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[unleashed/lotheac.git] / include / sys / ddidevmap.h

/*
 * 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 (c) 1996, 2010, Oracle and/or its affiliates. All rights reserved.
 */

#ifndef _SYS_DDIDEVMAP_H
#define _SYS_DDIDEVMAP_H

#ifdef  __cplusplus
extern "C" {
#endif

#ifdef  _KERNEL

#include <sys/mman.h>

struct devmap_info {
        size_t  length;         /* and this length */
        size_t  page_size;      /* pte page size selected by framework */
        size_t  offset;         /* optimal page size based on this offset */
        ushort_t valid_flag;    /* flag to indicate the validity of data */
        uchar_t byte_order;     /* the  endian characteristics of the mapping */

        /*
         * describes  order in which the CPU will reference data.
         */
        uchar_t data_order;
};

typedef void * ddi_umem_cookie_t;

/*
 * umem callback function vector for drivers
 *
 * NOTE: IMPORTANT!  When umem_lockmemory is called with a valid
 * umem_callback_ops and DDI_UMEMLOCK_LONGTERM set, the 'cleanup'
 * callback function may be called AFTER a call to ddi_umem_lock.
 * It is the users responsibility to make sure that ddi_umem_lock is
 * called ONLY once for each ddi_umem_lock/umem_lockmemory cookie.
 */
#define UMEM_CALLBACK_VERSION 1
struct umem_callback_ops {
        int     cbo_umem_callback_version;      /* version number */
        void (*cbo_umem_lock_cleanup)(ddi_umem_cookie_t *);
};

struct ddi_umem_cookie {
        size_t  size;   /* size of allocation */
        caddr_t cvaddr; /* cookie virtual address. */
                        /* KMEM - kvaddr returned from ddi_umem_alloc() */
                        /* For LOCKEDUMEM - user address of backing store */
                        /* For TRASH_UMEM - unused */
        kmutex_t        lock;
        uint_t          type;   /* see below for umem_cookie types */
        /*
         * Following 4 members are used for UMEM_LOCKED cookie type
         */
        page_t          **pparray;      /* shadow list from as_pagelock */
        void            *procp;         /* user process owning backing store */
        struct as       *asp;           /* as ptr for use by ddi_umem_unlock */
        enum seg_rw     s_flags;        /* flags used during pagelock/fault */
        /*
         * locked indicates underlying memory locked for KMEM_PAGEABLE
         * locked is a count of for how many pages this has been locked
         */
        uint_t          locked;
        struct umem_callback_ops callbacks;
        /*
         * cook_refcnt used in UMEM_LOCKED type
         */
        ulong_t         cook_refcnt;    /* cookie reference count */
        struct ddi_umem_cookie *unl_forw;   /* list ptr for unlock cookies */
        ulong_t         upd_max_lock_rctl;  /* track max-locked mem rctl? */
};

typedef struct as *ddi_as_handle_t;


/*
 * type of umem_cookie:
 *    pageable memory allocated from segkp segment driver
 *    non-pageable memory allocated from kmem_getpages()
 *    locked umem allocated from ddi_umem_lock
 *    trash umem maps all user virtual addresses to a common trash page
 */
#define KMEM_PAGEABLE           0x100   /* un-locked kernel memory */
#define KMEM_NON_PAGEABLE       0x200   /* locked kernel memeory */
#define UMEM_LOCKED             0x400   /* locked user process memeory */
#define UMEM_TRASH              0x800   /* trash page mapping */

typedef struct __devmap_pmem_cookie *devmap_pmem_cookie_t;

typedef void *devmap_cookie_t;

struct devmap_callback_ctl {
        int     devmap_rev;             /* devmap_callback_ctl version number */
        int     (*devmap_map)(devmap_cookie_t dhp, dev_t dev, uint_t flags,
                                offset_t off, size_t len, void **pvtp);
        int     (*devmap_access)(devmap_cookie_t dhp, void *pvtp, offset_t off,
                                size_t len, uint_t type, uint_t rw);
        int     (*devmap_dup)(devmap_cookie_t dhp, void *pvtp,
                                devmap_cookie_t new_dhp, void **new_pvtp);
        void    (*devmap_unmap)(devmap_cookie_t dhp, void *pvtp, offset_t off,
                                size_t len, devmap_cookie_t new_dhp1,
                                void **new_pvtp1, devmap_cookie_t new_dhp2,
                                void **new_pvtp2);
};

struct devmap_softlock {
        ulong_t         id;     /* handle grouping id */
        dev_t           dev; /* Device to which we are mapping */
        struct          devmap_softlock *next;
        kmutex_t        lock;
        kcondvar_t      cv;
        int             refcnt; /* Number of threads with mappings */
        ssize_t         softlocked;
};

struct devmap_ctx {
        ulong_t         id; /* handle grouping id */
        dev_info_t      *dip; /* Device info struct for tracing context */
        struct devmap_ctx *next;
        kmutex_t        lock;
        kcondvar_t      cv;
        int             refcnt; /* Number of threads with mappings */
        uint_t          oncpu; /* this context is running on a cpu */
        timeout_id_t    timeout; /* Timeout ID */
};

