODE(pp)            (pp)->hw->config_mode(pp)
#define ECPP_MASK_INTR(pp)              (pp)->hw->mask_intr(pp)
#define ECPP_UNMASK_INTR(pp)            (pp)->hw->unmask_intr(pp)
#define ECPP_DMA_START(pp)              (pp)->hw->dma_start(pp)
#define ECPP_DMA_STOP(pp, cnt)          (pp)->hw->dma_stop(pp, cnt)
#define ECPP_DMA_GETCNT(pp)             (pp)->hw->dma_getcnt(pp)

/* NSC 87332/97317 and EBus DMAC */
struct ecpp_ebus {
        struct config_reg       *c_reg;         /* configuration registers */
        ddi_acc_handle_t        c_handle;       /* handle for conf regs */
        struct cheerio_dma_reg  *dmac;          /* ebus dmac registers */
        ddi_acc_handle_t        d_handle;       /* handle for dmac registers */
        struct config2_reg      *c2_reg;        /* 97317 2nd level conf regs */
        ddi_acc_handle_t        c2_handle;      /* handle for c2_reg */
};

/* Southbridge SuperIO and 8237 DMAC */
struct ecpp_m1553 {
        struct isaspace         *isa_space;     /* all of isa space */
        ddi_acc_handle_t        d_handle;       /* handle for isa space */
        uint8_t                 chn;            /* 8237 dma channel */
        int                     isadma_entered; /* Southbridge DMA workaround */
};

#if defined(__x86)
struct ecpp_x86 {
        uint8_t                 chn;
};
#endif

/*
 * Hardware binding structure
 */
struct ecpp_hw_bind {
        char            *name;          /* binding name */
        struct ecpp_hw  *hw;            /* hw description */
        char            *info;          /* info string */
};

/* ecpp e_busy states */
typedef enum {
        ECPP_IDLE = 1,  /* No ongoing transfers */
        ECPP_BUSY = 2,  /* Ongoing transfers on the cable */
        ECPP_DATA = 3,  /* Not used */
        ECPP_ERR = 4,   /* Bad status in Centronics mode */
        ECPP_FLUSH = 5  /* Currently flushing the q */
} ecpp_busy_t;

