def test_config_constructor(self):
config = Config()
self.assertEqual(len(config.keys()), 0)
config = Config({'foo': 'bar'})
self.assertEqual(len(config.keys()), 1)
self.assertEqual(config['foo'], 'bar')
def test_config_constructor(self):
config = Config()
self.assertEqual(len(config.keys()), 0)
config = Config({'foo': 'bar'})
self.assertEqual(len(config.keys()), 1)
self.assertEqual(config['foo'], 'bar')
def test_update_with_path_allowed_keys(self):
modname = setup_settings_file(SOME_DICT)
config = Config()
config.update_with_path(modname, allowed_keys=['VAR1'])
self.assertEqual(config, {'VAR1': 'val1'})
def test_update_with_path_new_keys(self):
modname = setup_settings_file(SOME_DICT)
config = Config({'VAR1': 'ORIGINAL'})
config.update_with_path(modname, only_new_keys=True)
self.assertEqual(config, {'VAR1': 'ORIGINAL', 'VAR2': 'val2'})
def __init__(self, thread_number=3,
network_try_limit=10, task_try_limit=10,
request_pause=NULL,
priority_mode='random',
meta=None,
only_cache=False,
config=None,
slave=False,
max_task_generator_chunk=None,
args=None,
# New options start here
waiting_shutdown_event=None,
taskq=None,
result_queue=None,
network_response_queue=None,
shutdown_event=None,
generator_done_event=None,
ng=False,
):
"""
Arguments:
* thread-number - Number of concurrent network streams
* network_try_limit - How many times try to send request
again if network error was occurred, use 0 to disable
* network_try_limit - Limit of tries to execute some task
this is not the same as network_try_limit
network try limit limits the number of tries which
are performed automatically in case of network timeout
of some other physical error
but task_try_limit limits the number of attempts which
are scheduled manually in the spider business logic
* priority_mode - could be "random" or "const"
* meta - arbitrary user data
* retry_rebuild_user_agent - generate new random user-agent for each
network request which is performed again due to network error
* args - command line arguments parsed with `setup_arg_parser` method
New options:
* waiting_shutdown_event=None,
* taskq=None,
* result_queue=None,
* newtork_response_queue=None,
* shutdown_event=None,
* generator_done_event=None):
"""
# New options starts
self.waiting_shutdown_event = waiting_shutdown_event
self.taskq = taskq
self.result_queue = result_queue
self.shutdown_event = shutdown_event
self.generator_done_event = generator_done_event
self.network_response_queue = network_response_queue
self.ng = ng
# New options ends
if args is None:
self.args = {}
else:
self.args = args
self.slave = slave
self.max_task_generator_chunk = max_task_generator_chunk
self.timers = {
'network-name-lookup': 0,
'network-connect': 0,
'network-total': 0,
}
self.time_points = {}
self.start_timer('total')
if config is not None:
self.config = config
else:
# Fix circular import error
from grab.util.config import Config
self.config = Config()
if meta:
self.meta = meta
else:
self.meta = {}
self.task_generator_enabled = False
self.only_cache = only_cache
self.thread_number = thread_number
self.counters = defaultdict(int)
self._grab_config = {}
self.items = {}
self.task_try_limit = task_try_limit
self.network_try_limit = network_try_limit
if priority_mode not in ['random', 'const']:
raise SpiderMisuseError('Value of priority_mode option should be '
'"random" or "const"')
else:
self.priority_mode = priority_mode
try:
signal.signal(signal.SIGUSR1, self.sigusr1_handler)
except (ValueError, AttributeError):
pass
try:
signal.signal(signal.SIGUSR2, self.sigusr2_handler)
except (ValueError, AttributeError):
pass
# Initial cache-subsystem values
self.cache_enabled = False
self.cache = None
self.work_allowed = True
if request_pause is not NULL:
logger.error('Option `request_pause` is deprecated and is not '
'supported anymore')
self.proxylist_enabled = None
self.proxylist = None
self.proxy = None
self.proxy_auto_change = False
# FIXIT: REMOVE
self.dump_spider_stats = None
self.controller = CommandController(self)
# snapshots contains information about spider's state
# for each 10 seconds interval
self.snapshots = {}
self.last_snapshot_values = {
'timestamp': 0,
'download-size': 0,
'upload-size': 0,
'download-size-with-cache': 0,
'request-count': 0,
}
self.snapshot_timestamps = []
self.snapshot_interval = self.config.get('GRAB_SNAPSHOT_CONFIG', {}).get('interval', 10)
self.snapshot_file = self.config.get('GRAB_SNAPSHOT_CONFIG', {}).get('file', None)
if self.snapshot_file:
open(self.snapshot_file, 'w').write('')
def test_update_with_path(self):
modname = setup_settings_file(SOME_DICT)
config = Config()
config.update_with_path(modname)
self.assertEqual(config, {'VAR1': 'val1', 'VAR2': 'val2'})
def test_update_with_dict_new_keys(self):
config = Config({'VAR1': 'ORIGINAL'})
config.update_with_object(SOME_DICT, only_new_keys=True)
self.assertEqual(config, {'VAR1': 'ORIGINAL', 'VAR2': 'val2'})
def test_update_with_object_allowed_keys(self):
config = Config({'VAR1': 'ORIGINAL'})
obj = SomeSettings()
config.update_with_object(obj, allowed_keys=['VAR1'])
self.assertEqual(config, {'VAR1': 'val1'})
def test_update_with_object(self):
config = Config()
obj = SomeSettings()
config.update_with_object(obj)
self.assertEqual(config, {'VAR1': 'val1', 'VAR2': 'val2'})
def test_update_with_object_allowed_keys(self):
config = Config({'VAR1': 'ORIGINAL'})
obj = SomeSettings()
config.update_with_object(obj, allowed_keys=['VAR1'])
self.assertEqual(config, {'VAR1': 'val1'})
def test_update_with_object_new_keys(self):
config = Config({'VAR1': 'ORIGINAL'})
obj = SomeSettings()
config.update_with_object(obj, only_new_keys=True)
self.assertEqual(config, {'VAR1': 'ORIGINAL', 'VAR2': 'val2'})
def test_update_with_object(self):
config = Config()
obj = SomeSettings()
config.update_with_object(obj)
self.assertEqual(config, {'VAR1': 'val1', 'VAR2': 'val2'})
def test_clone(self):
config = Config({'foo': 'bar'})
config2 = config.clone()
self.assertEqual(config, config2)
self.assertFalse(config is config2)
def test_update_with_path_allowed_keys(self):
modname = setup_settings_file(SOME_DICT)
config = Config()
config.update_with_path(modname, allowed_keys=['VAR1'])
self.assertEqual(config, {'VAR1': 'val1'})
def test_update_with_dict(self):
config = Config()
config.update_with_object(SOME_DICT)
self.assertEqual(config, {'VAR1': 'val1', 'VAR2': 'val2'})
def test_clone(self):
config = Config({'foo': 'bar'})
config2 = config.clone()
self.assertEqual(config, config2)
self.assertFalse(config is config2)
def test_update_with_dict_new_keys(self):
config = Config({'VAR1': 'ORIGINAL'})
config.update_with_object(SOME_DICT, only_new_keys=True)
self.assertEqual(config, {'VAR1': 'ORIGINAL', 'VAR2': 'val2'})
def test_update_with_object_new_keys(self):
config = Config({'VAR1': 'ORIGINAL'})
obj = SomeSettings()
config.update_with_object(obj, only_new_keys=True)
self.assertEqual(config, {'VAR1': 'ORIGINAL', 'VAR2': 'val2'})
def test_update_with_dict_allowed_keys(self):
config = Config({'VAR1': 'ORIGINAL'})
config.update_with_object(SOME_DICT, allowed_keys=['VAR1'])
self.assertEqual(config, {'VAR1': 'val1'})
def test_update_with_dict(self):
config = Config()
config.update_with_object(SOME_DICT)
self.assertEqual(config, {'VAR1': 'val1', 'VAR2': 'val2'})
def test_update_with_path(self):
modname = setup_settings_file(SOME_DICT)
config = Config()
config.update_with_path(modname)
self.assertEqual(config, {'VAR1': 'val1', 'VAR2': 'val2'})
def test_update_with_dict_allowed_keys(self):
config = Config({'VAR1': 'ORIGINAL'})
config.update_with_object(SOME_DICT, allowed_keys=['VAR1'])
self.assertEqual(config, {'VAR1': 'val1'})
def __init__(self, thread_number=3,
network_try_limit=10, task_try_limit=10,
request_pause=NULL,
priority_mode='random',
meta=None,
only_cache=False,
config=None,
slave=False,
max_task_generator_chunk=None,
# New options start here
waiting_shutdown_event=None,
taskq=None,
result_queue=None,
network_response_queue=None,
shutdown_event=None,
generator_done_event=None,
ng=False,
):
"""
Arguments:
* thread-number - Number of concurrent network streams
