def run_analysis(options):
# Get our FTP IP
try:
ftp_ip = NET.get_ip_address(options.ftp_interface)
except:
logger.error("Could not find ip for the given interface. (%s)"%
options.ftp_interface)
# Add a sensors to physical machines if needed
if options.machine_type == G.MACHINE_TYPES.PHYSICAL:
has_memory = has_disk = False
if options.machine_config is None:
logger.error("No machine config file given.")
return
# This isn't the class we use in practice, but fake it here for simplicity
machines = CONF.import_from_config(options.machine_config, "machine")
if options.machine not in machines:
logger.error("%s is not a valid machine from the config file."%options.machine)
logger.error("Valid targets are: %s"%machines.keys())
return
# Get our machine object
machine = machines[options.machine]
# Ensure that a sensor config is defined
if options.sensor_config is None:
logger.error("A sensor config file must be defined for physical analysis")
return
# Get the list of sensors
sensors = CONF.import_from_config(options.sensor_config, "sensor")
# Add sensors to our machine
print "* Trying to find physical sensors for %s..."%options.machine
added_sensors = machine.add_sensors(sensors)
else:
machine = VirtualMachine(options.machine,
vm_type=options.machine_type,
volatility_profile=options.profile)
ftp_info = {'user':G.FTP_USER,
'pass':G.FTP_PASSWORD,
'ip':ftp_ip,
'port':G.FTP_PORT,
'dir':None
}
print "* Machine is: %s"%machine.power_status()
ra = RemoteAnalysis(options.profile, machine.control, ftp_info)
parameters = {
# 1:'INTmark (write)',
# 2:'INTmark (Read)',
3:'INTmem',
# 4:'FLOATmark (write)',
# 5:'FLOATmark (Read)',
6:'FLOATmem',
# 7:'MMXmark (write)',
# 8:'MMXmark (Read)',
9:'MMXmem',
# 10:'SSEmark (write)',
# 11:'SSEmark (Read)',
12:'SSEmem'
}
# Create a run for all of our parameters (Only *mem will run in batches)
for b_param in parameters:
# Should we be reading memory?
if options.enable_sensor:
memory_thread = MemoryThread(machine)
memory_thread.daemon = True
memory_thread.start()
param_name = parameters[b_param]
print "* Running %s test, %d times..."%(param_name,
options.run_count)
response = ra.run_analysis("ramspeed-win32.exe -b %d -l %d"%(
b_param,
options.run_count),
"artifacts-memory",
init_commands=[],
bind_ip=ftp_ip)
# Now store our results
results_file = os.path.join(options.output_dir,
"trial_b%d_l%d.txt"%(b_param,
options.run_count))
sensor_file = os.path.join(options.output_dir,
"trial_b%d_l%d_sensor.txt"%(b_param,
options.run_count))
print "* Storing results (%d bytes) in %s."%(len(response),results_file)
f = open(results_file, "w+")
f.write(response)
f.close()
if options.enable_sensor:
(time_elapsed, bytes_read) = memory_thread.join()
f = open(sensor_file, "w+")
f.write(str(time_elapsed)+"\t"+str(bytes_read))
f.close()
def run(self):
logger.info("Started LO-PHI analysis scheduler. (PID: %d)" %
os.getpid())
# Loop forever, consuming analyses and assigning machines to them
while True:
# Cleanup any previous analysis
self._cleanup_pointers()
# Get an analysis
(analysis_file, command) = self.analysis_queue.get()
# Initialize our analysis
AnalysisClass = self.load_analysis(analysis_file)
analysis = LoPhiAnalysisEngine(running_dict=ANALYSIS_STATUS,
services_host=SERVICES_HOST)
ANALYSIS_QUEUED.append(analysis.id)
if command.machine is None:
logger.debug("Got Analysis: %s" % AnalysisClass)
machine_name = self.machine_queue.get()
machine = self.machine_list[machine_name]
logger.debug("Got Machine: %s" % machine)
analysis.start(AnalysisClass,
lophi_command=command,
machine_name=machine_name,
machine_list=self.machine_list,
machine_queue=self.machine_queue)
else:
logger.debug("Got Machine: %s" % command.machine)