/*
 * ecpp soft state structure
 */
struct ecppunit {
        kmutex_t        umutex;         /* lock for this structure */
        int             instance;       /* instance number */
        dev_info_t      *dip;           /* device information */
        ddi_iblock_cookie_t ecpp_trap_cookie;   /* interrupt cookie */
        ecpp_busy_t     e_busy;         /* ecpp busy flag */
        kcondvar_t      pport_cv;       /* cv to signal idle state */
        /*
         * common SuperIO registers
         */
        struct info_reg         *i_reg;         /* info registers */
        struct fifo_reg         *f_reg;         /* fifo register */
        ddi_acc_handle_t        i_handle;
        ddi_acc_handle_t        f_handle;
        /*
         * DMA support
         */
        ddi_dma_handle_t        dma_handle;     /* DMA handle */
        ddi_dma_cookie_t        dma_cookie;     /* current cookie */
        uint_t                  dma_cookie_count;       /* # of cookies */
        uint_t                  dma_nwin;       /* # of DMA windows */
        uint_t                  dma_curwin;     /* current window number */
        uint_t                  dma_dir;        /* transfer direction */
        /*
         * hardware-dependent stuff
         */
        struct ecpp_hw  *hw;            /* operations/attributes */
        union {                         /* hw-dependent data */
                struct ecpp_ebus        ebus;
                struct ecpp_m1553       m1553;
#if defined(__x86)
                struct ecpp_x86         x86;
#endif
        } uh;
        /*
         * DDI/STREAMS stuff
         */
        boolean_t       oflag;          /* instance open flag */
        queue_t         *readq;         /* pointer to readq */
        queue_t         *writeq;        /* pointer to writeq */
        mblk_t          *msg;           /* current message block */
        boolean_t       suspended;      /* driver suspended status */
        /*
         * Modes of operation
         */
        int             current_mode;   /* 1284 mode */
        uchar_t         current_phase;  /* 1284 phase */
        uchar_t         backchannel;    /* backchannel mode supported */
        uchar_t         io_mode;        /* transfer mode: PIO/DMA */
        /*
         * Ioctls support
         */
        struct ecpp_transfer_parms xfer_parms;  /* transfer parameters */
        struct ecpp_regs regs;          /* control/status registers */
        uint8_t         saved_dsr;      /* store the dsr returned from TESTIO */
        boolean_t       timeout_error;  /* store the timeout for GETERR */
        uchar_t         port;           /* xfer type: dma/pio/tfifo */
        struct prn_timeouts prn_timeouts; /* prnio timeouts */
        /*
         * ecpp.conf parameters
         */
        uchar_t         init_seq;       /* centronics init seq */
        uint32_t        wsrv_retry;     /* delay (ms) before next wsrv */
        uint32_t        wait_for_busy;  /* wait for BUSY to deassert */
        uint32_t        data_setup_time; /* pio centronics handshake */
        uint32_t        strobe_pulse_width; /* pio centronics handshake */
        uint8_t         fast_centronics; /* DMA/PIO centronics */
        uint8_t         fast_compat;    /* DMA/PIO 1284 compatible mode */
        uint32_t        ecp_rev_speed;  /* rev xfer speed in ECP, bytes/sec */
        uint32_t        rev_watchdog;   /* rev xfer watchdog period, ms */
        /*
         * Timeouts
         */
        timeout_id_t    timeout_id;     /* io transfers timer */
        timeout_id_t    fifo_timer_id;  /* drain SuperIO FIFO */
        timeout_id_t    wsrv_timer_id;  /* wsrv timeout */
        /*
         * Softintr data
         */
        ddi_softintr_t  softintr_id;
        int             softintr_flags; /* flags indicating softintr task */
        uint8_t         softintr_pending;
        /*
         * Misc stuff
         */
        caddr_t         ioblock;        /* transfer buffer block */
        size_t          xfercnt;        /* # of bytes to transfer */
        size_t          resid;          /* # of bytes not transferred */
        caddr_t         next_byte;      /* next byte for PIO transfer */
        caddr_t         last_byte;      /* last byte for PIO transfer */
        uint32_t        ecpp_drain_counter;     /* allows fifo to drain */
        uchar_t         dma_cancelled;  /* flushed while dma'ing */
        uint8_t         tfifo_intr;     /* TFIFO switch interrupt workaround */
        size_t          nread;          /* requested read */
        size_t          last_dmacnt;    /* DMA counter value for rev watchdog */
        uint32_t        rev_timeout_cnt; /* number of watchdog invocations */
        /*
         * Spurious interrupt detection
         */
        hrtime_t        lastspur;       /* last time spurious intrs started */
        long            nspur;          /* spurious intrs counter */
        /*
         * Statistics
         */
        kstat_t         *ksp;           /* kstat pointer */
        kstat_t         *intrstats;     /* kstat interrupt counter */
        /*
         * number of bytes, transferred in and out in each mode
         */
        uint32_t        ctxpio_obytes;
        uint32_t        obytes[ECPP_EPP_MODE+1];
        uint32_t        ibytes[ECPP_EPP_MODE+1];
        /*
         * other stats
         */
        uint32_t        to_mode[ECPP_EPP_MODE+1]; /* # transitions to mode */
        uint32_t        xfer_tout;      /* # transfer timeouts */
        uint32_t        ctx_cf;         /* # periph check failures */
        uint32_t        joblen;         /* of bytes xfer'd since open */
        uint32_t        isr_reattempt_high;     /* max times isr has looped */
        /*
         * interrupt stats
         */
        uint_t          intr_hard;
        uint_t          intr_spurious;
        uint_t          intr_soft;
        /*
         * identify second register set for ecp mode on Sx86
         */
        int             noecpregs;
};

_NOTE(MUTEX_PROTECTS_DATA(ecppunit::umutex, ecppunit))
_NOTE(DATA_READABLE_WITHOUT_LOCK(ecppunit::dip))
_NOTE(DATA_READABLE_WITHOUT_LOCK(ecppunit::instance))
_NOTE(DATA_READABLE_WITHOUT_LOCK(ecppunit::i_reg))
_NOTE(DATA_READABLE_WITHOUT_LOCK(ecppunit::f_reg))
_NOTE(DATA_READABLE_WITHOUT_LOCK(ecppunit::i_handle))
_NOTE(DATA_READABLE_WITHOUT_LOCK(ecppunit::f_handle))
_NOTE(DATA_READABLE_WITHOUT_LOCK(ecppunit::ecpp_trap_cookie))
_NOTE(DATA_READABLE_WITHOUT_LOCK(ecppunit::readq))
_NOTE(DATA_READABLE_WITHOUT_LOCK(ecppunit::writeq))

