mirror of
http://git.haproxy.org/git/haproxy.git/
synced 2024-12-22 12:30:07 +00:00
01881087fc
This is 25th iteration of typo fixes
139 lines
7.1 KiB
Plaintext
139 lines
7.1 KiB
Plaintext
2021-07-30 - File descriptor migration between threads
|
|
|
|
An FD migration may happen on any idle connection that experiences a takeover()
|
|
operation by another thread. In this case the acting thread becomes the owner
|
|
of the connection (and FD) while previous one(s) need to forget about it.
|
|
|
|
File descriptor migration between threads is a fairly complex operation because
|
|
it is required to maintain a durable consistency between the pollers states and
|
|
the haproxy's desired state. Indeed, very often the FD is registered within one
|
|
thread's poller and that thread might be waiting in the system, so there is no
|
|
way to synchronously update it. This is where thread_mask, polled_mask and per
|
|
thread updates are used:
|
|
|
|
- a thread knows if it's allowed to manipulate an FD by looking at its bit in
|
|
the FD's thread_mask ;
|
|
|
|
- each thread knows if it was polling an FD by looking at its bit in the
|
|
polled_mask field ; a recent migration is usually indicated by a bit being
|
|
present in polled_mask and absent from thread_mask.
|
|
|
|
- other threads know whether it's safe to take over an FD by looking at the
|
|
running mask: if it contains any other thread's bit, then other threads are
|
|
using it and it's not safe to take it over.
|
|
|
|
- sleeping threads are notified about the need to update their polling via
|
|
local or global updates to the FD. Each thread has its own local update
|
|
list and its own bit in the update_mask to know whether there are pending
|
|
updates for it. This allows to reconverge polling with the desired state
|
|
at the last instant before polling.
|
|
|
|
While the description above could be seen as "progressive" (it technically is)
|
|
in that there is always a transition and convergence period in a migrated FD's
|
|
life, functionally speaking it's perfectly atomic thanks to the running bit and
|
|
to the per-thread idle connections lock: no takeover is permitted without
|
|
holding the idle_conns lock, and takeover may only happen by atomically picking
|
|
a connection from the list that is also protected by this lock. In practice, an
|
|
FD is never taken over by itself, but always in the context of a connection,
|
|
and by atomically removing a connection from an idle list, it is possible to
|
|
guarantee that a connection will not be picked, hence that its FD will not be
|
|
taken over.
|
|
|
|
same thread as list!
|
|
|
|
The possible entry points to a race to use a file descriptor are the following
|
|
ones, with their respective sequences:
|
|
|
|
1) takeover: requested by conn_backend_get() on behalf of connect_server()
|
|
- take the idle_conns_lock, protecting against a parallel access from the
|
|
I/O tasklet or timeout task
|
|
- pick the first connection from the list
|
|
- attempt an fd_takeover() on this connection's fd. Usually it works,
|
|
unless a late wakeup of the owning thread shows up in the FD's running
|
|
mask. The operation is performed in fd_takeover() using a DWCAS which
|
|
tries to switch both running and thread_mask to the caller's tid_bit. A
|
|
concurrent bit in running is enough to make it fail. This guarantees
|
|
another thread does not wakeup from I/O in the middle of the takeover.
|
|
In case of conflict, this FD is skipped and the attempt is tried again
|
|
with the next connection.
|
|
- resets the task/tasklet contexts to NULL, as a signal that they are not
|
|
allowed to run anymore. The tasks retrieve their execution context from
|
|
the scheduler in the arguments, but will check the tasks' context from
|
|
the structure under the lock to detect this possible change, and abort.
|
|
- at this point the takeover succeeded, the idle_conns_lock is released and
|
|
the connection and its FD are now owned by the caller
|
|
|
|
2) poll report: happens on late rx, shutdown or error on idle conns
|
|
- fd_set_running() is called to atomically set the running_mask and check
|
|
that the caller's tid_bit is still present in the thread_mask. Upon
|
|
failure the caller arranges itself to stop reporting that FD (e.g. by
|
|
immediate removal or by an asynchronous update). Upon success, it's
|
|
guaranteed that any concurrent fd_takeover() will fail the DWCAS and that
|
|
another connection will need to be picked instead.
|
|
- FD's state is possibly updated
|
|
- the iocb is called if needed (almost always)
|
|
- if the iocb didn't kill the connection, release the bit from running_mask
|
|
making the connection possibly available to a subsequent fd_takeover().
|
|
|
|
3) I/O tasklet, timeout task: timeout or subscribed wakeup
|
|
- start by taking the idle_conns_lock, ensuring no takeover() will pick the
|
|
same connection from this point.
|
|
- check the task/tasklet's context to verify that no recently completed
|
|
takeover() stole the connection. If it's NULL, the connection was lost,
|
|
the lock is released and the task/tasklet killed. Otherwise it is
|
|
guaranteed that no other thread may use that connection (current takeover
|
|
candidates are waiting on the lock, previous owners waking from poll()
|
|
lost their bit in the thread_mask and will not touch the FD).
|
|
- the connection is removed from the idle conns list. From this point on,
|
|
no other thread will even find it there nor even try fd_takeover() on it.
|
|
- the idle_conns_lock is now released, the connection is protected and its
|
|
FD is not reachable by other threads anymore.
|
|
- the task does what it has to do
|
|
- if the connection is still usable (i.e. not upon timeout), it's inserted
|
|
again into the idle conns list, meaning it may instantly be taken over
|
|
by a competing thread.
|
|
|
|
4) wake() callback: happens on last user after xfers (may free() the conn)
|
|
- the connection is still owned by the caller, it's still subscribed to
|
|
polling but the connection is idle thus inactive. Errors or shutdowns
|
|
may be reported late, via sock_conn_iocb() and conn_notify_mux(), thus
|
|
the running bit is set (i.e. a concurrent fd_takeover() will fail).
|
|
- if the connection is in the list, the idle_conns_lock is grabbed, the
|
|
connection is removed from the list, and the lock is released.
|
|
- mux->wake() is called
|
|
- if the connection previously was in the list, it's reinserted under the
|
|
idle_conns_lock.
|
|
|
|
|
|
With the DWCAS removal between running_mask & thread_mask:
|
|
|
|
fd_takeover:
|
|
1 if (!CAS(&running_mask, 0, tid_bit))
|
|
2 return fail;
|
|
3 atomic_store(&thread_mask, tid_bit);
|
|
4 atomic_and(&running_mask, ~tid_bit);
|
|
|
|
poller:
|
|
1 do {
|
|
2 /* read consistent running_mask & thread_mask */
|
|
3 do {
|
|
4 run = atomic_load(&running_mask);
|
|
5 thr = atomic_load(&thread_mask);
|
|
6 } while (run & ~thr);
|
|
7
|
|
8 if (!(thr & tid_bit)) {
|
|
9 /* takeover has started */
|
|
10 goto disable_fd;
|
|
11 }
|
|
12 } while (!CAS(&running_mask, run, run | tid_bit));
|
|
|
|
fd_delete:
|
|
1 atomic_or(&running_mask, tid_bit);
|
|
2 atomic_store(&thread_mask, 0);
|
|
3 atomic_and(&running_mask, ~tid_bit);
|
|
|
|
The loop in poller:3-6 is used to make sure the thread_mask we read matches
|
|
the last updated running_mask. If nobody can give up on fd_takeover(), it
|
|
might even be possible to spin on thread_mask only. Late pollers will not
|
|
set running anymore with this.
|