* network_try_limit - How many times try to send request
again if network error was occuried, use 0 to disable
* network_try_limit - Limit of tries to execute some task
this is not the same as network_try_limit
network try limit limits the number of tries which
are performed automaticall in case of network timeout
of some other physical error
but task_try_limit limits the number of attempts which
are scheduled manually in the spider business logic
* priority_mode - could be "random" or "const"
* meta - arbitrary user data
* retry_rebuid_user_agent - generate new random user-agent for each
network request which is performed again due to network error
New options:
* waiting_shutdown_event=None,
* taskq=None,
* result_queue=None,
* newtork_response_queue=None,
* shutdown_event=None,
* generator_done_event=None):
"""
# New options starts
self.waiting_shutdown_event = waiting_shutdown_event
self.taskq = taskq
self.result_queue = result_queue
self.shutdown_event = shutdown_event
self.generator_done_event = generator_done_event
self.network_response_queue = network_response_queue
self.ng = ng
# New options ends
self.slave = slave
self.max_task_generator_chunk = max_task_generator_chunk
self.timers = {}
self.time_points = {}
self.start_timer('total')
if config is not None:
self.config = config
else:
# Fix curcular import error
from grab.util.config import Config
self.config = Config()
if meta:
self.meta = meta
else:
self.meta = {}
self.task_generator_enabled = False
self.only_cache = only_cache
self.thread_number = thread_number
self.counters = defaultdict(int)
self.grab_config = {}
self.items = {}
self.task_try_limit = task_try_limit
self.network_try_limit = network_try_limit
if priority_mode not in ['random', 'const']:
raise SpiderMisuseError('Value of priority_mode option should be "random" or "const"')
else:
self.priority_mode = priority_mode
try:
signal.signal(signal.SIGUSR1, self.sigusr1_handler)
except (ValueError, AttributeError):
pass
try:
signal.signal(signal.SIGUSR2, self.sigusr2_handler)
except (ValueError, AttributeError):
pass
# Initial cache-subsystem values
self.cache_enabled = False
self.cache = None
self.work_allowed = True
if request_pause is not NULL:
logger.error('Option `request_pause` is deprecated and is not supported anymore')
self.proxylist_enabled = None
self.proxylist = None
self.proxy = None
self.proxy_auto_change = False
# FIXIT: REMOVE
self.dump_spider_stats = None
def test_update_with_path_new_keys(self):
modname = setup_settings_file(SOME_DICT)
config = Config({'VAR1': 'ORIGINAL'})
config.update_with_path(modname, only_new_keys=True)
self.assertEqual(config, {'VAR1': 'ORIGINAL', 'VAR2': 'val2'})
class Spider(SpiderMetaClassMixin, SpiderPattern, SpiderStat):
"""
Asynchronious scraping framework.
"""
# You can define here some urls and initial tasks
# with name "initial" will be created from these
# urls
# If the logic of generating initial tasks is complex
# then consider to use `task_generator` method instead of
# `initial_urls` attribute
initial_urls = None
# The base url which is used to resolve all relative urls
# The resolving takes place in `add_task` method
base_url = None
middlewares = []
middleware_points = {
'response': [],
}
class Meta:
# Meta.abstract means that this class whil not be
# collected to spider registry by `grab crawl` CLI command.
# The Meta is inherited by descendant classes BUT
# Meta.abstract is reset to False in each desendant
abstract = True
def __init__(self, thread_number=3,
network_try_limit=10, task_try_limit=10,
request_pause=NULL,
priority_mode='random',
meta=None,
only_cache=False,
config=None,
slave=False,
max_task_generator_chunk=None,
# New options start here
waiting_shutdown_event=None,
taskq=None,
result_queue=None,
network_response_queue=None,
shutdown_event=None,
generator_done_event=None,
ng=False,
):
"""
Arguments:
* thread-number - Number of concurrent network streams
* network_try_limit - How many times try to send request
again if network error was occuried, use 0 to disable
* network_try_limit - Limit of tries to execute some task
this is not the same as network_try_limit
network try limit limits the number of tries which
are performed automaticall in case of network timeout
of some other physical error
but task_try_limit limits the number of attempts which
are scheduled manually in the spider business logic
* priority_mode - could be "random" or "const"
* meta - arbitrary user data
* retry_rebuid_user_agent - generate new random user-agent for each
network request which is performed again due to network error
New options:
* waiting_shutdown_event=None,
* taskq=None,
* result_queue=None,
* newtork_response_queue=None,
* shutdown_event=None,
* generator_done_event=None):
"""
# New options starts
self.waiting_shutdown_event = waiting_shutdown_event
self.taskq = taskq
self.result_queue = result_queue
self.shutdown_event = shutdown_event
self.generator_done_event = generator_done_event
self.network_response_queue = network_response_queue
self.ng = ng
# New options ends
self.slave = slave
self.max_task_generator_chunk = max_task_generator_chunk
self.timers = {}
self.time_points = {}
self.start_timer('total')
if config is not None:
self.config = config
else:
# Fix curcular import error
from grab.util.config import Config
self.config = Config()
if meta:
self.meta = meta
else:
self.meta = {}
self.task_generator_enabled = False
self.only_cache = only_cache
self.thread_number = thread_number
self.counters = defaultdict(int)
self.grab_config = {}
self.items = {}
self.task_try_limit = task_try_limit
self.network_try_limit = network_try_limit
if priority_mode not in ['random', 'const']:
raise SpiderMisuseError('Value of priority_mode option should be "random" or "const"')
else:
self.priority_mode = priority_mode
try:
signal.signal(signal.SIGUSR1, self.sigusr1_handler)
except (ValueError, AttributeError):
pass
try:
signal.signal(signal.SIGUSR2, self.sigusr2_handler)
except (ValueError, AttributeError):
pass
# Initial cache-subsystem values
self.cache_enabled = False
self.cache = None
self.work_allowed = True
if request_pause is not NULL:
logger.error('Option `request_pause` is deprecated and is not supported anymore')
self.proxylist_enabled = None
self.proxylist = None
self.proxy = None
self.proxy_auto_change = False
# FIXIT: REMOVE
self.dump_spider_stats = None
def setup_middleware(self, middleware_list):
for item in middleware_list:
self.middlewares.append(item)
mod_path, cls_name = item.rsplit('.', 1)
mod = __import__(mod_path, None, None, ['foo'])
cls = getattr(mod, cls_name)
mid = cls()
if hasattr(mid, 'process_response'):
self.middleware_points['response'].append(mid)
def setup_cache(self, backend='mongo', database=None, use_compression=True, **kwargs):
if database is None:
raise SpiderMisuseError('setup_cache method requires database option')
self.cache_enabled = True
mod = __import__('grab.spider.cache_backend.%s' % backend,
globals(), locals(), ['foo'])
self.cache = mod.CacheBackend(database=database, use_compression=use_compression,
spider=self, **kwargs)
def setup_queue(self, backend='memory', **kwargs):
logger.debug('Using %s backend for task queue' % backend)
mod = __import__('grab.spider.queue_backend.%s' % backend,
globals(), locals(), ['foo'])
self.taskq = mod.QueueBackend(spider_name=self.get_name(),
**kwargs)
def prepare(self):
"""
You can do additional spider customizatin here
before it has started working. Simply redefine
this method in your Spider class.
"""
def sigusr1_handler(self, signal, frame):
"""
Catches SIGUSR1 signal and dumps current state
to temporary file
"""
with open('/tmp/spider.state', 'w') as out:
out.write(self.render_stats())
def sigusr2_handler(self, signal, frame):
"""
Catches SIGUSR1 signal and shutdowns spider.
"""
logger.error('Received SIGUSR2 signal. Doing shutdown')
self.stop()
def setup_grab(self, **kwargs):
self.grab_config.update(**kwargs)
def check_task_limits(self, task):
"""
Check that network/try counters are OK.
If one of counter is invalid then display error
and try to call fallback handler.