/*
 * current_phase values
 */
#define ECPP_PHASE_INIT         0x00    /* initialization */
#define ECPP_PHASE_NEGO         0x01    /* negotiation */
#define ECPP_PHASE_TERM         0x02    /* termination */
#define ECPP_PHASE_PO           0x03    /* power-on */

#define ECPP_PHASE_C_FWD_DMA    0x10    /* cntrx/compat fwd dma xfer */
#define ECPP_PHASE_C_FWD_PIO    0x11    /* cntrx/compat fwd PIO xfer */
#define ECPP_PHASE_C_IDLE       0x12    /* cntrx/compat idle */

#define ECPP_PHASE_NIBT_REVDATA 0x20    /* nibble/byte reverse data */
#define ECPP_PHASE_NIBT_AVAIL   0x21    /* nibble/byte reverse data available */
#define ECPP_PHASE_NIBT_NAVAIL  0x22    /* nibble/byte reverse data not avail */
#define ECPP_PHASE_NIBT_REVIDLE 0x22    /* nibble/byte reverse idle */
#define ECPP_PHASE_NIBT_REVINTR 0x23    /* nibble/byte reverse interrupt */

#define ECPP_PHASE_ECP_SETUP    0x30    /* ecp setup */
#define ECPP_PHASE_ECP_FWD_XFER 0x31    /* ecp forward transfer */
#define ECPP_PHASE_ECP_FWD_IDLE 0x32    /* ecp forward idle */
#define ECPP_PHASE_ECP_FWD_REV  0x33    /* ecp forward to reverse */
#define ECPP_PHASE_ECP_REV_XFER 0x34    /* ecp reverse transfer */
#define ECPP_PHASE_ECP_REV_IDLE 0x35    /* ecp reverse idle */
#define ECPP_PHASE_ECP_REV_FWD  0x36    /* ecp reverse to forward */

#define ECPP_PHASE_EPP_INIT_IDLE 0x40   /* epp init phase */
#define ECPP_PHASE_EPP_IDLE     0x41    /* epp all-round phase */

#define FAILURE_PHASE           0x80
#define UNDEFINED_PHASE         0x81

/* ecpp return values */
#define SUCCESS         1
#define FAILURE         2

#define TRUE            1
#define FALSE           0

/* message type */
#define ECPP_BACKCHANNEL        0x45

/* transfer modes */
#define ECPP_DMA                0x1
#define ECPP_PIO                0x2

/* tuneable timing defaults */
#define CENTRONICS_RETRY        750     /* 750 milliseconds */
#define WAIT_FOR_BUSY           1000    /* 1000 microseconds */
#define SUSPEND_TOUT            10      /* # seconds before suspend fails */

/* Centronics hanshaking defaults */
#define DATA_SETUP_TIME         2       /* 2 uSec Data Setup Time (2x min) */
#define STROBE_PULSE_WIDTH      2       /* 2 uSec Strobe Pulse (2x min) */

/* 1284 Extensibility Request values */
#define ECPP_XREQ_NIBBLE        0x00    /* Nibble Mode Rev Channel Transfer */
#define ECPP_XREQ_BYTE          0x01    /* Byte Mode Rev Channel Transfer */
#define ECPP_XREQ_ID            0x04    /* Request Device ID */
#define ECPP_XREQ_ECP           0x10    /* Request ECP Mode */
#define ECPP_XREQ_ECPRLE        0x30    /* Request ECP Mode with RLE */
#define ECPP_XREQ_EPP           0x40    /* Request EPP Mode */
#define ECPP_XREQ_XLINK         0x80    /* Request Extensibility Link */

/* softintr flags */
#define ECPP_SOFTINTR_PIONEXT   0x1     /* write next byte in PIO mode */

/* Stream  defaults */
#define IO_BLOCK_SZ     1024 * 128      /* transfer buffer size */
#define ECPPHIWAT       32 * 1024  * 6
#define ECPPLOWAT       32 * 1024  * 4

/* Loop timers */
#define ECPP_REG_WRITE_MAX_LOOP 100     /* cpu is faster than superio */
#define ECPP_ISR_MAX_DELAY      30      /* DMAC slow PENDING status */

