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s4cmd.py
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s4cmd.py
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#!/usr/bin/env python
#
# Copyright 2012-2018 BloomReach, Inc.
# Portions Copyright 2014 Databricks
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
"""
Super S3 command line tool.
"""
import sys, os, re, optparse, multiprocessing, fnmatch, time, hashlib, errno, pytz
import logging, traceback, types, threading, random, socket, shlex, datetime, json
IS_PYTHON2 = sys.version_info[0] == 2
if IS_PYTHON2:
from cStringIO import StringIO
import Queue
import ConfigParser
else:
from io import BytesIO as StringIO
import queue as Queue
import configparser as ConfigParser
def cmp(a, b):
return (a > b) - (a < b)
if sys.version_info < (2, 7):
# Python < 2.7 doesn't have the cmp_to_key function.
from utils import cmp_to_key
else:
from functools import cmp_to_key
##
## Global constants
##
S4CMD_VERSION = "2.1.0"
PATH_SEP = '/'
DATETIME_FORMAT = '%Y-%m-%d %H:%M:%S UTC'
TIMESTAMP_FORMAT = '%04d-%02d-%02d %02d:%02d'
SOCKET_TIMEOUT = 5 * 60 # in sec(s) (timeout if we don't receive any recv() callback)
socket.setdefaulttimeout(SOCKET_TIMEOUT)
# Global list for temp files.
TEMP_FILES = set()
# Environment variable names for S3 credentials.
S3_ACCESS_KEY_NAME = "AWS_ACCESS_KEY_ID"
S3_SECRET_KEY_NAME = "AWS_SECRET_ACCESS_KEY"
S4CMD_ENV_KEY = "S4CMD_OPTS"
##
## Utility classes
##
class Failure(RuntimeError):
'''Exception for runtime failures'''
pass
class InvalidArgument(RuntimeError):
'''Exception for invalid input parameters'''
pass
class RetryFailure(Exception):
'''Runtime failure that can be retried'''
pass
class S4cmdLoggingClass:
def __init__(self):
self.log = logging.Logger("s4cmd")
self.log.stream = sys.stderr
self.log_handler = logging.StreamHandler(self.log.stream)
self.log.addHandler(self.log_handler)
def configure(self, opt):
'Configure the logger based on command-line arguments'''
self.log_handler.setFormatter(logging.Formatter('%(message)s', DATETIME_FORMAT))
if opt.debug:
self.log.verbosity = 3
self.log_handler.setFormatter(logging.Formatter(
' (%(levelname).1s)%(filename)s:%(lineno)-4d %(message)s',
DATETIME_FORMAT))
self.log.setLevel(logging.DEBUG)
elif opt.verbose:
self.log.verbosity = 2
self.log.setLevel(logging.INFO)
else:
self.log.verbosity = 1
self.log.setLevel(logging.ERROR)
def get_loggers(self):
'''Return a list of the logger methods: (debug, info, warn, error)'''
return self.log.debug, self.log.info, self.log.warn, self.log.error
s4cmd_logging = S4cmdLoggingClass()
debug, info, warn, error = s4cmd_logging.get_loggers()
def get_default_thread_count():
return int(os.getenv('S4CMD_NUM_THREADS', multiprocessing.cpu_count() * 4))
def log_calls(func):
'''Decorator to log function calls.'''
def wrapper(*args, **kargs):
callStr = "%s(%s)" % (func.__name__, ", ".join([repr(p) for p in args] + ["%s=%s" % (k, repr(v)) for (k, v) in list(kargs.items())]))
debug(">> %s", callStr)
ret = func(*args, **kargs)
debug("<< %s: %s", callStr, repr(ret))
return ret
return wrapper
##
## Utility functions
##
def synchronized(func):
'''Decorator to synchronize function.'''
func.__lock__ = threading.Lock()
def synced_func(*args, **kargs):
with func.__lock__:
return func(*args, **kargs)
return synced_func
def clear_progress():
'''Clear previous progress message, if any.'''
progress('')
@synchronized
def progress(msg, *args):
'''Show current progress message to stderr.
This function will remember the previous message so that next time,
it will clear the previous message before showing next one.