"""
is_valid = True
if not self.config.get('TASK_ENABLED', {}).get(task.name, True):
logger.debug('Task %s disabled via config' % task.name)
self.inc_count('task-disabled')
is_valid = False
elif task.task_try_count > self.task_try_limit:
logger.debug('Task tries (%d) ended: %s / %s' % (
self.task_try_limit, task.name, task.url))
self.add_item('too-many-task-tries', task.url)
is_valid = False
elif task.network_try_count > self.network_try_limit:
logger.debug('Network tries (%d) ended: %s / %s' % (
self.network_try_limit, task.name, task.url))
self.add_item('too-many-network-tries', task.url)
is_valid = False
return is_valid
def process_task_fallback(self, task):
try:
fallback_handler = getattr(self, 'task_%s_fallback' % task.name)
except AttributeError:
pass
else:
logger.error('task_*_fallback methods are deprecated! Do not use this feature please. It will be replaced with middleware layer')
fallback_handler(task)
def check_task_limits_deprecated(self, task):
is_valid = self.check_task_limits(task)
if not is_valid:
self.process_task_fallback(task)
return is_valid
def generate_task_priority(self):
if self.priority_mode == 'const':
return DEFAULT_TASK_PRIORITY
else:
return randint(*RANDOM_TASK_PRIORITY_RANGE)
def add_task(self, task):
"""
Add task to the task queue.
Abort the task which was restarted too many times.
"""
if self.taskq is None:
raise SpiderMisuseError('You should configure task queue before adding tasks. Use `setup_queue` method.')
if task.priority is None or not task.priority_is_custom:
task.priority = self.generate_task_priority()
task.priority_is_custom = False
else:
task.priority_is_custom = True
if not isinstance(task, NullTask):
if (not task.url.startswith('http://') and not task.url.startswith('https://')
and not task.url.startswith('ftp://')):
if self.base_url is None:
raise SpiderMisuseError('Could not resolve relative URL because base_url is not specified. Task: %s, URL: %s' % (task.name, task.url))
else:
task.url = urljoin(self.base_url, task.url)
# If task has grab_config object then update it too
if task.grab_config:
task.grab_config['url'] = task.url
if self.config.get('TASK_REFRESH_CACHE', {}).get(task.name, False):
task.refresh_cache = True
is_valid = False
is_valid = self.check_task_limits_deprecated(task)
if is_valid:
# TODO: keep original task priority if it was set explicitly
self.taskq.put(task, task.priority, schedule_time=task.schedule_time)
else:
self.add_item('task-could-not-be-added', task.url)
return is_valid
def load_initial_urls(self):
"""
Create initial tasks from `self.initial_urls`.
Tasks are created with name "initial".
"""
if self.initial_urls:
for url in self.initial_urls:
self.add_task(Task('initial', url=url))
def setup_default_queue(self):
"""
If task queue is not configured explicitly
then create task queue with default parameters
This method is not the same as `self.setup_queue` because
`self.setup_queue` works by default with in-memory queue.
You can override `setup_default_queue` in your custom
Spider and use other storage engines for you
default task queue.
"""
# If queue is still not configured
# then configure it with default backend
if self.taskq is None:
self.setup_queue()
def process_task_generator(self):
"""
Load new tasks from `self.task_generator_object`
Create new tasks.
If task queue size is less than some value
then load new tasks from tasks file.
"""
if self.task_generator_enabled:
if hasattr(self.taskq, 'qsize'):
qsize = self.taskq.qsize()
else:
qsize = self.taskq.size()
if self.max_task_generator_chunk is not None:
min_limit = min(self.max_task_generator_chunk,
self.thread_number * 10)
else:
min_limit = self.thread_number * 10
if qsize < min_limit:
logger_verbose.debug('Task queue contains less tasks than limit. Tryring to add new tasks')
try:
for x in xrange(min_limit - qsize):
item = next(self.task_generator_object)
logger_verbose.debug('Found new task. Adding it')
self.add_task(item)
except StopIteration:
# If generator have no values to yield
# then disable it
logger_verbose.debug('Task generator has no more tasks. Disabling it')
self.task_generator_enabled = False
def init_task_generator(self):
"""
Process `initial_urls` and `task_generator`.
Generate first portion of tasks.
TODO: task generator should work in separate OS process
"""
self.task_generator_object = self.task_generator()
self.task_generator_enabled = True
logger_verbose.debug('Processing initial urls')
self.load_initial_urls()
# Initial call to task generator
# before main cycle
self.process_task_generator()
def load_new_task(self):
start = time.time()
while True:
try:
with self.save_timer('task_queue'):
return self.taskq.get()
except queue.Empty:
if self.taskq.size():
logger_verbose.debug('Waiting for scheduled task')
return True
if not self.slave:
logger_verbose.debug('Task queue is empty.')
return None
else:
# Temporarly hack which force slave crawler
# to wait 5 seconds for new tasks, this solves
# the problem that sometimes slave crawler stop
# its work because it could not receive new
# tasks immediatelly
if not self.transport.active_task_number():
if time.time() - start < 5:
time.sleep(0.1)
logger.debug('Slave sleeping')
else:
break
else:
break
logger_verbose.debug('Task queue is empty.')
return None
def process_task_counters(self, task):
task.network_try_count += 1
if task.task_try_count == 0:
task.task_try_count = 1
def create_grab_instance(self):
return Grab(**self.grab_config)
def setup_grab_for_task(self, task):
grab = self.create_grab_instance()
if task.grab_config:
grab.load_config(task.grab_config)
else:
grab.setup(url=task.url)
# Generate new common headers
grab.config['common_headers'] = grab.common_headers()
return grab
def is_task_cacheable(self, task, grab):
if (# cache is disabled for all tasks
not self.cache_enabled
# cache data should be refreshed
or task.get('refresh_cache', False)
# cache could not be used
or task.get('disable_cache', False)
# request type is not cacheable
or grab.detect_request_method() != 'GET'):
return False
else:
return True
def load_task_from_cache(self, transport, task, grab, grab_config_backup):
cache_item = self.cache.get_item(grab.config['url'],
timeout=task.cache_timeout)
if cache_item is None:
return None
else:
with self.save_timer('cache.read.prepare_request'):
grab.prepare_request()
with self.save_timer('cache.read.load_response'):
self.cache.load_response(grab, cache_item)
grab.log_request('CACHED')
self.inc_count('request')
self.inc_count('request-cache')
return {'ok': True, 'grab': grab,
'grab_config_backup': grab_config_backup,
'task': task, 'emsg': None}
def valid_response_code(self, code, task):
"""
Answer the question: if the response could be handled via
usual task handler or the task faield and should be processed as error.
"""
return (code < 400 or code == 404 or
code in task.valid_status)
def process_handler_error(self, func_name, ex, task, error_tb=None):
self.inc_count('error-%s' % ex.__class__.__name__.lower())
if error_tb is not None:
logger.error('Error in %s function' % func_name)
logger.error(error_tb)
else:
logger.error('Error in %s function' % func_name,
exc_info=ex)
# Looks strange but I really have some problems with
# serializing exception into string
try:
ex_str = unicode(ex)
except TypeError:
try:
ex_str = unicode(ex, 'utf-8', 'ignore')
except TypeError:
ex_str = str(ex)
self.add_item('fatal', '%s|%s|%s|%s' % (
func_name, ex.__class__.__name__, ex_str, task.url))
if isinstance(ex, FatalError):
raise
def find_data_handler(self, data):
try:
return getattr(data, 'handler')
except AttributeError:
try:
handler = getattr(self, 'data_%s' % data.handler_key)
except AttributeError:
raise NoDataHandler('No handler defined for Data %s' % data.handler_key)
else:
return handler
def execute_task_handler(self, res, handler):
"""
Apply `handler` function to the network result.
If network result is failed then submit task again
to the network task queue.
