systemtap-common 2.3-1ubuntu1 / usr / share / systemtap / tapset / linux / nfs.stp

// nfs tapset
// Copyright (C) 2006-2007 IBM Corp.
// Copyright (C) 2007 Intel Corporation.
// Copyright (C) 2007 Bull S.A.S
// Copyright (c) 2009,2010,2011 Red Hat Inc.
//
// This file is part of systemtap, and is free software.  You can
// redistribute it and/or modify it under the terms of the GNU General
// Public License (GPL); either version 2, or (at your option) any
// later version.

%{
#include <linux/kernel.h>
#include <linux/nfs_fs.h>
%}

/* Get cache_validity flag from struct inode */
function __nfsi_cache_valid:long (inode:long)
{
    if (inode == 0)	
        return -1
    return @cast(NFS_I(inode), "nfs_inode", "kernel:nfs")->cache_validity 
}

/* Get read_cache_jiffies from struct inode */
function __nfsi_rcache_time:long (inode:long)
{
    if (inode == 0)	
        return -1
    return @cast(NFS_I(inode), "nfs_inode", "kernel:nfs")->read_cache_jiffies
}

/* Get attrtimeo from struct inode */
function __nfsi_attr_time :long (inode:long)
{
    if (inode == 0)	
        return -1
    return @cast(NFS_I(inode), "nfs_inode", "kernel:nfs")->attrtimeo
}

/* Get ndirty from struct inode */
function __nfsi_ndirty:long (inode:long)
{
    if (inode == 0)	
        return -1
    return @choose_defined(@cast(NFS_I(inode), "nfs_inode", "kernel:nfs")->ndirty, -1)
}

/* Get rsize from struct inode */
function __nfs_server_rsize:long (inode:long)
{
    if (inode == 0)	
        return -1
    return @cast(NFS_SERVER(inode), "nfs_server", "kernel:nfs")->rsize
}

/* Get version from struct inode */
function __nfs_version:long (inode:long)
{
    if (inode == 0)	
        return -1
    return @cast(NFS_PROTO(inode), "nfs_rpc_ops", "kernel:nfs")->version
}

/* Get wsize from struct inode */
function __nfs_server_wsize:long (inode:long)
{
    if (inode == 0)	
        return -1
    return @cast(NFS_SERVER(inode), "nfs_server", "kernel:nfs")->wsize
}

/* Get rpages from struct inode */
function __nfs_rpages:long (inode:long)
{
    if (inode == 0)	
        return -1
    return @cast(NFS_SERVER(inode), "nfs_server", "kernel:nfs")->rpages
}

/* Get wpages from struct inode */
function __nfs_wpages:long (inode:long)
{
    if (inode == 0)	
        return -1
    return @cast(NFS_SERVER(inode), "nfs_server", "kernel:nfs")->wpages
}

/* Get struct inode from struct page */
function __p2i :long (page:long)
{
    mapping = page? @cast(page, "page", "kernel:nfs")->mapping : 0
    if (mapping == 0)
        return 0
    return @cast(mapping, "address_space", "kernel:nfs")->host
}

/* Get i_flags from struct page */
function __p2i_flag : long (page:long)
{
    host = __p2i(page)
    if (host == 0)
        return -1
    return @cast(host, "inode", "kernel:nfs")->i_flags
}

/* Get i_state from struct page */
function __p2i_state :long (page:long)
{
    host = __p2i(page)
    if (host == 0)
        return -1
    return @cast(host, "inode", "kernel:nfs")->i_state
}

/* Get i_size from struct page */
function __p2i_size :long (page:long)
{
    host = __p2i(page)
    if (host == 0)
        return -1
    return @cast(host, "inode", "kernel:nfs")->i_size
}

/* Get s_flags from struct page */
function __p2sb_flag:long (page:long)
{
    host = __p2i(page)
    i_sb = host? @cast(host, "inode", "kernel:nfs")->i_sb : 0
    if (i_sb == 0)
        return -1
    return @cast(i_sb, "super_block", "kernel:nfs")->s_flags
}

function __file_inode:long (file:long)
{
    dentry = file
	? @choose_defined(@cast(file, "file", "kernel:nfs")->f_path->dentry,
		@cast(file, "file", "kernel:nfs")->f_dentry)
	: 0
    if (dentry == 0)
        return 0
    return @cast(dentry, "dentry", "kernel:nfs")->d_inode
}

function __file_id:long (file:long)
{
    d_inode = __file_inode(file)
    if (d_inode == 0)
        return 0
    return @cast(d_inode, "inode", "kernel:nfs")->i_sb->s_id
}

function __file_mode:long (file:long)
{
    d_inode = __file_inode(file)
    if (d_inode == 0)
        return 0
    return @cast(d_inode, "inode", "kernel:nfs")->i_mode
}

function __file_parentname:string (file:long)
{
    dentry = file
	? @choose_defined(@cast(file, "file", "kernel:nfs")->f_path->dentry,
		@cast(file, "file", "kernel:nfs")->f_dentry)
	: 0
    d_parent = dentry? @cast(dentry, "dentry", "kernel:nfs")->d_parent : 0
    if (d_parent == 0)
        return "NULL"
    name = @cast(d_parent, "dentry", "kernel:nfs")->d_name->name
    return kernel_string(name)
}