/* misc constants */
#define ECPP_FIFO_SZ            16      /* FIFO size */
#define FIFO_DRAIN_PERIOD       250000  /* max FIFO drain period in usec */
#define NIBBLE_REV_BLKSZ        1024    /* send up to # bytes at a time */
#define FWD_TIMEOUT_DEFAULT     90      /* forward xfer timeout in seconds */
#define REV_TIMEOUT_DEFAULT     0       /* reverse xfer timeout in seconds */

/* ECP mode constants */
#define ECP_REV_BLKSZ           1024    /* send up to # bytes at a time */
#define ECP_REV_BLKSZ_MAX       (4 * 1024)      /* maximum of # bytes */
#define ECP_REV_SPEED           (1 * 1024 * 1024)       /* bytes/sec */
#define ECP_REV_MINTOUT         5       /* min ECP rev xfer timeout in ms */
#define REV_WATCHDOG            100     /* poll DMA counter every # ms */

/* spurious interrupt detection */
#define SPUR_CRITICAL           100     /* number of interrupts... */
#define SPUR_PERIOD             1000000000 /* in # ns */

/*
 * Copyin/copyout states
 */
#define ECPP_STRUCTIN           0
#define ECPP_STRUCTOUT          1
#define ECPP_ADDRIN             2
#define ECPP_ADDROUT            3

/*
 * As other ioctls require the same structure, put inner struct's into union
 */
struct ecpp_copystate {
        int     state;          /* see above */
        void    *uaddr;         /* user address of the following structure */
        union {
                struct ecpp_device_id           devid;
                struct prn_1284_device_id       prn_devid;
                struct prn_interface_info       prn_if;
        } un;
};

/*
 * The structure is dynamically created for each M_IOCTL and is bound to mblk
 */
_NOTE(SCHEME_PROTECTS_DATA("unique per call", ecpp_copystate))

/* kstat structure */
struct ecppkstat {
        /*
         * number of bytes, transferred in and out in each mode
         */
        struct kstat_named      ek_ctx_obytes;
        struct kstat_named      ek_ctxpio_obytes;
        struct kstat_named      ek_nib_ibytes;
        struct kstat_named      ek_ecp_obytes;
        struct kstat_named      ek_ecp_ibytes;
        struct kstat_named      ek_epp_obytes;
        struct kstat_named      ek_epp_ibytes;
        struct kstat_named      ek_diag_obytes;
        /*
         * number of transitions to particular mode
         */
        struct kstat_named      ek_to_ctx;
        struct kstat_named      ek_to_nib;
        struct kstat_named      ek_to_ecp;
        struct kstat_named      ek_to_epp;
        struct kstat_named      ek_to_diag;
        /*
         * other stats
         */
        struct kstat_named      ek_xfer_tout;   /* # transfer timeouts */
        struct kstat_named      ek_ctx_cf;      /* # periph check failures */
        struct kstat_named      ek_joblen;      /* # bytes xfer'd since open */
        struct kstat_named      ek_isr_reattempt_high;  /* max # times */
                                                        /* isr has looped */
        struct kstat_named      ek_mode;        /* 1284 mode */
        struct kstat_named      ek_phase;       /* 1284 ECP phase */
        struct kstat_named      ek_backchan;    /* backchannel mode supported */
        struct kstat_named      ek_iomode;      /* transfer mode: pio/dma */
        struct kstat_named      ek_state;       /* ecpp busy flag */
};

/* Macros for superio programming */
#define PP_PUTB(x, y, z)        ddi_put8(x, y, z)
#define PP_GETB(x, y)           ddi_get8(x, y)

#define DSR_READ(pp)            PP_GETB((pp)->i_handle, &(pp)->i_reg->dsr)
#define DCR_READ(pp)            PP_GETB((pp)->i_handle, &(pp)->i_reg->dcr)
#define ECR_READ(pp)            \
        (pp->noecpregs) ? 0xff : PP_GETB((pp)->f_handle, &(pp)->f_reg->ecr)
#define DATAR_READ(pp)          PP_GETB((pp)->i_handle, &(pp)->i_reg->ir.datar)
#define DFIFO_READ(pp)          \
        (pp->noecpregs) ? 0xff : PP_GETB((pp)->f_handle, &(pp)->f_reg->fr.dfifo)
#define TFIFO_READ(pp)          \
        (pp->noecpregs) ? 0xff : PP_GETB((pp)->f_handle, &(pp)->f_reg->fr.tfifo)