"""
try:
handler_name = handler.__name__
except AttributeError:
handler_name = 'NONE'
if (res['task'].get('raw') or (
res['ok'] and self.valid_response_code(res['grab'].response.code, res['task']))):
try:
with self.save_timer('response_handler'):
with self.save_timer('response_handler.%s' % handler_name):
result = handler(res['grab'], res['task'])
if result is None:
pass
else:
for item in result:
self.process_handler_result(item, res['task'])
except NoDataHandler as ex:
raise
except Exception as ex:
self.process_handler_error(handler_name, ex, res['task'])
else:
self.inc_count('task-%s-ok' % res['task'].name)
else:
# Log the error
if res['ok']:
msg = res['emsg'] = 'HTTP %s' % res['grab'].response.code
else:
msg = res['emsg']
self.inc_count('network-error-%s' % res['emsg'][:20])
logger.error(msg)
# Try to repeat the same network query
if self.network_try_limit > 0:
task = res['task']
task.refresh_cache = True
# Should use task.grab_config or backup of grab_config
task.setup_grab_config(res['grab_config_backup'])
self.add_task(task)
# TODO: allow to write error handlers
def find_task_handler(self, task):
callback = task.get('callback')
if callback:
return callback
else:
try:
handler = getattr(self, 'task_%s' % task.name)
except AttributeError:
raise NoTaskHandler('No handler or callback defined for task %s' % task.name)
else:
return handler
def process_network_result(self, res):
"""
Handle result received from network transport of
from the cache layer.
Find handler function for that task and call it.
"""
# Increase stat counters
self.inc_count('request-processed')
self.inc_count('task')
self.inc_count('task-%s' % res['task'].name)
if (res['task'].network_try_count == 1 and
res['task'].task_try_count == 1):
self.inc_count('task-%s-initial' % res['task'].name)
# NG
# FIX: Understand how it should work in NG spider
# TOFIX: start
stop = False
for mid in self.middleware_points['response']:
try:
mid_response = mid.process_response(self, res)
except StopTaskProcessing:
logger.debug('Got StopTaskProcessing exception')
stop = True
break
else:
if isinstance(mid_response, Task):
logger.debug('Got task from middleware')
self.add_task(mid_response)
stop = True
break
elif mid_response is None:
pass
else:
raise Exception('Unknown response from middleware %s' % mid)
# TOFIX: end
if stop:
return
if self.ng:
logger_verbose.debug('Submitting result for task %s to response queue' % res['task'])
self.network_response_queue.put(res)
else:
handler = self.find_task_handler(res['task'])
self.execute_task_handler(res, handler)
def change_proxy(self, task, grab):
"""
Assign new proxy from proxylist to the task.
"""
if task.use_proxylist and self.proxylist_enabled:
if self.proxy_auto_change:
self.proxy = self.proxylist.get_random()
if self.proxy:
proxy, proxy_userpwd, proxy_type = self.proxy
grab.setup(proxy=proxy, proxy_userpwd=proxy_userpwd,
proxy_type=proxy_type)
def process_new_task(self, task):
"""
Handle new task.
1) Setup Grab object for that task
2) Try to load task from the cache
3) If no cached data then submit task to network transport
"""
grab = self.setup_grab_for_task(task)
grab_config_backup = grab.dump_config()
cache_result = None
if self.is_task_cacheable(task, grab):
with self.save_timer('cache'):
with self.save_timer('cache.read'):
cache_result = self.load_task_from_cache(
self.transport, task, grab, grab_config_backup)
if cache_result:
logger_verbose.debug('Task data is loaded from the cache. Yielding task result.')
self.process_network_result(cache_result)
self.inc_count('task-%s-cache' % task.name)
else:
if self.only_cache:
logger.debug('Skipping network request to %s' % grab.config['url'])
else:
self.inc_count('request-network')
self.inc_count('task-%s-network' % task.name)
self.change_proxy(task, grab)
with self.save_timer('network_transport'):
logger_verbose.debug('Submitting task to the transport layer')
self.transport.process_task(task, grab, grab_config_backup)
logger_verbose.debug('Asking transport layer to do something')
self.transport.process_handlers()
def is_valid_for_cache(self, res):
"""
Check if network transport result could
be saved to cache layer.
res: {ok, grab, grab_config_backup, task, emsg}
"""
if res['ok']:
if self.cache_enabled:
if res['grab'].request_method == 'GET':
if not res['task'].get('disable_cache'):
if self.valid_response_code(res['grab'].response.code, res['task']):
return True
return False
def stop(self):
"""
This method set internal flag which signal spider
to stop processing new task and shuts down.
"""
self.work_allowed = False
def run(self):
"""
Main method. All work is done here.
"""
self.start_timer('total')
self.transport = MulticurlTransport(self.thread_number)
try:
self.setup_default_queue()
self.prepare()
self.start_timer('task_generator')
if not self.slave:
if not self.ng:
self.init_task_generator()
self.stop_timer('task_generator')
while self.work_allowed:
# FIXIT: REMOVE
# Run update task handler which
# updates database object which stores
# info about current scraping process
if self.dump_spider_stats:
self.dump_spider_stats(self)
if not self.ng:
# NG
self.start_timer('task_generator')
# star
if self.task_generator_enabled:
self.process_task_generator()
self.stop_timer('task_generator')
if self.transport.ready_for_task():
logger_verbose.debug('Transport has free resources. '\
'Trying to add new task (if exists)')
# Try five times to get new task and proces task generator
# because slave parser could agressively consume
# tasks from task queue
for x in xrange(5):
task = self.load_new_task()
if task is None:
if not self.transport.active_task_number():
self.process_task_generator()
elif task is True:
# If only delayed tasks in queue
break
else:
# If got some task
break
if not task:
if not self.transport.active_task_number():
logger_verbose.debug('Network transport has no active tasks')
# NG
if self.ng:
self.waiting_shutdown_event.set()
if self.shutdown_event.is_set():
logger_verbose.debug('Got shutdown signal')
self.stop()
else:
logger_verbose.debug('Shutdown event has not been set yet')
else:
self.stop()
else:
logger_verbose.debug('Transport active tasks: %d' %
self.transport.active_task_number())
elif isinstance(task, NullTask):
logger_verbose.debug('Got NullTask')
if not self.transport.active_task_number():
if task.sleep:
logger.debug('Got NullTask with sleep instruction. Sleeping for %.2f seconds' % task.sleep)
time.sleep(task.sleep)
elif isinstance(task, bool) and (task == True):
pass
else:
if self.ng:
if self.waiting_shutdown_event.is_set():
self.waiting_shutdown_event.clear()
logger_verbose.debug('Got new task from task queue: %s' % task)
self.process_task_counters(task)
if not self.check_task_limits(task):
logger_verbose.debug('Task %s is rejected due to limits' % task.name)
self.process_task_fallback(task)
else:
self.process_new_task(task)
with self.save_timer('network_transport'):
logger_verbose.debug('Asking transport layer to do something')
# Process active handlers
self.transport.select(0.01)
self.transport.process_handlers()
logger_verbose.debug('Processing network results (if any).')
# Iterate over network trasport ready results
# Each result could be valid or failed
# Result format: {ok, grab, grab_config_backup, task, emsg}
for result in self.transport.iterate_results():
if self.is_valid_for_cache(result):
with self.save_timer('cache'):
with self.save_timer('cache.write'):
self.cache.save_response(result['task'].url, result['grab'])
self.process_network_result(result)
self.inc_count('request')
logger_verbose.debug('Work done')
except KeyboardInterrupt:
print('\nGot ^C signal. Stopping.')
raise
finally:
# This code is executed when main cycles is breaked
self.stop_timer('total')
self.shutdown()
def load_proxylist(self, source, source_type, proxy_type='http',
auto_init=True, auto_change=True,
**kwargs):
self.proxylist = ProxyList(source, source_type, proxy_type=proxy_type, **kwargs)
self.proxylist_enabled = True
self.proxy = None
if not auto_change and auto_init:
self.proxy = self.proxylist.get_random()
self.proxy_auto_change = auto_change
def get_name(self):
if hasattr(self, 'spider_name'):
return name
else:
return camel_case_to_underscore(self.__class__.__name__)
# ****************
# Abstract methods
# ****************
def shutdown(self):
"""
You can override this method to do some final actions
after parsing has been done.
"""
logger.debug('Job done!')
def task_generator(self):
"""
You can override this method to load new tasks smoothly.
It will be used each time as number of tasks
in task queue is less then number of threads multiplied on 2
This allows you to not overload all free memory if total number of
tasks is big.
"""
if False:
# Some magic to make this function empty generator
yield ':-)'
return
def process_handler_result(self, result, task):
"""
Process result received from the task handler.
Result could be:
* None
* Task instance
* Data instance.