/*
 * Combination of generic_segment_checks and iov_length functions
 * @iov:        io vector request
 * @nr_segs:    number of segments in the iovec
 * @check_flag:  whether to check (0 as iov_length, 1 as
 *               generic_segment_checks)
 * @access_flags: valid when check_flag >0, type of access:
 *                VERIFY_READ - 0 or VERIFY_WRITE - 1
 *
 * @return:      number of bytes to write/read
 */
function __iov_length:long (iov:long, nr_segs:long, check_flag:long, access_flags:long) %{ /* pure */
        unsigned long seg;
        size_t ret = 0;
        const struct iovec *iov = (const struct iovec *)(long)STAP_ARG_iov;
        unsigned long nr_segs = (unsigned long)STAP_ARG_nr_segs;

        for (seg = 0; seg < nr_segs; seg++)
	{   __kernel_size_t iov_len  = kread(&(iov[seg].iov_len));
            ret += iov_len;
		
	    if (STAP_ARG_check_flag) {

                if (unlikely((ssize_t)(ret|iov_len) < 0)) {
			STAP_RETVALUE = -EINVAL;
			return;
		}
                if (access_ok((int)STAP_ARG_access_flags, kread(&(iov[seg].iov_base)), iov_len))
                        continue;
                if (seg == 0) {
        		STAP_RETVALUE = -EFAULT;
			return;
		}
                ret -= iov_len;     /* This segment is no good */
                break;
	   }
	}
        STAP_RETVALUE = (long)ret;
        CATCH_DEREF_FAULT();
%}

probe nfs.fop.entries = nfs.fop.llseek,
                        nfs.fop.read,
                        nfs.fop.write,
                        nfs.fop.aio_read,
                        nfs.fop.aio_write,
                        nfs.fop.mmap,
                        nfs.fop.open,
                        nfs.fop.flush,
                        nfs.fop.release,
                        nfs.fop.sendfile ?,
                        nfs.fop.fsync,
                        nfs.fop.lock
{
}

probe nfs.fop.return = nfs.fop.llseek.return,
                        nfs.fop.read.return,
                        nfs.fop.write.return,
                        nfs.fop.aio_read.return,
                        nfs.fop.aio_write.return,
                        nfs.fop.mmap.return,
                        nfs.fop.open.return,
                        nfs.fop.flush.return,
                        nfs.fop.release.return,
                        nfs.fop.sendfile.return ?,
                        nfs.fop.fsync.return,
                        nfs.fop.lock.return
{
}

/**
 * probe nfs.fop.llseek - NFS client llseek operation
 *
 * @dev: device identifier
 * @ino: inode number
 * @offset: the offset of the file will be repositioned
 * @whence: the position to seek from
 * @whence_str: symbolic string representation of the position to seek from
 */
probe nfs.fop.llseek = kernel.function ("nfs_file_llseek") !,
                       module("nfs").function("nfs_file_llseek")
{
        dev = __file_dev($filp)
        ino = __file_ino($filp)
        s_id = __file_id($filp)
        devname = kernel_string(s_id)

        maxbyte = __file_maxbytes($filp)
        offset = $offset
%(systemtap_v < "2.3" %?
        origin = @choose_defined($whence, $origin)
%)
	whence = @choose_defined($whence, $origin)
	whence_str = _seek_whence_str(@choose_defined($whence, $origin))

        name = "nfs.fop.llseek"
        argstr = sprintf("%d, %d", offset, @choose_defined($whence, $origin))
}

probe nfs.fop.llseek.return = kernel.function ("nfs_file_llseek").return !,
                              module("nfs").function("nfs_file_llseek").return
{
        name = "nfs.fop.llseek.return"
        retstr = sprintf("%d", $return)
}

/**
 * probe nfs.fop.read - NFS client read operation
 *
 * @devname: block device name
 * 
 * SystemTap uses the vfs.do_sync_read probe to implement this probe
 * and as a result will get operations other than the NFS client read
 * operations.
 */
probe nfs.fop.read = vfs.do_sync_read
{
	s_id = __file_id($filp)
	devname = kernel_string(s_id)
        name = "nfs.fop.read"
}

probe nfs.fop.read.return = vfs.do_sync_read.return
{
        name = "nfs.fop.read.return"
}

