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paramiko/tests/test_sftp_big.py

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# Copyright (C) 2003-2009 Robey Pointer <robeypointer@gmail.com>
#
# This file is part of paramiko.
#
# Paramiko is free software; you can redistribute it and/or modify it under the
# terms of the GNU Lesser General Public License as published by the Free
# Software Foundation; either version 2.1 of the License, or (at your option)
# any later version.
#
# Paramiko is distributed in the hope that it will be useful, but WITHOUT ANY
# WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
# A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
# details.
#
# You should have received a copy of the GNU Lesser General Public License
# along with Paramiko; if not, write to the Free Software Foundation, Inc.,
# 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.
"""
some unit tests to make sure sftp works well with large files.
a real actual sftp server is contacted, and a new folder is created there to
do test file operations in (so no existing files will be harmed).
"""
import logging
import os
import random
import struct
import sys
import threading
import time
import unittest
import paramiko
from stub_sftp import StubServer, StubSFTPServer
from loop import LoopSocket
from test_sftp import get_sftp
FOLDER = os.environ.get('TEST_FOLDER', 'temp-testing000')
class BigSFTPTest (unittest.TestCase):
def setUp(self):
global FOLDER
sftp = get_sftp()
for i in xrange(1000):
FOLDER = FOLDER[:-3] + '%03d' % i
try:
sftp.mkdir(FOLDER)
break
except (IOError, OSError):
pass
def tearDown(self):
sftp = get_sftp()
sftp.rmdir(FOLDER)
def test_1_lots_of_files(self):
"""
create a bunch of files over the same session.
"""
sftp = get_sftp()
numfiles = 100
try:
for i in range(numfiles):
f = sftp.open('%s/file%d.txt' % (FOLDER, i), 'w', 1)
f.write('this is file #%d.\n' % i)
f.close()
sftp.chmod('%s/file%d.txt' % (FOLDER, i), 0660)
# now make sure every file is there, by creating a list of filenmes
# and reading them in random order.
numlist = range(numfiles)
while len(numlist) > 0:
r = numlist[random.randint(0, len(numlist) - 1)]
f = sftp.open('%s/file%d.txt' % (FOLDER, r))
self.assertEqual(f.readline(), 'this is file #%d.\n' % r)
f.close()
numlist.remove(r)
finally:
for i in range(numfiles):
try:
sftp.remove('%s/file%d.txt' % (FOLDER, i))
except:
pass
def test_2_big_file(self):
"""
write a 1MB file with no buffering.
"""
sftp = get_sftp()
kblob = (1024 * 'x')
start = time.time()
try:
f = sftp.open('%s/hongry.txt' % FOLDER, 'w')
for n in range(1024):
f.write(kblob)
if n % 128 == 0:
sys.stderr.write('.')
f.close()
sys.stderr.write(' ')
self.assertEqual(sftp.stat('%s/hongry.txt' % FOLDER).st_size, 1024 * 1024)
end = time.time()
sys.stderr.write('%ds ' % round(end - start))
start = time.time()
f = sftp.open('%s/hongry.txt' % FOLDER, 'r')
for n in range(1024):
data = f.read(1024)
self.assertEqual(data, kblob)
f.close()
end = time.time()
sys.stderr.write('%ds ' % round(end - start))
finally:
sftp.remove('%s/hongry.txt' % FOLDER)
def test_3_big_file_pipelined(self):
"""
write a 1MB file, with no linefeeds, using pipelining.
"""
sftp = get_sftp()
kblob = ''.join([struct.pack('>H', n) for n in xrange(512)])
start = time.time()
try:
f = sftp.open('%s/hongry.txt' % FOLDER, 'w')
f.set_pipelined(True)
for n in range(1024):
f.write(kblob)
if n % 128 == 0:
sys.stderr.write('.')
