# -*- coding: utf-8 -*- # Copyright 2013 The ChromiumOS Authors # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. """Machine Manager module.""" import collections import hashlib import math import os.path import re import sys import threading import time from cros_utils import command_executer from cros_utils import logger import file_lock_machine import image_chromeos import test_flag CHECKSUM_FILE = "/usr/local/osimage_checksum_file" class BadChecksum(Exception): """Raised if all machines for a label don't have the same checksum.""" class BadChecksumString(Exception): """Raised if all machines for a label don't have the same checksum string.""" class MissingLocksDirectory(Exception): """Raised when cannot find/access the machine locks directory.""" class CrosCommandError(Exception): """Raised when an error occurs running command on DUT.""" class CrosMachine(object): """The machine class.""" def __init__(self, name, chromeos_root, log_level, cmd_exec=None): self.name = name self.image = None # We relate a dut with a label if we reimage the dut using label or we # detect at the very beginning that the dut is running this label. self.label = None self.checksum = None self.locked = False self.released_time = time.time() self.test_run = None self.chromeos_root = chromeos_root self.log_level = log_level self.cpuinfo = None self.machine_id = None self.checksum_string = None self.meminfo = None self.phys_kbytes = None self.cooldown_wait_time = 0 self.ce = cmd_exec or command_executer.GetCommandExecuter( log_level=self.log_level ) self.SetUpChecksumInfo() def SetUpChecksumInfo(self): if not self.IsReachable(): self.machine_checksum = None return self._GetMemoryInfo() self._GetCPUInfo() self._ComputeMachineChecksumString() self._GetMachineID() self.machine_checksum = self._GetMD5Checksum(self.checksum_string) self.machine_id_checksum = self._GetMD5Checksum(self.machine_id) def IsReachable(self): command = "ls" ret = self.ce.CrosRunCommand( command, machine=self.name, chromeos_root=self.chromeos_root ) if ret: return False return True def AddCooldownWaitTime(self, wait_time): self.cooldown_wait_time += wait_time def GetCooldownWaitTime(self): return self.cooldown_wait_time def _ParseMemoryInfo(self): line = self.meminfo.splitlines()[0] usable_kbytes = int(line.split()[1]) # This code is from src/third_party/test/files/client/bin/base_utils.py # usable_kbytes is system's usable DRAM in kbytes, # as reported by memtotal() from device /proc/meminfo memtotal # after Linux deducts 1.5% to 9.5% for system table overhead # Undo the unknown actual deduction by rounding up # to next small multiple of a big power-of-two # eg 12GB - 5.1% gets rounded back up to 12GB mindeduct = 0.005 # 0.5 percent maxdeduct = 0.095 # 9.5 percent # deduction range 1.5% .. 9.5% supports physical mem sizes # 6GB .. 12GB in steps of .5GB # 12GB .. 24GB in steps of 1 GB # 24GB .. 48GB in steps of 2 GB ... # Finer granularity in physical mem sizes would require # tighter spread between min and max possible deductions # increase mem size by at least min deduction, without rounding min_kbytes = int(usable_kbytes / (1.0 - mindeduct)) # increase mem size further by 2**n rounding, by 0..roundKb or more round_kbytes = int(usable_kbytes / (1.0 - maxdeduct)) - min_kbytes # find least binary roundup 2**n that covers worst-cast roundKb mod2n = 1 << int(math.ceil(math.log(round_kbytes, 2))) # have round_kbytes <= mod2n < round_kbytes*2 # round min_kbytes up to next multiple of mod2n phys_kbytes = min_kbytes + mod2n - 1 phys_kbytes -= phys_kbytes % mod2n # clear low bits self.phys_kbytes = phys_kbytes def _GetMemoryInfo(self): # TODO yunlian: when the machine in rebooting, it will not return # meminfo, the assert does not catch it either command = "cat /proc/meminfo" ret, self.meminfo, _ = self.ce.CrosRunCommandWOutput( command, machine=self.name, chromeos_root=self.chromeos_root ) assert ret == 0, "Could not get meminfo from machine: %s" % self.name if ret == 0: self._ParseMemoryInfo() def _GetCPUInfo(self): command = "cat /proc/cpuinfo" ret, self.cpuinfo, _ = self.ce.CrosRunCommandWOutput( command, machine=self.name, chromeos_root=self.chromeos_root ) assert ret == 0, "Could not get cpuinfo from machine: %s" % self.name def _ComputeMachineChecksumString(self): self.checksum_string = "" # Some lines from cpuinfo