427 lines
12 KiB
C
427 lines
12 KiB
C
/* $FreeBSD$ */
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/*-
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* Copyright (c) 2008 Hans Petter Selasky. All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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*
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* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
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* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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* SUCH DAMAGE.
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*/
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#define USB_DEBUG_VAR usb2_proc_debug
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#include <dev/usb/usb_core.h>
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#include <dev/usb/usb_process.h>
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#include <dev/usb/usb_debug.h>
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#include <dev/usb/usb_util.h>
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#include <sys/proc.h>
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#include <sys/kthread.h>
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#include <sys/sched.h>
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#if (__FreeBSD_version < 700000)
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#define thread_lock(td) mtx_lock_spin(&sched_lock)
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#define thread_unlock(td) mtx_unlock_spin(&sched_lock)
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#endif
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#if (__FreeBSD_version >= 800000)
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#define USB_THREAD_CREATE(f, s, p, ...) \
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kproc_create((f), (s), (p), RFHIGHPID, 0, __VA_ARGS__)
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#define USB_THREAD_SUSPEND(p) kproc_suspend(p,0)
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#define USB_THREAD_EXIT(err) kproc_exit(err)
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#else
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#define USB_THREAD_CREATE(f, s, p, ...) \
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kthread_create((f), (s), (p), RFHIGHPID, 0, __VA_ARGS__)
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#define USB_THREAD_SUSPEND(p) kthread_suspend(p,0)
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#define USB_THREAD_EXIT(err) kthread_exit(err)
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#endif
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#if USB_DEBUG
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static int usb2_proc_debug;
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SYSCTL_NODE(_hw_usb, OID_AUTO, proc, CTLFLAG_RW, 0, "USB process");
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SYSCTL_INT(_hw_usb_proc, OID_AUTO, debug, CTLFLAG_RW, &usb2_proc_debug, 0,
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"Debug level");
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#endif
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/*------------------------------------------------------------------------*
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* usb_process
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*
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* This function is the USB process dispatcher.
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*------------------------------------------------------------------------*/
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static void
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usb_process(void *arg)
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{
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struct usb_process *up = arg;
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struct usb_proc_msg *pm;
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struct thread *td;
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/* adjust priority */
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td = curthread;
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thread_lock(td);
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sched_prio(td, up->up_prio);
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thread_unlock(td);
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mtx_lock(up->up_mtx);
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up->up_curtd = td;
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while (1) {
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if (up->up_gone)
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break;
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/*
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* NOTE to reimplementors: dequeueing a command from the
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* "used" queue and executing it must be atomic, with regard
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* to the "up_mtx" mutex. That means any attempt to queue a
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* command by another thread must be blocked until either:
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*
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* 1) the command sleeps
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*
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* 2) the command returns
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*
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* Here is a practical example that shows how this helps
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* solving a problem:
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*
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* Assume that you want to set the baud rate on a USB serial
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* device. During the programming of the device you don't
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* want to receive nor transmit any data, because it will be
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* garbage most likely anyway. The programming of our USB
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* device takes 20 milliseconds and it needs to call
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* functions that sleep.
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*
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* Non-working solution: Before we queue the programming
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* command, we stop transmission and reception of data. Then
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* we queue a programming command. At the end of the
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* programming command we enable transmission and reception
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* of data.
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*
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* Problem: If a second programming command is queued while the
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* first one is sleeping, we end up enabling transmission
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* and reception of data too early.
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*
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* Working solution: Before we queue the programming command,
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* we stop transmission and reception of data. Then we queue
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* a programming command. Then we queue a second command
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* that only enables transmission and reception of data.
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*
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* Why it works: If a second programming command is queued
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* while the first one is sleeping, then the queueing of a
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* second command to enable the data transfers, will cause
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* the previous one, which is still on the queue, to be
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* removed from the queue, and re-inserted after the last
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* baud rate programming command, which then gives the
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* desired result.
