TOMOYO Linux Cross Reference
Linux/tools/perf/scripts/python/parallel-perf.py

Diff markup

Differences between /tools/perf/scripts/python/parallel-perf.py (Version linux-6.12-rc7) and /tools/perf/scripts/python/parallel-perf.py (Version linux-5.6.19)

   #!/usr/bin/env python3                            
   # SPDX-License-Identifier: GPL-2.0                
   #                                                 
   # Run a perf script command multiple times in     
   # options --cpu and --time so that each job pr    
   # of the data.                                    
   #                                                 
   # Copyright (c) 2024, Intel Corporation.          
                                                     
  import subprocess                                 
  import argparse                                   
  import pathlib                                    
  import shlex                                      
  import time                                       
  import copy                                       
  import sys                                        
  import os                                         
  import re                                         
                                                    
  glb_prog_name = "parallel-perf.py"                
  glb_min_interval = 10.0                           
  glb_min_samples = 64                              
                                                    
  class Verbosity():                                
                                                    
          def __init__(self, quiet=False, verbos    
                  self.normal    = True             
                  self.verbose   = verbose          
                  self.debug     = debug            
                  self.self_test = True             
                  if self.debug:                    
                          self.verbose = True       
                  if self.verbose:                  
                          quiet = False             
                  if quiet:                         
                          self.normal = False       
                                                    
  # Manage work (Start/Wait/Kill), as represente    
  class Work():                                     
                                                    
          def __init__(self, cmd, pipe_to, outpu    
                  self.popen = None                 
                  self.consumer = None              
                  self.cmd = cmd                    
                  self.pipe_to = pipe_to            
                  self.output_dir = output_dir      
                  self.cmdout_name = f"{output_d    
                  self.stdout_name = f"{output_d    
                  self.stderr_name = f"{output_d    
                                                    
          def Command(self):                        
                  sh_cmd = [ shlex.quote(x) for     
                  return " ".join(self.cmd)         
                                                    
          def Stdout(self):                         
                  return open(self.stdout_name,     
                                                    
          def Stderr(self):                         
                  return open(self.stderr_name,     
                                                    
          def CreateOutputDir(self):                
                  pathlib.Path(self.output_dir).    
                                                    
          def Start(self):                          
                  if self.popen:                    
                          return                    
                  self.CreateOutputDir()            
                  with open(self.cmdout_name, "w    
                          f.write(self.Command()    
                          f.write("\n")             
                  stdout = self.Stdout()            
                  stderr = self.Stderr()            
                  if self.pipe_to:                  
                          self.popen = subproces    
                          args = shlex.split(sel    
                          self.consumer = subpro    
                  else:                             
                          self.popen = subproces    
                                                    
          def RemoveEmptyErrFile(self):             
                  if os.path.exists(self.stderr_    
                          if os.path.getsize(sel    
                                  os.unlink(self    
                                                    
          def Errors(self):                         
                  if os.path.exists(self.stderr_    
                          if os.path.getsize(sel    
                                  return [ f"Non    
                  return []                         
                                                    
          def TidyUp(self):                         
                  self.RemoveEmptyErrFile()         
                                                    
          def RawPollWait(self, p, wait):           
                  if wait:                          
                          return p.wait()           
                  return p.poll()                   
                                                    
          def Poll(self, wait=False):               
                 if not self.popen:                
                         return None               
                 result = self.RawPollWait(self    
                 if self.consumer:                 
                         res = result              
                         result = self.RawPollW    
                         if result != None and     
                                 self.popen.kil    
                                 result = None     
                         elif result == 0 and r    
                                 result = res      
                 if result != None:                
                         self.TidyUp()             
                 return result                     
                                                   
         def Wait(self):                           
                 return self.Poll(wait=True)       
                                                   
         def Kill(self):                           
                 if not self.popen:                
                         return                    
                 self.popen.kill()                 
                 if self.consumer:                 
                         self.consumer.kill()      
                                                   
 def KillWork(worklist, verbosity):                
         for w in worklist:                        
                 w.Kill()                          
         for w in worklist:                        
                 w.Wait()                          
                                                   