# Did the user define a machine?
machine_name = command.machine
if machine_name in self.machine_list.keys():
# Get our machine
machine = self.machine_list[machine_name]
if machine.ALLOCATED >= 0:
logger.warning(
"Machine (%s) is already allocated to %d." %
(machine.config.name, machine.ALLOCATED))
# Check to see if a vm with this name exists
elif command.machine_type != G.MACHINE_TYPES.PHYSICAL:
# Init a VM object
vm = VirtualMachine(command.machine, command.machine_type)
if vm.power_status(
) == G.SENSOR_CONTROL.POWER_STATUS.UNKNOWN:
logger.error("Virtual machine (%s) does not exist." %
command.machine)
return False
else:
machine = vm
else:
logger.error("Could not find machine: %s" % machine_name)
return False
analysis.start(AnalysisClass,
lophi_command=command,
machine=machine)
# Update our dict
# This is neccesary to keep a pointer to the analysis so that the
# scheduler won't kill the thread
self.ANALYSIS_DICT.update({analysis.id: analysis})
# Print some status
print "* Starting analysis (%s) on machine (%s)." % (
AnalysisClass.NAME, machine.config.name)
time.sleep(1)
def __init__(self, options, positionals):
"""
Initialize our controller. This includes initializing all of the
configurations and opening all of the appropriate logfiles.
"""
# Set our port to bind to
self._sock = None
self.PORT_NUM = options.port
# AMQP Host (Only used to hand off to analysis
self.services_host = options.services_host
# What config file are we loading?
sensor_config_file = options.sensor_config_file
# What config file are we loading?
machine_config_file = options.machine_config_file
# Disk images config file
images_config_file = options.images_config_file
# Import our available sensors
logger.debug("Importing sensor config file (%s)" % sensor_config_file)
self.sensor_list = Configs.import_from_config(sensor_config_file,
"sensor")
# Import our available machines
logger.debug("Importing machine config file (%s)" %
machine_config_file)
self.machine_list = Configs.import_from_config(machine_config_file,
"machine")
# Import our image mappings
logger.debug("Importing images config file (%s)" % images_config_file)
self.images_map = Configs.import_from_config(images_config_file,
"images")
# Provision the number of requested VMs
print "* Initializing %d virtual machines..." % options.vm_count
for x in range(0, options.vm_count):
tmp_name = "lophi-%d" % x
self.machine_list[tmp_name] = VirtualMachine(tmp_name,
force_new=True)
# Build our dictionary of queues
# This queues are handed to analysis for scheduling
self.MACHINE_QUEUES = {}
self.ANALYSIS_SCHEDULER = {}
print "* Assigning sensors to machines, and configure machines"
for m in self.machine_list:
# Setup their image maps
self.machine_list[m].add_image_map( \
self.images_map[self.machine_list[m].type])
# Add sensors and PXE server to physical machines
if self.machine_list[m].type == G.MACHINE_TYPES.PHYSICAL:
# Add sensors
self.machine_list[m].add_sensors(self.sensor_list)
# Add pxe_server
from lophinet.pxeserver import PXEServer
pxe_server = PXEServer(options.pxe_server)
self.machine_list[m].add_pxe_server(pxe_server)
manager = multiprocessing.Manager()
for m in self.machine_list:
# Get our indices
t = self.machine_list[m].type
# New queue?
if t not in self.MACHINE_QUEUES:
machine_queue = manager.Queue()
self.MACHINE_QUEUES[t] = machine_queue
self.ANALYSIS_SCHEDULER[t] = LophiScheduler(
self.machine_list, machine_queue)
self.ANALYSIS_SCHEDULER[t].start()
# Add to queue
self.MACHINE_QUEUES[t].put(m)
# Ensure that we can share this list with our analysis threads
# self.machine_list = multiprocessing.Manager().dict(self.machine_list)
# Setup our FTP info
self.ftp_ip_physical = self.ftp_ip_virtual = None
try:
self.ftp_ip_physical = NET.get_ip_address(options.ftp_physical)
except:
logger.error("Could not find ip for physical FTP interface. (%s)" %
options.ftp_physical)
try:
self.ftp_ip_virtual = NET.get_ip_address(options.ftp_virtual)
except:
logger.error("Could not find ip for virtual FTP interface. (%s)" %
options.ftp_virtual)
# Server stuff
self.RUNNING = True
# Init our multiprocess
multiprocessing.Process.__init__(self)
"""
def run(self):
logger.info("Started LO-PHI analysis scheduler. (PID: %d)"%os.getpid())
# Loop forever, consuming analyses and assigning machines to them
while True:
# Cleanup any previous analysis
self._cleanup_pointers()
# Get an analysis
(analysis_file, command) = self.analysis_queue.get()
# Initialize our analysis
AnalysisClass = self.load_analysis(analysis_file)
analysis = LoPhiAnalysisEngine(running_dict=ANALYSIS_STATUS,
services_host=SERVICES_HOST)
ANALYSIS_QUEUED.append(analysis.id)
if command.machine is None:
logger.debug("Got Analysis: %s"%AnalysisClass)
machine_name = self.machine_queue.get()
machine = self.machine_list[machine_name]
logger.debug("Got Machine: %s"%machine)
analysis.start(AnalysisClass,
lophi_command=command,
machine_name=machine_name,
machine_list=self.machine_list,
machine_queue=self.machine_queue)
else:
logger.debug("Got Machine: %s"%command.machine)