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*/
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pm = TAILQ_FIRST(&up->up_qhead);
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if (pm) {
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DPRINTF("Message pm=%p, cb=%p (enter)\n",
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pm, pm->pm_callback);
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(pm->pm_callback) (pm);
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if (pm == TAILQ_FIRST(&up->up_qhead)) {
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/* nothing changed */
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TAILQ_REMOVE(&up->up_qhead, pm, pm_qentry);
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pm->pm_qentry.tqe_prev = NULL;
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}
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DPRINTF("Message pm=%p (leave)\n", pm);
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continue;
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}
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/* end if messages - check if anyone is waiting for sync */
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if (up->up_dsleep) {
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up->up_dsleep = 0;
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usb2_cv_broadcast(&up->up_drain);
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}
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up->up_msleep = 1;
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usb2_cv_wait(&up->up_cv, up->up_mtx);
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}
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up->up_ptr = NULL;
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usb2_cv_signal(&up->up_cv);
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mtx_unlock(up->up_mtx);
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USB_THREAD_EXIT(0);
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}
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/*------------------------------------------------------------------------*
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* usb2_proc_create
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*
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* This function will create a process using the given "prio" that can
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* execute callbacks. The mutex pointed to by "p_mtx" will be applied
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* before calling the callbacks and released after that the callback
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* has returned. The structure pointed to by "up" is assumed to be
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* zeroed before this function is called.
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*
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* Return values:
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* 0: success
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* Else: failure
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*------------------------------------------------------------------------*/
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int
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usb2_proc_create(struct usb_process *up, struct mtx *p_mtx,
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const char *pmesg, uint8_t prio)
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{
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up->up_mtx = p_mtx;
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up->up_prio = prio;
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TAILQ_INIT(&up->up_qhead);
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usb2_cv_init(&up->up_cv, "wmsg");
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usb2_cv_init(&up->up_drain, "dmsg");
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if (USB_THREAD_CREATE(&usb_process, up,
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&up->up_ptr, pmesg)) {
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DPRINTFN(0, "Unable to create USB process.");
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up->up_ptr = NULL;
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goto error;
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}
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return (0);
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error:
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usb2_proc_free(up);
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return (ENOMEM);
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}
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/*------------------------------------------------------------------------*
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* usb2_proc_free
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*
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* NOTE: If the structure pointed to by "up" is all zero, this
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* function does nothing.
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*
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* NOTE: Messages that are pending on the process queue will not be
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* removed nor called.
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*------------------------------------------------------------------------*/
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void
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usb2_proc_free(struct usb_process *up)
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{
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/* check if not initialised */
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if (up->up_mtx == NULL)
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return;
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usb2_proc_drain(up);
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usb2_cv_destroy(&up->up_cv);
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usb2_cv_destroy(&up->up_drain);
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/* make sure that we do not enter here again */
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up->up_mtx = NULL;
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}
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/*------------------------------------------------------------------------*
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* usb2_proc_msignal
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*
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* This function will queue one of the passed USB process messages on
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* the USB process queue. The first message that is not already queued
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* will get queued. If both messages are already queued the one queued
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* last will be removed from the queue and queued in the end. The USB
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* process mutex must be locked when calling this function. This
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* function exploits the fact that a process can only do one callback
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* at a time. The message that was queued is returned.
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*------------------------------------------------------------------------*/
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void *
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usb2_proc_msignal(struct usb_process *up, void *_pm0, void *_pm1)
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{
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struct usb_proc_msg *pm0 = _pm0;
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struct usb_proc_msg *pm1 = _pm1;
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struct usb_proc_msg *pm2;
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size_t d;
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uint8_t t;
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/* check if gone, return dummy value */
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if (up->up_gone)
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return (_pm0);
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mtx_assert(up->up_mtx, MA_OWNED);
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t = 0;
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if (pm0->pm_qentry.tqe_prev) {
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t |= 1;
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}
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if (pm1->pm_qentry.tqe_prev) {
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t |= 2;
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}
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if (t == 0) {
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/*
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* No entries are queued. Queue "pm0" and use the existing
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* message number.
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*/
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pm2 = pm0;
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} else if (t == 1) {
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/* Check if we need to increment the message number. */
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if (pm0->pm_num == up->up_msg_num) {
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up->up_msg_num++;
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}
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pm2 = pm1;
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} else if (t == 2) {
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/* Check if we need to increment the message number. */
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if (pm1->pm_num == up->up_msg_num) {
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up->up_msg_num++;
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}
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pm2 = pm0;
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} else if (t == 3) {
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/*
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* Both entries are queued. Re-queue the entry closest to
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* the end.