/**
 * probe nfs.fop.write - NFS client write operation
 *
 * @devname: block device name
 *
 * SystemTap uses the vfs.do_sync_write probe to implement this probe
 * and as a result will get operations other than the NFS client write
 * operations.
 */
probe nfs.fop.write = vfs.do_sync_write
{
	s_id = __file_id($filp)
	devname = kernel_string(s_id)
        name = "nfs.fop.write"
}

probe nfs.fop.write.return = vfs.do_sync_write.return
{
        name = "nfs.fop.write.return"
}

/**
 * probe nfs.fop.aio_read - NFS client aio_read file operation
 *
 * @dev: device identifier
 * @ino: inode number        
 * @count: read bytes
 * @pos: current position of file   
 * @buf: the address of buf in user space
 * @parent_name: parent dir name
 * @file_name: file name
 * @cache_valid: cache related bit mask flag
 * @cache_time: when we started read-caching this inode
 * @attrtimeo: how long the cached information is assumed to be valid.
 * 	       We need to revalidate the cached attrs for this inode
 *	       if jiffies - read_cache_jiffies > attrtimeo.
 */
probe nfs.fop.aio_read = kernel.function ("nfs_file_read") !,
                         module("nfs").function("nfs_file_read")
{
        dev = __file_dev($iocb->ki_filp)
        ino = __file_ino($iocb->ki_filp)
	s_id = __file_id($iocb->ki_filp)
	devname = kernel_string(s_id)

        pos = $pos

	if (@defined($iov)) {
		buf = $iov->iov_base
	        count = __iov_length($iov, $nr_segs, 0, -1)
	}
	else {
	        buf = $buf
	        count = $count
	}

        parent_name = __file_parentname($iocb->ki_filp)
        file_name = __file_filename($iocb->ki_filp)

        cache_valid = __nfsi_cache_valid(__file_inode($iocb->ki_filp))
        cache_time  = __nfsi_rcache_time(__file_inode($iocb->ki_filp))
        attr_time   = __nfsi_attr_time(__file_inode($iocb->ki_filp))

        name = "nfs.fop.aio_read"
        argstr = sprintf("%p, %d, %d", buf, count, pos)

        size = count
        units = "bytes"
}


probe nfs.fop.aio_read.return = kernel.function ("nfs_file_read").return !,
                                module("nfs").function("nfs_file_read").return
{
        name = "nfs.fop.aio_read.return"
        retstr = sprintf("%d", $return)

        if ($return > 0) {
                size = $return
        }
	units = "bytes"
}

/**
 * probe nfs.fop.aio_write - NFS client aio_write file operation
 *
 * @dev: device identifier
 * @ino: inode number        
 * @count: read bytes
 * @pos: offset of the file 
 * @buf: the address of buf in user space
 * @parent_name: parent dir name
 * @file_name: file name
 */
probe nfs.fop.aio_write = kernel.function("nfs_file_write") !,
                          module("nfs").function("nfs_file_write")
{
        dev = __file_dev($iocb->ki_filp)
        ino = __file_ino($iocb->ki_filp)
	s_id = __file_id($iocb->ki_filp)
	devname = kernel_string(s_id)

        pos = $pos
	if (@defined($iov)) {
		buf = $iov->iov_base
	        count = __iov_length($iov, $nr_segs, 0, -1)
	}
	else {
	        buf = $buf
	        count = $count
	}
               
        parent_name = __file_parentname($iocb->ki_filp)
        file_name = __file_filename($iocb->ki_filp)

        name = "nfs.fop.aio_write"
        argstr = sprintf("%p, %d, %d", buf, count, pos)

        size = count
        units = "bytes"
}

probe nfs.fop.aio_write.return = kernel.function("nfs_file_write").return !,
                                 module("nfs").function("nfs_file_write").return
{
        name = "nfs.fop.aio_write.return"
        retstr = sprintf("%d", $return)

        if ($return > 0) {
                size = $return
        }
        units = "bytes"
}

