view urllib3/util/wait.py @ 13:f550715358f1

planemo upload for repository https://toolrepo.galaxytrakr.org/view/jpayne/bioproject_to_srr_2/556cac4fb538
author jpayne
date Mon, 20 May 2024 00:56:52 -0400
parents 5eb2d5e3bf22
children
line wrap: on
line source
from __future__ import annotations

import select
import socket
from functools import partial

__all__ = ["wait_for_read", "wait_for_write"]


# How should we wait on sockets?
#
# There are two types of APIs you can use for waiting on sockets: the fancy
# modern stateful APIs like epoll/kqueue, and the older stateless APIs like
# select/poll. The stateful APIs are more efficient when you have a lots of
# sockets to keep track of, because you can set them up once and then use them
# lots of times. But we only ever want to wait on a single socket at a time
# and don't want to keep track of state, so the stateless APIs are actually
# more efficient. So we want to use select() or poll().
#
# Now, how do we choose between select() and poll()? On traditional Unixes,
# select() has a strange calling convention that makes it slow, or fail
# altogether, for high-numbered file descriptors. The point of poll() is to fix
# that, so on Unixes, we prefer poll().
#
# On Windows, there is no poll() (or at least Python doesn't provide a wrapper
# for it), but that's OK, because on Windows, select() doesn't have this
# strange calling convention; plain select() works fine.
#
# So: on Windows we use select(), and everywhere else we use poll(). We also
# fall back to select() in case poll() is somehow broken or missing.


def select_wait_for_socket(
    sock: socket.socket,
    read: bool = False,
    write: bool = False,
    timeout: float | None = None,
) -> bool:
    if not read and not write:
        raise RuntimeError("must specify at least one of read=True, write=True")
    rcheck = []
    wcheck = []
    if read:
        rcheck.append(sock)
    if write:
        wcheck.append(sock)
    # When doing a non-blocking connect, most systems signal success by
    # marking the socket writable. Windows, though, signals success by marked
    # it as "exceptional". We paper over the difference by checking the write
    # sockets for both conditions. (The stdlib selectors module does the same
    # thing.)
    fn = partial(select.select, rcheck, wcheck, wcheck)
    rready, wready, xready = fn(timeout)
    return bool(rready or wready or xready)


def poll_wait_for_socket(
    sock: socket.socket,
    read: bool = False,
    write: bool = False,
    timeout: float | None = None,
) -> bool:
    if not read and not write:
        raise RuntimeError("must specify at least one of read=True, write=True")
    mask = 0
    if read:
        mask |= select.POLLIN
    if write:
        mask |= select.POLLOUT
    poll_obj = select.poll()
    poll_obj.register(sock, mask)

    # For some reason, poll() takes timeout in milliseconds
    def do_poll(t: float | None) -> list[tuple[int, int]]:
        if t is not None:
            t *= 1000
        return poll_obj.poll(t)

    return bool(do_poll(timeout))


def _have_working_poll() -> bool:
    # Apparently some systems have a select.poll that fails as soon as you try
    # to use it, either due to strange configuration or broken monkeypatching
    # from libraries like eventlet/greenlet.
    try:
        poll_obj = select.poll()
        poll_obj.poll(0)
    except (AttributeError, OSError):
        return False
    else:
        return True


def wait_for_socket(
    sock: socket.socket,
    read: bool = False,
    write: bool = False,
    timeout: float | None = None,
) -> bool:
    # We delay choosing which implementation to use until the first time we're
    # called. We could do it at import time, but then we might make the wrong
    # decision if someone goes wild with monkeypatching select.poll after
    # we're imported.
    global wait_for_socket
    if _have_working_poll():
        wait_for_socket = poll_wait_for_socket
    elif hasattr(select, "select"):
        wait_for_socket = select_wait_for_socket
    return wait_for_socket(sock, read, write, timeout)


def wait_for_read(sock: socket.socket, timeout: float | None = None) -> bool:
    """Waits for reading to be available on a given socket.
    Returns True if the socket is readable, or False if the timeout expired.
    """
    return wait_for_socket(sock, read=True, timeout=timeout)


def wait_for_write(sock: socket.socket, timeout: float | None = None) -> bool:
    """Waits for writing to be available on a given socket.
    Returns True if the socket is readable, or False if the timeout expired.
    """
    return wait_for_socket(sock, write=True, timeout=timeout)