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*/
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d = (pm1->pm_num - pm0->pm_num);
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/* Check sign after subtraction */
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if (d & 0x80000000) {
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pm2 = pm0;
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} else {
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pm2 = pm1;
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}
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TAILQ_REMOVE(&up->up_qhead, pm2, pm_qentry);
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} else {
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pm2 = NULL; /* panic - should not happen */
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}
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DPRINTF(" t=%u, num=%u\n", t, up->up_msg_num);
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/* Put message last on queue */
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pm2->pm_num = up->up_msg_num;
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TAILQ_INSERT_TAIL(&up->up_qhead, pm2, pm_qentry);
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/* Check if we need to wakeup the USB process. */
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if (up->up_msleep) {
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up->up_msleep = 0; /* save "cv_signal()" calls */
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usb2_cv_signal(&up->up_cv);
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}
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return (pm2);
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}
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/*------------------------------------------------------------------------*
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* usb2_proc_is_gone
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*
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* Return values:
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* 0: USB process is running
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* Else: USB process is tearing down
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*------------------------------------------------------------------------*/
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uint8_t
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usb2_proc_is_gone(struct usb_process *up)
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{
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if (up->up_gone)
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return (1);
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mtx_assert(up->up_mtx, MA_OWNED);
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return (0);
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}
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/*------------------------------------------------------------------------*
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* usb2_proc_mwait
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*
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* This function will return when the USB process message pointed to
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* by "pm" is no longer on a queue. This function must be called
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* having "up->up_mtx" locked.
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*------------------------------------------------------------------------*/
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void
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usb2_proc_mwait(struct usb_process *up, void *_pm0, void *_pm1)
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{
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struct usb_proc_msg *pm0 = _pm0;
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struct usb_proc_msg *pm1 = _pm1;
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/* check if gone */
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if (up->up_gone)
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return;
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mtx_assert(up->up_mtx, MA_OWNED);
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if (up->up_curtd == curthread) {
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/* Just remove the messages from the queue. */
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if (pm0->pm_qentry.tqe_prev) {
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TAILQ_REMOVE(&up->up_qhead, pm0, pm_qentry);
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pm0->pm_qentry.tqe_prev = NULL;
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}
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if (pm1->pm_qentry.tqe_prev) {
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TAILQ_REMOVE(&up->up_qhead, pm1, pm_qentry);
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pm1->pm_qentry.tqe_prev = NULL;
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}
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} else
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while (pm0->pm_qentry.tqe_prev ||
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pm1->pm_qentry.tqe_prev) {
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/* check if config thread is gone */
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if (up->up_gone)
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break;
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up->up_dsleep = 1;
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usb2_cv_wait(&up->up_drain, up->up_mtx);
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}
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}
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/*------------------------------------------------------------------------*
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* usb2_proc_drain
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*
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* This function will tear down an USB process, waiting for the
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* currently executing command to return.
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*
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* NOTE: If the structure pointed to by "up" is all zero,
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* this function does nothing.
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*------------------------------------------------------------------------*/
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void
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usb2_proc_drain(struct usb_process *up)
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{
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/* check if not initialised */
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if (up->up_mtx == NULL)
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return;
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/* handle special case with Giant */
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if (up->up_mtx != &Giant)
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mtx_assert(up->up_mtx, MA_NOTOWNED);
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mtx_lock(up->up_mtx);
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/* Set the gone flag */
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up->up_gone = 1;
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while (up->up_ptr) {
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/* Check if we need to wakeup the USB process */
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if (up->up_msleep || up->up_csleep) {
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up->up_msleep = 0;
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up->up_csleep = 0;
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usb2_cv_signal(&up->up_cv);
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}
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/* Check if we are still cold booted */
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if (cold) {
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USB_THREAD_SUSPEND(up->up_ptr);
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printf("WARNING: A USB process has "
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"been left suspended!\n");
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break;
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}
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usb2_cv_wait(&up->up_cv, up->up_mtx);
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}
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/* Check if someone is waiting - should not happen */
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if (up->up_dsleep) {
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up->up_dsleep = 0;
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usb2_cv_broadcast(&up->up_drain);
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DPRINTF("WARNING: Someone is waiting "
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"for USB process drain!\n");
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}
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mtx_unlock(up->up_mtx);
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}
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