/**
 * probe nfs.fop.mmap - NFS client mmap operation
 * 
 * @dev: device identifier
 * @ino: inode number        
 * @vm_start: start address within vm_mm 
 * @vm_end: the first byte after end address within vm_mm
 * @vm_flag: vm flags
 * @buf: the address of buf in user space
 * @parent_name: parent dir name
 * @file_name: file name
 * @cache_valid: cache related bit mask flag
 * @cache_time: when we started read-caching this inode
 * @attrtimeo: how long the cached information is assumed to be valid.
 * 	       We need to revalidate the cached attrs for this inode 
 *	       if jiffies - read_cache_jiffies > attrtimeo.
 */
probe nfs.fop.mmap = kernel.function("nfs_file_mmap") !,
                     module("nfs").function("nfs_file_mmap")
{
        dev = __file_dev($file)
        ino = __file_ino($file)
	s_id = __file_id($file)
	devname = kernel_string(s_id)

        vm_start = $vma->vm_start
        vm_end = $vma->vm_end
        vm_flags = $vma->vm_flags

        parent_name = __file_parentname($file)
        file_name = __file_filename($file)

        cache_valid = __nfsi_cache_valid(__file_inode($file))
        cache_time  = __nfsi_rcache_time(__file_inode($file))
        attr_time   = __nfsi_attr_time(__file_inode($file))

        name = "nfs.fop.mmap"
        argstr = sprintf("0x%x, 0x%x, 0x%x", vm_start, vm_end, vm_flags)
}

probe nfs.fop.mmap.return = kernel.function("nfs_file_mmap").return !,
                            module("nfs").function("nfs_file_mmap").return
{
        name = "nfs.fop.mmap.return"
        retstr = sprintf("%d", $return)
}

/**
 * probe nfs.fop.open - NFS client file open operation
 *
 * @dev: device identifier
 * @ino: inode number
 * @file_name: file name
 * @flag: file flag
 * @i_size: file length in bytes 
 */
probe nfs.fop.open = kernel.function("nfs_file_open") !,
                     module("nfs").function("nfs_file_open")
{
        dev = __file_dev($filp)
        ino = $inode->i_ino
	s_id = $inode->i_sb->s_id
	devname = kernel_string(s_id)

        filename = __file_filename($filp)
        flag = $filp->f_flags   

        i_size = $inode->i_size
   
        name = "nfs.fop.open"
        argstr = sprintf("%d, %d, %s", flag, ino, filename)
}

probe nfs.fop.open.return = kernel.function("nfs_file_open").return !,
                            module("nfs").function("nfs_file_open").return
{
        name = "nfs.fop.open.return"
        retstr = sprintf("%d", $return)        
}

/**
 * probe nfs.fop.flush - NFS client flush file operation
 * 
 * @dev: device identifier
 * @ino: inode number
 * @mode: file mode
 * @ndirty: number of dirty page
 */
probe nfs.fop.flush = kernel.function("nfs_file_flush") !,
                      module("nfs").function("nfs_file_flush")
{
        dev = __file_dev($file)
        ino = __file_ino($file)
	s_id = __file_id($file)
	devname = kernel_string(s_id)

        mode = $file->f_mode
        ndirty = __nfsi_ndirty(__file_inode($file))

        name = "nfs.fop.flush"
        argstr = sprintf("%d", ino)
}

probe nfs.fop.flush.return = kernel.function("nfs_file_flush").return !,
                             module("nfs").function("nfs_file_flush").return
{
        name = "nfs.fop.flush.return"
        retstr = sprintf("%d", $return)
}

/**
 * probe nfs.fop.release - NFS client release page operation
 * 
 * @dev: device identifier
 * @ino: inode number
 * @mode: file mode
 */
probe nfs.fop.release = kernel.function("nfs_file_release") !,
                        module("nfs").function("nfs_file_release")
{
        dev = __file_dev($filp)
        ino = $inode->i_ino
	s_id = $inode->i_sb->s_id
	devname = kernel_string(s_id)

        mode = $filp->f_mode

        name = "nfs.fop.release"
        argstr = sprintf("%d", ino)
}

probe nfs.fop.release.return = kernel.function("nfs_file_release").return !,
                               module("nfs").function("nfs_file_release").return
{
        name = "nfs.fop.release.return"
        retstr = sprintf("%d", $return)
}

/**
 * probe nfs.fop.fsync - NFS client fsync operation
 * 
 * @dev: device identifier
 * @ino: inode number
 * @ndirty: number of dirty pages
 */
probe nfs.fop.fsync = kernel.function("nfs_file_fsync") !,
                      module("nfs").function("nfs_file_fsync") !,
                      kernel.function("nfs_fsync") !,
                      module("nfs").function("nfs_fsync")
{
        dev = __file_dev($file)
        ino = __file_ino($file)
	s_id = __file_id($file)
	devname = kernel_string(s_id)

        ndirty = __nfsi_ndirty(__file_inode($file))

        name = "nfs.fop.fsync"
	argstr = sprintf("%d", ino)  
}

probe nfs.fop.fsync.return = kernel.function("nfs_file_fsync").return !,
                             module("nfs").function("nfs_file_fsync").return !,
                             kernel.function("nfs_fsync").return !,
                             module("nfs").function("nfs_fsync").return
{
        name = "nfs.fop.fsync.return"
        retstr = sprintf("%d", $return)
}