"""
if isinstance(result, Task):
self.add_task(result)
elif isinstance(result, Data):
handler = self.find_data_handler(result)
try:
data_result = handler(**result.storage)
if data_result is None:
pass
else:
for something in data_result:
self.process_handler_result(something, task)
except Exception as ex:
self.process_handler_error('data_%s' % result.handler_key, ex, task)
elif result is None:
pass
else:
raise SpiderError('Unknown result type: %s' % result)
@classmethod
def get_spider_name(cls):
if hasattr(cls, 'spider_name'):
return cls.spider_name
else:
return camel_case_to_underscore(cls.__name__)
@classmethod
def update_spider_config(cls, config):
pass
# ***********
# NG Features
# ***********
def run_generator(self):
"""
Generate tasks and put them into Task Queue.
This is main method for Generator Process
"""
self.init_task_generator()
while True:
if not self.task_generator_enabled:
self.generator_done_event.set()
if self.shutdown_event.is_set():
logger.info('Got shutdown event')
break
time.sleep(1)
self.process_task_generator()
def run_parser(self):
"""
Process items received from Network Response Queue.
Network Response Queue are filled by Downloader Process.
This is main method for Parser Process.
"""
should_work = True
while should_work:
try:
response = self.network_response_queue.get(True, 0.1)
except queue.Empty:
logger_verbose.debug('Response queue is empty.')
response = None
if not response:
self.waiting_shutdown_event.set()
if self.shutdown_event.is_set():
logger_verbose.debug('Got shutdown signal')
should_work = False
else:
logger_verbose.debug('Shutdown event has not been set yet')
else:
if self.waiting_shutdown_event.is_set():
self.waiting_shutdown_event.clear()
logger_verbose.debug('Got new response from response '\
'queue: %s' % response['task'].url)
handler = self.find_task_handler(response['task'])
self.execute_task_handler(response, handler)
logger_verbose.debug('Work done')
class Spider(SpiderMetaClassMixin, SpiderPattern, SpiderStat):
"""
Asynchronous scraping framework.
"""
# You can define here some urls and initial tasks
# with name "initial" will be created from these
# urls
# If the logic of generating initial tasks is complex
# then consider to use `task_generator` method instead of
# `initial_urls` attribute
initial_urls = None
# The base url which is used to resolve all relative urls
# The resolving takes place in `add_task` method
base_url = None
middlewares = []
middleware_points = {
'response': [],
}
class Meta:
# Meta.abstract means that this class will not be
# collected to spider registry by `grab crawl` CLI command.
# The Meta is inherited by descendant classes BUT
# Meta.abstract is reset to False in each descendant
abstract = True
def __init__(self, thread_number=3,
network_try_limit=10, task_try_limit=10,
request_pause=NULL,
priority_mode='random',
meta=None,
only_cache=False,
config=None,
slave=False,
max_task_generator_chunk=None,
args=None,
# New options start here
waiting_shutdown_event=None,
taskq=None,
result_queue=None,
network_response_queue=None,
shutdown_event=None,
generator_done_event=None,
ng=False,
):
"""
Arguments:
* thread-number - Number of concurrent network streams
* network_try_limit - How many times try to send request
again if network error was occurred, use 0 to disable
* network_try_limit - Limit of tries to execute some task
this is not the same as network_try_limit
network try limit limits the number of tries which
are performed automatically in case of network timeout
of some other physical error
but task_try_limit limits the number of attempts which
are scheduled manually in the spider business logic
* priority_mode - could be "random" or "const"
* meta - arbitrary user data
* retry_rebuild_user_agent - generate new random user-agent for each
network request which is performed again due to network error
* args - command line arguments parsed with `setup_arg_parser` method
New options:
* waiting_shutdown_event=None,
* taskq=None,
* result_queue=None,
* newtork_response_queue=None,
* shutdown_event=None,
* generator_done_event=None):
"""
# New options starts
self.waiting_shutdown_event = waiting_shutdown_event
self.taskq = taskq
self.result_queue = result_queue
self.shutdown_event = shutdown_event
self.generator_done_event = generator_done_event
self.network_response_queue = network_response_queue
self.ng = ng
# New options ends
if args is None:
self.args = {}
else:
self.args = args
self.slave = slave
self.max_task_generator_chunk = max_task_generator_chunk
self.timers = {
'network-name-lookup': 0,
'network-connect': 0,
'network-total': 0,
}
self.time_points = {}
self.start_timer('total')
if config is not None:
self.config = config
else:
# Fix circular import error
from grab.util.config import Config
self.config = Config()
if meta:
self.meta = meta
else:
self.meta = {}
self.task_generator_enabled = False
self.only_cache = only_cache
self.thread_number = thread_number
self.counters = defaultdict(int)
self._grab_config = {}
self.items = {}
self.task_try_limit = task_try_limit
self.network_try_limit = network_try_limit
if priority_mode not in ['random', 'const']:
raise SpiderMisuseError('Value of priority_mode option should be '
'"random" or "const"')
else:
self.priority_mode = priority_mode
try:
signal.signal(signal.SIGUSR1, self.sigusr1_handler)
except (ValueError, AttributeError):
pass
try:
signal.signal(signal.SIGUSR2, self.sigusr2_handler)
except (ValueError, AttributeError):
pass
# Initial cache-subsystem values
self.cache_enabled = False
self.cache = None
self.work_allowed = True
if request_pause is not NULL:
logger.error('Option `request_pause` is deprecated and is not '
'supported anymore')
self.proxylist_enabled = None
self.proxylist = None
self.proxy = None
self.proxy_auto_change = False
# FIXIT: REMOVE
self.dump_spider_stats = None
self.controller = CommandController(self)
# snapshots contains information about spider's state
# for each 10 seconds interval
self.snapshots = {}
self.last_snapshot_values = {
'timestamp': 0,
'download-size': 0,
'upload-size': 0,
'download-size-with-cache': 0,
'request-count': 0,
}
self.snapshot_timestamps = []
self.snapshot_interval = self.config.get('GRAB_SNAPSHOT_CONFIG', {}).get('interval', 10)
self.snapshot_file = self.config.get('GRAB_SNAPSHOT_CONFIG', {}).get('file', None)
if self.snapshot_file:
open(self.snapshot_file, 'w').write('')
def get_grab_config(self):
logger.error('Using `grab_config` attribute is deprecated. Override '
'`create_grab_instance method instead.')
return self._grab_config
def set_grab_config(self, val):
logger.error('Using `grab_config` attribute is deprecated. Override '
'`create_grab_instance method instead.')
self._grab_config = val
grab_config = property(get_grab_config, set_grab_config)
def setup_middleware(self, middleware_list):
for item in middleware_list:
self.middlewares.append(item)
mod_path, cls_name = item.rsplit('.', 1)
mod = __import__(mod_path, None, None, ['foo'])
cls = getattr(mod, cls_name)
mid = cls()
if hasattr(mid, 'process_response'):
self.middleware_points['response'].append(mid)
def setup_cache(self, backend='mongo', database=None, use_compression=True,
**kwargs):
if database is None:
raise SpiderMisuseError('setup_cache method requires database '
'option')
self.cache_enabled = True
mod = __import__('grab.spider.cache_backend.%s' % backend,
globals(), locals(), ['foo'])
self.cache = mod.CacheBackend(database=database,
use_compression=use_compression,
spider=self, **kwargs)
def setup_queue(self, backend='memory', **kwargs):
logger.debug('Using %s backend for task queue' % backend)
mod = __import__('grab.spider.queue_backend.%s' % backend,
globals(), locals(), ['foo'])
self.taskq = mod.QueueBackend(spider_name=self.get_name(),
**kwargs)
def prepare(self):
"""
You can do additional spider customization here
before it has started working. Simply redefine
this method in your Spider class.
"""
def sigusr1_handler(self, signal, frame):
"""
Catches SIGUSR1 signal and dumps current state
to temporary file
"""
with open('/tmp/spider.state', 'w') as out:
out.write(self.render_stats())
def sigusr2_handler(self, signal, frame):
"""
Catches SIGUSR1 signal and shutdowns spider.
"""
logger.error('Received SIGUSR2 signal. Doing shutdown')
self.stop()
def setup_grab(self, **kwargs):
logging.error('This method is deprecated. Instead override '
'`create_grab_instance` method in you spider sub-class')
self.grab_config.update(**kwargs)
def check_task_limits(self, task):
"""
Check that network/try counters are OK.