have to be excluded because they are not # persistent across DUTs. # MHz, BogoMIPS are dynamically changing values. # core id, apicid are identifiers assigned on startup # and may differ on the same type of machine. exclude_lines_list = [ "MHz", "BogoMIPS", "bogomips", "core id", "apicid", ] for line in self.cpuinfo.splitlines(): if not any(e in line for e in exclude_lines_list): self.checksum_string += line self.checksum_string += " " + str(self.phys_kbytes) def _GetMD5Checksum(self, ss): if ss: return hashlib.md5(ss.encode("utf-8")).hexdigest() return "" def _GetMachineID(self): command = "dump_vpd_log --full --stdout" _, if_out, _ = self.ce.CrosRunCommandWOutput( command, machine=self.name, chromeos_root=self.chromeos_root ) b = if_out.splitlines() a = [l for l in b if "Product" in l] if a: self.machine_id = a[0] return command = "ifconfig" _, if_out, _ = self.ce.CrosRunCommandWOutput( command, machine=self.name, chromeos_root=self.chromeos_root ) b = if_out.splitlines() a = [l for l in b if "HWaddr" in l] if a: self.machine_id = "_".join(a) return a = [l for l in b if "ether" in l] if a: self.machine_id = "_".join(a) return assert 0, "Could not get machine_id from machine: %s" % self.name def __str__(self): l = [] l.append(self.name) l.append(str(self.image)) l.append(str(self.checksum)) l.append(str(self.locked)) l.append(str(self.released_time)) return ", ".join(l) class MachineManager(object): """Lock, image and unlock machines locally for benchmark runs. This class contains methods and calls to lock, unlock and image machines and distribute machines to each benchmark run. The assumption is that all of the machines for the experiment have been globally locked in the ExperimentRunner, but the machines still need to be locally locked/unlocked (allocated to benchmark runs) to prevent multiple benchmark runs within the same experiment from trying to use the same machine at the same time. """ def __init__( self, chromeos_root, acquire_timeout, log_level, locks_dir, cmd_exec=None, lgr=None, ): self._lock = threading.RLock() self._all_machines = [] self._machines = [] self.image_lock = threading.Lock() self.num_reimages = 0 self.chromeos_root = None self.machine_checksum = {} self.machine_checksum_string = {} self.acquire_timeout = acquire_timeout self.log_level = log_level self.locks_dir = locks_dir self.ce = cmd_exec or command_executer.GetCommandExecuter( log_level=self.log_level ) self.logger = lgr or logger.GetLogger() if self.locks_dir and not os.path.isdir(self.locks_dir): raise MissingLocksDirectory( "Cannot access locks directory: %s" % self.locks_dir ) self._initialized_machines = [] self.chromeos_root = chromeos_root def RemoveNonLockedMachines(self, locked_machines): for m in self._all_machines: if m.name not in locked_machines: self._all_machines.remove(m) for m in self._machines: if m.name not in locked_machines: self._machines.remove(m) def GetChromeVersion(self, machine): """Get the version of Chrome running on the DUT.""" cmd = "/opt/google/chrome/chrome --version" ret, version, _ = self.ce.CrosRunCommandWOutput( cmd, machine=machine.name, chromeos_root=self.chromeos_root ) if ret != 0: raise CrosCommandError( "Couldn't get Chrome version from %s." % machine.name ) if ret != 0: version = "" return version.rstrip() def ImageMachine(self, machine, label): checksum = label.checksum if checksum and (machine.checksum == checksum): return chromeos_root = label.chromeos_root if not chromeos_root: chromeos_root = self.chromeos_root image_chromeos_args = [ image_chromeos.__file__, "--no_lock", "--chromeos_root=%s" % chromeos_root, "--image=%s" % label.chromeos_image, "--image_args=%s" % label.image_args, "--remote=%s" % machine.name, "--logging_level=%s" % self.log_level, ] if label.board: image_chromeos_args.append("--board=%s" % label.board) # Currently can't image two machines at once. # So have to serialized on this lock. save_ce_log_level = self.ce.log_level if self.log_level != "verbose": self.ce.log_level = "average" with self.image_lock: if self.log_level != "verbose": self.logger.LogOutput("Pushing image onto machine.") self.logger.LogOutput( "Running image_chromeos.DoImage with %s" % " ".join(image_chromeos_args) ) retval = 0 if not test_flag.GetTestMode(): retval = image_chromeos.DoImage(image_chromeos_args) if retval: cmd = "reboot && exit" if