/**
 * probe nfs.fop.lock - NFS client file lock operation
 * 
 * @dev: device identifier
 * @ino: inode number
 * @i_mode: file type and access rights
 * @cmd: cmd arguments
 * @fl_type:lock type
 * @fl_flag: lock flags
 * @fl_start: starting offset of locked region
 * @fl_end: ending offset of locked region
 */
probe nfs.fop.lock = kernel.function("nfs_lock") !,
                     module("nfs").function("nfs_lock")
{
        dev = __file_dev($filp)
        ino = __file_ino($filp)
	s_id = __file_id($filp)
	devname = kernel_string(s_id)
 
        i_mode = __file_mode($filp)
        cmd = $cmd
 
        fl_type = $fl->fl_type
        fl_flag = $fl->fl_flags
        fl_start = $fl->fl_start
        fl_end  = $fl->fl_end

        name = "nfs.fop.lock"
        argstr = sprintf("%d, %d", cmd, i_mode)
}

probe nfs.fop.lock.return = kernel.function("nfs_lock").return !,
                            module("nfs").function("nfs_lock").return
{
         name = "nfs.fop.lock.return"
         retstr = sprintf("%d", $return)
}

/**
 * probe nfs.fop.sendfile - NFS client send file operation
 * 
 * @dev: device identifier
 * @ino: inode number
 * @count: read bytes
 * @ppos: current position of file
 * @cache_valid: cache related bit mask flag
 * @cache_time: when we started read-caching this inode
 * @attrtimeo:  how long the cached information is assumed to be valid.
 * 		We need to revalidate the cached attrs for this inode
 *		if jiffies - read_cache_jiffies > attrtimeo.
 */
probe nfs.fop.sendfile = kernel.function("nfs_file_sendfile") !,
			 module("nfs").function("nfs_file_sendfile") ?
{
        dev = __file_dev($filp)
        ino = __file_ino($filp)
	s_id = __file_id($filp)
	devname = kernel_string(s_id)

        count = $count
        ppos  = $ppos ? kernel_pointer($ppos) : -1

        cache_valid = __nfsi_cache_valid(__file_inode($filp))
        cache_time  = __nfsi_rcache_time(__file_inode($filp))
        attr_time   = __nfsi_attr_time(__file_inode($filp))

        name = "nfs.fop.sendfile"
        argstr = sprintf("%d, %d", count, ppos)

        size = count
        units = "bytes"
}

probe nfs.fop.sendfile.return =
	kernel.function("nfs_file_sendfile").return !,
	module("nfs").function("nfs_file_sendfile").return ?
{
        name = "nfs.fop.sendfile.return"
        retstr = sprintf("%d", $return)

        if ($return > 0) {
                size = $return
        }
        units = "bytes"
}

/**
 * probe nfs.fop.check_flags - NFS client checking flag operation
 *
 * @flag: file flag
 */
probe nfs.fop.check_flags =  kernel.function("nfs_check_flags") !,
                             module("nfs").function("nfs_check_flags")
{
        flag = $flags
        
        name = "nfs.fop.check_flags"
        argstr = sprintf("%d", flag)
}

probe nfs.fop.check_flags.return =
	kernel.function("nfs_check_flags").return !,
	module("nfs").function("nfs_check_flags").return
{
        name = "nfs.fop.check_flags.return"
        retstr = sprintf("%d", $return)
}

probe nfs.aop.entries = nfs.aop.readpage,
                        nfs.aop.readpages,
                        nfs.aop.writepage,
                        nfs.aop.writepages,
                        nfs.aop.release_page ?,
			nfs.aop.write_begin,
			nfs.aop.write_end
{
}
 
probe nfs.aop.return = nfs.aop.readpage.return,
                        nfs.aop.readpages.return,
                        nfs.aop.writepage.return,
                        nfs.aop.writepages.return,
                        nfs.aop.release_page.return ?,
			nfs.aop.write_begin.return,
			nfs.aop.write_end.return
{
}