'''
# Don't show any progress if the output is directed to a file.
if not (sys.stdout.isatty() and sys.stderr.isatty()):
return
text = (msg % args)
if progress.prev_message:
sys.stderr.write(' ' * len(progress.prev_message) + '\r')
sys.stderr.write(text + '\r')
progress.prev_message = text
progress.prev_message = None
@synchronized
def message(msg, *args):
'''Program message output.'''
clear_progress()
text = (msg % args)
sys.stdout.write(text + '\n')
def fail(message, exc_info=None, status=1, stacktrace=False):
'''Utility function to handle runtime failures gracefully.
Show concise information if possible, then terminate program.
'''
text = message
if exc_info:
text += str(exc_info)
error(text)
if stacktrace:
error(traceback.format_exc())
clean_tempfiles()
if __name__ == '__main__':
sys.exit(status)
else:
raise RuntimeError(status)
@synchronized
def tempfile_get(target):
'''Get a temp filename for atomic download.'''
fn = '%s-%s.tmp' % (target, ''.join(random.Random().sample("0123456789abcdefghijklmnopqrstuvwxyz", 15)))
TEMP_FILES.add(fn)
return fn
@synchronized
def tempfile_set(tempfile, target):
'''Atomically rename and clean tempfile'''
if target:
os.rename(tempfile, target)
else:
os.unlink(tempfile)
if target in TEMP_FILES:
TEMP_FILES.remove(tempfile)
def clean_tempfiles():
'''Clean up temp files'''
for fn in TEMP_FILES:
if os.path.exists(fn):
os.unlink(fn)
class S3URL:
'''Simple wrapper for S3 URL.
This class parses a S3 URL and provides accessors to each component.
'''
S3URL_PATTERN = re.compile(r'(s3[n]?)://([^/]+)[/]?(.*)')
def __init__(self, uri):
'''Initialization, parse S3 URL'''
try:
self.proto, self.bucket, self.path = S3URL.S3URL_PATTERN.match(uri).groups()
self.proto = 's3' # normalize s3n => s3
except:
raise InvalidArgument('Invalid S3 URI: %s' % uri)
def __str__(self):
'''Return the original S3 URL'''
return S3URL.combine(self.proto, self.bucket, self.path)
def get_fixed_path(self):
'''Get the fixed part of the path without wildcard'''
pi = self.path.split(PATH_SEP)
fi = []
for p in pi:
if '*' in p or '?' in p:
break
fi.append(p)
return PATH_SEP.join(fi)
@staticmethod
def combine(proto, bucket, path):
'''Combine each component and general a S3 url string, no path normalization
here. The path should not start with slash.
'''
return '%s://%s/%s' % (proto, bucket, path)
@staticmethod
def is_valid(uri):
'''Check if given uri is a valid S3 URL'''
return S3URL.S3URL_PATTERN.match(uri) != None
class BotoClient(object):
'''This is a bridge between s4cmd and boto3 library. All S3 method calls should go through this class.
The white list ALLOWED_CLIENT_METHODS lists those methods that are allowed. Also, EXTRA_CLIENT_PARAMS
is the list of S3 parameters that we can take from command-line argument and pass through to the API.
'''
# Encapsulate boto3 interface intercept all API calls.
boto3 = __import__('boto3') # version >= 1.3.1
botocore = __import__('botocore')
# Exported exceptions.
BotoError = boto3.exceptions.Boto3Error
ClientError = botocore.exceptions.ClientError
NoCredentialsError = botocore.exceptions.NoCredentialsError
# Exceptions that retries may work. May change in the future.
S3RetryableErrors = (
socket.timeout,
socket.error if IS_PYTHON2 else ConnectionError,
botocore.vendored.requests.packages.urllib3.exceptions.ReadTimeoutError,
botocore.exceptions.IncompleteReadError
)
# List of API functions we use in s4cmd.
ALLOWED_CLIENT_METHODS = [
'list_buckets',
'get_paginator',
'head_object',
'put_object',
'create_bucket',
'create_multipart_upload',
'upload_part',
'complete_multipart_upload',
'abort_multipart_upload',
'get_object',
'copy_object',
'delete_object',
'delete_objects',
'upload_part_copy'
]