# Did the user define a machine?
machine_name = command.machine
if machine_name in self.machine_list.keys():
# Get our machine
machine = self.machine_list[machine_name]
if machine.ALLOCATED >= 0:
logger.warning("Machine (%s) is already allocated to %d."%(machine.config.name,machine.ALLOCATED))
# Check to see if a vm with this name exists
elif command.machine_type != G.MACHINE_TYPES.PHYSICAL:
# Init a VM object
vm = VirtualMachine(command.machine,command.machine_type)
if vm.power_status() == G.SENSOR_CONTROL.POWER_STATUS.UNKNOWN:
logger.error("Virtual machine (%s) does not exist."%command.machine)
return False
else:
machine = vm
else:
logger.error("Could not find machine: %s"%machine_name)
return False
analysis.start(AnalysisClass,
lophi_command=command,
machine=machine)
# Update our dict
# This is neccesary to keep a pointer to the analysis so that the
# scheduler won't kill the thread
self.ANALYSIS_DICT.update({analysis.id: analysis})
# Print some status
print "* Starting analysis (%s) on machine (%s)."%(AnalysisClass.NAME,
machine.config.name)
time.sleep(1)
def run_analysis(options):
# Get our FTP IP
try:
ftp_ip = NET.get_ip_address(options.ftp_interface)
except:
logger.error("Could not find ip for the given interface. (%s)" %
options.ftp_interface)
# Add a sensors to physical machines if needed
if options.machine_type == G.MACHINE_TYPES.PHYSICAL:
has_memory = has_disk = False
if options.machine_config is None:
logger.error("No machine config file given.")
return
# This isn't the class we use in practice, but fake it here for simplicity
machines = CONF.import_from_config(options.machine_config, "machine")
if options.machine not in machines:
logger.error("%s is not a valid machine from the config file." %
options.machine)
logger.error("Valid targets are: %s" % machines.keys())
return
# Get our machine object
machine = machines[options.machine]
# Ensure that a sensor config is defined
if options.sensor_config is None:
logger.error(
"A sensor config file must be defined for physical analysis")
return
# Get the list of sensors
sensors = CONF.import_from_config(options.sensor_config, "sensor")
# Add sensors to our machine
print "Trying to find physical sensors for %s..." % options.machine
added_sensors = machine.add_sensors(sensors)
if options.enable_sensor:
machine.disk.sata_enable_all()
else:
machine = VirtualMachine(options.machine,
vm_type=options.machine_type,
volatility_profile=options.profile)
ftp_info = {
'user': G.FTP_USER,
'pass': G.FTP_PASSWORD,
'ip': ftp_ip,
'port': G.FTP_PORT,
'dir': None
}
print machine.power_status()
ra = RemoteAnalysis(options.profile, machine.control, ftp_info)
for trial in range(44, options.run_count):
print "Running trial #%d..." % trial
# Should we fire up our disk sensor?
# if options.enable_sensor:
# log_dcap_filename = os.path.join(options.output_dir,"trial_%d.dcap"%trial)
# log_dcap_queue = multiprocessing.Queue()
# log_dcap_writer = CaptureWriter(log_dcap_filename,
# log_dcap_queue)
# log_dcap_writer.start()
#
# dcap_engine = DiskCaptureEngine(machine, log_dcap_queue)
# dcap_engine.start()
iozone_cmd = "iozone.exe -a -g 2G -i 0 -i 1"
response = ra.run_analysis(
iozone_cmd,
None,
init_commands=["cd C:\Program Files\Benchmarks\Iozone3_414"],
bind_ip=ftp_ip)
f = open(os.path.join(options.output_dir, "trial_%d.txt" % trial),
"w+")
f.write(response)
f.close()
# if options.enable_sensor:
# dcap_engine.stop()
# log_dcap_writer.stop()
print response
def run_analysis(options):
# Get our FTP IP
try:
ftp_ip = NET.get_ip_address(options.ftp_interface)
except:
logger.error("Could not find ip for the given interface. (%s)" %
options.ftp_interface)
# Add a sensors to physical machines if needed
if options.machine_type == G.MACHINE_TYPES.PHYSICAL:
has_memory = has_disk = False
if options.machine_config is None:
logger.error("No machine config file given.")