 def NumberOfCPUs():                               
         return os.sysconf("SC_NPROCESSORS_ONLN    
                                                   
 def NanoSecsToSecsStr(x):                         
         if x == None:                             
                 return ""                         
         x = str(x)                                
         if len(x) < 10:                           
                 x = "0" * (10 - len(x)) + x       
         return x[:len(x) - 9] + "." + x[-9:]      
                                                   
 def InsertOptionAfter(cmd, option, after):        
         try:                                      
                 pos = cmd.index(after)            
                 cmd.insert(pos + 1, option)       
         except:                                   
                 cmd.append(option)                
                                                   
 def CreateWorkList(cmd, pipe_to, output_dir, c    
         max_len = len(str(cpus[-1]))              
         cpu_dir_fmt = f"cpu-%.{max_len}u"         
         worklist = []                             
         pos = 0                                   
         for cpu in cpus:                          
                 if cpu >= 0:                      
                         cpu_dir = os.path.join    
                         cpu_option = f"--cpu={    
                 else:                             
                         cpu_dir = output_dir      
                         cpu_option = None         
                                                   
                 tr_dir_fmt = "time-range"         
                                                   
                 if len(time_ranges_by_cpu) > 1    
                         time_ranges = time_ran    
                         tr_dir_fmt += f"-{pos}    
                         pos += 1                  
                 else:                             
                         time_ranges = time_ran    
                                                   
                 max_len = len(str(len(time_ran    
                 tr_dir_fmt += f"-%.{max_len}u"    
                                                   
                 i = 0                             
                 for r in time_ranges:             
                         if r == [None, None]:     
                                 time_option =     
                                 work_output_di    
                         else:                     
                                 time_option =     
                                 work_output_di    
                                 i += 1            
                         work_cmd = list(cmd)      
                         if time_option != None    
                                 InsertOptionAf    
                         if cpu_option != None:    
                                 InsertOptionAf    
                         w = Work(work_cmd, pip    
                         worklist.append(w)        
         return worklist                           
                                                   
 def DoRunWork(worklist, nr_jobs, verbosity):      
         nr_to_do = len(worklist)                  
         not_started = list(worklist)              
         running = []                              
         done = []                                 
         chg = False                               
         while True:                               
                 nr_done = len(done)               
                 if chg and verbosity.normal:      
                         nr_run = len(running)     
                         print(f"\rThere are {n    
                         if verbosity.verbose:     
                                 print()           
                         chg = False               
                 if nr_done == nr_to_do:           
                         break                     
                 while len(running) < nr_jobs a    
                         w = not_started.pop(0)    
                         running.append(w)         
                         if verbosity.verbose:     
                                 print("Startin    
                         w.Start()                 
                         chg = True                
                 if len(running):                  
                         time.sleep(0.1)           
                 finished = []                     
                 not_finished = []                 
                 while len(running):               
                         w = running.pop(0)        
                         r = w.Poll()              
                         if r == None:             
                                 not_finished.a    
                                 continue          
                         if r == 0:                
                                 if verbosity.v    
                                         print(    
                                 finished.appen    
                                 chg = True        
                                 continue          
                         if verbosity.normal an    
                                 print()           
                         print("Job failed!\n      
                         if w.pipe_to:             
                                 print("    pip    
                         print("Killing outstan    
                         KillWork(not_finished,    
                         KillWork(running, verb    
                         return False              
                 running = not_finished            
                 done += finished                  
         errorlist = []                            
         for w in worklist:                        
                 errorlist += w.Errors()           
         if len(errorlist):                        
                 print("Errors:")                  
                 for e in errorlist:               
                         print(e)                  
         elif verbosity.normal:                    
                 print("\r"," "*50, "\rAll jobs    
         return True                               
                                                   
 def RunWork(worklist, nr_jobs=NumberOfCPUs(),     
         try:                                      
                 return DoRunWork(worklist, nr_    
         except:                                   
                 for w in worklist:                
                         w.Kill()                  
                 raise                             
         return True                               
                                                   
 def ReadHeader(perf, file_name):                  
         return subprocess.Popen([perf, "script    
                                                   
 def ParseHeader(hdr):                             
         result = {}                               
         lines = hdr.split("\n")                   
         for line in lines:                        
                 if ":" in line and line[0] ==     
                         pos = line.index(":")     
                         name = line[1:pos-1].s    
                         value = line[pos+1:].s    
                         if name in result:        
                                 orig_name = na    
                                 nr = 2            
                                 while True:       
                                         name =    
                                         if nam    
                                                   
