c8597a1f9f
consumers instead; o Order includes properly. Reviewed by: kib Sponsored by: DARPA/AFRL Differential Revision: https://reviews.freebsd.org/D25878
479 lines
13 KiB
C
479 lines
13 KiB
C
/*-
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* SPDX-License-Identifier: BSD-2-Clause-FreeBSD
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*
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* Copyright (c) 2013 The FreeBSD Foundation
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* All rights reserved.
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*
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* This software was developed by Konstantin Belousov <kib@FreeBSD.org>
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* under sponsorship from the FreeBSD Foundation.
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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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#include <sys/cdefs.h>
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__FBSDID("$FreeBSD$");
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#include "opt_acpi.h"
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#include <sys/param.h>
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#include <sys/bus.h>
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#include <sys/kernel.h>
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#include <sys/malloc.h>
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#include <sys/memdesc.h>
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#include <sys/module.h>
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#include <sys/rman.h>
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#include <sys/taskqueue.h>
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#include <sys/time.h>
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#include <sys/tree.h>
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#include <sys/vmem.h>
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#include <vm/vm.h>
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#include <vm/vm_extern.h>
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#include <vm/vm_kern.h>
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#include <vm/vm_page.h>
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#include <vm/vm_map.h>
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#include <contrib/dev/acpica/include/acpi.h>
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#include <contrib/dev/acpica/include/accommon.h>
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#include <dev/acpica/acpivar.h>
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#include <dev/pci/pcireg.h>
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#include <machine/bus.h>
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#include <machine/cpu.h>
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#include <x86/include/busdma_impl.h>
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#include <dev/iommu/busdma_iommu.h>
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#include <x86/iommu/intel_reg.h>
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#include <x86/iommu/intel_dmar.h>
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static bool
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dmar_qi_seq_processed(const struct dmar_unit *unit,
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const struct iommu_qi_genseq *pseq)
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{
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return (pseq->gen < unit->inv_waitd_gen ||
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(pseq->gen == unit->inv_waitd_gen &&
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pseq->seq <= unit->inv_waitd_seq_hw));
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}
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static int
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dmar_enable_qi(struct dmar_unit *unit)
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{
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int error;
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DMAR_ASSERT_LOCKED(unit);
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unit->hw_gcmd |= DMAR_GCMD_QIE;
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dmar_write4(unit, DMAR_GCMD_REG, unit->hw_gcmd);
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DMAR_WAIT_UNTIL(((dmar_read4(unit, DMAR_GSTS_REG) & DMAR_GSTS_QIES)
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!= 0));
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return (error);
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}
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static int
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dmar_disable_qi(struct dmar_unit *unit)
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{
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int error;
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DMAR_ASSERT_LOCKED(unit);
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unit->hw_gcmd &= ~DMAR_GCMD_QIE;
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dmar_write4(unit, DMAR_GCMD_REG, unit->hw_gcmd);
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DMAR_WAIT_UNTIL(((dmar_read4(unit, DMAR_GSTS_REG) & DMAR_GSTS_QIES)
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== 0));
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return (error);
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}
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static void
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dmar_qi_advance_tail(struct dmar_unit *unit)
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{
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DMAR_ASSERT_LOCKED(unit);
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dmar_write4(unit, DMAR_IQT_REG, unit->inv_queue_tail);
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}
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static void
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dmar_qi_ensure(struct dmar_unit *unit, int descr_count)
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{
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uint32_t head;
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int bytes;
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DMAR_ASSERT_LOCKED(unit);
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bytes = descr_count << DMAR_IQ_DESCR_SZ_SHIFT;
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for (;;) {
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if (bytes <= unit->inv_queue_avail)
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break;
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/* refill */
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head = dmar_read4(unit, DMAR_IQH_REG);
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head &= DMAR_IQH_MASK;
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unit->inv_queue_avail = head - unit->inv_queue_tail -
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DMAR_IQ_DESCR_SZ;
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if (head <= unit->inv_queue_tail)
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unit->inv_queue_avail += unit->inv_queue_size;
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if (bytes <= unit->inv_queue_avail)
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break;
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/*
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* No space in the queue, do busy wait. Hardware must
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* make a progress. But first advance the tail to
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* inform the descriptor streamer about entries we
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* might have already filled, otherwise they could
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* clog the whole queue..