self.log_level != "verbose": self.logger.LogOutput("reboot & exit.") self.ce.CrosRunCommand( cmd, machine=machine.name, chromeos_root=self.chromeos_root ) time.sleep(60) if self.log_level != "verbose": self.logger.LogOutput("Pushing image onto machine.") self.logger.LogOutput( "Running image_chromeos.DoImage with %s" % " ".join(image_chromeos_args) ) retval = image_chromeos.DoImage(image_chromeos_args) if retval: raise RuntimeError( "Could not image machine: '%s'." % machine.name ) self.num_reimages += 1 machine.checksum = checksum machine.image = label.chromeos_image machine.label = label if not label.chrome_version: label.chrome_version = self.GetChromeVersion(machine) self.ce.log_level = save_ce_log_level return retval def ComputeCommonCheckSum(self, label): # Since this is used for cache lookups before the machines have been # compared/verified, check here to make sure they all have the same # checksum (otherwise the cache lookup may not be valid). base = None for machine in self.GetMachines(label): # Make sure the machine's checksums are calculated. if not machine.machine_checksum: machine.SetUpChecksumInfo() # Use the first machine as the basis for comparison. if not base: base = machine # Make sure this machine's checksum matches our 'common' checksum. if base.machine_checksum != machine.machine_checksum: # Found a difference. Fatal error. # Extract non-matching part and report it. for mismatch_index in range(len(base.checksum_string)): if ( mismatch_index >= len(machine.checksum_string) or base.checksum_string[mismatch_index] != machine.checksum_string[mismatch_index] ): break # We want to show some context after the mismatch. end_ind = mismatch_index + 8 # Print a mismatching string. raise BadChecksum( "Machine checksums do not match!\n" "Diff:\n" f"{base.name}: {base.checksum_string[:end_ind]}\n" f"{machine.name}: {machine.checksum_string[:end_ind]}\n" "\nCheck for matching /proc/cpuinfo and /proc/meminfo on DUTs.\n" ) self.machine_checksum[label.name] = base.machine_checksum def ComputeCommonCheckSumString(self, label): # The assumption is that this function is only called AFTER # ComputeCommonCheckSum, so there is no need to verify the machines # are the same here. If this is ever changed, this function should be # modified to verify that all the machines for a given label are the # same. for machine in self.GetMachines(label): if machine.checksum_string: self.machine_checksum_string[ label.name ] = machine.checksum_string break def _TryToLockMachine(self, cros_machine): with self._lock: assert cros_machine, "Machine can't be None" for m in self._machines: if m.name == cros_machine.name: return locked = True if self.locks_dir: locked = file_lock_machine.Machine( cros_machine.name, self.locks_dir ).Lock(True, sys.argv[0]) if locked: self._machines.append(cros_machine) command = "cat %s" % CHECKSUM_FILE ret, out, _ = self.ce.CrosRunCommandWOutput( command, chromeos_root=self.chromeos_root, machine=cros_machine.name, ) if ret == 0: cros_machine.checksum = out.strip() elif self.locks_dir: self.logger.LogOutput("Couldn't lock: %s" % cros_machine.name) # This is called from single threaded mode. def AddMachine(self, machine_name): with self._lock: for m in self._all_machines: assert m.name != machine_name, ( "Tried to double-add %s" % machine_name ) if self.log_level != "verbose": self.logger.LogOutput( "Setting up remote access to %s" % machine_name ) self.logger.LogOutput( "Checking machine characteristics for %s" % machine_name ) cm = CrosMachine(machine_name, self.chromeos_root, self.log_level) if cm.machine_checksum: self._all_machines.append(cm) def RemoveMachine(self, machine_name): with self._lock: self._machines = [ m for m in self._machines if m.name != machine_name ] if self.locks_dir: res = file_lock_machine.Machine( machine_name, self.locks_dir ).Unlock(True) if not res: self.logger.LogError( "Could not unlock machine: '%s'." % machine_name ) def ForceSameImageToAllMachines(self, label): machines = self.GetMachines(label) for m in machines: self.ImageMachine(m, label) m.SetUpChecksumInfo() def AcquireMachine(self, label): image_checksum = label.checksum machines = self.GetMachines(label) check_interval_time = 120 with self._lock: # Lazily external lock machines while self.acquire_timeout >= 0: for m in machines: new_machine = m not in self._all_machines