                                         nr +=     
                         result[name] = value      
         return result                             
                                                   
 def HeaderField(hdr_dict, hdr_fld):               
         if hdr_fld not in hdr_dict:               
                 raise Exception(f"'{hdr_fld}'     
         return hdr_dict[hdr_fld]                  
                                                   
 # Represent the position of an option within a    
 # and provide the option value and/or remove t    
 class OptPos():                                   
                                                   
         def Init(self, opt_element=-1, value_e    
                 self.opt_element = opt_element    
                 self.value_element = value_ele    
                 self.opt_pos = opt_pos            
                 self.value_pos = value_pos        
                 self.error = error                
                                                   
         def __init__(self, args, short_name, l    
                 self.args = list(args)            
                 self.default = default            
                 n = 2 + len(long_name)            
                 m = len(short_name)               
                 pos = -1                          
                 for opt in args:                  
                         pos += 1                  
                         if m and opt[:2] == f"    
                                 if len(opt) ==    
                                         if pos    
                                                   
                                         else:     
                                                   
                                 else:             
                                         self.I    
                                 return            
                         if opt[:n] == f"--{lon    
                                 if len(opt) ==    
                                         if pos    
                                                   
                                         else:     
                                                   
                                 elif opt[n] ==    
                                         self.I    
                                 else:             
                                         self.I    
                                 return            
                         if m and opt[:1] == "-    
                                 ipos = opt.ind    
                                 if "-" in opt[    
                                         hpos =    
                                         if hpo    
                                                   
                                 if ipos + 1 ==    
                                         if pos    
                                                   
                                         else:     
                                                   
                                 else:             
                                         self.I    
                                 return            
                 self.Init()                       
                                                   
         def Value(self):                          
                 if self.opt_element >= 0:         
                         if self.opt_element !=    
                                 return self.ar    
                         else:                     
                                 return self.ar    
                 return self.default               
                                                   
         def Remove(self, args):                   
                 if self.opt_element == -1:        
                         return                    
                 if self.opt_element != self.va    
                         del args[self.value_el    
                 if self.opt_pos:                  
                         args[self.opt_element]    
                 else:                             
                         del args[self.opt_elem    
                                                   
 def DetermineInputFileName(cmd):                  
         p = OptPos(cmd, "i", "input", "perf.da    
         if p.error:                               
                 raise Exception(f"perf command    
         file_name = p.Value()                     
         if not os.path.exists(file_name):         
                 raise Exception(f"perf command    
         return file_name                          
                                                   
 def ReadOption(args, short_name, long_name, er    
         p = OptPos(args, short_name, long_name    
         if p.error:                               
                 raise Exception(f"{err_prefix}    
         value = p.Value()                         
         if remove:                                
                 p.Remove(args)                    
         return value                              
                                                   
 def ExtractOption(args, short_name, long_name,    
         return ReadOption(args, short_name, lo    
                                                   
 def ReadPerfOption(args, short_name, long_name    
         return ReadOption(args, short_name, lo    
                                                   
 def ExtractPerfOption(args, short_name, long_n    
         return ExtractOption(args, short_name,    
                                                   
 def PerfDoubleQuickCommands(cmd, file_name):      
         cpu_str = ReadPerfOption(cmd, "C", "cp    
         time_str = ReadPerfOption(cmd, "", "ti    
         # Use double-quick sampling to determi    
         times_cmd = ["perf", "script", "--ns",    
         if cpu_str != None and cpu_str != "":     
                 times_cmd.append(f"--cpu={cpu_    
         if time_str != None and time_str != ""    
                 times_cmd.append(f"--time={tim    
         cnts_cmd = list(times_cmd)                
         cnts_cmd.append("-Fcpu")                  
         times_cmd.append("-Fcpu,time")            
         return cnts_cmd, times_cmd                
                                                   
