f1687a1bd2
this tool likes sysstat/iostat added to qos test Signed-off-by: jiaqizho <jiaqi.zhou@intel.com> Change-Id: I7ed6538095d34fa8c5835f28b25d618f1b3d81b7 Reviewed-on: https://review.gerrithub.io/c/spdk/spdk/+/476537 Community-CI: Broadcom SPDK FC-NVMe CI <spdk-ci.pdl@broadcom.com> Community-CI: SPDK CI Jenkins <sys_sgci@intel.com> Tested-by: SPDK CI Jenkins <sys_sgci@intel.com> Reviewed-by: Seth Howell <seth.howell@intel.com> Reviewed-by: Ben Walker <benjamin.walker@intel.com> Reviewed-by: Jim Harris <james.r.harris@intel.com> Reviewed-by: Shuhei Matsumoto <shuhei.matsumoto.xt@hitachi.com>
357 lines
12 KiB
Python
Executable File
357 lines
12 KiB
Python
Executable File
#!/usr/bin/env python3
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import logging
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import sys
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import argparse
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import time
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import rpc
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SPDK_CPU_STAT = "/proc/stat"
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SPDK_UPTIME = "/proc/uptime"
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SPDK_CPU_STAT_HEAD = ['cpu_stat:', 'user_stat', 'nice_stat',
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'system_stat', 'iowait_stat', 'steal_stat', 'idle_stat']
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SPDK_BDEV_KB_STAT_HEAD = ['Device', 'tps', 'KB_read/s',
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'KB_wrtn/s', 'KB_dscd/s', 'KB_read', 'KB_wrtn', 'KB_dscd']
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SPDK_BDEV_MB_STAT_HEAD = ['Device', 'tps', 'MB_read/s',
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'MB_wrtn/s', 'MB_dscd/s', 'MB_read', 'MB_wrtn', 'MB_dscd']
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SPDK_MAX_SECTORS = 0xffffffff
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class BdevStat:
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def __init__(self, dictionary):
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if dictionary is None:
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return
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for k, value in dictionary.items():
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if k == 'name':
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self.bdev_name = value
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elif k == 'bytes_read':
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self.rd_sectors = value >> 9
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elif k == 'bytes_written':
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self.wr_sectors = value >> 9
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elif k == 'bytes_unmapped':
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self.dc_sectors = value >> 9
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elif k == 'num_read_ops':
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self.rd_ios = value
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elif k == 'num_write_ops':
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self.wr_ios = value
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elif k == 'num_unmap_ops':
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self.dc_ios = value
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elif k == 'read_latency_ticks':
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self.rd_ticks = value
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elif k == 'write_latency_ticks':
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self.wr_ticks = value
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elif k == 'unmap_latency_ticks':
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self.dc_ticks = value
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elif k == 'queue_depth':
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self.ios_pgr = value
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elif k == 'io_time':
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self.tot_ticks = value
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elif k == 'weighted_io_time':
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self.rq_ticks = value
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self.rd_merges = 0
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self.wr_merges = 0
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self.dc_merges = 0
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self.upt = 0.0
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def __getattr__(self, name):
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return 0
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def uptime():
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with open(SPDK_UPTIME, 'r') as f:
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return float(f.readline().split()[0])
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def _stat_format(data, header, leave_first=False):
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list_size = len(data)
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header_len = len(header)
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if list_size == 0:
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raise AssertionError
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list_len = len(data[0])
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for ll in data:
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if len(ll) != list_len:
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raise AssertionError
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for i, r in enumerate(ll):
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ll[i] = str(r)
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if (leave_first and list_len + 1 != header_len) or \
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(not leave_first and list_len != header_len):
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raise AssertionError
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item_sizes = [0 for i in range(header_len)]
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for i in range(0, list_len):
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if leave_first and i == 0:
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item_sizes[i] = len(header[i + 1])
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data_len = 0
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for x in data:
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data_len = max(data_len, len(x[i]))
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index = i + 1 if leave_first else i
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item_sizes[index] = max(len(header[index]), data_len)
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_format = ' '.join('%%-%ss' % item_sizes[i] for i in range(0, header_len))
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print(_format % tuple(header))
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if leave_first:
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print('\n'.join(_format % ('', *tuple(ll)) for ll in data))
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else:
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print('\n'.join(_format % tuple(ll) for ll in data))
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print()
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sys.stdout.flush()
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def read_cpu_stat(last_cpu_info, cpu_info):
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jiffies = 0
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for i in range(0, 7):
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jiffies += cpu_info[i] - \
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(last_cpu_info[i] if last_cpu_info else 0)
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if last_cpu_info:
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info_stat = [
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"{:.2%}".format((cpu_info[0] - last_cpu_info[0]) / jiffies),
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"{:.2%}".format((cpu_info[1] - last_cpu_info[1]) / jiffies),
