145 lines
4.7 KiB
Python
145 lines
4.7 KiB
Python
# test that socket.connect() on a non-blocking socket raises EINPROGRESS
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# and that an immediate write/send/read/recv does the right thing
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import sys, time, socket, errno, ssl
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isMP = sys.implementation.name == "micropython"
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def dp(e):
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# uncomment next line for development and testing, to print the actual exceptions
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# print(repr(e))
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pass
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# do_connect establishes the socket and wraps it if tls is True.
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# If handshake is true, the initial connect (and TLS handshake) is
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# allowed to be performed before returning.
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def do_connect(peer_addr, tls, handshake):
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s = socket.socket()
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s.setblocking(False)
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try:
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# print("Connecting to", peer_addr)
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s.connect(peer_addr)
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except OSError as er:
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print("connect:", er.errno == errno.EINPROGRESS)
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if er.errno != errno.EINPROGRESS:
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print(" got", er.errno)
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# wrap with ssl/tls if desired
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if tls:
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try:
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if sys.implementation.name == "micropython":
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s = ssl.wrap_socket(s, do_handshake=handshake)
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else:
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s = ssl.wrap_socket(s, do_handshake_on_connect=handshake)
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print("wrap: True")
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except Exception as e:
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dp(e)
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print("wrap:", e)
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elif handshake:
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# just sleep a little bit, this allows any connect() errors to happen
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time.sleep(0.2)
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return s
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# test runs the test against a specific peer address.
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def test(peer_addr, tls=False, handshake=False):
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# MicroPython plain sockets have read/write, but CPython's don't
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# MicroPython TLS sockets and CPython's have read/write
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# hasRW captures this wonderful state of affairs
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hasRW = isMP or tls
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# MicroPython plain sockets and CPython's have send/recv
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# MicroPython TLS sockets don't have send/recv, but CPython's do
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# hasSR captures this wonderful state of affairs
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hasSR = not (isMP and tls)
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# connect + send
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if hasSR:
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s = do_connect(peer_addr, tls, handshake)
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# send -> 4 or EAGAIN
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try:
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ret = s.send(b"1234")
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print("send:", handshake and ret == 4)
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except OSError as er:
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#
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dp(er)
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print("send:", er.errno in (errno.EAGAIN, errno.EINPROGRESS))
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s.close()
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else: # fake it...
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print("connect:", True)
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if tls:
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print("wrap:", True)
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print("send:", True)
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# connect + write
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if hasRW:
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s = do_connect(peer_addr, tls, handshake)
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# write -> None
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try:
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ret = s.write(b"1234")
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print("write:", ret in (4, None)) # SSL may accept 4 into buffer
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except OSError as er:
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dp(er)
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print("write:", False) # should not raise
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except ValueError as er: # CPython
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dp(er)
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print("write:", er.args[0] == "Write on closed or unwrapped SSL socket.")
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s.close()
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else: # fake it...
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print("connect:", True)
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if tls:
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print("wrap:", True)
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print("write:", True)
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if hasSR:
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# connect + recv
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s = do_connect(peer_addr, tls, handshake)
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# recv -> EAGAIN
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try:
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print("recv:", s.recv(10))
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except OSError as er:
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dp(er)
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print("recv:", er.errno == errno.EAGAIN)
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s.close()
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else: # fake it...
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print("connect:", True)
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if tls:
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print("wrap:", True)
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print("recv:", True)
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# connect + read
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if hasRW:
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s = do_connect(peer_addr, tls, handshake)
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# read -> None
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try:
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ret = s.read(10)
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print("read:", ret is None)
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except OSError as er:
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dp(er)
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print("read:", False) # should not raise
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except ValueError as er: # CPython
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dp(er)
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print("read:", er.args[0] == "Read on closed or unwrapped SSL socket.")
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s.close()
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else: # fake it...
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print("connect:", True)
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if tls:
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print("wrap:", True)
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print("read:", True)
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if __name__ == "__main__":
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# these tests use a non-existent test IP address, this way the connect takes forever and
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# we can see EAGAIN/None (https://tools.ietf.org/html/rfc5737)
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print("--- Plain sockets to nowhere ---")
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test(socket.getaddrinfo("192.0.2.1", 80)[0][-1], False, False)
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print("--- SSL sockets to nowhere ---")
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# this test fails with AXTLS because do_handshake=False blocks on first read/write and
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# there it times out until the connect is aborted
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test(socket.getaddrinfo("192.0.2.1", 443)[0][-1], True, False)
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print("--- Plain sockets ---")
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test(socket.getaddrinfo("micropython.org", 80)[0][-1], False, True)
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print("--- SSL sockets ---")
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test(socket.getaddrinfo("micropython.org", 443)[0][-1], True, True)
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