self._TryToLockMachine(m) if new_machine: m.released_time = time.time() if self.GetAvailableMachines(label): break sleep_time = max( 1, min(self.acquire_timeout, check_interval_time) ) time.sleep(sleep_time) self.acquire_timeout -= sleep_time if self.acquire_timeout < 0: self.logger.LogFatal( "Could not acquire any of the " "following machines: '%s'" % ", ".join(machine.name for machine in machines) ) ### for m in self._machines: ### if (m.locked and time.time() - m.released_time < 10 and ### m.checksum == image_checksum): ### return None unlocked_machines = [ machine for machine in self.GetAvailableMachines(label) if not machine.locked ] for m in unlocked_machines: if image_checksum and m.checksum == image_checksum: m.locked = True m.test_run = threading.current_thread() return m for m in unlocked_machines: if not m.checksum: m.locked = True m.test_run = threading.current_thread() return m # This logic ensures that threads waiting on a machine will get a machine # with a checksum equal to their image over other threads. This saves time # when crosperf initially assigns the machines to threads by minimizing # the number of re-images. # TODO(asharif): If we centralize the thread-scheduler, we wont need this # code and can implement minimal reimaging code more cleanly. for m in unlocked_machines: if time.time() - m.released_time > 15: # The release time gap is too large, so it is probably in the start # stage, we need to reset the released_time. m.released_time = time.time() elif time.time() - m.released_time > 8: m.locked = True m.test_run = threading.current_thread() return m return None def GetAvailableMachines(self, label=None): if not label: return self._machines return [m for m in self._machines if m.name in label.remote] def GetMachines(self, label=None): if not label: return self._all_machines return [m for m in self._all_machines if m.name in label.remote] def ReleaseMachine(self, machine): with self._lock: for m in self._machines: if machine.name == m.name: assert m.locked, "Tried to double-release %s" % m.name m.released_time = time.time() m.locked = False m.status = "Available" break def Cleanup(self): with self._lock: # Unlock all machines (via file lock) for m in self._machines: res = file_lock_machine.Machine(m.name, self.locks_dir).Unlock( True ) if not res: self.logger.LogError( "Could not unlock machine: '%s'." % m.name ) def __str__(self): with self._lock: l = ["MachineManager Status:"] + [str(m) for m in self._machines] return "\n".join(l) def AsString(self): with self._lock: stringify_fmt = "%-30s %-10s %-4s %-25s %-32s" header = stringify_fmt % ( "Machine", "Thread", "Lock", "Status", "Checksum", ) table = [header] for m in self._machines: if m.test_run: test_name = m.test_run.name test_status = m.test_run.timeline.GetLastEvent() else: test_name = "" test_status = "" try: machine_string = stringify_fmt % ( m.name, test_name, m.locked, test_status, m.checksum, ) except ValueError: machine_string = "" table.append(machine_string) return "Machine Status:\n%s" % "\n".join(table) def GetAllCPUInfo(self, labels): """Get cpuinfo for labels, merge them if their cpuinfo are the same.""" dic = collections.defaultdict(list) for label in labels: for machine in self._all_machines: if machine.name in label.remote: dic[machine.cpuinfo].append(label.name) break output_segs = [] for key, v in dic.items(): output = " ".join(v) output += "\n-------------------\n" output += key output += "\n\n\n" output_segs.append(output) return "".join(output_segs) def GetAllMachines(self): return self._all_machines class MockCrosMachine(CrosMachine): """Mock cros machine class.""" # pylint: disable=super-init-not-called MEMINFO_STRING = """MemTotal: 3990332 kB MemFree: 2608396 kB Buffers: 147168 kB Cached: 811560 kB SwapCached: 0 kB Active: 503480 kB Inactive: 628572 kB Active(anon): 174532 kB Inactive(anon): 88576 kB Active(file): 328948 kB Inactive(file): 539996 kB Unevictable: 0 kB Mlocked: 0 kB SwapTotal: 5845212 kB SwapFree: 5845212 kB Dirty: 9384 kB Writeback: 0 kB AnonPages: 173408 kB Mapped: 146268 kB Shmem: 89676 kB Slab: 188260 kB SReclaimable: 169208 kB SUnreclaim: 19052 kB KernelStack: 2032 kB PageTables: 7120 kB NFS_Unstable: 0 kB Bounce: 0 kB WritebackTmp: 0 kB CommitLimit: 7840376 kB Committed_AS: 1082032 kB VmallocTotal: 34359738367 kB VmallocUsed: 364980 kB