# List of parameters grabbed from http://boto3.readthedocs.io/en/latest/reference/services/s3.html
# Pass those parameters directly to boto3 low level API. Most of the parameters are not tested.
EXTRA_CLIENT_PARAMS = [
("ACL", "string",
"The canned ACL to apply to the object."),
("CacheControl", "string",
"Specifies caching behavior along the request/reply chain."),
("ContentDisposition", "string",
"Specifies presentational information for the object."),
("ContentEncoding", "string",
"Specifies what content encodings have been applied to the object and thus what decoding mechanisms must be applied to obtain the media-type referenced by the Content-Type header field."),
("ContentLanguage", "string",
"The language the content is in."),
("ContentMD5", "string",
"The base64-encoded 128-bit MD5 digest of the part data."),
("ContentType", "string",
"A standard MIME type describing the format of the object data."),
("CopySourceIfMatch", "string",
"Copies the object if its entity tag (ETag) matches the specified tag."),
("CopySourceIfModifiedSince", "datetime",
"Copies the object if it has been modified since the specified time."),
("CopySourceIfNoneMatch", "string",
"Copies the object if its entity tag (ETag) is different than the specified ETag."),
("CopySourceIfUnmodifiedSince", "datetime",
"Copies the object if it hasn't been modified since the specified time."),
("CopySourceRange", "string",
"The range of bytes to copy from the source object. The range value must use the form bytes=first-last, where the first and last are the zero-based byte offsets to copy. For example, bytes=0-9 indicates that you want to copy the first ten bytes of the source. You can copy a range only if the source object is greater than 5 GB."),
("CopySourceSSECustomerAlgorithm", "string",
"Specifies the algorithm to use when decrypting the source object (e.g., AES256)."),
("CopySourceSSECustomerKeyMD5", "string",
"Specifies the 128-bit MD5 digest of the encryption key according to RFC 1321. Amazon S3 uses this header for a message integrity check to ensure the encryption key was transmitted without error. Please note that this parameter is automatically populated if it is not provided. Including this parameter is not required"),
("CopySourceSSECustomerKey", "string",
"Specifies the customer-provided encryption key for Amazon S3 to use to decrypt the source object. The encryption key provided in this header must be one that was used when the source object was created."),
("ETag", "string",
"Entity tag returned when the part was uploaded."),
("Expires", "datetime",
"The date and time at which the object is no longer cacheable."),
("GrantFullControl", "string",
"Gives the grantee READ, READ_ACP, and WRITE_ACP permissions on the object."),
("GrantReadACP", "string",
"Allows grantee to read the object ACL."),
("GrantRead", "string",
"Allows grantee to read the object data and its metadata."),
("GrantWriteACP", "string",
"Allows grantee to write the ACL for the applicable object."),
("IfMatch", "string",
"Return the object only if its entity tag (ETag) is the same as the one specified, otherwise return a 412 (precondition failed)."),
("IfModifiedSince", "datetime",
"Return the object only if it has been modified since the specified time, otherwise return a 304 (not modified)."),
("IfNoneMatch", "string",
"Return the object only if its entity tag (ETag) is different from the one specified, otherwise return a 304 (not modified)."),
("IfUnmodifiedSince", "datetime",
"Return the object only if it has not been modified since the specified time, otherwise return a 412 (precondition failed)."),
("Metadata", "dict",
"A map (in json string) of metadata to store with the object in S3"),
("MetadataDirective", "string",
"Specifies whether the metadata is copied from the source object or replaced with metadata provided in the request."),
("MFA", "string",
"The concatenation of the authentication device's serial number, a space, and the value that is displayed on your authentication device."),
("RequestPayer", "string",
"Confirms that the requester knows that she or he will be charged for the request. Bucket owners need not specify this parameter in their requests. Documentation on downloading objects from requester pays buckets can be found at http://docs.aws.amazon.com/AmazonS3/latest/dev/ObjectsinRequesterPaysBuckets.html"),
("ServerSideEncryption", "string",
"The Server-side encryption algorithm used when storing this object in S3 (e.g., AES256, aws:kms)."),
