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Current Path : /proc/329612/root/usr/sbin/ |
Current File : //proc/329612/root/usr/sbin/nfsiostat |
#!/usr/bin/python # -*- python-mode -*- """Emulate iostat for NFS mount points using /proc/self/mountstats """ __copyright__ = """ Copyright (C) 2005, Chuck Lever <cel@netapp.com> This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License version 2 as published by the Free Software Foundation. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA """ import sys, os, time from optparse import OptionParser, OptionGroup Iostats_version = '0.2' def difference(x, y): """Used for a map() function """ return x - y NfsEventCounters = [ 'inoderevalidates', 'dentryrevalidates', 'datainvalidates', 'attrinvalidates', 'vfsopen', 'vfslookup', 'vfspermission', 'vfsupdatepage', 'vfsreadpage', 'vfsreadpages', 'vfswritepage', 'vfswritepages', 'vfsreaddir', 'vfssetattr', 'vfsflush', 'vfsfsync', 'vfslock', 'vfsrelease', 'congestionwait', 'setattrtrunc', 'extendwrite', 'sillyrenames', 'shortreads', 'shortwrites', 'delay' ] NfsByteCounters = [ 'normalreadbytes', 'normalwritebytes', 'directreadbytes', 'directwritebytes', 'serverreadbytes', 'serverwritebytes', 'readpages', 'writepages' ] class DeviceData: """DeviceData objects provide methods for parsing and displaying data for a single mount grabbed from /proc/self/mountstats """ def __init__(self): self.__nfs_data = dict() self.__rpc_data = dict() self.__rpc_data['ops'] = [] def __parse_nfs_line(self, words): if words[0] == 'device': self.__nfs_data['export'] = words[1] self.__nfs_data['mountpoint'] = words[4] self.__nfs_data['fstype'] = words[7] if words[7] == 'nfs': self.__nfs_data['statvers'] = words[8] elif words[0] == 'age:': self.__nfs_data['age'] = long(words[1]) elif words[0] == 'opts:': self.__nfs_data['mountoptions'] = ''.join(words[1:]).split(',') elif words[0] == 'caps:': self.__nfs_data['servercapabilities'] = ''.join(words[1:]).split(',') elif words[0] == 'nfsv4:': self.__nfs_data['nfsv4flags'] = ''.join(words[1:]).split(',') elif words[0] == 'sec:': keys = ''.join(words[1:]).split(',') self.__nfs_data['flavor'] = int(keys[0].split('=')[1]) self.__nfs_data['pseudoflavor'] = 0 if self.__nfs_data['flavor'] == 6: self.__nfs_data['pseudoflavor'] = int(keys[1].split('=')[1]) elif words[0] == 'events:': i = 1 for key in NfsEventCounters: self.__nfs_data[key] = int(words[i]) i += 1 elif words[0] == 'bytes:': i = 1 for key in NfsByteCounters: self.__nfs_data[key] = long(words[i]) i += 1 def __parse_rpc_line(self, words): if words[0] == 'RPC': self.__rpc_data['statsvers'] = float(words[3]) self.__rpc_data['programversion'] = words[5] elif words[0] == 'xprt:': self.__rpc_data['protocol'] = words[1] if words[1] == 'udp': self.__rpc_data['port'] = int(words[2]) self.__rpc_data['bind_count'] = int(words[3]) self.__rpc_data['rpcsends'] = int(words[4]) self.__rpc_data['rpcreceives'] = int(words[5]) self.__rpc_data['badxids'] = int(words[6]) self.__rpc_data['inflightsends'] = long(words[7]) self.__rpc_data['backlogutil'] = long(words[8]) elif words[1] == 'tcp': self.__rpc_data['port'] = words[2] self.__rpc_data['bind_count'] = int(words[3]) self.__rpc_data['connect_count'] = int(words[4]) self.__rpc_data['connect_time'] = int(words[5]) self.__rpc_data['idle_time'] = int(words[6]) self.__rpc_data['rpcsends'] = int(words[7]) self.__rpc_data['rpcreceives'] = int(words[8]) self.__rpc_data['badxids'] = int(words[9]) self.__rpc_data['inflightsends'] = long(words[10]) self.__rpc_data['backlogutil'] = long(words[11]) elif words[1] == 'rdma': self.__rpc_data['port'] = words[2] self.