f.close()
sys.stderr.write(' ')
self.assertEqual(sftp.stat('%s/hongry.txt' % FOLDER).st_size, 1024 * 1024)
end = time.time()
sys.stderr.write('%ds ' % round(end - start))
start = time.time()
f = sftp.open('%s/hongry.txt' % FOLDER, 'r')
f.prefetch()
# read on odd boundaries to make sure the bytes aren't getting scrambled
n = 0
k2blob = kblob + kblob
chunk = 629
size = 1024 * 1024
while n < size:
if n + chunk > size:
chunk = size - n
data = f.read(chunk)
offset = n % 1024
self.assertEqual(data, k2blob[offset:offset + chunk])
n += chunk
f.close()
end = time.time()
sys.stderr.write('%ds ' % round(end - start))
finally:
sftp.remove('%s/hongry.txt' % FOLDER)
def test_4_prefetch_seek(self):
sftp = get_sftp()
kblob = ''.join([struct.pack('>H', n) for n in xrange(512)])
try:
f = sftp.open('%s/hongry.txt' % FOLDER, 'w')
f.set_pipelined(True)
for n in range(1024):
f.write(kblob)
if n % 128 == 0:
sys.stderr.write('.')
f.close()
sys.stderr.write(' ')
self.assertEqual(sftp.stat('%s/hongry.txt' % FOLDER).st_size, 1024 * 1024)
start = time.time()
k2blob = kblob + kblob
chunk = 793
for i in xrange(10):
f = sftp.open('%s/hongry.txt' % FOLDER, 'r')
f.prefetch()
base_offset = (512 * 1024) + 17 * random.randint(1000, 2000)
offsets = [base_offset + j * chunk for j in xrange(100)]
# randomly seek around and read them out
for j in xrange(100):
offset = offsets[random.randint(0, len(offsets) - 1)]
offsets.remove(offset)
f.seek(offset)
data = f.read(chunk)
n_offset = offset % 1024
self.assertEqual(data, k2blob[n_offset:n_offset + chunk])
offset += chunk
f.close()
end = time.time()
sys.stderr.write('%ds ' % round(end - start))
finally:
sftp.remove('%s/hongry.txt' % FOLDER)
def test_5_readv_seek(self):
sftp = get_sftp()
kblob = ''.join([struct.pack('>H', n) for n in xrange(512)])
try:
f = sftp.open('%s/hongry.txt' % FOLDER, 'w')
f.set_pipelined(True)
for n in range(1024):
f.write(kblob)
if n % 128 == 0:
sys.stderr.write('.')
f.close()
sys.stderr.write(' ')
self.assertEqual(sftp.stat('%s/hongry.txt' % FOLDER).st_size, 1024 * 1024)
start = time.time()
k2blob = kblob + kblob
chunk = 793
for i in xrange(10):
f = sftp.open('%s/hongry.txt' % FOLDER, 'r')
base_offset = (512 * 1024) + 17 * random.randint(1000, 2000)
# make a bunch of offsets and put them in random order
offsets = [base_offset + j * chunk for j in xrange(100)]
readv_list = []
for j in xrange(100):
o = offsets[random.randint(0, len(offsets) - 1)]
offsets.remove(o)
readv_list.append((o, chunk))
ret = f.readv(readv_list)
for i in xrange(len(readv_list)):
offset = readv_list[i][0]
n_offset = offset % 1024
self.assertEqual(ret.next(), k2blob[n_offset:n_offset + chunk])
f.close()
end = time.time()
sys.stderr.write('%ds ' % round(end - start))
finally:
sftp.remove('%s/hongry.txt' % FOLDER)
def test_6_lots_of_prefetching(self):
"""
prefetch a 1MB file a bunch of times, discarding the file object
without using it, to verify that paramiko doesn't get confused.
"""
sftp = get_sftp()
kblob = (1024 * 'x')
try:
f = sftp.open('%s/hongry.txt' % FOLDER, 'w')
f.set_pipelined(True)
for n in range(1024):
f.write(kblob)
if n % 128 == 0:
sys.stderr.write('.')
f.close()
sys.stderr.write(' ')
self.assertEqual(sftp.stat('%s/hongry.txt' % FOLDER).st_size, 1024 * 1024)
for i in range(10):
f = sftp.open('%s/hongry.txt' % FOLDER, 'r')
f.prefetch()
f = sftp.open('%s/hongry.txt' % FOLDER, 'r')
f.prefetch()
for n in range(1024):
data = f.read(1024)
self.assertEqual(data, kblob)
if n % 128 == 0:
sys.stderr.write('.')
f.close()
sys.stderr.write(' ')
finally:
sftp.remove('%s/hongry.txt' % FOLDER)
def test_7_prefetch_readv(self):
"""
verify that prefetch and readv don't conflict with each other.