("SSECustomerAlgorithm", "string",
"Specifies the algorithm to use to when encrypting the object (e.g., AES256)."),
("SSECustomerKeyMD5", "string",
"Specifies the 128-bit MD5 digest of the encryption key according to RFC 1321. Amazon S3 uses this header for a message integrity check to ensure the encryption key was transmitted without error. Please note that this parameter is automatically populated if it is not provided. Including this parameter is not required"),
("SSECustomerKey", "string",
"Specifies the customer-provided encryption key for Amazon S3 to use in encrypting data. This value is used to store the object and then it is discarded; Amazon does not store the encryption key. The key must be appropriate for use with the algorithm specified in the x-amz-server-side-encryption-customer-algorithm header."),
("SSEKMSKeyId", "string",
"Specifies the AWS KMS key ID to use for object encryption. All GET and PUT requests for an object protected by AWS KMS will fail if not made via SSL or using SigV4. Documentation on configuring any of the officially supported AWS SDKs and CLI can be found at http://docs.aws.amazon.com/AmazonS3/latest/dev/UsingAWSSDK.html#specify-signature-version"),
("StorageClass", "string",
"The type of storage to use for the object. Defaults to 'STANDARD'."),
("VersionId", "string",
"VersionId used to reference a specific version of the object."),
("WebsiteRedirectLocation", "string",
"If the bucket is configured as a website, redirects requests for this object to another object in the same bucket or to an external URL. Amazon S3 stores the value of this header in the object metadata."),
]
def __init__(self, opt, aws_access_key_id=None, aws_secret_access_key=None):
'''Initialize boto3 API bridge class. Calculate and cache all legal parameters
for each method we are going to call.
'''
self.opt = opt
if (aws_access_key_id is not None) and (aws_secret_access_key is not None):
self.client = self.boto3.client('s3',
verify=opt.verify_certificate,
aws_access_key_id=aws_access_key_id,
aws_secret_access_key=aws_secret_access_key,
endpoint_url=opt.endpoint_url)
else:
self.client = self.boto3.client('s3', verify=opt.verify_certificate, endpoint_url=opt.endpoint_url)
# Cache the result so we don't have to recalculate.
self.legal_params = {}
for method in BotoClient.ALLOWED_CLIENT_METHODS:
self.legal_params[method] = self.get_legal_params(method)
def __getattribute__(self, method):
'''Intercept boto3 API call to inject our extra options.'''
if method in BotoClient.ALLOWED_CLIENT_METHODS:
def wrapped_method(*args, **kargs):
merged_kargs = self.merge_opt_params(method, kargs)
callStr = "%s(%s)" % ("S3APICALL " + method, ", ".join([repr(p) for p in args] + ["%s=%s" % (k, repr(v)) for (k, v) in list(kargs.items())]))
debug(">> %s", callStr)
ret = getattr(self.client, method)(*args, **merged_kargs)
debug("<< %s: %s", callStr, repr(ret))
return ret
return wrapped_method
return super(BotoClient, self).__getattribute__(method)
def get_legal_params(self, method):
'''Given a API name, list all legal parameters using boto3 service model.'''
if method not in self.client.meta.method_to_api_mapping:
# Injected methods. Ignore.
return []
api = self.client.meta.method_to_api_mapping[method]
shape = self.client.meta.service_model.operation_model(api).input_shape
if shape is None:
# No params needed for this API.
return []
return shape.members.keys()
def merge_opt_params(self, method, kargs):
'''Combine existing parameters with extra options supplied from command line
options. Carefully merge special type of parameter if needed.
'''
for key in self.legal_params[method]:
if not hasattr(self.opt, key) or getattr(self.opt, key) is None:
continue
if key in kargs and type(kargs[key]) == dict:
assert(type(getattr(self.opt, key)) == dict)
# Merge two dictionaries.
for k, v in getattr(self.opt, key).iteritems():
kargs[key][k] = v
else:
# Overwrite values.
kargs[key] = getattr(self.opt, key)
return kargs
@staticmethod
def add_options(parser):
'''Add the whole list of API parameters into optparse.'''
for param, param_type, param_doc in BotoClient.EXTRA_CLIENT_PARAMS:
parser.add_option('--API-' + param, help=param_doc, type=param_type, dest=param)
def close(self):
'''Close this client.'''
self.client = None
class TaskQueue(Queue.Queue):
'''Wrapper class to Queue.
Since we need to ensure that main thread is not blocked by child threads
and cannot be wake up by Ctrl-C interrupt, we have to override join()
method.
