libdtrace/common/io.d.in

	io.d.in revision 7c478bd95313f5f23a4c958a745db2134aa03244
/*
 * 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 2005 Sun Microsystems, Inc.  All rights reserved.
 * Use is subject to license terms.
 */

#pragma ident   "%Z%%M% %I% %E% SMI"

#pragma D depends_on module unix
#pragma D depends_on provider io

inline int B_BUSY = @B_BUSY@;
#pragma D binding "1.0" B_BUSY
inline int B_DONE = @B_DONE@;
#pragma D binding "1.0" B_DONE
inline int B_ERROR = @B_ERROR@;
#pragma D binding "1.0" B_ERROR
inline int B_PAGEIO = @B_PAGEIO@;
#pragma D binding "1.0" B_PAGEIO
inline int B_PHYS = @B_PHYS@;
#pragma D binding "1.0" B_PHYS
inline int B_READ = @B_READ@;
#pragma D binding "1.0" B_READ
inline int B_WRITE = @B_WRITE@;
#pragma D binding "1.0" B_WRITE
inline int B_ASYNC = @B_ASYNC@;
#pragma D binding "1.0" B_ASYNC

typedef struct bufinfo {
    int b_flags;            /* buffer status */
    size_t b_bcount;        /* number of bytes */
    caddr_t b_addr;         /* buffer address */
    uint64_t b_lblkno;      /* block # on device */
    uint64_t b_blkno;       /* expanded block # on device */
    size_t b_resid;         /* # of bytes not transferred */
    size_t b_bufsize;       /* size of allocated buffer */
    caddr_t b_iodone;       /* I/O completion routine */
    int b_error;            /* expanded error field */
    dev_t b_edev;           /* extended device */
} bufinfo_t;

#pragma D binding "1.0" translator
translator bufinfo_t < struct buf *B > {
    b_flags = B->b_flags;
    b_addr = B->b_un.b_addr;
    b_bcount = B->b_bcount;
    b_lblkno = B->_b_blkno._f;
    b_blkno = sizeof (long) == 8 ? B->_b_blkno._f : B->_b_blkno._p._l;
    b_resid = B->b_resid;
    b_bufsize = B->b_bufsize;
    b_iodone = (caddr_t)B->b_iodone;
    b_error = B->b_error;
    b_edev = B->b_edev;
};

typedef struct devinfo {
    int dev_major;          /* major number */
    int dev_minor;          /* minor number */
    int dev_instance;       /* instance number */
    string dev_name;        /* name of device */
    string dev_statname;        /* name of device + instance/minor */
    string dev_pathname;        /* pathname of device */
} devinfo_t;

#pragma D binding "1.0" translator
translator devinfo_t < struct buf *B > {
    dev_major = B->b_dip != NULL ? getmajor(B->b_edev) :
        getmajor(B->b_file->v_vfsp->vfs_dev);
    dev_minor = B->b_dip != NULL ? getminor(B->b_edev) :
        getminor(B->b_file->v_vfsp->vfs_dev);
    dev_instance = B->b_dip == NULL ?
        getminor(B->b_file->v_vfsp->vfs_dev) :
        ((struct dev_info *)B->b_dip)->devi_instance;
    dev_name = B->b_dip == NULL ? "nfs" :
        stringof(`devnamesp[getmajor(B->b_edev)].dn_name);
    dev_statname = strjoin(B->b_dip == NULL ? "nfs" :
        stringof(`devnamesp[getmajor(B->b_edev)].dn_name),
        lltostr(B->b_dip == NULL ? getminor(B->b_file->v_vfsp->vfs_dev) :
        ((struct dev_info *)B->b_dip)->devi_instance == 0 &&
        ((struct dev_info *)B->b_dip)->devi_parent != NULL &&
        ((struct dev_info *)B->b_dip)->devi_parent->devi_node_name ==
        "pseudo" ? getminor(B->b_edev) :
        ((struct dev_info *)B->b_dip)->devi_instance));
    dev_pathname = B->b_dip == NULL ? "<nfs>" :
        ddi_pathname(B->b_dip, getminor(B->b_edev));
};

typedef struct fileinfo {
    string fi_name;         /* name (basename of fi_pathname) */
    string fi_dirname;      /* directory (dirname of fi_pathname) */
    string fi_pathname;     /* full pathname */
    offset_t fi_offset;     /* offset within file */
    string fi_fs;           /* filesystem */
    string fi_mount;        /* mount point of file system */
    int fi_oflags;          /* open(2) flags for file descriptor */
} fileinfo_t;