__rpc_data['bind_count'] = int(words[3]) self.__rpc_data['connect_count'] = int(words[4]) self.__rpc_data['connect_time'] = int(words[5]) self.__rpc_data['idle_time'] = int(words[6]) self.__rpc_data['rpcsends'] = int(words[7]) self.__rpc_data['rpcreceives'] = int(words[8]) self.__rpc_data['badxids'] = int(words[9]) self.__rpc_data['backlogutil'] = int(words[10]) self.__rpc_data['read_chunks'] = int(words[11]) self.__rpc_data['write_chunks'] = int(words[12]) self.__rpc_data['reply_chunks'] = int(words[13]) self.__rpc_data['total_rdma_req'] = int(words[14]) self.__rpc_data['total_rdma_rep'] = int(words[15]) self.__rpc_data['pullup'] = int(words[16]) self.__rpc_data['fixup'] = int(words[17]) self.__rpc_data['hardway'] = int(words[18]) self.__rpc_data['failed_marshal'] = int(words[19]) self.__rpc_data['bad_reply'] = int(words[20]) elif words[0] == 'per-op': self.__rpc_data['per-op'] = words else: op = words[0][:-1] self.__rpc_data['ops'] += [op] self.__rpc_data[op] = [long(word) for word in words[1:]] def parse_stats(self, lines): """Turn a list of lines from a mount stat file into a dictionary full of stats, keyed by name """ found = False for line in lines: words = line.split() if len(words) == 0: continue if (not found and words[0] != 'RPC'): self.__parse_nfs_line(words) continue found = True self.__parse_rpc_line(words) def is_nfs_mountpoint(self): """Return True if this is an NFS or NFSv4 mountpoint, otherwise return False """ if self.__nfs_data['fstype'] == 'nfs': return True elif self.__nfs_data['fstype'] == 'nfs4': return True return False def compare_iostats(self, old_stats): """Return the difference between two sets of stats """ result = DeviceData() # copy self into result for key, value in self.__nfs_data.iteritems(): result.__nfs_data[key] = value for key, value in self.__rpc_data.iteritems(): result.__rpc_data[key] = value # compute the difference of each item in the list # note the copy loop above does not copy the lists, just # the reference to them. so we build new lists here # for the result object. for op in result.__rpc_data['ops']: result.__rpc_data[op] = map(difference, self.__rpc_data[op], old_stats.__rpc_data[op]) # update the remaining keys we care about result.__rpc_data['rpcsends'] -= old_stats.__rpc_data['rpcsends'] result.__rpc_data['backlogutil'] -= old_stats.__rpc_data['backlogutil'] for key in NfsEventCounters: result.__nfs_data[key] -= old_stats.__nfs_data[key] for key in NfsByteCounters: result.__nfs_data[key] -= old_stats.__nfs_data[key] return result def __print_data_cache_stats(self): """Print the data cache hit rate """ nfs_stats = self.__nfs_data app_bytes_read = float(nfs_stats['normalreadbytes']) if app_bytes_read != 0: client_bytes_read = float(nfs_stats['serverreadbytes'] - nfs_stats['directreadbytes']) ratio = ((app_bytes_read - client_bytes_read) * 100) / app_bytes_read print print 'app bytes: %f client bytes %f' % (app_bytes_read, client_bytes_read) print 'Data cache hit ratio: %4.2f%%' % ratio def __print_attr_cache_stats(self, sample_time): """Print attribute cache efficiency stats """ nfs_stats = self.__nfs_data getattr_stats = self.__rpc_data['GETATTR'] if nfs_stats['inoderevalidates'] != 0: getattr_ops = float(getattr_stats[1]) opens = float(nfs_stats['vfsopen']) revalidates = float(nfs_stats['inoderevalidates']) - opens if revalidates != 0: if revalidates < getattr_ops: ratio = ((getattr_ops - revalidates ) * 100) / revalidates else: ratio = ((revalidates - getattr_ops) * 100) / revalidates else: ratio = 0.0 data_invalidates = float(nfs_stats['datainvalidates']) attr_invalidates = float(nfs_stats['attrinvalidates']) print print '%d inode revalidations, hitting in cache %4.2f%% of the time' % \ (revalidates, ratio) print '%d open operations (mandatory GETATTR requests)' % opens if getattr_ops != 0: print '%4.2f%% of GETATTRs resulted in data cache invalidations' % \ ((data_invalidates * 100) / getattr_ops) def __print_dir_cache_stats(self, sample_time): """Print directory stats """ nfs_stats = self.