 class CPUTimeRange():                             
         def __init__(self, cpu):                  
                 self.cpu = cpu                    
                 self.sample_cnt = 0               
                 self.time_ranges = None           
                 self.interval = 0                 
                 self.interval_remaining = 0       
                 self.remaining = 0                
                 self.tr_pos = 0                   
                                                   
 def CalcTimeRangesByCPU(line, cpu, cpu_time_ra    
         cpu_time_range = cpu_time_ranges[cpu]     
         cpu_time_range.remaining -= 1             
         cpu_time_range.interval_remaining -= 1    
         if cpu_time_range.remaining == 0:         
                 cpu_time_range.time_ranges[cpu    
                 return                            
         if cpu_time_range.interval_remaining =    
                 time = TimeVal(line[1][:-1], 0    
                 time_ranges = cpu_time_range.t    
                 time_ranges[cpu_time_range.tr_    
                 time_ranges.append([time, max_    
                 cpu_time_range.tr_pos += 1        
                 cpu_time_range.interval_remain    
                                                   
 def CountSamplesByCPU(line, cpu, cpu_time_rang    
         try:                                      
                 cpu_time_ranges[cpu].sample_cn    
         except:                                   
                 print("exception")                
                 print("cpu", cpu)                 
                 print("len(cpu_time_ranges)",     
                 raise                             
                                                   
 def ProcessCommandOutputLines(cmd, per_cpu, fn    
         # Assume CPU number is at beginning of    
         pat = re.compile(r"\s*\[[0-9]+\]")        
         p = subprocess.Popen(cmd, stdout=subpr    
         while True:                               
                 line = p.stdout.readline()        
                 if line:                          
                         line = line.decode("ut    
                         if pat.match(line):       
                                 line = line.sp    
                                 if per_cpu:       
                                         # Assu    
                                         cpu =     
                                 else:             
                                         cpu =     
                                 fn(line, cpu,     
                 else:                             
                         break                     
         p.wait()                                  
                                                   
 def IntersectTimeRanges(new_time_ranges, time_    
         pos = 0                                   
         new_pos = 0                               
         # Can assume len(time_ranges) != 0 and    
         # Note also, there *must* be at least     
         while pos < len(time_ranges) and new_p    
                 # new end < old start => no in    
                 if new_time_ranges[new_pos][1]    
                         del new_time_ranges[ne    
                         continue                  
                 # new start > old end => no in    
                 if new_time_ranges[new_pos][0]    
                         pos += 1                  
                         if pos < len(time_rang    
                                 continue          
                         # no next, so remove r    
                         while new_pos < len(ne    
                                 del new_time_r    
                         return                    
                 # Found an intersection           
                 # new start < old start => adj    
                 if new_time_ranges[new_pos][0]    
                         new_time_ranges[new_po    
                 # new end > old end => keep th    
                 if new_time_ranges[new_pos][1]    
                         r = [ time_ranges[pos]    
                         new_time_ranges[new_po    
                         new_pos += 1              
                         new_time_ranges.insert    
                         continue                  
                 # new [start, end] is within o    
                 new_pos += 1                      
                                                   
 def SplitTimeRangesByTraceDataDensity(time_ran    
         if verbosity.normal:                      
                 print("\rAnalyzing...", flush=    
                 if verbosity.verbose:             
                         print()                   
         cnts_cmd, times_cmd = PerfDoubleQuickC    
                                                   
         nr_cpus = cpus[-1] + 1 if per_cpu else    
         if per_cpu:                               
                 nr_cpus = cpus[-1] + 1            
                 cpu_time_ranges = [ CPUTimeRan    
         else:                                     
                 nr_cpus = 1                       
                 cpu_time_ranges = [ CPUTimeRan    
                                                   
         if verbosity.debug:                       
                 print("nr_cpus", nr_cpus)         
                 print("cnts_cmd", cnts_cmd)       
                 print("times_cmd", times_cmd)     
                                                   
