mirror of
https://github.com/ceph/s3-tests.git
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cad6547eb0
Signed-off-by: Alfredo Deza <alfredo@deza.pe>
281 lines
8.6 KiB
Python
281 lines
8.6 KiB
Python
import hashlib
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import random
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import string
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import struct
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import time
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import math
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import tempfile
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import shutil
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import os
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NANOSECOND = int(1e9)
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def generate_file_contents(size):
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"""
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A helper function to generate binary contents for a given size, and
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calculates the md5 hash of the contents appending itself at the end of the
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blob.
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It uses sha1's hexdigest which is 40 chars long. So any binary generated
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should remove the last 40 chars from the blob to retrieve the original hash
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and binary so that validity can be proved.
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"""
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size = int(size)
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contents = os.urandom(size)
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content_hash = hashlib.sha1(contents).hexdigest()
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return contents + content_hash
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class FileValidator(object):
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def __init__(self, f=None):
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self._file = tempfile.SpooledTemporaryFile()
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self.original_hash = None
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self.new_hash = None
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if f:
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f.seek(0)
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shutil.copyfileobj(f, self._file)
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def valid(self):
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"""
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Returns True if this file looks valid. The file is valid if the end
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of the file has the md5 digest for the first part of the file.
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"""
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self._file.seek(0)
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contents = self._file.read()
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self.original_hash, binary = contents[-40:], contents[:-40]
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self.new_hash = hashlib.sha1(binary).hexdigest()
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if not self.new_hash == self.original_hash:
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print 'original hash: ', self.original_hash
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print 'new hash: ', self.new_hash
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print 'size: ', self._file.tell()
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return False
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return True
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# XXX not sure if we need all of these
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def seek(self, offset, whence=os.SEEK_SET):
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self._file.seek(offset, whence)
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def tell(self):
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return self._file.tell()
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def read(self, size=-1):
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return self._file.read(size)
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def write(self, data):
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self._file.write(data)
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self._file.seek(0)
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class RandomContentFile(object):
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def __init__(self, size, seed):
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self.size = size
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self.seed = seed
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self.random = random.Random(self.seed)
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# Boto likes to seek once more after it's done reading, so we need to save the last chunks/seek value.
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self.last_chunks = self.chunks = None
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self.last_seek = None
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# Let seek initialize the rest of it, rather than dup code
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self.seek(0)
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def _mark_chunk(self):
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self.chunks.append([self.offset, int(round((time.time() - self.last_seek) * NANOSECOND))])
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def seek(self, offset, whence=os.SEEK_SET):
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if whence == os.SEEK_SET:
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self.offset = offset
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elif whence == os.SEEK_END:
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self.offset = self.size + offset;
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elif whence == os.SEEK_CUR:
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self.offset += offset
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assert self.offset == 0
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self.random.seed(self.seed)
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self.buffer = ''
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self.hash = hashlib.md5()
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self.digest_size = self.hash.digest_size
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self.digest = None
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# Save the last seek time as our start time, and the last chunks
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self.last_chunks = self.chunks
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# Before emptying.
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self.last_seek = time.time()
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self.chunks = []
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def tell(self):
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return self.offset
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def _generate(self):
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# generate and return a chunk of pseudorandom data
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size = min(self.size, 1*1024*1024) # generate at most 1 MB at a time
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chunks = int(math.ceil(size/8.0)) # number of 8-byte chunks to create
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l = [self.random.getrandbits(64) for _ in xrange(chunks)]
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s = struct.pack(chunks*'Q', *l)
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return s
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def read(self, size=-1):
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if size < 0:
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size = self.size - self.offset
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r = []
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random_count = min(size, self.size - self.offset - self.digest_size)
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if random_count > 0:
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while len(self.buffer) < random_count:
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self.buffer += self._generate()
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self.offset += random_count
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size -= random_count
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data, self.buffer = self.buffer[:random_count], self.buffer[random_count:]
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if self.hash is not None:
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self.hash.update(data)
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r.append(data)
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digest_count = min(size, self.size - self.offset)
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if digest_count > 0:
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if self.digest is None:
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self.digest = self.hash.digest()
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self.hash = None
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self.offset += digest_count
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size -= digest_count
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data = self.digest[:digest_count]
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r.append(data)
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self._mark_chunk()
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return ''.join(r)
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class PrecomputedContentFile(object):
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def __init__(self, f):
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self._file = tempfile.SpooledTemporaryFile()
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f.seek(0)
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shutil.copyfileobj(f, self._file)
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self.last_chunks = self.chunks = None
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self.seek(0)
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def seek(self, offset, whence=os.SEEK_SET):
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self._file.seek(offset, whence)
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if self.tell() == 0:
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# only reset the chunks when seeking to the beginning
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self.last_chunks = self.chunks
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self.last_seek = time.time()
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self.chunks = []
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def tell(self):
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return self._file.tell()
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def read(self, size=-1):
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data = self._file.read(size)
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self._mark_chunk()
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return data
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def _mark_chunk(self):
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elapsed = time.time() - self.last_seek
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elapsed_nsec = int(round(elapsed * NANOSECOND))
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self.chunks.append([self.tell(), elapsed_nsec])
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class FileVerifier(object):
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def __init__(self):
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self.size = 0
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self.hash = hashlib.md5()
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self.buf = ''
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self.created_at = time.time()
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self.chunks = []
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def _mark_chunk(self):
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self.chunks.append([self.size, int(round((time.time() - self.created_at) * NANOSECOND))])
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def write(self, data):
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self.size += len(data)
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self.buf += data
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digsz = -1*self.hash.digest_size
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new_data, self.buf = self.buf[0:digsz], self.buf[digsz:]
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self.hash.update(new_data)
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self._mark_chunk()
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def valid(self):
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"""
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Returns True if this file looks valid. The file is valid if the end
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of the file has the md5 digest for the first part of the file.
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"""
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if self.size < self.hash.digest_size:
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return self.hash.digest().startswith(self.buf)
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return self.buf == self.hash.digest()
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def files(mean, stddev, seed=None):
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"""
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Yields file-like objects with effectively random contents, where
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the size of each file follows the normal distribution with `mean`
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and `stddev`.
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Beware, the file-likeness is very shallow. You can use boto's
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`key.set_contents_from_file` to send these to S3, but they are not
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full file objects.
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The last 128 bits are the MD5 digest of the previous bytes, for
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verifying round-trip data integrity. For example, if you
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re-download the object and place the contents into a file called
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``foo``, the following should print two identical lines:
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python -c 'import sys, hashlib; data=sys.stdin.read(); print hashlib.md5(data[:-16]).hexdigest(); print "".join("%02x" % ord(c) for c in data[-16:])' <foo
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Except for objects shorter than 16 bytes, where the second line
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will be proportionally shorter.
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"""
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rand = random.Random(seed)
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while True:
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while True:
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size = int(rand.normalvariate(mean, stddev))
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if size >= 0:
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break
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yield RandomContentFile(size=size, seed=rand.getrandbits(32))
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def files2(mean, stddev, seed=None, numfiles=10):
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"""
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Yields file objects with effectively random contents, where the
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size of each file follows the normal distribution with `mean` and
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`stddev`.
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Rather than continuously generating new files, this pre-computes and
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stores `numfiles` files and yields them in a loop.
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"""
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# pre-compute all the files (and save with TemporaryFiles)
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fs = []
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for _ in xrange(numfiles):
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t = tempfile.SpooledTemporaryFile()
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t.write(generate_file_contents(random.normalvariate(mean, stddev)))
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t.seek(0)
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fs.append(t)
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while True:
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for f in fs:
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yield f
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def names(mean, stddev, charset=None, seed=None):
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"""
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Yields strings that are somewhat plausible as file names, where
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the lenght of each filename follows the normal distribution with
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`mean` and `stddev`.
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"""
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if charset is None:
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charset = string.ascii_lowercase
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rand = random.Random(seed)
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while True:
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while True:
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length = int(rand.normalvariate(mean, stddev))
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if length > 0:
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break
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name = ''.join(rand.choice(charset) for _ in xrange(length))
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yield name
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