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*/
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dmar_qi_advance_tail(unit);
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unit->inv_queue_full++;
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cpu_spinwait();
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}
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unit->inv_queue_avail -= bytes;
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}
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static void
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dmar_qi_emit(struct dmar_unit *unit, uint64_t data1, uint64_t data2)
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{
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DMAR_ASSERT_LOCKED(unit);
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*(volatile uint64_t *)(unit->inv_queue + unit->inv_queue_tail) = data1;
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unit->inv_queue_tail += DMAR_IQ_DESCR_SZ / 2;
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KASSERT(unit->inv_queue_tail <= unit->inv_queue_size,
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("tail overflow 0x%x 0x%jx", unit->inv_queue_tail,
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(uintmax_t)unit->inv_queue_size));
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unit->inv_queue_tail &= unit->inv_queue_size - 1;
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*(volatile uint64_t *)(unit->inv_queue + unit->inv_queue_tail) = data2;
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unit->inv_queue_tail += DMAR_IQ_DESCR_SZ / 2;
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KASSERT(unit->inv_queue_tail <= unit->inv_queue_size,
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("tail overflow 0x%x 0x%jx", unit->inv_queue_tail,
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(uintmax_t)unit->inv_queue_size));
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unit->inv_queue_tail &= unit->inv_queue_size - 1;
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}
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static void
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dmar_qi_emit_wait_descr(struct dmar_unit *unit, uint32_t seq, bool intr,
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bool memw, bool fence)
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{
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DMAR_ASSERT_LOCKED(unit);
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dmar_qi_emit(unit, DMAR_IQ_DESCR_WAIT_ID |
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(intr ? DMAR_IQ_DESCR_WAIT_IF : 0) |
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(memw ? DMAR_IQ_DESCR_WAIT_SW : 0) |
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(fence ? DMAR_IQ_DESCR_WAIT_FN : 0) |
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(memw ? DMAR_IQ_DESCR_WAIT_SD(seq) : 0),
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memw ? unit->inv_waitd_seq_hw_phys : 0);
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}
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static void
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dmar_qi_emit_wait_seq(struct dmar_unit *unit, struct iommu_qi_genseq *pseq,
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bool emit_wait)
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{
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struct iommu_qi_genseq gsec;
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uint32_t seq;
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KASSERT(pseq != NULL, ("wait descriptor with no place for seq"));
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DMAR_ASSERT_LOCKED(unit);
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if (unit->inv_waitd_seq == 0xffffffff) {
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gsec.gen = unit->inv_waitd_gen;
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gsec.seq = unit->inv_waitd_seq;
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dmar_qi_ensure(unit, 1);
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dmar_qi_emit_wait_descr(unit, gsec.seq, false, true, false);
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dmar_qi_advance_tail(unit);
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while (!dmar_qi_seq_processed(unit, &gsec))
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cpu_spinwait();
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unit->inv_waitd_gen++;
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unit->inv_waitd_seq = 1;
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}
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seq = unit->inv_waitd_seq++;
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pseq->gen = unit->inv_waitd_gen;
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pseq->seq = seq;
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if (emit_wait) {
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dmar_qi_ensure(unit, 1);
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dmar_qi_emit_wait_descr(unit, seq, true, true, false);
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}
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}
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static void
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dmar_qi_wait_for_seq(struct dmar_unit *unit, const struct iommu_qi_genseq *gseq,
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bool nowait)
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{
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DMAR_ASSERT_LOCKED(unit);
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unit->inv_seq_waiters++;
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while (!dmar_qi_seq_processed(unit, gseq)) {
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if (cold || nowait) {
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cpu_spinwait();
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} else {
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msleep(&unit->inv_seq_waiters, &unit->iommu.lock, 0,
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"dmarse", hz);
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}
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}
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unit->inv_seq_waiters--;
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}
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void
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dmar_qi_invalidate_locked(struct dmar_domain *domain, iommu_gaddr_t base,
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iommu_gaddr_t size, struct iommu_qi_genseq *pseq, bool emit_wait)
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{
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struct dmar_unit *unit;
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iommu_gaddr_t isize;
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int am;
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unit = domain->dmar;
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DMAR_ASSERT_LOCKED(unit);
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for (; size > 0; base += isize, size -= isize) {
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am = calc_am(unit, base, size, &isize);
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dmar_qi_ensure(unit, 1);
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dmar_qi_emit(unit, DMAR_IQ_DESCR_IOTLB_INV |
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DMAR_IQ_DESCR_IOTLB_PAGE | DMAR_IQ_DESCR_IOTLB_DW |
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DMAR_IQ_DESCR_IOTLB_DR |
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DMAR_IQ_DESCR_IOTLB_DID(domain->domain),
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base | am);
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}