/**
 * probe nfs.aop.readpage - NFS client synchronously reading a page
 * @__page: the address of page
 * @dev: device identifier
 * @ino: inode number
 * @i_flag: file flags
 * @i_size: file length in bytes
 * @sb_flag: super block flags
 * @file: file argument
 * @page_index : offset within mapping, can used a page identifier
 *               and position identifier in the page frame
 * @rsize: read size  (in bytes)
 * @size:  number of pages to be read in this execution 
 *
 * Read the page over, only fires when a previous async
 * read operation failed
 */
probe nfs.aop.readpage = kernel.function ("nfs_readpage") !,
                         module("nfs").function ("nfs_readpage")
{
        __page = $page
        dev = __page_dev(__page)
        ino = __page_ino(__page)

        i_flag = __p2i_flag($page) 
        i_size = __p2i_size($page)
 
        sb_flag = __p2sb_flag($page) 

        file = $file
        page_index = $page->index
        
        __inode = __p2i($page) 
        rsize = __nfs_server_rsize(__inode)

        name = "nfs.aop.readpage"
        argstr = sprintf("%d, %d", page_index, rsize)

        size = 1
        units = "pages"
}

probe nfs.aop.readpage.return = kernel.function ("nfs_readpage").return !,
                                module("nfs").function ("nfs_readpage").return
{
        name = "nfs.aop.readpage.return"
        retstr = sprintf("%d", $return)

        size = 1
        units = "pages"
}

/**
 * probe nfs.aop.readpages - NFS client reading multiple pages
 * @dev: device identifier
 * @ino: inode number   
 * @nr_pages: number of pages attempted to read in this execution
 * @file: filp argument
 * @rpages: read size (in pages)
 * @rsize: read size (in bytes)
 * @size: number of pages attempted to read in this execution
 *
 * Fires when in readahead way, read several pages once
 */
probe nfs.aop.readpages = kernel.function ("nfs_readpages") !,
                          module("nfs").function ("nfs_readpages")
{
        dev = $mapping->host->i_sb->s_dev
        ino = $mapping->host->i_ino

        nr_pages = $nr_pages
        file = $filp

        rpages = __nfs_rpages($mapping->host)
        rsize  = __nfs_server_rsize($mapping->host)

        name = "nfs.aop.readpages"
        argstr = sprintf("%d", nr_pages)

        size = nr_pages
        units = "pages"
}

probe nfs.aop.readpages.return = kernel.function ("nfs_readpages").return !,
                                 module("nfs").function ("nfs_readpages").return
{
        name = "nfs.aop.readpages.return"
        retstr = sprintf("%d", $return)

        if ($return > 0 ) {
            size = $return
        }
        units = "pages"
}

/**
 * probe nfs.aop.set_page_dirty - NFS client marking page as dirty
 * @__page: the address of page
 * @page_flag: page flags
 *
 * This probe attaches to the generic __set_page_dirty_nobuffers function.
 * Thus, this probe is going to fire on many other file systems in
 * addition to the NFS client.
 */
probe nfs.aop.set_page_dirty =
            kernel.function ("__set_page_dirty_nobuffers") !,
            module("nfs").function ("__set_page_dirty_nobuffers")
{
        __page = $page
        page_flag = $page->flags

        name = "nfs.aop.set_page_dirty"
        argstr = sprintf("%d", page_flag)
}

probe nfs.aop.set_page_dirty.return =
            kernel.function ("__set_page_dirty_nobuffers") .return !,
            module("nfs").function ("__set_page_dirty_nobuffers").return
{
        name = "nfs.aop.set_page_dirty.return"
        retstr = sprintf("%d", $return)
}

/**
 * probe nfs.aop.writepage - NFS client writing a mapped page to the NFS server
 * @__page: the address of page
 * @dev: device identifier
 * @ino: inode number  
 * @for_reclaim: a flag of writeback_control,
 *    indicates if it's invoked from the page allocator
 * @for_kupdate: a flag of writeback_control,
 *    indicates if it's a kupdate writeback
 * @i_flag: file flags
 * @i_size: file length in bytes
 * @i_state: inode state flags
 * @sb_flag: super block flags
 * @page_index: offset within mapping,
 *   can used a page identifier and position identifier in the page frame
 * @wsize: write size
 * @size: number of pages to be written in this execution
 *
 * The priority of wb is decided by the flags
 * @for_reclaim and @for_kupdate.
 */
probe nfs.aop.writepage = kernel.function ("nfs_writepage") !,
                          module("nfs").function ("nfs_writepage")
{
        __page = $page
        dev = __page_dev(__page)
        ino = __page_ino(__page)

        for_reclaim = $wbc->for_reclaim
        for_kupdate = $wbc->for_kupdate

        i_flag = __p2i_flag($page) 
        i_state = __p2i_state($page)
        i_size = __p2i_size($page)

        sb_flag = __p2sb_flag($page) 

        page_index = $page->index

        __inode = __p2i($page)
        wsize = __nfs_server_wsize(__inode)            
 
        name = "nfs.aop.writepage"
        argstr = sprintf("%d", page_index)

        size = 1
        units = "pages"
}

probe nfs.aop.writepage.return = kernel.function ("nfs_writepage").return !,
                                 module("nfs").function ("nfs_writepage").return
{
        name = "nfs.aop.writepage.return"
        retstr = sprintf("%d", $return)
}