'''
def __init__(self):
Queue.Queue.__init__(self)
self.exc_info = None
def join(self):
'''Override original join() with a timeout and handle keyboard interrupt.'''
self.all_tasks_done.acquire()
try:
while self.unfinished_tasks:
self.all_tasks_done.wait(1000)
# Child thread has exceptions, fail main thread too.
if self.exc_info:
fail('[Thread Failure] ', exc_info=self.exc_info)
except KeyboardInterrupt:
raise Failure('Interrupted by user')
finally:
self.all_tasks_done.release()
def terminate(self, exc_info=None):
'''Terminate all threads by deleting the queue and forcing the child threads
to quit.
'''
if exc_info:
self.exc_info = exc_info
try:
while self.get_nowait():
self.task_done()
except Queue.Empty:
pass
class ThreadPool(object):
'''Utility class for thread pool.
This class needs to work with a utility class, which is derived from Worker.
'''
class Worker(threading.Thread):
'''Utility thread worker class.
This class handles all items in task queue and execute them. It also
handles runtime errors gracefully, and provides automatic retry.
'''
def __init__(self, pool):
'''Thread worker initalization.
Setup values and start threads right away.
'''
threading.Thread.__init__(self)
self.pool = pool
self.opt = pool.opt
self.daemon = True
self.start()
def run(self):
'''Main thread worker execution.
This function extract items from task queue and execute them accordingly.
It will retry tasks when encounter exceptions by putting the same item
back to the work queue.
'''
while True:
item = self.pool.tasks.get()
if not item:
break
try:
func_name, retry, args, kargs = item
self.__class__.__dict__[func_name](self, *args, **kargs)
except InvalidArgument as e:
self.pool.tasks.terminate(e)
fail('[Invalid Argument] ', exc_info=e)
except Failure as e:
self.pool.tasks.terminate(e)
fail('[Runtime Failure] ', exc_info=e)
except OSError as e:
self.pool.tasks.terminate(e)
fail('[OSError] %d: %s' % (e.errno, e.strerror))
except BotoClient.S3RetryableErrors as e:
if retry >= self.opt.retry:
self.pool.tasks.terminate(e)
fail('[Runtime Exception] ', exc_info=e, stacktrace=True)
else:
# Show content of exceptions.
error(e)
time.sleep(self.opt.retry_delay)
self.pool.tasks.put((func_name, retry + 1, args, kargs))
except Exception as e:
self.pool.tasks.terminate(e)
fail('[Exception] ', exc_info=e)
finally:
self.pool.processed()
self.pool.tasks.task_done()
def __init__(self, thread_class, opt):
'''Constructor of ThreadPool.
Create workers and pool will automatically inherit all methods from
thread_class by redirecting calls through __getattribute__().
'''
self.opt = opt
self.tasks = TaskQueue()
self.processed_tasks = 0
self.thread_class = thread_class
self.workers = []
for i in range(opt.num_threads):
self.workers.append(thread_class(self))
def __enter__(self):
'''Utility function for with statement'''
return self
def __exit__(self, exc_type, exc_value, traceback):
'''Utility function for with statement, wait for completion'''
self.join()
return isinstance(exc_value, TypeError)
def __getattribute__(self, name):
'''Special attribute accessor to add tasks into task queue.
Here if we found a function not in ThreadPool, we will try
to see if we have a function in the utility class. If so, we
add the function call into task queue.
'''
try:
attr = super(ThreadPool, self).__getattribute__(name)
except AttributeError as e:
if name in self.thread_class.__dict__:
# Here we masquerade the original function with add_task(). So the
# function call will be put into task queue.
def deferred_task(*args, **kargs):
self.add_task(name, *args, **kargs)
attr = deferred_task
else:
raise AttributeError('Unable to resolve %s' % name)
return attr
def add_task(self, func_name, *args, **kargs):
'''Utility function to add a single task into task queue'''
self.tasks.put((func_name, 0, args, kargs))
def join(self):
'''Utility function to wait all tasks to complete'''
self.tasks.join()
# Force each thread to break loop.
for worker in self.workers:
self.tasks.put(None)
# Wait for all thread to terminate.
for worker in self.workers:
worker.join()
worker.s3 = None
@synchronized
def processed(self):
'''Increase the processed task counter and show progress message'''
self.processed_tasks += 1
qsize = self.tasks.qsize()
if qsize > 0:
progress('[%d task(s) completed, %d remaining, %d thread(s)]', self.processed_tasks, qsize, len(self.workers))
else:
progress('[%d task(s) completed, %d thread(s)]', self.processed_tasks, len(self.workers))
class S3Handler(object):
'''Core S3 class.