VmallocChunk: 34359369407 kB DirectMap4k: 45824 kB DirectMap2M: 4096000 kB """ CPUINFO_STRING = """processor: 0 vendor_id: GenuineIntel cpu family: 6 model: 42 model name: Intel(R) Celeron(R) CPU 867 @ 1.30GHz stepping: 7 microcode: 0x25 cpu MHz: 1300.000 cache size: 2048 KB physical id: 0 siblings: 2 core id: 0 cpu cores: 2 apicid: 0 initial apicid: 0 fpu: yes fpu_exception: yes cpuid level: 13 wp: yes flags: fpu vme de pse tsc msr pae mce cx8 apic sep mtrr pge mca cmov pat pse36 clflush dts acpi mmx fxsr sse sse2 ss ht tm pbe syscall nx rdtscp lm constant_tsc arch_perfmon pebs bts rep_good nopl xtopology nonstop_tsc aperfmperf pni pclmulqdq dtes64 monitor ds_cpl vmx est tm2 ssse3 cx16 xtpr pdcm pcid sse4_1 sse4_2 x2apic popcnt tsc_deadline_timer xsave lahf_lm arat epb xsaveopt pln pts dts tpr_shadow vnmi flexpriority ept vpid bogomips: 2594.17 clflush size: 64 cache_alignment: 64 address sizes: 36 bits physical, 48 bits virtual power management: processor: 1 vendor_id: GenuineIntel cpu family: 6 model: 42 model name: Intel(R) Celeron(R) CPU 867 @ 1.30GHz stepping: 7 microcode: 0x25 cpu MHz: 1300.000 cache size: 2048 KB physical id: 0 siblings: 2 core id: 1 cpu cores: 2 apicid: 2 initial apicid: 2 fpu: yes fpu_exception: yes cpuid level: 13 wp: yes flags: fpu vme de pse tsc msr pae mce cx8 apic sep mtrr pge mca cmov pat pse36 clflush dts acpi mmx fxsr sse sse2 ss ht tm pbe syscall nx rdtscp lm constant_tsc arch_perfmon pebs bts rep_good nopl xtopology nonstop_tsc aperfmperf pni pclmulqdq dtes64 monitor ds_cpl vmx est tm2 ssse3 cx16 xtpr pdcm pcid sse4_1 sse4_2 x2apic popcnt tsc_deadline_timer xsave lahf_lm arat epb xsaveopt pln pts dts tpr_shadow vnmi flexpriority ept vpid bogomips: 2594.17 clflush size: 64 cache_alignment: 64 address sizes: 36 bits physical, 48 bits virtual power management: """ def __init__(self, name, chromeos_root, log_level): self.name = name self.image = None self.checksum = None self.locked = False self.released_time = time.time() self.test_run = None self.chromeos_root = chromeos_root self.checksum_string = re.sub(r"\d", "", name) # In test, we assume "lumpy1", "lumpy2" are the same machine. self.machine_checksum = self._GetMD5Checksum(self.checksum_string) self.log_level = log_level self.label = None self.cooldown_wait_time = 0 self.ce = command_executer.GetCommandExecuter(log_level=self.log_level) self._GetCPUInfo() def IsReachable(self): return True def _GetMemoryInfo(self): self.meminfo = self.MEMINFO_STRING self._ParseMemoryInfo() def _GetCPUInfo(self): self.cpuinfo = self.CPUINFO_STRING class MockMachineManager(MachineManager): """Mock machine manager class.""" def __init__(self, chromeos_root, acquire_timeout, log_level, locks_dir): super(MockMachineManager, self).__init__( chromeos_root, acquire_timeout, log_level, locks_dir ) def _TryToLockMachine(self, cros_machine): self._machines.append(cros_machine) cros_machine.checksum = "" def AddMachine(self, machine_name): with self._lock: for m in self._all_machines: assert m.name != machine_name, ( "Tried to double-add %s" % machine_name ) cm = MockCrosMachine( machine_name, self.chromeos_root, self.log_level ) assert cm.machine_checksum, ( "Could not find checksum for machine %s" % machine_name ) # In Original MachineManager, the test is 'if cm.machine_checksum:' - if a # machine is unreachable, then its machine_checksum is None. Here we # cannot do this, because machine_checksum is always faked, so we directly # test cm.IsReachable, which is properly mocked. if cm.IsReachable(): self._all_machines.append(cm) def GetChromeVersion(self, machine): return "Mock Chrome Version R50" def AcquireMachine(self, label): for machine in self._all_machines: if not machine.locked: machine.locked = True return machine return None def ImageMachine(self, machine, label): if machine or label: return 0 return 1 def ReleaseMachine(self, machine): machine.locked = False def GetMachines(self, label=None): return self._all_machines def GetAvailableMachines(self, label=None): return self._all_machines def ForceSameImageToAllMachines(self, label=None): return 0 def ComputeCommonCheckSum(self, label=None): common_checksum = 12345 for machine in self.GetMachines(label): machine.machine_checksum = common_checksum self.machine_checksum[label.name] = common_checksum def GetAllMachines(self): return self._all_machines