/**
 * probe nfs.aop.writepages - NFS client writing several dirty pages to the NFS server
 * @dev: device identifier
 * @ino: inode number
 * @for_reclaim: a flag of writeback_control,
 *               indicates if it's invoked from the page allocator
 * @for_kupdate: a flag of writeback_control,
 *               indicates if it's a kupdate writeback
 * @wsize: write size
 * @wpages: write size (in pages)
 * @nr_to_write: number of pages attempted to be written in this execution
 * @size: number of pages attempted to be written in this execution
 *
 * The priority of wb is decided by the flags
 * @for_reclaim and @for_kupdate.
 */
probe nfs.aop.writepages = kernel.function ("nfs_writepages") !,
                           module("nfs").function ("nfs_writepages")
{
        dev = $mapping->host->i_sb->s_dev
        ino = $mapping->host->i_ino

        for_reclaim = $wbc->for_reclaim
        for_kupdate = $wbc->for_kupdate
        nr_to_write = $wbc->nr_to_write

        wsize = __nfs_server_wsize($mapping->host)
        wpages = __nfs_wpages($mapping->host)

        name = "nfs.aop.writepages"
        argstr = sprintf("%d", nr_to_write)

        size = nr_to_write
        units = "pages"         
}

probe nfs.aop.writepages.return =
		kernel.function ("nfs_writepages").return !,
		module("nfs").function ("nfs_writepages").return
{
        name = "nfs.aop.writepages.return"
        retstr = sprintf("%d", $return)
}

# kernel commit 4899f9c852564ce7b6d0ca932ac6674bf471fd28 removed
# nfs_prepare_write()/nfs_commit_write() and created
# nfs_write_begin()/nfs_write_end().  So, we try to find whatever the
# current kernel has.

/**
 * probe nfs.aop.write_begin - NFS client begin to write data
 * @__page: the address of page
 * @dev: device identifier
 * @ino: inode number 
 * @offset: start address of this write operation 
 * @to: end address of this write operation 
 * @page_index: offset within mapping, can used a page identifier
 * 		and position identifier in the page frame
 * @size: write bytes
 *
 *  Occurs when write operation occurs on nfs. It prepare a page for writing,
 *  look for a request corresponding to the page. If there
 *  is one, and it belongs to another file, it flush it out
 *  before it tries to copy anything into the page. 
 *  Also do the same if it finds a request from an existing
 *  dropped page
 *
 */
probe nfs.aop.write_begin = __nfs.aop.write_begin !,
			    __nfs.aop.prepare_write
{
}
probe nfs.aop.write_begin.return
		= __nfs.aop.write_begin.return !,
		  __nfs.aop.prepare_write.return
{
}

/**
 * probe nfs.aop.write_end - NFS client complete writing data
 * @__page: the address of page
 * @dev: device identifier
 * @ino: inode number
 * @offset: start address of this write operation
 * @to: end address of this write operation
 * @i_flag: file flags
 * @i_size: file length in bytes
 * @sb_flag: super block flags
 * @page_index: offset within mapping, can used a page identifier and position identifier in the page frame
 * @size: write bytes
 *
 * Fires when do a write operation on nfs,
 * often after prepare_write
 *
 * Update and possibly write a cached page of an NFS file.
 */ 
probe nfs.aop.write_end = __nfs.aop.write_end !,
			  __nfs.aop.commit_write
{
}
probe nfs.aop.write_end.return
		= __nfs.aop.write_end.return !,
		  __nfs.aop.commit_write.return
{
}

probe __nfs.aop.write_begin = kernel.function ("nfs_write_begin") !,
			      module("nfs").function("nfs_write_begin")
{
	# Since __nfs.aop.write_begin and __nfs.aop.prepare_write
	# share a "parent" probe (nfs.aop.write_begin), they need to
	# have the same convenience variables.  So, define a few fake
	# ones here.  The optimizer will remove any that aren't
	# actually used.
	__page = -1
	offset = $pos
	to = $pos + $len
	page_index = -1
	size = $len

        dev = __file_dev($file)
        ino = __file_ino($file)
        s_id = __file_id($file)
        devname = kernel_string(s_id)

        pos = $pos
        count = $len
       
        name = "nfs.aop.write_begin"
        argstr = sprintf("%d", ino)