This class provide the functions for all operations. It will start thread
pool to execute tasks generated by each operation. See ThreadUtil for
more details about the tasks.
'''
S3_KEYS = None
@staticmethod
def s3_keys_from_env():
'''Retrieve S3 access keys from the environment, or None if not present.'''
env = os.environ
if S3_ACCESS_KEY_NAME in env and S3_SECRET_KEY_NAME in env:
keys = (env[S3_ACCESS_KEY_NAME], env[S3_SECRET_KEY_NAME])
debug("read S3 keys from environment")
return keys
else:
return None
@staticmethod
def s3_keys_from_cmdline(opt):
'''Retrieve S3 access keys from the command line, or None if not present.'''
if opt.access_key != None and opt.secret_key != None:
keys = (opt.access_key, opt.secret_key)
debug("read S3 keys from commandline")
return keys
else:
return None
@staticmethod
def s3_keys_from_s3cfg(opt):
'''Retrieve S3 access key settings from s3cmd's config file, if present; otherwise return None.'''
try:
if opt.s3cfg != None:
s3cfg_path = "%s" % opt.s3cfg
else:
s3cfg_path = "%s/.s3cfg" % os.environ["HOME"]
if not os.path.exists(s3cfg_path):
return None
config = ConfigParser.ConfigParser()
config.read(s3cfg_path)
keys = config.get("default", "access_key"), config.get("default", "secret_key")
debug("read S3 keys from %s file", s3cfg_path)
return keys
except Exception as e:
info("could not read S3 keys from %s file; skipping (%s)", s3cfg_path, e)
return None
@staticmethod
def init_s3_keys(opt):
'''Initialize s3 access keys from environment variable or s3cfg config file.'''
S3Handler.S3_KEYS = S3Handler.s3_keys_from_cmdline(opt) or S3Handler.s3_keys_from_env() \
or S3Handler.s3_keys_from_s3cfg(opt)
def __init__(self, opt):
'''Constructor, connect to S3 store'''
self.s3 = None
self.opt = opt
self.connect()
def __del__(self):
'''Destructor, stop s3 connection'''
self.s3 = None
def connect(self):
'''Connect to S3 storage'''
try:
if S3Handler.S3_KEYS:
self.s3 = BotoClient(self.opt, S3Handler.S3_KEYS[0], S3Handler.S3_KEYS[1])
else:
self.s3 = BotoClient(self.opt)
except Exception as e:
raise RetryFailure('Unable to connect to s3: %s' % e)
@log_calls
def list_buckets(self):
'''List all buckets'''
result = []
for bucket in self.s3.list_buckets().get('Buckets') or []:
result.append({
'name': S3URL.combine('s3', bucket['Name'], ''),
'is_dir': True,
'size': 0,
'last_modified': bucket['CreationDate']
})
return result
@log_calls
def s3walk(self, basedir, show_dir=None):
'''Walk through a S3 directory. This function initiate a walk with a basedir.
It also supports multiple wildcards.
'''
# Provide the default value from command line if no override.
if not show_dir:
show_dir = self.opt.show_dir
# trailing slash normalization, this is for the reason that we want
# ls 's3://foo/bar/' has the same result as 's3://foo/bar'. Since we
# call partial_match() to check wildcards, we need to ensure the number
# of slashes stays the same when we do this.
if basedir[-1] == PATH_SEP:
basedir = basedir[0:-1]
s3url = S3URL(basedir)
result = []
pool = ThreadPool(ThreadUtil, self.opt)
pool.s3walk(s3url, s3url.get_fixed_path(), s3url.path, result)
pool.join()
# automatic directory detection
if not show_dir and len(result) == 1 and result[0]['is_dir']:
path = result[0]['name']
s3url = S3URL(path)
result = []
pool = ThreadPool(ThreadUtil, self.opt)
pool.s3walk(s3url, s3url.get_fixed_path(), s3url.path, result)
pool.join()
def compare(x, y):
'''Comparator for ls output'''
result = -cmp(x['is_dir'], y['is_dir'])
if result != 0:
return result
return cmp(x['name'], y['name'])
return sorted(result, key=cmp_to_key(compare))
@log_calls
def local_walk(self, basedir):
'''Walk through local directories from root basedir'''
result = []
for root, dirs, files in os.walk(basedir):
for f in files:
result.append(os.path.join(root, f))
return result
@log_calls
def get_basename(self, path):
'''Unix style basename.