         # Count the number of "double quick" s    
         ProcessCommandOutputLines(cnts_cmd, pe    
                                                   
         tot = 0                                   
         mx = 0                                    
         for cpu_time_range in cpu_time_ranges:    
                 cnt = cpu_time_range.sample_cn    
                 tot += cnt                        
                 if cnt > mx:                      
                         mx = cnt                  
                 if verbosity.debug:               
                         print("cpu:", cpu_time    
                                                   
         if min_size < 1:                          
                 min_size = 1                      
                                                   
         if mx < min_size:                         
                 # Too little data to be worth     
                 if verbosity.debug:               
                         print("Too little data    
                 if nr == 0:                       
                         nr = 1                    
                 return [ SplitTimeRangesIntoN(    
                                                   
         if nr:                                    
                 divisor = nr                      
                 min_size = 1                      
         else:                                     
                 divisor = NumberOfCPUs()          
                                                   
         interval = int(round(tot / divisor, 0)    
         if interval < min_size:                   
                 interval = min_size               
                                                   
         if verbosity.debug:                       
                 print("divisor", divisor)         
                 print("min_size", min_size)       
                 print("interval", interval)       
                                                   
         min_time = time_ranges[0][0]              
         max_time = time_ranges[-1][1]             
                                                   
         for cpu_time_range in cpu_time_ranges:    
                 cnt = cpu_time_range.sample_cn    
                 if cnt == 0:                      
                         cpu_time_range.time_ra    
                         continue                  
                 # Adjust target interval for C    
                 # Determine number of interval    
                 n = int(round(cnt / interval,     
                 if n < 1:                         
                         n = 1                     
                 # Determine interval size, rou    
                 d, m = divmod(cnt, n)             
                 if m:                             
                         d += 1                    
                 cpu_time_range.interval = d       
                 cpu_time_range.interval_remain    
                 cpu_time_range.remaining = cnt    
                 # Init. time ranges for each C    
                 cpu_time_range.time_ranges = [    
                                                   
         # Set time ranges so that the same num    
         # will fall into each time range.         
         ProcessCommandOutputLines(times_cmd, p    
                                                   
         for cpu_time_range in cpu_time_ranges:    
                 if cpu_time_range.sample_cnt:     
                         IntersectTimeRanges(cp    
                                                   
         return [cpu_time_ranges[cpu].time_rang    
                                                   
 def SplitSingleTimeRangeIntoN(time_range, n):     
         if n <= 1:                                
                 return [time_range]               
         start = time_range[0]                     
         end   = time_range[1]                     
         duration = int((end - start + 1) / n)     
         if duration < 1:                          
                 return [time_range]               
         time_ranges = []                          
         for i in range(n):                        
                 time_ranges.append([start, sta    
                 start += duration                 
         time_ranges[-1][1] = end                  
         return time_ranges                        
                                                   
 def TimeRangeDuration(r):                         
         return r[1] - r[0] + 1                    
                                                   
 def TotalDuration(time_ranges):                   
         duration = 0                              
         for r in time_ranges:                     
                 duration += TimeRangeDuration(    
         return duration                           
                                                   
 def SplitTimeRangesByInterval(time_ranges, int    
         new_ranges = []                           
         for r in time_ranges:                     
                 duration = TimeRangeDuration(r    
                 n = duration / interval           
                 n = int(round(n, 0))              
                 new_ranges += SplitSingleTimeR    
         return new_ranges                         
                                                   
 def SplitTimeRangesIntoN(time_ranges, n, min_i    
         if n <= len(time_ranges):                 
                 return time_ranges                
         duration = TotalDuration(time_ranges)     
         interval = duration / n                   
         if interval < min_interval:               
                 interval = min_interval           
         return SplitTimeRangesByInterval(time_    
                                                   
 def RecombineTimeRanges(tr):                      
         new_tr = copy.deepcopy(tr)                
         n = len(new_tr)                           
         i = 1                                     
         while i < len(new_tr):                    
                 # if prev end + 1 == cur start    
                 if new_tr[i - 1][1] + 1 == new    
                         new_tr[i][0] = new_tr[    
                         del new_tr[i - 1]         
                 else:                             
                         i += 1                    
         return new_tr                             
                                                   
 def OpenTimeRangeEnds(time_ranges, min_time, m    
         if time_ranges[0][0] <= min_time:         
                 time_ranges[0][0] = None          
         if time_ranges[-1][1] >= max_time:        
                 time_ranges[-1][1] = None         
                                                   
 def BadTimeStr(time_str):                         
         raise Exception(f"perf command bad tim    
                                                   
 def ValidateTimeRanges(time_ranges, time_str):    
         n = len(time_ranges)                      
         for i in range(n):                        
                 start = time_ranges[i][0]         
                 end   = time_ranges[i][1]         
                 if i != 0 and start <= time_ra    
                         BadTimeStr(time_str)      
                 if start > end:                   
                         BadTimeStr(time_str)      
                                                   
 def TimeVal(s, dflt):                             
         s = s.strip()                             
         if s == "":                               
                 return dflt                       
         a = s.split(".")                          
         if len(a) > 2:                            
                 raise Exception(f"Bad time val    
         x = int(a[0])                             
         if x < 0:                                 
                 raise Exception("Negative time    
         x *= 1000000000                           
         if len(a) > 1:                            
                 x += int((a[1] + "000000000")[    
         return x                                  
                                                   
 def BadCPUStr(cpu_str):                           
         raise Exception(f"perf command bad cpu    
                                                   
 def ParseTimeStr(time_str, min_time, max_time)    
         if time_str == None or time_str == "":    
                 return [[min_time, max_time]]     
         time_ranges = []                          
         for r in time_str.split():                
                 a = r.split(",")                  
                 if len(a) != 2:                   
                         BadTimeStr(time_str)      
                 try:                              
                         start = TimeVal(a[0],     
                         end   = TimeVal(a[1],     
                 except:                           
                         BadTimeStr(time_str)      
                 time_ranges.append([start, end    
         ValidateTimeRanges(time_ranges, time_s    
         return time_ranges                        
                                                   
 def ParseCPUStr(cpu_str, nr_cpus):                
         if cpu_str == None or cpu_str == "":      
                 return [-1]                       
         cpus = []                                 
         for r in cpu_str.split(","):              
                 a = r.split("-")                  
                 if len(a) < 1 or len(a) > 2:      
                         BadCPUStr(cpu_str)        
                 try:                              
                         start = int(a[0].strip    
                         if len(a) > 1:            
                                 end = int(a[1]    
                         else:                     
                                 end = start       
                 except:                           
                         BadCPUStr(cpu_str)        
                 if start < 0 or end < 0 or end    
                         BadCPUStr(cpu_str)        
                 cpus.extend(range(start, end +    
         cpus = list(set(cpus)) # Remove duplic    
         cpus.sort()                               
         return cpus                               
                                                   
 class ParallelPerf():                             
                                                   
         def __init__(self, a):                    
                 for arg_name in vars(a):          
                         setattr(self, arg_name    
                 self.orig_nr = self.nr            
                 self.orig_cmd = list(self.cmd)    
                 self.perf = self.cmd[0]           
                 if os.path.exists(self.output_    
                         raise Exception(f"Outp    
                 if self.jobs < 0 or self.nr <     
                         raise Exception("Bad o    
                 if self.nr != 0 and self.inter    
                         raise Exception("Canno    
                 if self.jobs == 0:                
                         self.jobs = NumberOfCP    
                 if self.nr == 0 and self.inter    
                         if self.per_cpu:          
                                 self.nr = 1       
                         else:                     
                                 self.nr = self    
                                                   
         def Init(self):                           
                 if self.verbosity.debug:          
                         print("cmd", self.cmd)    
                 self.file_name = DetermineInpu    
                 self.hdr = ReadHeader(self.per    
                 self.hdr_dict = ParseHeader(se    
                 self.cmd_line = HeaderField(se    
                                                   
         def ExtractTimeInfo(self):                
                 self.min_time = TimeVal(Header    
                 self.max_time = TimeVal(Header    
                 self.time_str = ExtractPerfOpt    
                 self.time_ranges = ParseTimeSt    
                 if self.verbosity.debug:          
                         print("time_ranges", s    
                                                   
         def ExtractCPUInfo(self):                 
                 if self.per_cpu:                  
                         nr_cpus = int(HeaderFi    
                         self.cpu_str = Extract    
                         if self.cpu_str == Non    
                                 self.cpus = [     
                         else:                     
                                 self.cpus = Pa    
                 else:                             
                         self.cpu_str = None       
                         self.cpus = [-1]          
                 if self.verbosity.debug:          
                         print("cpus", self.cpu    
                                                   
         def IsIntelPT(self):                      
                 return self.cmd_line.find("int    
                                                   
         def SplitTimeRanges(self):                
                 if self.IsIntelPT() and self.i    
                         self.split_time_ranges    
                                 SplitTimeRange    
                                                   
                                                   
                 elif self.nr:                     
                         self.split_time_ranges    
                 else:                             
                         self.split_time_ranges    
                                                   
         def CheckTimeRanges(self):                
                 for tr in self.split_time_rang    
                         # Re-combined time ran    
                         new_tr = RecombineTime    
                         if new_tr != self.time    
                                 if self.verbos    
                                         print(    
                                         print(    
                                 raise Exceptio    
                                                   
         def OpenTimeRangeEnds(self):              
                 for time_ranges in self.split_    
                         OpenTimeRangeEnds(time    
                                                   
         def CreateWorkList(self):                 
                 self.worklist = CreateWorkList    
                                                   
         def PerfDataRecordedPerCPU(self):         
                 if "--per-thread" in self.cmd_    
                         return False              
                 return True                       
                                                   
         def DefaultToPerCPU(self):                
                 # --no-per-cpu option takes pr    
                 if self.no_per_cpu:               
                         return False              
                 if not self.PerfDataRecordedPe    
                         return False              
                 # Default to per-cpu for Intel    
                 # because decoding can be done    
                 if self.IsIntelPT():              
                         return True               
                 return False                      
                                                   
         def Config(self):                         
                 self.Init()                       
                 self.ExtractTimeInfo()            
                 if not self.per_cpu:              
                         self.per_cpu = self.De    
                 if self.verbosity.debug:          
                         print("per_cpu", self.    
                 self.ExtractCPUInfo()             
                 self.SplitTimeRanges()            
                 if self.verbosity.self_test:      
                         self.CheckTimeRanges()    
                 # Prefer open-ended time range    
                 self.OpenTimeRangeEnds()          
                 self.CreateWorkList()             
                                                   
         def Run(self):                            
                 if self.dry_run:                  
                         print(len(self.worklis    
                         for w in self.worklist    
                                 print(w.Comman    
                         return True               
                 result = RunWork(self.worklist    
                 if self.verbosity.verbose:        
                         print(glb_prog_name, "    
                 return result                     
                                                   
 def RunParallelPerf(a):                           
         pp = ParallelPerf(a)                      
         pp.Config()                               
         return pp.Run()                           
                                                   
 def Main(args):                                   
         ap = argparse.ArgumentParser(             
                 prog=glb_prog_name, formatter_    
                 description =                     
 """                                               
 Run a perf script command multiple times in pa    
 --cpu and --time so that each job processes a     
 """,                                              
                 epilog =                          
 """                                               
 Follow the options by '--' and then the perf s    
                                                   
         $ perf record -a -- sleep 10              
         $ parallel-perf.py --nr=4 -- perf scri    
         All jobs finished successfully            
         $ tree parallel-perf-output/              
         parallel-perf-output/                     
         ├── time-range-0                    
         │   ├── cmd.txt                 
         │   └── out.txt                 
         ├── time-range-1                    
         │   ├── cmd.txt                 
         │   └── out.txt                 
         ├── time-range-2                    
         │   ├── cmd.txt                 
         │   └── out.txt                 
         └── time-range-3                    
             ├── cmd.txt                     
             └── out.txt                     
         $ find parallel-perf-output -name cmd.    
         parallel-perf-output/time-range-0/cmd.    
         parallel-perf-output/time-range-1/cmd.    
         parallel-perf-output/time-range-2/cmd.    
         parallel-perf-output/time-range-3/cmd.    
                                                   