Returns:
* if success: (True, None)
* if error: (False, reason)
"""
if task.task_try_count > self.task_try_limit:
logger.debug('Task tries (%d) ended: %s / %s' % (
self.task_try_limit, task.name, task.url))
return False, 'task-try-count'
if task.network_try_count > self.network_try_limit:
logger.debug('Network tries (%d) ended: %s / %s' % (
self.network_try_limit, task.name, task.url))
return False, 'network-try-count'
return True, None
def generate_task_priority(self):
if self.priority_mode == 'const':
return DEFAULT_TASK_PRIORITY
else:
return randint(*RANDOM_TASK_PRIORITY_RANGE)
def add_task(self, task):
"""
Add task to the task queue.
"""
if self.taskq is None:
raise SpiderMisuseError('You should configure task queue before '
'adding tasks. Use `setup_queue` method.')
if task.priority is None or not task.priority_is_custom:
task.priority = self.generate_task_priority()
task.priority_is_custom = False
else:
task.priority_is_custom = True
if not isinstance(task, NullTask):
if not task.url.startswith(('http://', 'https://', 'ftp://', 'file://', 'feed://')):
if self.base_url is None:
msg = 'Could not resolve relative URL because base_url ' \
'is not specified. Task: %s, URL: %s'\
% (task.name, task.url)
logger.error(msg)
self.add_item('task-with-invalid-url', task.url)
return False
else:
task.url = urljoin(self.base_url, task.url)
# If task has grab_config object then update it too
if task.grab_config:
task.grab_config['url'] = task.url
# TODO: keep original task priority if it was set explicitly
self.taskq.put(task, task.priority, schedule_time=task.schedule_time)
is_valid = True
return is_valid
def load_initial_urls(self):
"""
Create initial tasks from `self.initial_urls`.
Tasks are created with name "initial".
"""
if self.initial_urls:
for url in self.initial_urls:
self.add_task(Task('initial', url=url))
def setup_default_queue(self):
"""
If task queue is not configured explicitly
then create task queue with default parameters
This method is not the same as `self.setup_queue` because
`self.setup_queue` works by default with in-memory queue.
You can override `setup_default_queue` in your custom
Spider and use other storage engines for you
default task queue.
"""
# If queue is still not configured
# then configure it with default backend
if self.taskq is None:
self.setup_queue()
def process_task_generator(self):
"""
Load new tasks from `self.task_generator_object`
Create new tasks.
If task queue size is less than some value
then load new tasks from tasks file.
"""
if self.task_generator_enabled:
if hasattr(self.taskq, 'qsize'):
qsize = self.taskq.qsize()
else:
qsize = self.taskq.size()
if self.max_task_generator_chunk is not None:
min_limit = min(self.max_task_generator_chunk,
self.thread_number * 10)
else:
min_limit = self.thread_number * 10
if qsize < min_limit:
logger_verbose.debug('Task queue contains less tasks than '
'limit. Trying to add new tasks')
try:
for x in xrange(min_limit - qsize):
item = next(self.task_generator_object)
logger_verbose.debug('Got new item from generator. '
'Processing it.')
#self.add_task(item)
self.process_handler_result(item)
except StopIteration:
# If generator have no values to yield
# then disable it
logger_verbose.debug('Task generator has no more tasks. '
'Disabling it')
self.task_generator_enabled = False
def init_task_generator(self):
"""
Process `initial_urls` and `task_generator`.
Generate first portion of tasks.
TODO: task generator should work in separate OS process
"""
self.task_generator_object = self.task_generator()
self.task_generator_enabled = True
logger_verbose.debug('Processing initial urls')
self.load_initial_urls()
# Initial call to task generator
# before main cycle
self.process_task_generator()
def load_new_task(self):
start = time.time()
while True:
try:
with self.save_timer('task_queue'):
return self.taskq.get()
except queue.Empty:
if self.taskq.size():
logger_verbose.debug('Waiting for scheduled task')
return True
if not self.slave:
logger_verbose.debug('Task queue is empty.')
return None
else:
# Temporarily hack which force slave crawler
# to wait 5 seconds for new tasks, this solves
# the problem that sometimes slave crawler stop
# its work because it could not receive new
# tasks immediately
if not self.transport.active_task_number():
if time.time() - start < 5:
time.sleep(0.1)
logger.debug('Slave sleeping')
else:
break
else:
break
logger_verbose.debug('Task queue is empty.')
return None
def process_task_counters(self, task):
task.network_try_count += 1
if task.task_try_count == 0:
task.task_try_count = 1
def create_grab_instance(self, **kwargs):
# Back-ward compatibility for deprecated `grab_config` attribute
# Use _grab_config to not trigger warning messages
if self._grab_config and kwargs:
merged_config = deepcopy(self._grab_config)
merged_config.update(kwargs)
return Grab(**merged_config)
elif self._grab_config and not kwargs:
return Grab(**self._grab_config)
else:
return Grab(**kwargs)
def setup_grab_for_task(self, task):
grab = self.create_grab_instance()
if task.grab_config:
grab.load_config(task.grab_config)
else:
grab.setup(url=task.url)
# Generate new common headers
grab.config['common_headers'] = grab.common_headers()
return grab
def is_task_cacheable(self, task, grab):
if ( # cache is disabled for all tasks
not self.cache_enabled
# cache data should be refreshed
or task.get('refresh_cache', False)
# cache could not be used
or task.get('disable_cache', False)
# request type is not cacheable
or grab.detect_request_method() != 'GET'):
return False
else:
return True
def load_task_from_cache(self, transport, task, grab, grab_config_backup):
cache_item = self.cache.get_item(grab.config['url'],
timeout=task.cache_timeout)
if cache_item is None:
return None
else:
with self.save_timer('cache.read.prepare_request'):
grab.prepare_request()
with self.save_timer('cache.read.load_response'):
self.cache.load_response(grab, cache_item)
grab.log_request('CACHED')
self.inc_count('request')
self.inc_count('request-cache')
return {'ok': True, 'grab': grab,
'grab_config_backup': grab_config_backup,
'task': task, 'emsg': None}
def valid_response_code(self, code, task):
"""
Answer the question: if the response could be handled via
usual task handler or the task faield and should be processed as error.
"""
return (code < 400 or code == 404 or
code in task.valid_status)
def process_handler_error(self, func_name, ex, task, error_tb=None):
self.inc_count('error-%s' % ex.__class__.__name__.lower())
if error_tb is not None:
logger.error('Error in %s function' % func_name)
logger.error(error_tb)
else:
logger.error('Error in %s function' % func_name,
exc_info=ex)
# Looks strange but I really have some problems with
# serializing exception into string
try:
ex_str = unicode(ex)
except TypeError:
try:
ex_str = unicode(ex, 'utf-8', 'ignore')
except TypeError:
ex_str = str(ex)
task_url = task.url if task is not None else None
self.add_item('fatal', '%s|%s|%s|%s' % (
func_name, ex.__class__.__name__, ex_str, task_url))
if isinstance(ex, FatalError):
raise
def find_data_handler(self, data):
try:
return getattr(data, 'handler')
except AttributeError:
try:
handler = getattr(self, 'data_%s' % data.handler_key)
except AttributeError:
raise NoDataHandler('No handler defined for Data %s'
% data.handler_key)
else:
return handler
def execute_task_handler(self, res, handler):
"""
Apply `handler` function to the network result.
If network result is failed then submit task again
to the network task queue.
"""
try:
handler_name = handler.__name__
except AttributeError:
handler_name = 'NONE'
if (res['task'].get('raw') or (
res['ok'] and self.valid_response_code(res['grab'].response.code,
res['task']))):
try:
with self.save_timer('response_handler'):
with self.save_timer('response_handler.%s' % handler_name):
result = handler(res['grab'], res['task'])
if result is None:
pass
else:
for item in result:
self.process_handler_result(item, res['task'])
except NoDataHandler as ex:
raise
except Exception as ex:
self.process_handler_error(handler_name, ex, res['task'])
else:
self.inc_count('task-%s-ok' % res['task'].name)
else:
# Log the error
if res['ok']:
msg = res['emsg'] = 'HTTP %s' % res['grab'].response.code
else:
msg = res['emsg']
# TODO: REMOVE
#if 'Operation timed out after' in msg:
#num = int(msg.split('Operation timed out after')[1].strip().split(' ')[0])
#if num > 20000:
#import pdb; pdb.set_trace()
self.inc_count('network-error-%s' % res['emsg'][:20])
logger.error(u'Network error: %s' % msg)
# Try to repeat the same network query
if self.network_try_limit > 0:
task = res['task']
task.refresh_cache = True
# Should use task.grab_config or backup of grab_config
task.setup_grab_config(res['grab_config_backup'])
self.add_task(task)
# TODO: allow to write error handlers
def find_task_handler(self, task):
callback = task.get('callback')
if callback:
return callback
else:
try:
handler = getattr(self, 'task_%s' % task.name)
except AttributeError:
raise NoTaskHandler('No handler or callback defined for '
'task %s' % task.name)
else:
return handler
def process_network_result(self, res, from_cache=False):
"""
Handle result received from network transport of
from the cache layer.