This fuction will return 'bar' for '/foo/bar/' instead of empty string.
It is used to normalize the input trailing slash.
'''
if path[-1] == PATH_SEP:
path = path[0:-1]
return os.path.basename(path)
def source_expand(self, source):
'''Expand the wildcards for an S3 path. This emulates the shall expansion
for wildcards if the input is local path.
'''
result = []
if not isinstance(source, list):
source = [source]
for src in source:
# XXX Hacky: We need to disable recursive when we expand the input
# parameters, need to pass this as an override parameter if
# provided.
tmp = self.opt.recursive
self.opt.recursive = False
result += [f['name'] for f in self.s3walk(src, True)]
self.opt.recursive = tmp
if (len(result) == 0) and (not self.opt.ignore_empty_source):
fail("[Runtime Failure] Source doesn't exist.")
return result
@log_calls
def put_single_file(self, pool, source, target):
'''Upload a single file or a directory by adding a task into queue'''
if os.path.isdir(source):
if self.opt.recursive:
for f in (f for f in self.local_walk(source) if not os.path.isdir(f)):
target_url = S3URL(target)
# deal with ./ or ../ here by normalizing the path.
joined_path = os.path.normpath(os.path.join(target_url.path, os.path.relpath(f, source)))
pool.upload(f, S3URL.combine('s3', target_url.bucket, joined_path))
else:
message('omitting directory "%s".' % source)
else:
pool.upload(source, target)
@log_calls
def put_files(self, source, target):
'''Upload files to S3.
This function can handle multiple file upload if source is a list.
Also, it works for recursive mode which copy all files and keep the
directory structure under the given source directory.
'''
pool = ThreadPool(ThreadUtil, self.opt)
if not isinstance(source, list):
source = [source]
if target[-1] == PATH_SEP:
for src in source:
self.put_single_file(pool, src, os.path.join(target, self.get_basename(src)))
else:
if len(source) == 1:
self.put_single_file(pool, source[0], target)
else:
raise Failure('Target "%s" is not a directory (with a trailing slash).' % target)
pool.join()
@log_calls
def create_bucket(self, source):
'''Use the create_bucket API to create a new bucket'''
s3url = S3URL(source)
message('Creating %s', source)
if not self.opt.dry_run:
resp = self.s3.create_bucket(Bucket=s3url.bucket)
if resp['ResponseMetadata']["HTTPStatusCode"] == 200:
message('Done.')
else:
raise Failure('Unable to create bucket %s' % source)
@log_calls
def update_privilege(self, obj, target):
'''Get privileges from metadata of the source in s3, and apply them to target'''
if 'privilege' in obj['Metadata']:
os.chmod(target, int(obj['Metadata']['privilege'], 8))
@log_calls
def print_files(self, source):
'''Print out a series of files'''
sources = self.source_expand(source)
for source in sources:
s3url = S3URL(source)
response = self.s3.get_object(Bucket=s3url.bucket, Key=s3url.path)
message('%s', response['Body'].read())
@log_calls
def get_single_file(self, pool, source, target):
'''Download a single file or a directory by adding a task into queue'''
if source[-1] == PATH_SEP:
if self.opt.recursive:
basepath = S3URL(source).path
for f in (f for f in self.s3walk(source) if not f['is_dir']):
pool.download(f['name'], os.path.join(target, os.path.relpath(S3URL(f['name']).path, basepath)))
else:
message('omitting directory "%s".' % source)
else:
pool.download(source, target)
@log_calls
def get_files(self, source, target):
'''Download files.
This function can handle multiple files if source S3 URL has wildcard
characters. It also handles recursive mode by download all files and
keep the directory structure.