#pragma D binding "1.0" translator
translator fileinfo_t < struct buf *B > {
    fi_name = B->b_file == NULL ? "<none>" :
        B->b_file->v_path == NULL ? "<unknown>" :
        basename(cleanpath(B->b_file->v_path));
    fi_dirname = B->b_file == NULL ? "<none>" :
        B->b_file->v_path == NULL ? "<unknown>" :
        dirname(cleanpath(B->b_file->v_path));
    fi_pathname = B->b_file == NULL ? "<none>" :
        B->b_file->v_path == NULL ? "<unknown>" :
        cleanpath(B->b_file->v_path);
    fi_offset = B->b_offset;
    fi_fs = B->b_file == NULL ? "<none>" :
        stringof(B->b_file->v_op->vnop_name);
    fi_mount = B->b_file == NULL ? "<none>" :
        B->b_file->v_vfsp->vfs_vnodecovered == NULL ? "/" :
        B->b_file->v_vfsp->vfs_vnodecovered->v_path == NULL ? "<unknown>" :
        cleanpath(B->b_file->v_vfsp->vfs_vnodecovered->v_path);
    fi_oflags = 0;
};

/*
 * The following inline constants can be used to examine fi_oflags when using
 * the fds[] array or a translated fileinfo_t.  Note that the various open
 * flags behave as a bit-field *except* for O_RDONLY, O_WRONLY, and O_RDWR.
 * To test the open mode, you write code similar to that used with the fcntl(2)
 * F_GET[X]FL command, such as: if ((fi_oflags & O_ACCMODE) == O_WRONLY).
 */
inline int O_ACCMODE = @O_ACCMODE@;
#pragma D binding "1.1" O_ACCMODE

inline int O_RDONLY = @O_RDONLY@;
#pragma D binding "1.1" O_RDONLY
inline int O_WRONLY = @O_WRONLY@;
#pragma D binding "1.1" O_WRONLY
inline int O_RDWR = @O_RDWR@;
#pragma D binding "1.1" O_RDWR

inline int O_APPEND = @O_APPEND@;
#pragma D binding "1.1" O_APPEND
inline int O_CREAT = @O_CREAT@;
#pragma D binding "1.1" O_CREAT
inline int O_DSYNC = @O_DSYNC@;
#pragma D binding "1.1" O_DSYNC
inline int O_EXCL = @O_EXCL@;
#pragma D binding "1.1" O_EXCL
inline int O_LARGEFILE = @O_LARGEFILE@;
#pragma D binding "1.1" O_LARGEFILE
inline int O_NOCTTY = @O_NOCTTY@;
#pragma D binding "1.1" O_NOCTTY
inline int O_NONBLOCK = @O_NONBLOCK@;
#pragma D binding "1.1" O_NONBLOCK
inline int O_NDELAY = @O_NDELAY@;
#pragma D binding "1.1" O_NDELAY
inline int O_RSYNC = @O_RSYNC@;
#pragma D binding "1.1" O_RSYNC
inline int O_SYNC = @O_SYNC@;
#pragma D binding "1.1" O_SYNC
inline int O_TRUNC = @O_TRUNC@;
#pragma D binding "1.1" O_TRUNC
inline int O_XATTR = @O_XATTR@;
#pragma D binding "1.1" O_XATTR

#pragma D binding "1.1" translator
translator fileinfo_t < struct file *F > {
    fi_name = F == NULL ? "<none>" :
        F->f_vnode->v_path == NULL ? "<unknown>" :
        basename(cleanpath(F->f_vnode->v_path));
    fi_dirname = F == NULL ? "<none>" :
        F->f_vnode->v_path == NULL ? "<unknown>" :
        dirname(cleanpath(F->f_vnode->v_path));
    fi_pathname = F == NULL ? "<none>" :
        F->f_vnode->v_path == NULL ? "<unknown>" :
        cleanpath(F->f_vnode->v_path);
    fi_offset = F == NULL ? 0 : F->f_offset;
    fi_fs = F == NULL ? "<none>" : stringof(F->f_vnode->v_op->vnop_name);
    fi_mount = F == NULL ? "<none>" :
        F->f_vnode->v_vfsp->vfs_vnodecovered == NULL ? "/" :
        F->f_vnode->v_vfsp->vfs_vnodecovered->v_path == NULL ? "<unknown>" :
        cleanpath(F->f_vnode->v_vfsp->vfs_vnodecovered->v_path);
    fi_oflags = F == NULL ? 0 : F->f_flag + (int)@FOPEN@;
};

inline fileinfo_t fds[int fd] = xlate <fileinfo_t> (
    fd >= 0 && fd < curthread->t_procp->p_user.u_finfo.fi_nfiles ?
    curthread->t_procp->p_user.u_finfo.fi_list[fd].uf_file : NULL);

#pragma D attributes Stable/Stable/Common fds
#pragma D binding "1.1" fds