__nfs_data lookup_ops = self.__rpc_data['LOOKUP'][0] readdir_ops = self.__rpc_data['READDIR'][0] if self.__rpc_data.has_key('READDIRPLUS'): readdir_ops += self.__rpc_data['READDIRPLUS'][0] dentry_revals = nfs_stats['dentryrevalidates'] opens = nfs_stats['vfsopen'] lookups = nfs_stats['vfslookup'] getdents = nfs_stats['vfsreaddir'] print print '%d open operations (pathname lookups)' % opens print '%d dentry revalidates and %d vfs lookup requests' % \ (dentry_revals, lookups), print 'resulted in %d LOOKUPs on the wire' % lookup_ops print '%d vfs getdents calls resulted in %d READDIRs on the wire' % \ (getdents, readdir_ops) def __print_page_stats(self, sample_time): """Print page cache stats """ nfs_stats = self.__nfs_data vfsreadpage = nfs_stats['vfsreadpage'] vfsreadpages = nfs_stats['vfsreadpages'] pages_read = nfs_stats['readpages'] vfswritepage = nfs_stats['vfswritepage'] vfswritepages = nfs_stats['vfswritepages'] pages_written = nfs_stats['writepages'] print print '%d nfs_readpage() calls read %d pages' % \ (vfsreadpage, vfsreadpage) print '%d nfs_readpages() calls read %d pages' % \ (vfsreadpages, pages_read - vfsreadpage), if vfsreadpages != 0: print '(%.1f pages per call)' % \ (float(pages_read - vfsreadpage) / vfsreadpages) else: print print print '%d nfs_updatepage() calls' % nfs_stats['vfsupdatepage'] print '%d nfs_writepage() calls wrote %d pages' % \ (vfswritepage, vfswritepage) print '%d nfs_writepages() calls wrote %d pages' % \ (vfswritepages, pages_written - vfswritepage), if (vfswritepages) != 0: print '(%.1f pages per call)' % \ (float(pages_written - vfswritepage) / vfswritepages) else: print congestionwaits = nfs_stats['congestionwait'] if congestionwaits != 0: print print '%d congestion waits' % congestionwaits def __print_rpc_op_stats(self, op, sample_time): """Print generic stats for one RPC op """ if not self.__rpc_data.has_key(op): return rpc_stats = self.__rpc_data[op] ops = float(rpc_stats[0]) retrans = float(rpc_stats[1] - rpc_stats[0]) kilobytes = float(rpc_stats[3] + rpc_stats[4]) / 1024 rtt = float(rpc_stats[6]) exe = float(rpc_stats[7]) # prevent floating point exceptions if ops != 0: kb_per_op = kilobytes / ops retrans_percent = (retrans * 100) / ops rtt_per_op = rtt / ops exe_per_op = exe / ops else: kb_per_op = 0.0 retrans_percent = 0.0 rtt_per_op = 0.0 exe_per_op = 0.0 op += ':' print '%s' % op.lower().ljust(15), print ' ops/s\t\t kB/s\t\t kB/op\t\tretrans\t\tavg RTT (ms)\tavg exe (ms)' print '\t\t%7.3f' % (ops / sample_time), print '\t%7.3f' % (kilobytes / sample_time), print '\t%7.3f' % kb_per_op, print ' %7d (%3.1f%%)' % (retrans, retrans_percent), print '\t%7.3f' % rtt_per_op, print '\t%7.3f' % exe_per_op def ops(self, sample_time): sends = float(self.__rpc_data['rpcsends']) if sample_time == 0: sample_time = float(self.__nfs_data['age']) return (sends / sample_time) def display_iostats(self, sample_time, which): """Display NFS and RPC stats in an iostat-like way """ sends = float(self.__rpc_data['rpcsends']) if sample_time == 0: sample_time = float(self.__nfs_data['age']) # sample_time could still be zero if the export was just mounted. # Set it to 1 to avoid divide by zero errors in this case since we'll # likely still have relevant mount statistics to show. # if sample_time == 0: sample_time = 1; if sends != 0: backlog = (float(self.