#define DCR_WRITE(pp, val)      PP_PUTB((pp)->i_handle, &(pp)->i_reg->dcr, val)
#define ECR_WRITE(pp, val)      \
        if (!pp->noecpregs) PP_PUTB((pp)->f_handle, &(pp)->f_reg->ecr, val)
#define DATAR_WRITE(pp, val)    \
                        PP_PUTB((pp)->i_handle, &(pp)->i_reg->ir.datar, val)
#define DFIFO_WRITE(pp, val)    \
        if (!pp->noecpregs) PP_PUTB((pp)->f_handle, &(pp)->f_reg->fr.dfifo, val)
#define TFIFO_WRITE(pp, val)    \
        if (!pp->noecpregs) PP_PUTB((pp)->f_handle, &(pp)->f_reg->fr.tfifo, val)

/*
 * Macros to manipulate register bits
 */
#define OR_SET_BYTE_R(handle, addr, val) \
{               \
        uint8_t tmpval;                                 \
        tmpval = ddi_get8(handle, (uint8_t *)addr);     \
        tmpval |= val;                                  \
        ddi_put8(handle, (uint8_t *)addr, tmpval);      \
}

#define OR_SET_LONG_R(handle, addr, val) \
{               \
        uint32_t tmpval;                                \
        tmpval = ddi_get32(handle, (uint32_t *)addr);   \
        tmpval |= val;                                  \
        ddi_put32(handle, (uint32_t *)addr, tmpval);    \
}

#define AND_SET_BYTE_R(handle, addr, val) \
{               \
        uint8_t tmpval;                                 \
        tmpval = ddi_get8(handle, (uint8_t *)addr);     \
        tmpval &= val;                                  \
        ddi_put8(handle, (uint8_t *)addr, tmpval);      \
}

#define AND_SET_LONG_R(handle, addr, val) \
{               \
        uint32_t tmpval;                                \
        tmpval = ddi_get32(handle, (uint32_t *)addr);   \
        tmpval &= val;                                  \
        ddi_put32(handle, (uint32_t *)addr, tmpval);    \
}

#define NOR_SET_LONG_R(handle, addr, val, mask) \
{               \
        uint32_t tmpval;                                \
        tmpval = ddi_get32(handle, (uint32_t *)addr);   \
        tmpval &= ~(mask);                              \
        tmpval |= val;                                  \
        ddi_put32(handle, (uint32_t *)addr, tmpval);    \
}

/*
 * Macros for Cheerio/RIO DMAC programming
 */
#define SET_DMAC_CSR(pp, val)   ddi_put32(pp->uh.ebus.d_handle, \
                                ((uint32_t *)&pp->uh.ebus.dmac->csr), \
                                ((uint32_t)val))
#define GET_DMAC_CSR(pp)        ddi_get32(pp->uh.ebus.d_handle, \
                                (uint32_t *)&(pp->uh.ebus.dmac->csr))

#define SET_DMAC_ACR(pp, val)   ddi_put32(pp->uh.ebus.d_handle, \
                                ((uint32_t *)&pp->uh.ebus.dmac->acr), \
                                ((uint32_t)val))

#define GET_DMAC_ACR(pp)        ddi_get32(pp->uh.ebus.d_handle, \
                                (uint32_t *)&pp->uh.ebus.dmac->acr)

#define SET_DMAC_BCR(pp, val)   ddi_put32(pp->uh.ebus.d_handle, \
                                ((uint32_t *)&pp->uh.ebus.dmac->bcr), \
                                ((uint32_t)val))

#define GET_DMAC_BCR(pp)        ddi_get32(pp->uh.ebus.d_handle, \
                                ((uint32_t *)&pp->uh.ebus.dmac->bcr))

#define DMAC_RESET_TIMEOUT      10000   /* in usec */

/*
 * Macros to distinguish between PIO and DMA Compatibility mode
 */
#define COMPAT_PIO(pp) (((pp)->io_mode == ECPP_PIO) &&          \
                    ((pp)->current_mode == ECPP_CENTRONICS ||   \
                    (pp)->current_mode == ECPP_COMPAT_MODE))

#define COMPAT_DMA(pp) (((pp)->io_mode == ECPP_DMA) &&          \
                    ((pp)->current_mode == ECPP_CENTRONICS ||   \
                    (pp)->current_mode == ECPP_COMPAT_MODE))

/*
 * Other useful macros
 */
#define NELEM(a)        (sizeof (a) / sizeof (*(a)))

#ifdef  __cplusplus
}
#endif

#endif  /* _SYS_ECPPVAR_H */