Find handler function for that task and call it.
"""
# Increase stat counters
self.inc_count('request-processed')
self.inc_count('task')
self.inc_count('task-%s' % res['task'].name)
if (res['task'].network_try_count == 1 and
res['task'].task_try_count == 1):
self.inc_count('task-%s-initial' % res['task'].name)
# Update traffic statistics
if res['grab'] and res['grab'].response:
self.timers['network-name-lookup'] += res['grab'].response.name_lookup_time
self.timers['network-connect'] += res['grab'].response.connect_time
self.timers['network-total'] += res['grab'].response.total_time
if not from_cache:
self.inc_count('download-size', res['grab'].response.download_size)
self.inc_count('upload-size', res['grab'].response.upload_size)
self.inc_count('download-size-with-cache', res['grab'].response.download_size)
self.inc_count('upload-size-with-cache', res['grab'].response.upload_size)
#self.inc_count('traffic-in
# NG
# FIX: Understand how it should work in NG spider
# TOFIX: start
stop = False
for mid in self.middleware_points['response']:
try:
mid_response = mid.process_response(self, res)
except StopTaskProcessing:
logger.debug('Got StopTaskProcessing exception')
stop = True
break
else:
if isinstance(mid_response, Task):
logger.debug('Got task from middleware')
self.add_task(mid_response)
stop = True
break
elif mid_response is None:
pass
else:
raise Exception('Unknown response from middleware %s' % mid)
# TOFIX: end
if stop:
return
if self.ng:
logger_verbose.debug('Submitting result for task %s to response'
' queue' % res['task'])
self.network_response_queue.put(res)
else:
handler = self.find_task_handler(res['task'])
self.execute_task_handler(res, handler)
def change_proxy(self, task, grab):
"""
Assign new proxy from proxylist to the task.
"""
if task.use_proxylist and self.proxylist_enabled:
if self.proxy_auto_change:
self.proxy = self.proxylist.get_random()
if self.proxy:
proxy, proxy_userpwd, proxy_type = self.proxy
grab.setup(proxy=proxy, proxy_userpwd=proxy_userpwd,
proxy_type=proxy_type)
def process_new_task(self, task):
"""
Handle new task.
1) Setup Grab object for that task
2) Try to load task from the cache
3) If no cached data then submit task to network transport
"""
grab = self.setup_grab_for_task(task)
grab_config_backup = grab.dump_config()
cache_result = None
if self.is_task_cacheable(task, grab):
with self.save_timer('cache'):
with self.save_timer('cache.read'):
cache_result = self.load_task_from_cache(
self.transport, task, grab, grab_config_backup)
if cache_result:
logger_verbose.debug('Task data is loaded from the cache. '
'Yielding task result.')
self.process_network_result(cache_result, from_cache=True)
self.inc_count('task-%s-cache' % task.name)
else:
if self.only_cache:
logger.debug('Skipping network request to %s' % grab.config['url'])
else:
self.inc_count('request-network')
self.inc_count('task-%s-network' % task.name)
self.change_proxy(task, grab)
with self.save_timer('network_transport'):
logger_verbose.debug('Submitting task to the transport '
'layer')
try:
self.transport.process_task(task, grab, grab_config_backup)
except GrabInvalidUrl as ex:
logger.debug('Task %s has invalid URL: %s' % (
task.name, task.url))
self.add_item('invalid-url', task.url)
else:
logger_verbose.debug('Asking transport layer to do '
'something')
def is_valid_for_cache(self, res):
"""
Check if network transport result could
be saved to cache layer.
res: {ok, grab, grab_config_backup, task, emsg}
"""
if res['ok']:
if self.cache_enabled:
if res['grab'].request_method == 'GET':
if not res['task'].get('disable_cache'):
if self.valid_response_code(res['grab'].response.code,
res['task']):
return True
return False
def stop(self):
"""
This method set internal flag which signal spider
to stop processing new task and shuts down.
"""
logger_verbose.debug('Method `stop` was called')
self.work_allowed = False
def run(self):
"""
Main method. All work is done here.
"""
self.start_timer('total')
self.transport = MulticurlTransport(self.thread_number)
try:
self.setup_default_queue()
self.prepare()
self.start_timer('task_generator')
if not self.slave:
if not self.ng:
self.init_task_generator()
self.stop_timer('task_generator')
while self.work_allowed:
now = int(time.time())
if now - self.last_snapshot_values['timestamp'] > self.snapshot_interval:
snapshot = {'timestamp': now}
for key in ('download-size', 'upload-size',
'download-size-with-cache'):
snapshot[key] = self.counters[key] - self.last_snapshot_values[key]
self.last_snapshot_values[key] = self.counters[key]
snapshot['request-count'] = self.counters['request'] -\
self.last_snapshot_values['request-count']
self.last_snapshot_values['request-count'] = self.counters['request']
self.last_snapshot_values['timestamp'] = now
self.snapshots[now] = snapshot
self.snapshot_timestamps.append(now)
if self.snapshot_file:
with open(self.snapshot_file, 'a') as out:
out.write(json.dumps(snapshot) + '\n')
# FIXIT: REMOVE
# Run update task handler which
# updates database object which stores
# info about current scraping process
if self.dump_spider_stats:
self.dump_spider_stats(self)
if self.controller.enabled:
self.controller.process_commands()
if not self.ng:
# NG
self.start_timer('task_generator')
# star
if self.task_generator_enabled:
self.process_task_generator()
self.stop_timer('task_generator')
if self.transport.ready_for_task():
logger_verbose.debug('Transport has free resources. '
'Trying to add new task (if exists)')
# Try five times to get new task and proces task generator
# because slave parser could agressively consume
# tasks from task queue
for x in xrange(5):
task = self.load_new_task()
if task is None:
if not self.transport.active_task_number():
self.process_task_generator()
elif task is True:
# If only delayed tasks in queue
break
else:
# If got some task
break
if not task:
if not self.transport.active_task_number():
logger_verbose.debug('Network transport has no '
'active tasks')
# NG
if self.ng:
self.waiting_shutdown_event.set()
if self.shutdown_event.is_set():
logger_verbose.debug('Got shutdown signal')
self.stop()
else:
logger_verbose.debug('Shutdown event has'
' not been set yet')
else:
if not self.task_generator_enabled:
self.stop()
else:
logger_verbose.debug('Transport active tasks: %d' %
self.transport.active_task_number())
elif isinstance(task, NullTask):
logger_verbose.debug('Got NullTask')
if not self.transport.active_task_number():
if task.sleep:
logger.debug('Got NullTask with sleep '
'instruction. Sleeping for'
' %.2f seconds' % task.sleep)
time.sleep(task.sleep)
elif isinstance(task, bool) and (task is True):
pass
else:
if self.ng:
if self.waiting_shutdown_event.is_set():
self.waiting_shutdown_event.clear()
logger_verbose.debug('Got new task from task queue: %s'
% task)
self.process_task_counters(task)
is_valid, reason = self.check_task_limits(task)
if not is_valid:
logger_verbose.debug('Task %s is rejected due to '
'%s limit'
% (task.name, reason))
if reason == 'task-try-count':
self.add_item('task-count-rejected', task.url)
elif reason == 'network-try-count':
self.add_item('network-count-rejected', task.url)
else:
raise Exception('Unknown response from '
'check_task_limits: %s'
% reason)
handler = task.get_fallback_handler(self)
if handler:
handler(task)
# TODO: not do following line
# TODO: middleware: TaskFails
else:
self.process_new_task(task)
self.transport.process_handlers()
with self.save_timer('network_transport'):
logger_verbose.debug('Asking transport layer to do '
'something')
self.transport.process_handlers()
logger_verbose.debug('Processing network results (if any).')