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dmar_qi_emit_wait_seq(unit, pseq, emit_wait);
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dmar_qi_advance_tail(unit);
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}
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void
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dmar_qi_invalidate_ctx_glob_locked(struct dmar_unit *unit)
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{
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struct iommu_qi_genseq gseq;
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DMAR_ASSERT_LOCKED(unit);
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dmar_qi_ensure(unit, 2);
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dmar_qi_emit(unit, DMAR_IQ_DESCR_CTX_INV | DMAR_IQ_DESCR_CTX_GLOB, 0);
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dmar_qi_emit_wait_seq(unit, &gseq, true);
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dmar_qi_advance_tail(unit);
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dmar_qi_wait_for_seq(unit, &gseq, false);
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}
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void
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dmar_qi_invalidate_iotlb_glob_locked(struct dmar_unit *unit)
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{
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struct iommu_qi_genseq gseq;
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DMAR_ASSERT_LOCKED(unit);
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dmar_qi_ensure(unit, 2);
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dmar_qi_emit(unit, DMAR_IQ_DESCR_IOTLB_INV | DMAR_IQ_DESCR_IOTLB_GLOB |
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DMAR_IQ_DESCR_IOTLB_DW | DMAR_IQ_DESCR_IOTLB_DR, 0);
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dmar_qi_emit_wait_seq(unit, &gseq, true);
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dmar_qi_advance_tail(unit);
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dmar_qi_wait_for_seq(unit, &gseq, false);
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}
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void
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dmar_qi_invalidate_iec_glob(struct dmar_unit *unit)
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{
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struct iommu_qi_genseq gseq;
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DMAR_ASSERT_LOCKED(unit);
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dmar_qi_ensure(unit, 2);
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dmar_qi_emit(unit, DMAR_IQ_DESCR_IEC_INV, 0);
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dmar_qi_emit_wait_seq(unit, &gseq, true);
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dmar_qi_advance_tail(unit);
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dmar_qi_wait_for_seq(unit, &gseq, false);
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}
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void
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dmar_qi_invalidate_iec(struct dmar_unit *unit, u_int start, u_int cnt)
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{
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struct iommu_qi_genseq gseq;
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u_int c, l;
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DMAR_ASSERT_LOCKED(unit);
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KASSERT(start < unit->irte_cnt && start < start + cnt &&
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start + cnt <= unit->irte_cnt,
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("inv iec overflow %d %d %d", unit->irte_cnt, start, cnt));
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for (; cnt > 0; cnt -= c, start += c) {
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l = ffs(start | cnt) - 1;
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c = 1 << l;
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dmar_qi_ensure(unit, 1);
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dmar_qi_emit(unit, DMAR_IQ_DESCR_IEC_INV |
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DMAR_IQ_DESCR_IEC_IDX | DMAR_IQ_DESCR_IEC_IIDX(start) |
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DMAR_IQ_DESCR_IEC_IM(l), 0);
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}
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dmar_qi_ensure(unit, 1);
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dmar_qi_emit_wait_seq(unit, &gseq, true);
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dmar_qi_advance_tail(unit);
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/*
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* The caller of the function, in particular,
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* dmar_ir_program_irte(), may be called from the context
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* where the sleeping is forbidden (in fact, the
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* intr_table_lock mutex may be held, locked from
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* intr_shuffle_irqs()). Wait for the invalidation completion
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* using the busy wait.
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*
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* The impact on the interrupt input setup code is small, the
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* expected overhead is comparable with the chipset register
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* read. It is more harmful for the parallel DMA operations,
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* since we own the dmar unit lock until whole invalidation
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* queue is processed, which includes requests possibly issued
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* before our request.
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*/
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dmar_qi_wait_for_seq(unit, &gseq, true);
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}
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int
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dmar_qi_intr(void *arg)
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{
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struct dmar_unit *unit;
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unit = arg;
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KASSERT(unit->qi_enabled, ("dmar%d: QI is not enabled",
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unit->iommu.unit));
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taskqueue_enqueue(unit->qi_taskqueue, &unit->qi_task);
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return (FILTER_HANDLED);
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}
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static void
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dmar_qi_task(void *arg, int pending __unused)
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{
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struct dmar_unit *unit;
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struct iommu_map_entry *entry;
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uint32_t ics;
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unit = arg;
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DMAR_LOCK(unit);
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for (;;) {
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entry = TAILQ_FIRST(&unit->tlb_flush_entries);
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if (entry == NULL)
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break;
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if (!dmar_qi_seq_processed(unit, &entry->gseq))