/*
 * Fault information passed to the driver fault handling routine.
 * The DEVMAP_LOCK and DEVMAP_UNLOCK are used by software
 * to lock and unlock pages for physical I/O.
 */
enum devmap_fault_type {
        DEVMAP_ACCESS,          /* invalid page */
        DEVMAP_PROT,            /* protection fault */
        DEVMAP_LOCK,            /* software requested locking */
        DEVMAP_UNLOCK           /* software requested unlocking */
};

/*
 * seg_rw gives the access type for a fault operation
 */
enum devmap_rw {
        DEVMAP_OTHER,           /* unknown or not touched */
        DEVMAP_READ,            /* read access attempted */
        DEVMAP_WRITE,           /* write access attempted */
        DEVMAP_EXEC,            /* execution access attempted */
        DEVMAP_CREATE           /* create if page doesn't exist */
};

typedef struct devmap_handle {

        /*
         * physical offset at the beginning of mapping.
         */
        offset_t        dh_roff;

        /*
         * user offset at the beginning of mapping.
         */
        offset_t        dh_uoff;
        size_t          dh_len;         /* length of mapping */
        dev_t           dh_dev;         /* dev_t for this mapping */
        caddr_t         dh_cvaddr;  /* cookie virtual address */
        caddr_t         dh_uvaddr;  /* user address within dh_seg */

        /*
         * Lock protects fields that can change during remap
         * dh_roff, dh_cookie, dh_flags, dh_mmulevel, dh_maxprot,
         * dh_pfn, dh_hat_attr
         */
        kmutex_t        dh_lock;

        /*
         * to sync. faults for remap and unlocked kvaddr.
         */
        struct seg              *dh_seg; /* segment created for this mapping */
        void                    *dh_pvtp; /* device mapping private data */
        struct devmap_handle    *dh_next;
        struct devmap_softlock  *dh_softlock;
        struct devmap_ctx       *dh_ctx;
        ddi_umem_cookie_t       dh_cookie;      /* kmem cookie */
        devmap_pmem_cookie_t    dh_pcookie;     /* pmem cookie */

        /*
         * protection flag possible for attempted mapping.
         */
        uint_t          dh_prot;

        /*
         * Current maximum protection flag for attempted mapping.
         * This controls how dh_prot can be changed in segdev_setprot
         * See dh_orig_maxprot below also
         */
        uint_t          dh_maxprot;

        /*
         * mmu level corresponds to the Max page size can be use for
         * the mapping.
         */
        uint_t          dh_mmulevel;
        uint_t          dh_flags;   /* see defines below */
        pfn_t           dh_pfn;         /* pfn corresponds to dh_reg_off */
        uint_t          dh_hat_attr;
        clock_t         dh_timeout_length;
        struct devmap_callback_ctl dh_callbackops;

        /*
         * orig_maxprot is what the original mmap set maxprot to.
         * This is never modified once it is setup during mmap(2)
         * This is different from the current dh_maxprot which can
         * be changed in devmap_*_setup/remap
         */
        uint_t          dh_orig_maxprot;
} devmap_handle_t;

#endif  /* _KERNEL */

/*
 * define for devmap_rev
 */
#define DEVMAP_OPS_REV 1

/*
 * defines for devmap_*_setup flag, called by drivers
 */
#define DEVMAP_DEFAULTS                 0x00
#define DEVMAP_MAPPING_INVALID          0x01    /* mapping is invalid */
#define DEVMAP_ALLOW_REMAP              0x02    /* allow remap */
#define DEVMAP_USE_PAGESIZE             0x04    /* use pagesize for mmu load */

/* flags used by drivers */
#define DEVMAP_SETUP_FLAGS      \
        (DEVMAP_MAPPING_INVALID | DEVMAP_ALLOW_REMAP | DEVMAP_USE_PAGESIZE)

/*
 * defines for dh_flags, these are used internally in devmap
 */
#define DEVMAP_SETUP_DONE               0x100   /* mapping setup is done */
#define DEVMAP_LOCK_INITED              0x200   /* locks are initailized */
#define DEVMAP_LOCKED                   0x800   /* dhp is locked. */
#define DEVMAP_FLAG_LARGE               0x1000  /* cal. optimal pgsize */

/*
 * Flags to pass to ddi_umem_alloc and ddi_umem_iosetup
 */
#define DDI_UMEM_SLEEP          0x0
#define DDI_UMEM_NOSLEEP        0x01
#define DDI_UMEM_PAGEABLE       0x02
#define DDI_UMEM_TRASH          0x04

/*
 * Flags to pass to ddi_umem_lock to indicate expected access pattern
 * DDI_UMEMLOCK_READ implies the memory being locked will be read
 * (e.g., data read from memory is written out to the disk or network)
 * DDI_UMEMLOCK_WRITE implies the memory being locked will be written
 * (e.g., data from the disk or network is written to memory)
 * Both flags may be set in the call to ddi_umem_lock,
 * Note that this corresponds to the VM subsystem definition of read/write
 * and also correspond to the prots set in devmap
 * When doing I/O, B_READ/B_WRITE are used which have exactly the opposite
 * meaning. Be careful when using it both for I/O and devmap
 *
 *
 */
#define DDI_UMEMLOCK_READ       0x01
#define DDI_UMEMLOCK_WRITE      0x02

#ifdef  __cplusplus
}
#endif

#endif  /* _SYS_DDIDEVMAP_H */