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llvm-project/lldb/packages/Python/lldbsuite/test/dotest_channels.py
Zachary Turner c1b7cd72db Python 3 - Turn on absolute imports, and fix existing imports. 
Absolute imports were introduced in Python 2.5 as a feature
(e.g. from __future__ import absolute_import), and made default
in Python 3.

When absolute imports are enabled, the import system changes in
a couple of ways:

1) The `import foo` syntax will *only* search sys.path.  If `foo`
   isn't in sys.path, it won't be found.  Period.  Without absolute
   imports, the import system will also search the same directory
   that the importing file resides in, so that you can easily
   import from the same folder.

2) From inside a package, you can use a dot syntax to refer to higher
   levels of the current package.  For example, if you are in the
   package lldbsuite.test.utility, then ..foo refers to
   lldbsuite.test.foo.  You can use this notation with the
   `from X import Y` syntax to write intra-package references.  For
   example, using the previous locationa s a starting point, writing
   `from ..support import seven` would import lldbsuite.support.seven

Since this is now the default behavior in Python 3, this means that
importing from the same directory with `import foo` *no longer works*.
As a result, the only way to have portable code is to force absolute
imports for all versions of Python.

See PEP 0328 [https://www.python.org/dev/peps/pep-0328/] for more
information about absolute and relative imports.

Differential Revision: http://reviews.llvm.org/D14342
Reviewed By: Todd Fiala

llvm-svn: 252191
2015-11-05 19:22:28 +00:00

182 lines
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Python
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"""
The LLVM Compiler Infrastructure
This file is distributed under the University of Illinois Open Source
License. See LICENSE.TXT for details.
Sync lldb and related source from a local machine to a remote machine.
This facilitates working on the lldb sourcecode on multiple machines
and multiple OS types, verifying changes across all.
This module provides asyncore channels used within the LLDB test
framework.
"""
from __future__ import print_function
from __future__ import absolute_import
# System modules
import asyncore
import socket
# Third-party modules
from six.moves import cPickle
# LLDB modules
class UnpicklingForwardingReaderChannel(asyncore.dispatcher):
"""Provides an unpickling, forwarding asyncore dispatch channel reader.
Inferior dotest.py processes with side-channel-based test results will
send test result event data in a pickled format, one event at a time.
This class supports reconstructing the pickled data and forwarding it
on to its final destination.
The channel data is written in the form:
{num_payload_bytes}#{payload_bytes}
The bulk of this class is devoted to reading and parsing out
the payload bytes.
"""
def __init__(self, file_object, async_map, forwarding_func):
asyncore.dispatcher.__init__(self, sock=file_object, map=async_map)
self.header_contents = ''
self.packet_bytes_remaining = 0
self.reading_header = True
self.ibuffer = ''
self.forwarding_func = forwarding_func
if forwarding_func is None:
# This whole class is useless if we do nothing with the
# unpickled results.
raise Exception("forwarding function must be set")
def deserialize_payload(self):
"""Unpickles the collected input buffer bytes and forwards."""
if len(self.ibuffer) > 0:
self.forwarding_func(cPickle.loads(self.ibuffer))
self.ibuffer = ''
def consume_header_bytes(self, data):
"""Consumes header bytes from the front of data.
@param data the incoming data stream bytes
@return any data leftover after consuming header bytes.
"""
# We're done if there is no content.
if not data or (len(data) == 0):
return None
for index in range(len(data)):
byte = data[index]
if byte != '#':
# Header byte.
self.header_contents += byte
else:
# End of header.
self.packet_bytes_remaining = int(self.header_contents)
self.header_contents = ''
self.reading_header = False
return data[(index+1):]
# If we made it here, we've exhausted the data and
# we're still parsing header content.
return None
def consume_payload_bytes(self, data):
"""Consumes payload bytes from the front of data.
@param data the incoming data stream bytes
@return any data leftover after consuming remaining payload bytes.
"""
if not data or (len(data) == 0):
# We're done and there's nothing to do.
return None
data_len = len(data)
if data_len <= self.packet_bytes_remaining:
# We're consuming all the data provided.
self.ibuffer += data
self.packet_bytes_remaining -= data_len
# If we're no longer waiting for payload bytes,
# we flip back to parsing header bytes and we
# unpickle the payload contents.
if self.packet_bytes_remaining < 1:
self.reading_header = True
self.deserialize_payload()
# We're done, no more data left.
return None
else:
# We're only consuming a portion of the data since
# the data contains more than the payload amount.
self.ibuffer += data[:self.packet_bytes_remaining]
data = data[self.packet_bytes_remaining:]
# We now move on to reading the header.
self.reading_header = True
self.packet_bytes_remaining = 0
# And we can deserialize the payload.
self.deserialize_payload()
# Return the remaining data.
return data
def handle_read(self):
data = self.recv(8192)
# print('driver socket READ: %d bytes' % len(data))
while data and (len(data) > 0):
# If we're reading the header, gather header bytes.
if self.reading_header:
data = self.consume_header_bytes(data)
else:
data = self.consume_payload_bytes(data)
def handle_close(self):
# print("socket reader: closing port")
self.close()
class UnpicklingForwardingListenerChannel(asyncore.dispatcher):
"""Provides a socket listener asyncore channel for unpickling/forwarding.
This channel will listen on a socket port (use 0 for host-selected). Any
client that connects will have an UnpicklingForwardingReaderChannel handle
communication over the connection.
The dotest parallel test runners, when collecting test results, open the
test results side channel over a socket. This channel handles connections
from inferiors back to the test runner. Each worker fires up a listener
for each inferior invocation. This simplifies the asyncore.loop() usage,
one of the reasons for implementing with asyncore. This listener shuts
down once a single connection is made to it.
"""
def __init__(self, async_map, host, port, backlog_count, forwarding_func):
asyncore.dispatcher.__init__(self, map=async_map)
self.create_socket(socket.AF_INET, socket.SOCK_STREAM)
self.set_reuse_addr()
self.bind((host, port))
self.address = self.socket.getsockname()
self.listen(backlog_count)
self.handler = None
self.async_map = async_map
self.forwarding_func = forwarding_func
if forwarding_func is None:
# This whole class is useless if we do nothing with the
# unpickled results.
raise Exception("forwarding function must be set")
def handle_accept(self):
(sock, addr) = self.socket.accept()
if sock and addr:
# print('Incoming connection from %s' % repr(addr))
self.handler = UnpicklingForwardingReaderChannel(
sock, self.async_map, self.forwarding_func)
def handle_close(self):
self.close()
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