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break;
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TAILQ_REMOVE(&unit->tlb_flush_entries, entry, dmamap_link);
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DMAR_UNLOCK(unit);
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dmar_domain_free_entry(entry, (entry->flags &
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IOMMU_MAP_ENTRY_QI_NF) == 0);
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DMAR_LOCK(unit);
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}
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ics = dmar_read4(unit, DMAR_ICS_REG);
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if ((ics & DMAR_ICS_IWC) != 0) {
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ics = DMAR_ICS_IWC;
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dmar_write4(unit, DMAR_ICS_REG, ics);
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}
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if (unit->inv_seq_waiters > 0)
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wakeup(&unit->inv_seq_waiters);
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DMAR_UNLOCK(unit);
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}
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int
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dmar_init_qi(struct dmar_unit *unit)
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{
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uint64_t iqa;
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uint32_t ics;
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int qi_sz;
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if (!DMAR_HAS_QI(unit) || (unit->hw_cap & DMAR_CAP_CM) != 0)
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return (0);
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unit->qi_enabled = 1;
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TUNABLE_INT_FETCH("hw.dmar.qi", &unit->qi_enabled);
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if (!unit->qi_enabled)
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return (0);
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TAILQ_INIT(&unit->tlb_flush_entries);
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TASK_INIT(&unit->qi_task, 0, dmar_qi_task, unit);
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unit->qi_taskqueue = taskqueue_create_fast("dmarqf", M_WAITOK,
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taskqueue_thread_enqueue, &unit->qi_taskqueue);
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taskqueue_start_threads(&unit->qi_taskqueue, 1, PI_AV,
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"dmar%d qi taskq", unit->iommu.unit);
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unit->inv_waitd_gen = 0;
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unit->inv_waitd_seq = 1;
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qi_sz = DMAR_IQA_QS_DEF;
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TUNABLE_INT_FETCH("hw.dmar.qi_size", &qi_sz);
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if (qi_sz > DMAR_IQA_QS_MAX)
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qi_sz = DMAR_IQA_QS_MAX;
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unit->inv_queue_size = (1ULL << qi_sz) * PAGE_SIZE;
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/* Reserve one descriptor to prevent wraparound. */
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unit->inv_queue_avail = unit->inv_queue_size - DMAR_IQ_DESCR_SZ;
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/* The invalidation queue reads by DMARs are always coherent. */
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unit->inv_queue = kmem_alloc_contig(unit->inv_queue_size, M_WAITOK |
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M_ZERO, 0, dmar_high, PAGE_SIZE, 0, VM_MEMATTR_DEFAULT);
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unit->inv_waitd_seq_hw_phys = pmap_kextract(
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(vm_offset_t)&unit->inv_waitd_seq_hw);
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DMAR_LOCK(unit);
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dmar_write8(unit, DMAR_IQT_REG, 0);
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iqa = pmap_kextract(unit->inv_queue);
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iqa |= qi_sz;
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dmar_write8(unit, DMAR_IQA_REG, iqa);
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dmar_enable_qi(unit);
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ics = dmar_read4(unit, DMAR_ICS_REG);
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if ((ics & DMAR_ICS_IWC) != 0) {
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ics = DMAR_ICS_IWC;
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dmar_write4(unit, DMAR_ICS_REG, ics);
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}
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dmar_enable_qi_intr(unit);
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DMAR_UNLOCK(unit);
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return (0);
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}
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void
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dmar_fini_qi(struct dmar_unit *unit)
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{
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struct iommu_qi_genseq gseq;
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if (!unit->qi_enabled)
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return;
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taskqueue_drain(unit->qi_taskqueue, &unit->qi_task);
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taskqueue_free(unit->qi_taskqueue);
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unit->qi_taskqueue = NULL;
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DMAR_LOCK(unit);
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/* quisce */
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dmar_qi_ensure(unit, 1);
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dmar_qi_emit_wait_seq(unit, &gseq, true);
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dmar_qi_advance_tail(unit);
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dmar_qi_wait_for_seq(unit, &gseq, false);
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/* only after the quisce, disable queue */
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dmar_disable_qi_intr(unit);
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dmar_disable_qi(unit);
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KASSERT(unit->inv_seq_waiters == 0,
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("dmar%d: waiters on disabled queue", unit->iommu.unit));
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DMAR_UNLOCK(unit);
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kmem_free(unit->inv_queue, unit->inv_queue_size);
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unit->inv_queue = 0;
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unit->inv_queue_size = 0;
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unit->qi_enabled = 0;
|
|
}
|
|
|
|
void
|
|
dmar_enable_qi_intr(struct dmar_unit *unit)
|
|
{
|
|
uint32_t iectl;
|
|
|
|
DMAR_ASSERT_LOCKED(unit);
|
|
KASSERT(DMAR_HAS_QI(unit), ("dmar%d: QI is not supported",
|
|
unit->iommu.unit));
|
|
iectl = dmar_read4(unit, DMAR_IECTL_REG);
|
|
iectl &= ~DMAR_IECTL_IM;
|
|
dmar_write4(unit, DMAR_IECTL_REG, iectl);
|
|
}
|
|
|
|
void
|
|
dmar_disable_qi_intr(struct dmar_unit *unit)
|
|
{
|
|
uint32_t iectl;
|
|
|
|
DMAR_ASSERT_LOCKED(unit);
|
|
KASSERT(DMAR_HAS_QI(unit), ("dmar%d: QI is not supported",
|
|
unit->iommu.unit));
|
|
iectl = dmar_read4(unit, DMAR_IECTL_REG);
|
|
dmar_write4(unit, DMAR_IECTL_REG, iectl | DMAR_IECTL_IM);
|
|
}
|