def basic_publish (self,
payload,
exchange='',
routing_key='',
mandatory=False,
immediate=False,
properties=None):
if self.confirm_mode:
self._next_delivery_tag += 1
dtag = self._next_delivery_tag
assert dtag not in self._pending_published
s = coro.inverted_semaphore(1)
self._pending_published[dtag] = s
#W('basic_publish pending >>> %d\n' % dtag);
self._basic_publish(payload,
exchange,
routing_key,
mandatory,
immediate,
properties)
self._publish_cv.wake_one()
s.block_till_zero()
#W('basic_publish pending <<< %d\n' % dtag);
else:
self._basic_publish(payload,
exchange,
routing_key,
mandatory,
immediate,
properties)
def test_isem_schedule_interrupt(self):
"""Test schedule then interrupt on inverted semaphore."""
s = coro.inverted_semaphore()
s.acquire(1)
self._resume_count = 0
threads = []
# Spawn some threads that will block and be interrupted.
for unused in xrange(5):
threads.append(coro.spawn(self._isem_block, s))
# Spawn a thread that we will not interrupt.
no_interrupt_thread = coro.spawn(self._isem_block, s)
coro.yield_slice()
# Schedule all of the threads.
s.release(1)
# Now interrupt them.
for t in threads:
t.shutdown()
coro.yield_slice()
# Verify that it ran.
self.assertEqual(self._resume_count, 1)
def test_isem_schedule_interrupt(self):
"""Test schedule then interrupt on inverted semaphore."""
s = coro.inverted_semaphore()
s.acquire(1)
self._resume_count = 0
threads = []
# Spawn some threads that will block and be interrupted.
for unused in xrange(5):
threads.append(coro.spawn(self._isem_block, s))
# Spawn a thread that we will not interrupt.
no_interrupt_thread = coro.spawn(self._isem_block, s)
coro.yield_slice()
# Schedule all of the threads.
s.release(1)
# Now interrupt them.
for t in threads:
t.shutdown()
coro.yield_slice()
# Verify that it ran.
self.assertEqual(self._resume_count, 1)
def __init__(self):
self._worker_semaphore = coro.inverted_semaphore()
self._writes_finished = 0
self._reads_finished = 0
self._bytes_written = 0
self._bytes_read = 0
self._start_time = 0
self._fd = -1
self._written = []
self._size = 0
self._num_live_writers = 0
self._write_cancel_success = 0
self._write_cancel_fail = 0
self._read_cancel_success = 0
self._read_cancel_fail = 0
self._assertion_errors = 0
self._write_locks = None
self._read_locks = None
self.main_thread_state = 'Not started.'
self.writer_status = {}
self.reader_status = {}
self.lio_status = {}
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
# SOFTWARE.
import coro
l = coro.inverted_semaphore()
def worker(sleep):
global l
print 'working starting'
l.acquire()
coro.sleep_relative(sleep)
print 'worker done, releasing'
l.release()
def waiter():
global l
print 'waiter'
l.block_till_zero()
def capture_with_stderr(command, cwd=None, env=None, timeout=0, pgrp=0):
"""Run a program in the background and capture its output.
stdout and stderr are captured independently.
:Parameters:
- `command`: The command to execute. If it is a string, it will be
parsed for command-line arguments. Otherwise it assumes it is a
sequence of arguments, with the first element being the command to
execute.
If the command does not contain a slash (/) it will search the PATH
environment for the executable.
- `cwd`: Change the working directory to this path if specified before
executing the program.
- `env`: The environment to use. If None, the environment is not
changed. May be a dictionary or a list of 'NAME=VALUE' strings.
- `timeout`: If specified, will use a coro timeout to ensure that the
process returns within the specified length of time. If it does not,
it is forcefully killed (with SIGKILL) and `ProcessTimeout` is
raised.
- `pgrp`: Set to -1 to keep process group unchanged, 0 to create a new
job (default) and >0 to set process group to pgrp
:Return:
Returns a tuple ``(status, stdout_output, stderr_output)``. Status is an
`ExitStatus` instance. The outputs are strings.
:Exceptions:
- `OSError`: Generic system error.
- `ValueError`: The command value is invalid.
- `ProcessTimeout`: The process did not return within `timeout`
seconds.
"""
status = None
stdout_result = []
stderr_result = []
finished_sem = coro.inverted_semaphore(2)
p = spawn_job_bg(command, stdin=DEV_NULL, stdout=PIPE, stderr=PIPE, cwd=cwd, env=env, pgrp=pgrp)
def do_read(s, result):
while 1:
block = s.read(1024)
if block:
result.append(block)
else:
break
finished_sem.release()
def do_work():
finished_sem.block_till_zero()
return p.wait()
try:
coro.spawn(do_read, p.stdout, stdout_result)
coro.spawn(do_read, p.stderr, stderr_result)
if timeout:
status = coro.with_timeout(timeout, do_work)
else:
status = do_work()
except BaseException, e:
try:
p.killpg(signal.SIGKILL)
except OSError, kill_exc:
if kill_exc.errno != errno.ESRCH:
raise
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
# SOFTWARE.
import coro
l = coro.inverted_semaphore()
def worker(sleep):
global l
print 'working starting'
l.acquire()
coro.sleep_relative(sleep)
print 'worker done, releasing'
l.release()
def waiter():
global l
print 'waiter'
l.block_till_zero()
print 'waiter awoke'
coro._exit = 1
def capture_with_stderr(command, cwd=None, env=None, timeout=0, pgrp=0):
"""Run a program in the background and capture its output.
stdout and stderr are captured independently.
:Parameters:
- `command`: The command to execute. If it is a string, it will be
parsed for command-line arguments. Otherwise it assumes it is a
sequence of arguments, with the first element being the command to
execute.
If the command does not contain a slash (/) it will search the PATH
environment for the executable.
- `cwd`: Change the working directory to this path if specified before
executing the program.
- `env`: The environment to use. If None, the environment is not
changed. May be a dictionary or a list of 'NAME=VALUE' strings.
- `timeout`: If specified, will use a coro timeout to ensure that the
process returns within the specified length of time. If it does not,
it is forcefully killed (with SIGKILL) and `ProcessTimeout` is
raised.
- `pgrp`: Set to -1 to keep process group unchanged, 0 to create a new
job (default) and >0 to set process group to pgrp
:Return:
Returns a tuple ``(status, stdout_output, stderr_output)``. Status is an
`ExitStatus` instance. The outputs are strings.
:Exceptions:
- `OSError`: Generic system error.
- `ValueError`: The command value is invalid.
- `ProcessTimeout`: The process did not return within `timeout`
seconds.
"""
status = None
stdout_result = []
stderr_result = []
finished_sem = coro.inverted_semaphore(2)
p = spawn_job_bg(command, stdin=DEV_NULL, stdout=PIPE, stderr=PIPE, cwd=cwd, env=env, pgrp=pgrp)
def do_read(s, result):
while 1:
block = s.read(1024)
if block:
result.append(block)
else:
break
finished_sem.release()
def do_work():
finished_sem.block_till_zero()
return p.wait()
try:
coro.spawn(do_read, p.stdout, stdout_result)
coro.spawn(do_read, p.stderr, stderr_result)
if timeout:
status = coro.with_timeout(timeout, do_work)
else:
status = do_work()
except BaseException, e:
try:
p.killpg(signal.SIGKILL)
except OSError, kill_exc:
if kill_exc.errno != errno.ESRCH:
raise