return
# This isn't the class we use in practice, but fake it here for simplicity
machines = CONF.import_from_config(options.machine_config, "machine")
if options.machine not in machines:
logger.error("%s is not a valid machine from the config file." %
options.machine)
logger.error("Valid targets are: %s" % machines.keys())
return
# Get our machine object
machine = machines[options.machine]
# Ensure that a sensor config is defined
if options.sensor_config is None:
logger.error(
"A sensor config file must be defined for physical analysis")
return
# Get the list of sensors
sensors = CONF.import_from_config(options.sensor_config, "sensor")
# Add sensors to our machine
print "* Trying to find physical sensors for %s..." % options.machine
added_sensors = machine.add_sensors(sensors)
else:
machine = VirtualMachine(options.machine,
vm_type=options.machine_type,
volatility_profile=options.profile)
ftp_info = {
'user': G.FTP_USER,
'pass': G.FTP_PASSWORD,
'ip': ftp_ip,
'port': G.FTP_PORT,
'dir': None
}
print "* Machine is: %s" % machine.power_status()
ra = RemoteAnalysis(options.profile, machine.control, ftp_info)
parameters = {
# 1:'INTmark (write)',
# 2:'INTmark (Read)',
3: 'INTmem',
# 4:'FLOATmark (write)',
# 5:'FLOATmark (Read)',
6: 'FLOATmem',
# 7:'MMXmark (write)',
# 8:'MMXmark (Read)',
9: 'MMXmem',
# 10:'SSEmark (write)',
# 11:'SSEmark (Read)',
12: 'SSEmem'
}
# Create a run for all of our parameters (Only *mem will run in batches)
for b_param in parameters:
# Should we be reading memory?
if options.enable_sensor:
memory_thread = MemoryThread(machine)
memory_thread.daemon = True
memory_thread.start()
param_name = parameters[b_param]
print "* Running %s test, %d times..." % (param_name,
options.run_count)
response = ra.run_analysis("ramspeed-win32.exe -b %d -l %d" %
(b_param, options.run_count),
"artifacts-memory",
init_commands=[],
bind_ip=ftp_ip)
# Now store our results
results_file = os.path.join(
options.output_dir,
"trial_b%d_l%d.txt" % (b_param, options.run_count))
sensor_file = os.path.join(
options.output_dir,
"trial_b%d_l%d_sensor.txt" % (b_param, options.run_count))
print "* Storing results (%d bytes) in %s." % (len(response),
results_file)
f = open(results_file, "w+")
f.write(response)
f.close()
if options.enable_sensor:
(time_elapsed, bytes_read) = memory_thread.join()
f = open(sensor_file, "w+")
f.write(str(time_elapsed) + "\t" + str(bytes_read))
f.close()
def main(options):
"""
Implement your function here
"""
# Keep track of the type of analysis that is possible (for physical)
has_memory = has_disk = True
# Add a sensors to physical machines if needed
if options.machine_type == G.MACHINE_TYPES.PHYSICAL:
has_memory = has_disk = False
if options.machine_config is None:
logger.error("No machine config file given.")
return
# This isn't the class we use in practice, but fake it here for simplicity
machines = CONF.import_from_config(options.machine_config, "machine")
if options.machine not in machines:
logger.error("%s is not a valid machine from the config file." %
options.machine)
logger.error("Valid targets are: %s" % machines.keys())
return
# Get our machine object
machine = machines[options.machine]
# Ensure that a sensor config is defined
if options.sensor_config is None:
logger.error(
"A sensor config file must be defined for physical analysis")
return
# Get the list of sensors
sensors = CONF.import_from_config(options.sensor_config, "sensor")
# Add sensors to our machine
print "Trying to find physical sensors for %s..." % options.machine
added_sensors = machine.add_sensors(sensors)
# See which sensors were added
for sensor in added_sensors:
print "* Added %s to %s" % (sensor.id, machine.config.name)
if issubclass(sensor.__class__, MemorySensor):
has_memory = True
if issubclass(sensor.__class__, DiskSensor):
has_disk = True
else:
machine = VirtualMachine(options.machine,
vm_type=options.machine_type,
volatility_profile=options.volatility_profile)
if options.analysis is not None:
analysis = analysis_scripts[options.analysis]
lae = LoPhiAnalysisEngine()
lae.start(analysis[0], machine=machine)
print "Running Analysis (%s)..." % options.analysis
while True:
print "* The following commands are available"
print " p - Pause, r - Resume, s - Stop"
command = raw_input('cmd: ')
if command == "p":
lae.pause()
print "Analysis PAUSED."