__rpc_data['backlogutil']) / sends) / sample_time else: backlog = 0.0 print print '%s mounted on %s:' % \ (self.__nfs_data['export'], self.__nfs_data['mountpoint']) print print ' op/s\t\trpc bklog' print '%7.2f' % (sends / sample_time), print '\t%7.2f' % backlog if which == 0: self.__print_rpc_op_stats('READ', sample_time) self.__print_rpc_op_stats('WRITE', sample_time) elif which == 1: self.__print_rpc_op_stats('GETATTR', sample_time) self.__print_rpc_op_stats('ACCESS', sample_time) self.__print_attr_cache_stats(sample_time) elif which == 2: self.__print_rpc_op_stats('LOOKUP', sample_time) self.__print_rpc_op_stats('READDIR', sample_time) if self.__rpc_data.has_key('READDIRPLUS'): self.__print_rpc_op_stats('READDIRPLUS', sample_time) self.__print_dir_cache_stats(sample_time) elif which == 3: self.__print_rpc_op_stats('READ', sample_time) self.__print_rpc_op_stats('WRITE', sample_time) self.__print_page_stats(sample_time) sys.stdout.flush() # # Functions # def parse_stats_file(filename): """pop the contents of a mountstats file into a dictionary, keyed by mount point. each value object is a list of the lines in the mountstats file corresponding to the mount point named in the key. """ ms_dict = dict() key = '' f = file(filename) for line in f.readlines(): words = line.split() if len(words) == 0: continue if words[0] == 'device': key = words[4] new = [ line.strip() ] else: new += [ line.strip() ] ms_dict[key] = new f.close return ms_dict def print_iostat_summary(old, new, devices, time, options): stats = {} diff_stats = {} if old: # Trim device list to only include intersection of old and new data, # this addresses umounts due to autofs mountpoints devicelist = filter(lambda x:x in devices,old) else: devicelist = devices for device in devicelist: stats[device] = DeviceData() stats[device].parse_stats(new[device]) if old: old_stats = DeviceData() old_stats.parse_stats(old[device]) diff_stats[device] = stats[device].compare_iostats(old_stats) if options.sort: if old: # We now have compared data and can print a comparison # ordered by mountpoint ops per second devicelist.sort(key=lambda x: diff_stats[x].ops(time), reverse=True) else: # First iteration, just sort by newly parsed ops/s devicelist.sort(key=lambda x: stats[x].ops(time), reverse=True) count = 1 for device in devicelist: if old: diff_stats[device].display_iostats(time, options.which) else: stats[device].display_iostats(time, options.which) count += 1 if (count > options.list): return def list_nfs_mounts(givenlist, mountstats): """return a list of NFS mounts given a list to validate or return a full list if the given list is empty - may return an empty list if none found """ list = [] if len(givenlist) > 0: for device in givenlist: stats = DeviceData() stats.parse_stats(mountstats[device]) if stats.is_nfs_mountpoint(): list += [device] else: for device, descr in mountstats.iteritems(): stats = DeviceData() stats.parse_stats(descr) if stats.is_nfs_mountpoint(): list += [device] return list def iostat_command(name): """iostat-like command for NFS mount points """ mountstats = parse_stats_file('/proc/self/mountstats') devices = [] origdevices = [] interval_seen = False count_seen = False mydescription= """ Sample iostat-like program to display NFS client per-mount' statistics. The <interval> parameter specifies the amount of time in seconds between each report. The first report contains statistics for the time since each file system was mounted. Each subsequent