        units = "bytes"        
}
probe __nfs.aop.write_begin.return
               = kernel.function ("nfs_write_begin").return !,
                 module("nfs").function ("nfs_write_begin").return
{
        name = "nfs.aop.write_begin.return"
        retstr = sprintf("%d", $return)
}

probe __nfs.aop.write_end = kernel.function ("nfs_write_end") !,
			    module("nfs").function("nfs_write_end")
{
	# Since __nfs.aop.write_end and __nfs.aop.commit_write
	# share a "parent" probe (nfs.aop.write_end), they need to
	# have the same convenience variables.  So, define a few fake
	# ones here.  The optimizer will remove any that aren't
	# actually used.
        __page = -1
	offset = $pos
	to = $pos + $len
	i_flag = 0
	i_size = 0
	sb_flag = 0
	page_index = -1
	size = $len

        dev = __file_dev($file)
        ino = __file_ino($file)
        s_id = __file_id($file)
        devname = kernel_string(s_id)

        pos = $pos
        count = $len
       
        name = "nfs.aop.write_end"
        argstr = sprintf("%d", ino)

        units = "bytes"        
}
probe __nfs.aop.write_end.return
               = kernel.function ("nfs_write_end").return !,
		 module("nfs").function("nfs_write_end").return
{
        name = "nfs.aop.write_end.return"
        retstr = sprintf("%d", $return)
}

probe __nfs.aop.prepare_write = kernel.function ("nfs_prepare_write") !,
                                module("nfs").function ("nfs_prepare_write")
{
	# Since __nfs.aop.write_begin and __nfs.aop.prepare_write
	# share a "parent" probe (nfs.aop.write_begin), they need to
	# have the same convenience variables.  So, define a few fake
	# ones here.  The optimizer will remove any that aren't
	# actually used.
	s_id = -1
	pos = $offset
	count = $to - $offset

        __page = $page
        dev = __page_dev(__page)
        devname = __find_bdevname(dev, __page_bdev(__page))
        ino = __page_ino(__page)      
  
        offset = $offset
        to = $to
       
        page_index = $page->index

        name = "nfs.aop.prepare_write"
        argstr = sprintf("%d", page_index)

        size = $to - $offset
        units = "bytes"        
}

probe __nfs.aop.prepare_write.return = 
                 kernel.function ("nfs_prepare_write").return !,
                 module("nfs").function ("nfs_prepare_write").return
{
        name = "nfs.aop.prepare_write.return"
        retstr = sprintf("%d", $return)
}

probe __nfs.aop.commit_write = kernel.function ("nfs_commit_write") !,
                               module("nfs").function ("nfs_commit_write")
{
	# Since __nfs.aop.write_end and __nfs.aop.commit_write
	# share a "parent" probe (nfs.aop.write_end), they need to
	# have the same convenience variables.  So, define a few fake
	# ones here.  The optimizer will remove any that aren't
	# actually used.
	s_id = -1
	pos = $offset
	count = $to - $offset

        __page = $page
        dev = __page_dev(__page)
        devname = __find_bdevname(dev, __page_bdev(__page))
        ino = __page_ino(__page)

        offset = $offset
        to = $to

        i_flag = __p2i_flag($page) 
        i_size = __p2i_size($page)

        sb_flag = __p2sb_flag($page) 

        page_index = $page->index
     
        name = "nfs.aop.commit_write"
        argstr = sprintf("%d, %d", offset, to)

        size = $to - $offset
        units = "bytes"
}

probe __nfs.aop.commit_write.return =
             kernel.function ("nfs_commit_write").return !,
             module("nfs").function ("nfs_commit_write").return
{
        name = "nfs.aop.commit_write.return"
        retstr = sprintf("%d", $return)
}

/**
 * probe nfs.aop.release_page - NFS client releasing page
 * @__page: the address of page
 * @dev: device identifier
 * @ino: inode number
 * @page_index: offset within mapping, can used a page identifier
 *   and position identifier in the page frame
 * @size: release pages
 *  
 * Fires when do a release operation on NFS.
 */
probe nfs.aop.release_page = kernel.function ("nfs_release_page") !,
                             module("nfs").function ("nfs_release_page") ?
{
        __page = $page
        dev = __page_dev(__page)
        ino = __page_ino(__page)

//        gfp = $gfp
        page_index = $page->index

        name = "nfs.aop.release_page"
        argstr = sprintf("%d", page_index)

        size = 1
        units = "pages"

}  

probe nfs.aop.release_page.return =
             kernel.function ("nfs_release_page").return !,
             module("nfs").function ("nfs_release_page").return ?
{
        name = "nfs.aop.release_page.return"
        retstr = sprintf("%d", $return)
}