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"{:.2%}".format(((cpu_info[2] + cpu_info[5] + cpu_info[6]) -
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(last_cpu_info[2] + last_cpu_info[5] + last_cpu_info[6])) / jiffies),
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"{:.2%}".format((cpu_info[4] - last_cpu_info[4]) / jiffies),
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"{:.2%}".format((cpu_info[7] - last_cpu_info[7]) / jiffies),
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"{:.2%}".format((cpu_info[3] - last_cpu_info[3]) / jiffies),
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]
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else:
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info_stat = [
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"{:.2%}".format(cpu_info[0] / jiffies),
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"{:.2%}".format(cpu_info[1] / jiffies),
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"{:.2%}".format((cpu_info[2] + cpu_info[5]
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+ cpu_info[6]) / jiffies),
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"{:.2%}".format(cpu_info[4] / jiffies),
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"{:.2%}".format(cpu_info[7] / jiffies),
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"{:.2%}".format(cpu_info[3] / jiffies),
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]
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_stat_format([info_stat], SPDK_CPU_STAT_HEAD, True)
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def check_positive(value):
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v = int(value)
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if v <= 0:
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raise argparse.ArgumentTypeError("%s should be positive int value" % v)
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return v
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def get_cpu_stat():
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with open(SPDK_CPU_STAT, "r") as cpu_file:
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cpu_dump_info = []
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line = cpu_file.readline()
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while line:
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line = line.strip()
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if "cpu " in line:
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cpu_dump_info = [int(data) for data in line[5:].split(' ')]
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break
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line = cpu_file.readline()
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return cpu_dump_info
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def read_bdev_stat(last_stat, stat, mb, use_upt):
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if use_upt:
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upt_cur = uptime()
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else:
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upt_cur = stat['ticks']
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upt_rate = stat['tick_rate']
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info_stats = []
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unit = 2048 if mb else 2
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bdev_stats = []
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if last_stat:
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for bdev in stat['bdevs']:
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_stat = BdevStat(bdev)
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_stat.upt = upt_cur
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bdev_stats.append(_stat)
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_last_stat = None
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for last_bdev in last_stat:
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if (_stat.bdev_name == last_bdev.bdev_name):
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_last_stat = last_bdev
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break
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# get the interval time
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if use_upt:
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upt = _stat.upt - _last_stat.upt
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else:
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upt = (_stat.upt - _last_stat.upt) / upt_rate
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rd_sec = _stat.rd_sectors - _last_stat.rd_sectors
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if (_stat.rd_sectors < _last_stat.rd_sectors) and (_last_stat.rd_sectors <= SPDK_MAX_SECTORS):
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rd_sec &= SPDK_MAX_SECTORS
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wr_sec = _stat.wr_sectors - _last_stat.wr_sectors
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if (_stat.wr_sectors < _last_stat.wr_sectors) and (_last_stat.wr_sectors <= SPDK_MAX_SECTORS):
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wr_sec &= SPDK_MAX_SECTORS
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dc_sec = _stat.dc_sectors - _last_stat.dc_sectors
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if (_stat.dc_sectors < _last_stat.dc_sectors) and (_last_stat.dc_sectors <= SPDK_MAX_SECTORS):
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dc_sec &= SPDK_MAX_SECTORS
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tps = ((_stat.rd_ios + _stat.dc_ios + _stat.wr_ios) -
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(_last_stat.rd_ios + _last_stat.dc_ios + _last_stat.wr_ios)) / upt
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info_stat = [
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_stat.bdev_name,
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"{:.2f}".format(tps),
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"{:.2f}".format(
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(_stat.rd_sectors - _last_stat.rd_sectors) / upt / unit),
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"{:.2f}".format(
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(_stat.wr_sectors - _last_stat.wr_sectors) / upt / unit),
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"{:.2f}".format(
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(_stat.dc_sectors - _last_stat.dc_sectors) / upt / unit),
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"{:.2f}".format(rd_sec / unit),
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"{:.2f}".format(wr_sec / unit),
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"{:.2f}".format(dc_sec / unit),
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]
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info_stats.append(info_stat)
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else:
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for bdev in stat['bdevs']:
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_stat = BdevStat(bdev)
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_stat.upt = upt_cur
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bdev_stats.append(_stat)
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if use_upt:
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upt = _stat.upt
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else:
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upt = _stat.upt / upt_rate
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tps = (_stat.rd_ios + _stat.dc_ios + _stat.wr_ios) / upt
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info_stat = [
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_stat.bdev_name,
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"{:.2f}".format(tps),
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"{:.2f}".format(_stat.rd_sectors / upt / unit),
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"{:.2f}".format(_stat.wr_sectors / upt / unit),
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"{:.2f}".format(_stat.dc_sectors / upt / unit),
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"{:.2f}".format(_stat.rd_sectors / unit),