 Any perf script command can be used, including    
 --dlfilter and --script, so that the benefit o    
 naturally extends to them also.                   
                                                   
 If option --pipe-to is used, standard output i    
 command. Beware, if the command fails (e.g. gr    
 considered a fatal error.                         
                                                   
 Final standard output is redirected to files n    
 subdirectories under the output directory. Sim    
 written to files named err.txt. In addition, f    
 corresponding perf script command. After proce    
 if they are empty.                                
                                                   
 If any job exits with a non-zero exit code, th    
 more are started. A message is printed if any     
 err.txt file.                                     
                                                   
 There is a separate output subdirectory for ea    
 option is used, these are further grouped unde    
                                                   
         $ parallel-perf.py --per-cpu --nr=2 --    
         All jobs finished successfully            
         $ tree parallel-perf-output               
         parallel-perf-output/                     
         ├── cpu-0                           
         │   ├── time-range-0            
         │   │   ├── cmd.txt         
         │   │   └── out.txt         
         │   └── time-range-1            
         │       ├── cmd.txt             
         │       └── out.txt             
         └── cpu-1                           
             ├── time-range-0                
             │   ├── cmd.txt             
             │   └── out.txt             
             └── time-range-1                
                 ├── cmd.txt                 
                 └── out.txt                 
         $ find parallel-perf-output -name cmd.    
         parallel-perf-output/cpu-0/time-range-    
         parallel-perf-output/cpu-0/time-range-    
         parallel-perf-output/cpu-1/time-range-    
         parallel-perf-output/cpu-1/time-range-    
                                                   
 Subdivisions of time range, and cpus if the --    
 expressed by the --time and --cpu perf script     
 supplied perf script command has a --time opti    
 subdivided, otherwise the time range given by     
 'time of last sample' is used (refer perf scri    
 supplied perf script command may provide a --c    
 will be processed.                                
                                                   
 To prevent time intervals becoming too small,     
 be used.                                          
                                                   
 Note there is special handling for processing     
 not specified and the perf record command cont    
 time range will be subdivided in order to prod    
 approximately the same amount of trace data. T    
 double-quick (--itrace=qqi) samples, and choos    
 approximately the same number of samples. In t    
 the same for each CPU processed. For Intel PT,    
 that can be overridden by --no-per-cpu. Note,     
 decoding produces 1 sample for each PSB synchr    
 come after a certain number of bytes output, d    
 perf Intel PT documentation). The minimum numb    
 will define a time range can be set by the --m    
 64.                                               
 """)                                              
         ap.add_argument("-o", "--output-dir",     
         ap.add_argument("-j", "--jobs", type=i    
         ap.add_argument("-n", "--nr", type=int    
         ap.add_argument("-i", "--interval", ty    
         ap.add_argument("-c", "--per-cpu", act    
         ap.add_argument("-m", "--min-interval"    
         ap.add_argument("-p", "--pipe-to", hel    
         ap.add_argument("-N", "--no-per-cpu",     
         ap.add_argument("-b", "--min_size", ty    
         ap.add_argument("-D", "--dry-run", act    
         ap.add_argument("-q", "--quiet", actio    
         ap.add_argument("-v", "--verbose", act    
         ap.add_argument("-d", "--debug", actio    
         cmd_line = list(args)                     
         try:                                      
                 split_pos = cmd_line.index("--    
                 cmd = cmd_line[split_pos + 1:]    
                 args = cmd_line[:split_pos]       
         except:                                   
                 cmd = None                        
                 args = cmd_line                   
         a = ap.parse_args(args=args[1:])          
         a.cmd = cmd                               
         a.verbosity = Verbosity(a.quiet, a.ver    
         try:                                      
                 if a.cmd == None:                 
                         if len(args) <= 1:        
                                 ap.print_help(    
                                 return True       
                         raise Exception("Comma    
                 return RunParallelPerf(a)         
         except Exception as e:                    
                 print("Fatal error: ", str(e))    
                 if a.debug:                       
                         raise                     
                 return False                      
                                                   
 if __name__ == "__main__":                        
         if not Main(sys.argv):                    
                 sys.exit(1)                       
                                                      

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