report contains statistics collected during the interval since the previous report. If the <count> parameter is specified, the value of <count> determines the number of reports generated at <interval> seconds apart. If the interval parameter is specified without the <count> parameter, the command generates reports continuously. If one or more <mount point> names are specified, statistics for only these mount points will be displayed. Otherwise, all NFS mount points on the client are listed. """ parser = OptionParser( usage="usage: %prog [ <interval> [ <count> ] ] [ <options> ] [ <mount point> ]", description=mydescription, version='version %s' % Iostats_version) parser.set_defaults(which=0, sort=False, list=sys.maxint) statgroup = OptionGroup(parser, "Statistics Options", 'File I/O is displayed unless one of the following is specified:') statgroup.add_option('-a', '--attr', action="store_const", dest="which", const=1, help='displays statistics related to the attribute cache') statgroup.add_option('-d', '--dir', action="store_const", dest="which", const=2, help='displays statistics related to directory operations') statgroup.add_option('-p', '--page', action="store_const", dest="which", const=3, help='displays statistics related to the page cache') parser.add_option_group(statgroup) displaygroup = OptionGroup(parser, "Display Options", 'Options affecting display format:') displaygroup.add_option('-s', '--sort', action="store_true", dest="sort", help="Sort NFS mount points by ops/second") displaygroup.add_option('-l','--list', action="store", type="int", dest="list", help="only print stats for first LIST mount points") parser.add_option_group(displaygroup) (options, args) = parser.parse_args(sys.argv) for arg in args: if arg == sys.argv[0]: continue if arg in mountstats: origdevices += [arg] elif not interval_seen: try: interval = int(arg) except: print 'Illegal <interval> value %s' % arg return if interval > 0: interval_seen = True else: print 'Illegal <interval> value %s' % arg return elif not count_seen: try: count = int(arg) except: print 'Ilegal <count> value %s' % arg return if count > 0: count_seen = True else: print 'Illegal <count> value %s' % arg return # make certain devices contains only NFS mount points devices = list_nfs_mounts(origdevices, mountstats) if len(devices) == 0: print 'No NFS mount points were found' return old_mountstats = None sample_time = 0.0 if not interval_seen: print_iostat_summary(old_mountstats, mountstats, devices, sample_time, options) return if count_seen: while count != 0: print_iostat_summary(old_mountstats, mountstats, devices, sample_time, options) old_mountstats = mountstats time.sleep(interval) sample_time = interval mountstats = parse_stats_file('/proc/self/mountstats') # automount mountpoints add and drop, if automount is involved # we need to recheck the devices list when reparsing devices = list_nfs_mounts(origdevices,mountstats) if len(devices) == 0: print 'No NFS mount points were found' return count -= 1 else: while True: print_iostat_summary(old_mountstats, mountstats, devices, sample_time, options) old_mountstats = mountstats time.sleep(interval) sample_time = interval mountstats = parse_stats_file('/proc/self/mountstats') # automount mountpoints add and drop, if automount is involved # we need to recheck the devices list when reparsing devices = list_nfs_mounts(origdevices,mountstats) if len(devices) == 0: print 'No NFS mount points were found' return # # Main # prog = os.path.basename(sys.argv[0]) try: iostat_command(prog) except KeyboardInterrupt: print 'Caught ^C... exiting' sys.exit(1) sys.exit(0)