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"{:.2f}".format(_stat.wr_sectors / unit),
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"{:.2f}".format(_stat.dc_sectors / unit),
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]
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info_stats.append(info_stat)
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_stat_format(
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info_stats, SPDK_BDEV_MB_STAT_HEAD if mb else SPDK_BDEV_KB_STAT_HEAD)
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return bdev_stats
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def get_bdev_stat(client, name):
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return rpc.bdev.bdev_get_iostat(client, name=name)
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def io_stat_display(args, cpu_info, stat):
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if args.cpu_stat and not args.bdev_stat:
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_cpu_info = get_cpu_stat()
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read_cpu_stat(cpu_info, _cpu_info)
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return _cpu_info, None
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if args.bdev_stat and not args.cpu_stat:
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_stat = get_bdev_stat(args.client, args.name)
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bdev_stats = read_bdev_stat(
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stat, _stat, args.mb_display, args.use_uptime)
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return None, bdev_stats
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_cpu_info = get_cpu_stat()
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read_cpu_stat(cpu_info, _cpu_info)
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_stat = get_bdev_stat(args.client, args.name)
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bdev_stats = read_bdev_stat(stat, _stat, args.mb_display, args.use_uptime)
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return _cpu_info, bdev_stats
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def io_stat_display_loop(args):
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interval = args.interval
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time_in_second = args.time_in_second
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args.client = rpc.client.JSONRPCClient(
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args.server_addr, args.port, args.timeout, log_level=getattr(logging, args.verbose.upper()))
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last_cpu_stat = None
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bdev_stats = None
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cur = 0
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while True:
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last_cpu_stat, bdev_stats = io_stat_display(
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args, last_cpu_stat, bdev_stats)
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time.sleep(interval)
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cur += interval
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if cur >= time_in_second:
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break
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if __name__ == "__main__":
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parser = argparse.ArgumentParser(
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description='SPDK iostats command line interface')
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parser.add_argument('-c', '--cpu-status', dest='cpu_stat',
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action='store_true', help="Only display cpu status",
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required=False, default=False)
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parser.add_argument('-d', '--bdev-status', dest='bdev_stat',
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action='store_true', help="Only display Blockdev io stats",
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required=False, default=False)
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parser.add_argument('-k', '--kb-display', dest='kb_display',
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action='store_true', help="Display drive stats in KiB",
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required=False, default=False)
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parser.add_argument('-m', '--mb-display', dest='mb_display',
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action='store_true', help="Display drive stats in MiB",
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required=False, default=False)
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parser.add_argument('-u', '--use-uptime', dest='use_uptime',
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action='store_true', help='Use uptime or spdk ticks(default) as \
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the interval variable to calculate iostat changes.',
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required=False, default=False)
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parser.add_argument('-i', '--interval', dest='interval',
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type=check_positive, help='Time interval (in seconds) on which \
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to poll I/O stats. Used in conjunction with -t',
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required=False, default=0)
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parser.add_argument('-t', '--time', dest='time_in_second',
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type=check_positive, help='The number of second to display stats \
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before returning. Used in conjunction with -i',
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required=False, default=0)
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parser.add_argument('-s', "--server", dest='server_addr',
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help='RPC domain socket path or IP address',
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default='/var/tmp/spdk.sock')
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parser.add_argument('-p', "--port", dest='port',
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help='RPC port number (if server_addr is IP address)',
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default=4420, type=int)
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parser.add_argument('-b', '--name', dest='name',
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help="Name of the Blockdev. Example: Nvme0n1", required=False)
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parser.add_argument('-o', '--timeout', dest='timeout',
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help='Timeout as a floating point number expressed in seconds \
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waiting for response. Default: 60.0',
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default=60.0, type=float)
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parser.add_argument('-v', dest='verbose', action='store_const', const="INFO",
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help='Set verbose mode to INFO', default="ERROR")
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args = parser.parse_args()
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if ((args.interval == 0 and args.time_in_second != 0) or
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(args.interval != 0 and args.time_in_second == 0)):
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raise argparse.ArgumentTypeError(
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"interval and time_in_second should be greater than 0 at the same time")
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if args.kb_display and args.mb_display:
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parser.print_help()
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exit()
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io_stat_display_loop(args)
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