# Iterate over network trasport ready results
# Each result could be valid or failed
# Result format: {ok, grab, grab_config_backup, task, emsg}
#print '[transport iterate results - start]'
for result in self.transport.iterate_results():
if self.is_valid_for_cache(result):
with self.save_timer('cache'):
with self.save_timer('cache.write'):
self.cache.save_response(result['task'].url,
result['grab'])
#print '[process network results]'
self.process_network_result(result)
#print '[done]'
self.inc_count('request')
#print '[transport iterate results - end]'
logger_verbose.debug('Work done')
except KeyboardInterrupt:
print('\nGot ^C signal. Stopping.')
raise
finally:
# This code is executed when main cycles is breaked
self.stop_timer('total')
self.shutdown()
def load_proxylist(self, source, source_type, proxy_type='http',
auto_init=True, auto_change=True,
**kwargs):
self.proxylist = ProxyList(source, source_type, proxy_type=proxy_type,
**kwargs)
self.proxylist_enabled = True
self.proxy = None
if not auto_change and auto_init:
self.proxy = self.proxylist.get_random()
self.proxy_auto_change = auto_change
def get_name(self):
if hasattr(self, 'spider_name'):
return self.spider_name
else:
return camel_case_to_underscore(self.__class__.__name__)
# ****************
# Abstract methods
# ****************
def shutdown(self):
"""
You can override this method to do some final actions
after parsing has been done.
"""
logger.debug('Job done!')
def task_generator(self):
"""
You can override this method to load new tasks smoothly.
It will be used each time as number of tasks
in task queue is less then number of threads multiplied on 2
This allows you to not overload all free memory if total number of
tasks is big.
"""
if False:
# Some magic to make this function empty generator
yield ':-)'
return
def process_handler_result(self, result, task=None):
"""
Process result received from the task handler.
Result could be:
* None
* Task instance
* Data instance.
"""
if isinstance(result, Task):
self.add_task(result)
elif isinstance(result, Data):
handler = self.find_data_handler(result)
try:
data_result = handler(**result.storage)
if data_result is None:
pass
else:
for something in data_result:
self.process_handler_result(something, task)
except Exception as ex:
self.process_handler_error('data_%s' % result.handler_key, ex,
task)
elif result is None:
pass
else:
raise SpiderError('Unknown result type: %s' % result)
@classmethod
def get_spider_name(cls):
if hasattr(cls, 'spider_name'):
return cls.spider_name
else:
return camel_case_to_underscore(cls.__name__)
@classmethod
def setup_spider_config(cls, config):
pass
# ***********
# NG Features
# ***********
def run_generator(self):
"""
Generate tasks and put them into Task Queue.
This is main method for Generator Process
"""
self.init_task_generator()
while True:
if not self.task_generator_enabled:
self.generator_done_event.set()
if self.shutdown_event.is_set():
logger.info('Got shutdown event')
break
time.sleep(1)
self.process_task_generator()
def run_parser(self):
"""
Process items received from Network Response Queue.
Network Response Queue are filled by Downloader Process.
This is main method for Parser Process.
"""
should_work = True
while should_work:
try:
response = self.network_response_queue.get(True, 0.1)
except queue.Empty:
logger_verbose.debug('Response queue is empty.')
response = None
if not response:
self.waiting_shutdown_event.set()
if self.shutdown_event.is_set():
logger_verbose.debug('Got shutdown signal')
should_work = False
else:
logger_verbose.debug('Shutdown event has not been set yet')
else:
if self.waiting_shutdown_event.is_set():
self.waiting_shutdown_event.clear()
logger_verbose.debug('Got new response from response '
'queue: %s' % response['task'].url)
handler = self.find_task_handler(response['task'])
self.execute_task_handler(response, handler)
logger_verbose.debug('Work done')
# TODO:
# Develop Manager Process which contains logic of accepting or rejecting
# task objects received from Parser Processes
# Maybe Manager Process also should controls the Data flow
# TODO2:
# Data handler process
#def run_manager(self):
#try:
#self.start_time = time.time()
#self.prepare()
#res_count = 0
#while True:
#try:
#res = self.result_queue.get(block=True, timeout=2)
#except Queue.Empty:
##pass
#res = None
#if res is None:
#logging.error('res is None: stopping')
#break
#if self.should_stop:
#break
#if self.task_generator_enabled:
#self.process_task_generator()
#for task, original_task in res['task_list']:
#logging.debug('Processing task items from result queue')
#self.process_handler_result(task)
##for data, original_task in res['data_list']:
##logging.debug('Processing data items from result queue')
##self.process_handler_result(data)
#except KeyboardInterrupt:
#print '\nGot ^C signal. Stopping.'
#print self.render_stats()
#raise
#finally:
## This code is executed when main cycles is breaked
#self.shutdown()
def command_get_stats(self, command):
return {'data': self.render_stats()}
@classmethod
def get_available_command_names(cls):
spider = cls()
clist = []
for key in dir(spider):
if key.startswith('command_'):
clist.append(key.split('command_', 1)[1])
return sorted(clist)
def __init__(
self,
thread_number=3,
network_try_limit=10,
task_try_limit=10,
request_pause=NULL,
priority_mode='random',
meta=None,
only_cache=False,
config=None,
slave=False,
max_task_generator_chunk=None,
args=None,
# New options start here
waiting_shutdown_event=None,
taskq=None,
result_queue=None,
network_response_queue=None,
shutdown_event=None,
generator_done_event=None,
ng=False,
):
"""
Arguments:
* thread-number - Number of concurrent network streams
* network_try_limit - How many times try to send request
again if network error was occurred, use 0 to disable
* network_try_limit - Limit of tries to execute some task
this is not the same as network_try_limit
network try limit limits the number of tries which
are performed automatically in case of network timeout
of some other physical error
but task_try_limit limits the number of attempts which
are scheduled manually in the spider business logic
* priority_mode - could be "random" or "const"
* meta - arbitrary user data
* retry_rebuild_user_agent - generate new random user-agent for each
network request which is performed again due to network error
* args - command line arguments parsed with `setup_arg_parser` method
New options:
* waiting_shutdown_event=None,
* taskq=None,
* result_queue=None,
* newtork_response_queue=None,
* shutdown_event=None,
* generator_done_event=None):
"""
# New options starts
self.waiting_shutdown_event = waiting_shutdown_event
self.taskq = taskq
self.result_queue = result_queue
self.shutdown_event = shutdown_event
self.generator_done_event = generator_done_event
self.network_response_queue = network_response_queue
self.ng = ng
# New options ends
if args is None:
self.args = {}
else:
self.args = args
self.slave = slave
self.max_task_generator_chunk = max_task_generator_chunk
self.timers = {
'network-name-lookup': 0,
'network-connect': 0,
'network-total': 0,
}
self.time_points = {}
self.start_timer('total')
if config is not None:
self.config = config
else:
# Fix circular import error
from grab.util.config import Config
self.config = Config()
if meta:
self.meta = meta
else:
self.meta = {}
self.task_generator_enabled = False
self.only_cache = only_cache
self.thread_number = thread_number
self.counters = defaultdict(int)
self._grab_config = {}
self.items = {}
self.task_try_limit = task_try_limit
self.network_try_limit = network_try_limit
if priority_mode not in ['random', 'const']:
raise SpiderMisuseError('Value of priority_mode option should be '
'"random" or "const"')
else:
self.priority_mode = priority_mode
try:
signal.signal(signal.SIGUSR1, self.sigusr1_handler)
except (ValueError, AttributeError):
pass
try:
signal.signal(signal.SIGUSR2, self.sigusr2_handler)
except (ValueError, AttributeError):
pass
# Initial cache-subsystem values
self.cache_enabled = False
self.cache = None
self.work_allowed = True
if request_pause is not NULL:
logger.error('Option `request_pause` is deprecated and is not '
'supported anymore')
self.proxylist_enabled = None
self.proxylist = None
self.proxy = None
self.proxy_auto_change = False
# FIXIT: REMOVE
self.dump_spider_stats = None
self.controller = CommandController(self)
# snapshots contains information about spider's state
# for each 10 seconds interval
self.snapshots = {}
self.last_snapshot_values = {
'timestamp': 0,
'download-size': 0,
'upload-size': 0,
'download-size-with-cache': 0,
'request-count': 0,
}
self.snapshot_timestamps = []
self.snapshot_interval = self.config.get('GRAB_SNAPSHOT_CONFIG',
{}).get('interval', 10)
self.snapshot_file = self.config.get('GRAB_SNAPSHOT_CONFIG',
{}).get('file', None)
if self.snapshot_file:
open(self.snapshot_file, 'w').write('')