elif command == "r":
lae.resume()
print "Analysis RESUMED."
elif command == "s":
lae.stop()
print "Analysis STOPPED."
sys.exit(0)
else:
print "Unrecognized command (%s)." % command
if False and has_memory:
print "Starting memory analysis"
# Create a queue and start our analysis
output_queue = multiprocessing.Queue()
mem_analysis = MemoryAnalysisEngine(machine,
output_queue,
plugins=['pslist'])
mem_cap = CaptureWriter("memory.cap", output_queue)
# mem_cap.start()
mem_analysis.start()
for i in range(10):
print output_queue.get()
# mem_cap.stop()
mem_analysis.stop()
if has_disk:
print "Starting disk analysis"
# create a queue and start analysis
output_queue = multiprocessing.Queue()
disk_analysis = DiskAnalysisEngine(machine, output_queue)
disk_cap = CaptureWriter("disk.cap", output_queue)
# disk_cap.start()
disk_analysis.start()
for i in range(100):
print output_queue.get()
# disk_cap.stop()
disk_analysis.stop()
def run_analysis(options):
# Get our FTP IP
try:
ftp_ip = NET.get_ip_address(options.ftp_interface)
except:
logger.error("Could not find ip for the given interface. (%s)"%
options.ftp_interface)
# Add a sensors to physical machines if needed
if options.machine_type == G.MACHINE_TYPES.PHYSICAL:
has_memory = has_disk = False
if options.machine_config is None:
logger.error("No machine config file given.")
return
# This isn't the class we use in practice, but fake it here for simplicity
machines = CONF.import_from_config(options.machine_config, "machine")
if options.machine not in machines:
logger.error("%s is not a valid machine from the config file."%options.machine)
logger.error("Valid targets are: %s"%machines.keys())
return
# Get our machine object
machine = machines[options.machine]
# Ensure that a sensor config is defined
if options.sensor_config is None:
logger.error("A sensor config file must be defined for physical analysis")
return
# Get the list of sensors
sensors = CONF.import_from_config(options.sensor_config, "sensor")
# Add sensors to our machine
print "Trying to find physical sensors for %s..."%options.machine
added_sensors = machine.add_sensors(sensors)
if options.enable_sensor:
machine.disk.sata_enable_all()
else:
machine = VirtualMachine(options.machine,
vm_type=options.machine_type,
volatility_profile=options.profile)
ftp_info = {'user':G.FTP_USER,
'pass':G.FTP_PASSWORD,
'ip':ftp_ip,
'port':G.FTP_PORT,
'dir':None
}
print machine.power_status()
ra = RemoteAnalysis(options.profile, machine.control, ftp_info)
for trial in range(44,options.run_count):
print "Running trial #%d..."%trial
# Should we fire up our disk sensor?
# if options.enable_sensor:
# log_dcap_filename = os.path.join(options.output_dir,"trial_%d.dcap"%trial)
# log_dcap_queue = multiprocessing.Queue()
# log_dcap_writer = CaptureWriter(log_dcap_filename,
# log_dcap_queue)
# log_dcap_writer.start()
#
# dcap_engine = DiskCaptureEngine(machine, log_dcap_queue)
# dcap_engine.start()
iozone_cmd = "iozone.exe -a -g 2G -i 0 -i 1"
response = ra.run_analysis(iozone_cmd,
None,
init_commands=["cd C:\Program Files\Benchmarks\Iozone3_414"],
bind_ip=ftp_ip)
f = open(os.path.join(options.output_dir,"trial_%d.txt"%trial), "w+")
f.write(response)
f.close()
# if options.enable_sensor:
# dcap_engine.stop()
# log_dcap_writer.stop()
print response