"""
sftp = get_sftp()
kblob = ''.join([struct.pack('>H', n) for n in xrange(512)])
try:
f = sftp.open('%s/hongry.txt' % FOLDER, 'w')
f.set_pipelined(True)
for n in range(1024):
f.write(kblob)
if n % 128 == 0:
sys.stderr.write('.')
f.close()
sys.stderr.write(' ')
self.assertEqual(sftp.stat('%s/hongry.txt' % FOLDER).st_size, 1024 * 1024)
f = sftp.open('%s/hongry.txt' % FOLDER, 'r')
f.prefetch()
data = f.read(1024)
self.assertEqual(data, kblob)
chunk_size = 793
base_offset = 512 * 1024
k2blob = kblob + kblob
chunks = [(base_offset + (chunk_size * i), chunk_size) for i in range(20)]
for data in f.readv(chunks):
offset = base_offset % 1024
self.assertEqual(chunk_size, len(data))
self.assertEqual(k2blob[offset:offset + chunk_size], data)
base_offset += chunk_size
f.close()
sys.stderr.write(' ')
finally:
sftp.remove('%s/hongry.txt' % FOLDER)
def test_8_large_readv(self):
"""
verify that a very large readv is broken up correctly and still
returned as a single blob.
"""
sftp = get_sftp()
kblob = ''.join([struct.pack('>H', n) for n in xrange(512)])
try:
f = sftp.open('%s/hongry.txt' % FOLDER, 'w')
f.set_pipelined(True)
for n in range(1024):
f.write(kblob)
if n % 128 == 0:
sys.stderr.write('.')
f.close()
sys.stderr.write(' ')
self.assertEqual(sftp.stat('%s/hongry.txt' % FOLDER).st_size, 1024 * 1024)
f = sftp.open('%s/hongry.txt' % FOLDER, 'r')
data = list(f.readv([(23 * 1024, 128 * 1024)]))
self.assertEqual(1, len(data))
data = data[0]
self.assertEqual(128 * 1024, len(data))
f.close()
sys.stderr.write(' ')
finally:
sftp.remove('%s/hongry.txt' % FOLDER)
def test_9_big_file_big_buffer(self):
"""
write a 1MB file, with no linefeeds, and a big buffer.
"""
sftp = get_sftp()
mblob = (1024 * 1024 * 'x')
try:
f = sftp.open('%s/hongry.txt' % FOLDER, 'w', 128 * 1024)
f.write(mblob)
f.close()
self.assertEqual(sftp.stat('%s/hongry.txt' % FOLDER).st_size, 1024 * 1024)
finally:
sftp.remove('%s/hongry.txt' % FOLDER)
def test_A_big_file_renegotiate(self):
"""
write a 1MB file, forcing key renegotiation in the middle.
"""
sftp = get_sftp()
t = sftp.sock.get_transport()
t.packetizer.REKEY_BYTES = 512 * 1024
k32blob = (32 * 1024 * 'x')
try:
f = sftp.open('%s/hongry.txt' % FOLDER, 'w', 128 * 1024)
for i in xrange(32):
f.write(k32blob)
f.close()
self.assertEqual(sftp.stat('%s/hongry.txt' % FOLDER).st_size, 1024 * 1024)
self.assertNotEquals(t.H, t.session_id)
# try to read it too.
f = sftp.open('%s/hongry.txt' % FOLDER, 'r', 128 * 1024)
f.prefetch()
total = 0
while total < 1024 * 1024:
total += len(f.read(32 * 1024))
f.close()
finally:
sftp.remove('%s/hongry.txt' % FOLDER)
t.packetizer.REKEY_BYTES = pow(2, 30)
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