'''
pool = ThreadPool(ThreadUtil, self.opt)
source = self.source_expand(source)
if os.path.isdir(target):
for src in source:
self.get_single_file(pool, src, os.path.join(target, self.get_basename(S3URL(src).path)))
else:
if len(source) > 1:
raise Failure('Target "%s" is not a directory.' % target)
# Get file if it exists on s3 otherwise do nothing
elif len(source) == 1:
self.get_single_file(pool, source[0], target)
else:
#Source expand may return empty list only if ignore-empty-source is set to true
pass
pool.join()
@log_calls
def delete_removed_files(self, source, target):
'''Remove remote files that are not present in the local source.
(Obsolete) It is used for old sync command now.
'''
message("Deleting files found in %s and not in %s", source, target)
if os.path.isdir(source):
unecessary = []
basepath = S3URL(target).path
for f in [f for f in self.s3walk(target) if not f['is_dir']]:
local_name = os.path.join(source, os.path.relpath(S3URL(f['name']).path, basepath))
if not os.path.isfile(local_name):
message("%s not found locally, adding to delete queue", local_name)
unecessary.append(f['name'])
if len(unecessary) > 0:
pool = ThreadPool(ThreadUtil, self.opt)
for del_file in unecessary:
pool.delete(del_file)
pool.join()
else:
raise Failure('Source "%s" is not a directory.' % target)
@log_calls
def cp_single_file(self, pool, source, target, delete_source):
'''Copy a single file or a directory by adding a task into queue'''
if source[-1] == PATH_SEP:
if self.opt.recursive:
basepath = S3URL(source).path
for f in (f for f in self.s3walk(source) if not f['is_dir']):
pool.copy(f['name'], os.path.join(target, os.path.relpath(S3URL(f['name']).path, basepath)), delete_source=delete_source)
else:
message('omitting directory "%s".' % source)
else:
pool.copy(source, target, delete_source=delete_source)
@log_calls
def cp_files(self, source, target, delete_source=False):
'''Copy files
This function can handle multiple files if source S3 URL has wildcard
characters. It also handles recursive mode by copying all files and
keep the directory structure.
'''
pool = ThreadPool(ThreadUtil, self.opt)
source = self.source_expand(source)
if target[-1] == PATH_SEP:
for src in source:
self.cp_single_file(pool, src, os.path.join(target, self.get_basename(S3URL(src).path)), delete_source)
else:
if len(source) > 1:
raise Failure('Target "%s" is not a directory (with a trailing slash).' % target)
# Copy file if it exists otherwise do nothing
elif len(source) == 1:
self.cp_single_file(pool, source[0], target, delete_source)
else:
# Source expand may return empty list only if ignore-empty-source is set to true
pass
pool.join()
@log_calls
def del_files(self, source):
'''Delete files on S3'''
src_files = []
for obj in self.s3walk(source):
if not obj['is_dir']: # ignore directories
src_files.append(obj['name'])
pool = ThreadPool(ThreadUtil, self.opt)
pool.batch_delete(src_files)
pool.join()
@log_calls
def relative_dir_walk(self, dir):
'''Generic version of directory walk. Return file list without base path
for comparison.
'''
result = []
if S3URL.is_valid(dir):
basepath = S3URL(dir).path
for f in (f for f in self.s3walk(dir) if not f['is_dir']):
result.append(os.path.relpath(S3URL(f['name']).path, basepath))
else:
for f in (f for f in self.local_walk(dir) if not os.path.isdir(f)):
result.append(os.path.relpath(f, dir))
return result
@log_calls
def dsync_files(self, source, target):
'''Sync directory to directory.'''
src_s3_url = S3URL.is_valid(source)
dst_s3_url = S3URL.is_valid(target)
source_list = self.relative_dir_walk(source)
if len(source_list) == 0 or '.' in source_list:
raise Failure('Sync command need to sync directory to directory.')
sync_list = [(os.path.join(source, f), os.path.join(target, f)) for f in source_list]
pool = ThreadPool(ThreadUtil, self.opt)
if src_s3_url and not dst_s3_url:
for src, dest in sync_list:
pool.download(src, dest)
elif not src_s3_url and dst_s3_url:
for src, dest in sync_list:
pool.upload(src, dest)
elif src_s3_url and dst_s3_url: