x86/pci/pci_msi_machdep.c

1.4  knakahar /*	$NetBSD: pci_msi_machdep.c,v 1.4 2015/05/15 08:29:33 knakahara Exp $	*/
1.1  knakahar
1.1  knakahar /*
1.1  knakahar  * Copyright (c) 2015 Internet Initiative Japan Inc.
1.1  knakahar  * All rights reserved.
1.1  knakahar  *
1.1  knakahar  * Redistribution and use in source and binary forms, with or without
1.1  knakahar  * modification, are permitted provided that the following conditions
1.1  knakahar  * are met:
1.1  knakahar  * 1. Redistributions of source code must retain the above copyright
1.1  knakahar  *    notice, this list of conditions and the following disclaimer.
1.1  knakahar  * 2. Redistributions in binary form must reproduce the above copyright
1.1  knakahar  *    notice, this list of conditions and the following disclaimer in the
1.1  knakahar  *    documentation and/or other materials provided with the distribution.
1.1  knakahar  *
1.1  knakahar  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
1.1  knakahar  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
1.1  knakahar  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
1.1  knakahar  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
1.1  knakahar  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
1.1  knakahar  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
1.1  knakahar  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.1  knakahar  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.1  knakahar  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.1  knakahar  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.1  knakahar  * POSSIBILITY OF SUCH DAMAGE.
1.1  knakahar  */
1.1  knakahar
1.1  knakahar /*
1.1  knakahar  * TODO
1.1  knakahar  *
1.1  knakahar  *     - PBA (Pending Bit Array) support
1.1  knakahar  *     - HyperTransport mapping support
1.1  knakahar  */
1.1  knakahar
1.1  knakahar #include <sys/cdefs.h>
1.4  knakahar __KERNEL_RCSID(0, "$NetBSD: pci_msi_machdep.c,v 1.4 2015/05/15 08:29:33 knakahara Exp $");
1.1  knakahar
1.1  knakahar #include <sys/types.h>
1.1  knakahar #include <sys/param.h>
1.1  knakahar #include <sys/time.h>
1.1  knakahar #include <sys/systm.h>
1.1  knakahar #include <sys/cpu.h>
1.1  knakahar #include <sys/errno.h>
1.1  knakahar #include <sys/device.h>
1.1  knakahar #include <sys/intr.h>
1.1  knakahar #include <sys/kmem.h>
1.1  knakahar #include <sys/malloc.h>
1.1  knakahar
1.1  knakahar #include <dev/pci/pcivar.h>
1.1  knakahar
1.1  knakahar #include <machine/i82093var.h>
1.1  knakahar #include <machine/pic.h>
1.1  knakahar
1.1  knakahar #include <x86/pci/msipic.h>
1.3  knakahar #include <x86/pci/pci_msi_machdep.h>
1.1  knakahar
1.1  knakahar #ifdef INTRDEBUG
1.1  knakahar #define MSIDEBUG
1.1  knakahar #endif
1.1  knakahar
1.1  knakahar #ifdef MSIDEBUG
1.1  knakahar #define DPRINTF(msg) printf msg
1.1  knakahar #else
1.1  knakahar #define DPRINTF(msg)
1.1  knakahar #endif
1.1  knakahar
1.1  knakahar /*
1.1  knakahar  * Return intrid for a MSI/MSI-X device.
1.1  knakahar  * "buf" must be allocated by caller.
1.1  knakahar  */
1.1  knakahar const char *
1.1  knakahar pci_msi_string(pci_chipset_tag_t pc, pci_intr_handle_t ih, char *buf,
1.1  knakahar     size_t len)
1.1  knakahar {
1.1  knakahar 	int dev, vec;
1.1  knakahar
1.1  knakahar 	KASSERT(INT_VIA_MSI(ih));
1.1  knakahar
1.1  knakahar 	dev = MSI_INT_DEV(ih);
1.1  knakahar 	vec = MSI_INT_VEC(ih);
1.1  knakahar 	if (MSI_INT_IS_MSIX(ih))
1.1  knakahar 		snprintf(buf, len, "msix%d vec %d", dev, vec);
1.1  knakahar 	else
1.1  knakahar 		snprintf(buf, len, "msi%d vec %d", dev, vec);
1.1  knakahar
1.1  knakahar 	return buf;
1.1  knakahar }
1.1  knakahar
1.1  knakahar static pci_intr_handle_t
1.1  knakahar pci_msi_calculate_handle(struct pic *msi_pic, int vector)
1.1  knakahar {
1.1  knakahar 	pci_intr_handle_t pih;
1.1  knakahar
1.1  knakahar 	KASSERT(msipic_is_msi_pic(msi_pic));
1.1  knakahar
1.1  knakahar 	pih = __SHIFTIN((uint64_t)msipic_get_devid(msi_pic), MSI_INT_DEV_MASK)
1.1  knakahar 	    | __SHIFTIN((uint64_t)vector, MSI_INT_VEC_MASK)
1.1  knakahar 	    | APIC_INT_VIA_MSI;
1.1  knakahar 	if (msi_pic->pic_type == PIC_MSI)
1.1  knakahar 		MSI_INT_MAKE_MSI(pih);
1.1  knakahar 	else if (msi_pic->pic_type == PIC_MSIX)
1.1  knakahar 		MSI_INT_MAKE_MSIX(pih);
1.1  knakahar 	else
1.1  knakahar 		panic("%s: Unexpected pic_type: %d\n", __func__,
1.1  knakahar 		    msi_pic->pic_type);
1.1  knakahar
1.1  knakahar 	return pih;
1.1  knakahar }
1.1  knakahar
1.1  knakahar static pci_intr_handle_t *
1.1  knakahar pci_msi_alloc_vectors(struct pic *msi_pic, uint *table_indexes, int *count)
1.1  knakahar {
1.1  knakahar 	struct intrsource *isp;
1.1  knakahar 	pci_intr_handle_t *vectors, pih;
1.1  knakahar 	int i;
1.1  knakahar 	const char *intrstr;
1.1  knakahar 	char intrstr_buf[INTRIDBUF];
1.1  knakahar
1.1  knakahar 	vectors = kmem_zalloc(sizeof(vectors[0]) * (*count), KM_SLEEP);
1.1  knakahar 	if (vectors == NULL) {
1.1  knakahar 		DPRINTF(("cannot allocate vectors\n"));
1.1  knakahar 		return NULL;
1.1  knakahar 	}
1.1  knakahar
1.1  knakahar 	mutex_enter(&cpu_lock);
1.1  knakahar 	for (i = 0; i < *count; i++) {
1.1  knakahar 		u_int table_index;
1.1  knakahar
1.1  knakahar 		if (table_indexes == NULL)
1.1  knakahar 			table_index = i;
1.1  knakahar 		else
1.1  knakahar 			table_index = table_indexes[i];
1.1  knakahar
1.1  knakahar 		pih = pci_msi_calculate_handle(msi_pic, table_index);
1.1  knakahar
1.1  knakahar 		intrstr = pci_msi_string(NULL, pih, intrstr_buf,
1.1  knakahar 		    sizeof(intrstr_buf));
1.1  knakahar 		isp = intr_allocate_io_intrsource(intrstr);
1.1  knakahar 		if (isp == NULL) {
1.1  knakahar 			mutex_exit(&cpu_lock);
1.1  knakahar 			DPRINTF(("can't allocate io_intersource\n"));
1.1  knakahar 			kmem_free(vectors, sizeof(vectors[0]) * (*count));
1.1  knakahar 			return NULL;
1.1  knakahar 		}
1.1  knakahar
1.1  knakahar 		vectors[i] = pih;
1.1  knakahar 	}
1.1  knakahar 	mutex_exit(&cpu_lock);
1.1  knakahar
1.1  knakahar 	return vectors;
1.1  knakahar }
1.1  knakahar
1.1  knakahar static void
1.1  knakahar pci_msi_free_vectors(struct pic *msi_pic, pci_intr_handle_t *pihs, int count)
1.1  knakahar {
1.1  knakahar 	pci_intr_handle_t pih;
1.1  knakahar 	int i;
1.1  knakahar 	const char *intrstr;
1.1  knakahar 	char intrstr_buf[INTRIDBUF];
1.1  knakahar
1.1  knakahar 	mutex_enter(&cpu_lock);
1.1  knakahar 	for (i = 0; i < count; i++) {
1.1  knakahar 		pih = pci_msi_calculate_handle(msi_pic, i);
1.1  knakahar 		intrstr = pci_msi_string(NULL, pih, intrstr_buf,
1.1  knakahar 		    sizeof(intrstr_buf));
1.1  knakahar 		intr_free_io_intrsource(intrstr);
1.1  knakahar 	}
1.1  knakahar 	mutex_exit(&cpu_lock);
1.1  knakahar
1.1  knakahar 	kmem_free(pihs, sizeof(pihs[0]) * count);
1.1  knakahar }
1.1  knakahar
1.1  knakahar static int
1.4  knakahar pci_msi_alloc_common(pci_intr_handle_t **ihps, int *count,
1.2  knakahar     const struct pci_attach_args *pa, bool exact)
1.1  knakahar {
1.1  knakahar 	struct pic *msi_pic;
1.1  knakahar 	pci_intr_handle_t *vectors;
1.1  knakahar 	int error, i;
1.1  knakahar
1.1  knakahar 	if ((pa->pa_flags & PCI_FLAGS_MSI_OKAY) == 0) {
1.1  knakahar 		DPRINTF(("PCI host bridge does not support MSI.\n"));
1.1  knakahar 		return ENODEV;
1.1  knakahar 	}
1.1  knakahar
1.1  knakahar 	msi_pic = msipic_construct_msi_pic(pa);
1.1  knakahar 	if (msi_pic == NULL) {
1.1  knakahar 		DPRINTF(("cannot allocate MSI pic.\n"));
1.1  knakahar 		return EINVAL;
1.1  knakahar 	}
1.1  knakahar
1.1  knakahar 	vectors = NULL;
1.1  knakahar 	while (*count > 0) {
1.1  knakahar 		vectors = pci_msi_alloc_vectors(msi_pic, NULL, count);
1.1  knakahar 		if (vectors != NULL)
1.1  knakahar 			break;
1.1  knakahar
1.1  knakahar 		if (exact) {
1.1  knakahar 			DPRINTF(("cannot allocate MSI vectors.\n"));
1.1  knakahar 			msipic_destruct_msi_pic(msi_pic);
1.1  knakahar 			return ENOMEM;
1.1  knakahar 		} else {
1.1  knakahar 			(*count) >>= 1; /* must be power of 2. */
1.1  knakahar 			continue;
1.1  knakahar 		}
1.1  knakahar 	}
1.1  knakahar 	if (vectors == NULL) {
1.1  knakahar 		DPRINTF(("cannot allocate MSI vectors.\n"));
1.1  knakahar 		msipic_destruct_msi_pic(msi_pic);
1.1  knakahar 		return ENOMEM;
1.1  knakahar 	}
1.1  knakahar
1.1  knakahar 	for (i = 0; i < *count; i++) {
1.1  knakahar 		MSI_INT_MAKE_MSI(vectors[i]);
1.1  knakahar 	}
1.1  knakahar
1.1  knakahar 	error = msipic_set_msi_vectors(msi_pic, NULL, *count);
1.1  knakahar 	if (error) {
1.1  knakahar 		pci_msi_free_vectors(msi_pic, vectors, *count);
1.1  knakahar 		msipic_destruct_msi_pic(msi_pic);
1.1  knakahar 		return error;
1.1  knakahar 	}
1.1  knakahar
1.1  knakahar 	*ihps = vectors;
1.1  knakahar 	return 0;
1.1  knakahar }
1.1  knakahar
1.1  knakahar static void *
1.1  knakahar pci_msi_common_establish(pci_chipset_tag_t pc, pci_intr_handle_t ih,
1.1  knakahar     int level, int (*func)(void *), void *arg, struct pic *pic)
1.1  knakahar {
1.1  knakahar 	int irq, pin;
1.1  knakahar 	bool mpsafe;
1.1  knakahar
1.1  knakahar 	KASSERT(INT_VIA_MSI(ih));
1.1  knakahar
1.1  knakahar 	irq = -1;
1.1  knakahar 	pin = MSI_INT_VEC(ih);
1.1  knakahar 	mpsafe = ((ih & MPSAFE_MASK) != 0);
1.1  knakahar
1.1  knakahar 	return intr_establish(irq, pic, pin, IST_EDGE, level, func, arg,
1.1  knakahar 	    mpsafe);
1.1  knakahar }
1.1  knakahar
1.1  knakahar static void
1.1  knakahar pci_msi_common_disestablish(pci_chipset_tag_t pc, void *cookie)
1.1  knakahar {
1.1  knakahar
1.1  knakahar 	intr_disestablish(cookie);
1.1  knakahar }
1.1  knakahar
1.1  knakahar static int
1.4  knakahar pci_msix_alloc_common(pci_intr_handle_t **ihps, u_int *table_indexes,
1.2  knakahar     int *count, const struct pci_attach_args *pa, bool exact)
1.1  knakahar {
1.1  knakahar 	struct pic *msix_pic;
1.1  knakahar 	pci_intr_handle_t *vectors;
1.1  knakahar 	int error, i;
1.1  knakahar
1.1  knakahar 	if (((pa->pa_flags & PCI_FLAGS_MSI_OKAY) == 0)
1.1  knakahar 	    || ((pa->pa_flags & PCI_FLAGS_MSIX_OKAY) == 0)) {
1.1  knakahar 		DPRINTF(("PCI host bridge does not support MSI-X.\n"));
1.1  knakahar 		return ENODEV;
1.1  knakahar 	}
1.1  knakahar
1.1  knakahar 	msix_pic = msipic_construct_msix_pic(pa);
1.1  knakahar 	if (msix_pic == NULL)
1.1  knakahar 		return EINVAL;
1.1  knakahar
1.1  knakahar 	vectors = NULL;
1.1  knakahar 	while (*count > 0) {
1.1  knakahar 		vectors = pci_msi_alloc_vectors(msix_pic, table_indexes, count);
1.1  knakahar 		if (vectors != NULL)
1.1  knakahar 			break;
1.1  knakahar
1.1  knakahar 		if (exact) {
1.1  knakahar 			DPRINTF(("cannot allocate MSI-X vectors.\n"));
1.1  knakahar 			msipic_destruct_msix_pic(msix_pic);
1.1  knakahar 			return ENOMEM;
1.1  knakahar 		} else {
1.1  knakahar 			(*count)--;
1.1  knakahar 			continue;
1.1  knakahar 		}
1.1  knakahar 	}
1.1  knakahar 	if (vectors == NULL) {
1.1  knakahar 		DPRINTF(("cannot allocate MSI-X vectors.\n"));
1.1  knakahar 		msipic_destruct_msix_pic(msix_pic);
1.1  knakahar 		return ENOMEM;
1.1  knakahar 	}
1.1  knakahar
1.1  knakahar 	for (i = 0; i < *count; i++) {
1.1  knakahar 		MSI_INT_MAKE_MSIX(vectors[i]);
1.1  knakahar 	}
1.1  knakahar
1.1  knakahar 	error = msipic_set_msi_vectors(msix_pic, vectors, *count);
1.1  knakahar 	if (error) {
1.1  knakahar 		pci_msi_free_vectors(msix_pic, vectors, *count);
1.1  knakahar 		msipic_destruct_msix_pic(msix_pic);
1.1  knakahar 		return error;
1.1  knakahar 	}
1.1  knakahar
1.1  knakahar 	*ihps = vectors;
1.1  knakahar 	return 0;
1.1  knakahar }
1.1  knakahar
1.1  knakahar static int
1.4  knakahar x86_pci_msi_alloc(pci_intr_handle_t **ihps, int *count,
1.2  knakahar     const struct pci_attach_args *pa)
1.1  knakahar {
1.1  knakahar
1.4  knakahar 	return pci_msi_alloc_common(ihps, count, pa, false);
1.1  knakahar }
1.1  knakahar
1.1  knakahar static int
1.4  knakahar x86_pci_msi_alloc_exact(pci_intr_handle_t **ihps, int count,
1.2  knakahar     const struct pci_attach_args *pa)
1.1  knakahar {
1.1  knakahar
1.4  knakahar 	return pci_msi_alloc_common(ihps, &count, pa, true);
1.4  knakahar }
1.4  knakahar
1.4  knakahar static void
1.4  knakahar x86_pci_msi_release_internal(pci_intr_handle_t *pihs, int count)
1.4  knakahar {
1.4  knakahar 	struct pic *pic;
1.4  knakahar
1.4  knakahar 	pic = msipic_find_msi_pic(MSI_INT_DEV(pihs[0]));
1.4  knakahar 	if (pic == NULL)
1.4  knakahar 		return;
1.4  knakahar
1.4  knakahar 	pci_msi_free_vectors(pic, pihs, count);
1.4  knakahar 	msipic_destruct_msi_pic(pic);
1.1  knakahar }
1.1  knakahar
1.1  knakahar static int
1.4  knakahar x86_pci_msix_alloc(pci_intr_handle_t **ihps, int *count,
1.2  knakahar     const struct pci_attach_args *pa)
1.1  knakahar {
1.1  knakahar
1.4  knakahar 	return pci_msix_alloc_common(ihps, NULL, count, pa, false);
1.4  knakahar }
1.4  knakahar
1.4  knakahar static int
1.4  knakahar x86_pci_msix_alloc_exact(pci_intr_handle_t **ihps, int count,
1.4  knakahar     const struct pci_attach_args *pa)
1.4  knakahar {
1.4  knakahar
1.4  knakahar 	return pci_msix_alloc_common(ihps, NULL, &count, pa, true);
1.4  knakahar }
1.4  knakahar
1.4  knakahar static int
1.4  knakahar x86_pci_msix_alloc_map(pci_intr_handle_t **ihps, u_int *table_indexes,
1.4  knakahar     int count, const struct pci_attach_args *pa)
1.4  knakahar {
1.4  knakahar
1.4  knakahar 	return pci_msix_alloc_common(ihps, table_indexes, &count, pa, true);
1.1  knakahar }
1.1  knakahar
1.1  knakahar static void
1.4  knakahar x86_pci_msix_release_internal(pci_intr_handle_t *pihs, int count)
1.1  knakahar {
1.1  knakahar 	struct pic *pic;
1.1  knakahar
1.3  knakahar 	pic = msipic_find_msi_pic(MSI_INT_DEV(pihs[0]));
1.1  knakahar 	if (pic == NULL)
1.1  knakahar 		return;
1.1  knakahar
1.3  knakahar 	pci_msi_free_vectors(pic, pihs, count);
1.1  knakahar 	msipic_destruct_msix_pic(pic);
1.1  knakahar }
1.1  knakahar
1.1  knakahar /*****************************************************************************/
1.1  knakahar /*
1.4  knakahar  * extern for pci_intr_machdep.c
1.4  knakahar  */
1.4  knakahar
1.4  knakahar /*
1.4  knakahar  * Release MSI handles.
1.4  knakahar  */
1.4  knakahar void
1.4  knakahar x86_pci_msi_release(pci_chipset_tag_t pc, pci_intr_handle_t *pihs, int count)
1.4  knakahar {
1.4  knakahar
1.4  knakahar 	if (count < 1)
1.4  knakahar 		return;
1.4  knakahar
1.4  knakahar 	return x86_pci_msi_release_internal(pihs, count);
1.4  knakahar }
1.4  knakahar
1.4  knakahar /*
1.4  knakahar  * Establish a MSI handle.
1.4  knakahar  * If multiple MSI handle is requied to establish, device driver must call
1.4  knakahar  * this function for each handle.
1.4  knakahar  */
1.4  knakahar void *
1.4  knakahar x86_pci_msi_establish(pci_chipset_tag_t pc, pci_intr_handle_t ih,
1.4  knakahar     int level, int (*func)(void *), void *arg)
1.4  knakahar {
1.4  knakahar 	struct pic *pic;
1.4  knakahar
1.4  knakahar 	pic = msipic_find_msi_pic(MSI_INT_DEV(ih));
1.4  knakahar 	if (pic == NULL) {
1.4  knakahar 		DPRINTF(("pci_intr_handler has no msi_pic\n"));
1.4  knakahar 		return NULL;
1.4  knakahar 	}
1.4  knakahar
1.4  knakahar 	return pci_msi_common_establish(pc, ih, level, func, arg, pic);
1.4  knakahar }
1.4  knakahar
1.4  knakahar /*
1.4  knakahar  * Disestablish a MSI handle.
1.4  knakahar  * If multiple MSI handle is requied to disestablish, device driver must call
1.4  knakahar  * this function for each handle.
1.4  knakahar  */
1.4  knakahar void
1.4  knakahar x86_pci_msi_disestablish(pci_chipset_tag_t pc, void *cookie)
1.4  knakahar {
1.4  knakahar
1.4  knakahar 	pci_msi_common_disestablish(pc, cookie);
1.4  knakahar }
1.4  knakahar
1.4  knakahar /*
1.4  knakahar  * Release MSI-X handles.
1.4  knakahar  */
1.4  knakahar void
1.4  knakahar x86_pci_msix_release(pci_chipset_tag_t pc, pci_intr_handle_t *pihs, int count)
1.4  knakahar {
1.4  knakahar
1.4  knakahar 	if (count < 1)
1.4  knakahar 		return;
1.4  knakahar
1.4  knakahar 	return x86_pci_msix_release_internal(pihs, count);
1.4  knakahar }
1.4  knakahar
1.4  knakahar /*
1.4  knakahar  * Establish a MSI-X handle.
1.4  knakahar  * If multiple MSI-X handle is requied to establish, device driver must call
1.4  knakahar  * this function for each handle.
1.4  knakahar  */
1.4  knakahar void *
1.4  knakahar x86_pci_msix_establish(pci_chipset_tag_t pc, pci_intr_handle_t ih,
1.4  knakahar     int level, int (*func)(void *), void *arg)
1.4  knakahar {
1.4  knakahar 	struct pic *pic;
1.4  knakahar
1.4  knakahar 	pic = msipic_find_msi_pic(MSI_INT_DEV(ih));
1.4  knakahar 	if (pic == NULL) {
1.4  knakahar 		DPRINTF(("pci_intr_handler has no msi_pic\n"));
1.4  knakahar 		return NULL;
1.4  knakahar 	}
1.4  knakahar
1.4  knakahar 	return pci_msi_common_establish(pc, ih, level, func, arg, pic);
1.4  knakahar }
1.4  knakahar
1.4  knakahar /*
1.4  knakahar  * Disestablish a MSI-X handle.
1.4  knakahar  * If multiple MSI-X handle is requied to disestablish, device driver must call
1.4  knakahar  * this function for each handle.
1.4  knakahar  */
1.4  knakahar void
1.4  knakahar x86_pci_msix_disestablish(pci_chipset_tag_t pc, void *cookie)
1.4  knakahar {
1.4  knakahar
1.4  knakahar 	pci_msi_common_disestablish(pc, cookie);
1.4  knakahar }
1.4  knakahar
1.4  knakahar /*****************************************************************************/
1.4  knakahar /*
1.1  knakahar  * these APIs may be MI code.
1.1  knakahar  */
1.1  knakahar
1.1  knakahar /*
1.1  knakahar  * return number of the devices's MSI vectors
1.1  knakahar  * return 0 if the device does not support MSI
1.1  knakahar  */
1.1  knakahar int
1.2  knakahar pci_msi_count(const struct pci_attach_args *pa)
1.1  knakahar {
1.1  knakahar 	pci_chipset_tag_t pc;
1.1  knakahar 	pcitag_t tag;
1.1  knakahar 	pcireg_t reg;
1.1  knakahar 	uint32_t mmc;
1.1  knakahar 	int count, offset;
1.1  knakahar
1.1  knakahar 	pc = pa->pa_pc;
1.1  knakahar 	tag = pa->pa_tag;
1.1  knakahar 	if (pci_get_capability(pc, tag, PCI_CAP_MSI, &offset, NULL) == 0)
1.1  knakahar 		return 0;
1.1  knakahar
1.1  knakahar 	reg = pci_conf_read(pc, tag, offset + PCI_MSI_CTL);
1.1  knakahar 	mmc = PCI_MSI_CTL_MMC(reg);
1.1  knakahar 	count = 1 << mmc;
1.1  knakahar 	if (count > PCI_MSI_MAX_VECTORS) {
1.1  knakahar 		aprint_error("detect an illegal device! The device use reserved MMC values.\n");
1.1  knakahar 		return 0;
1.1  knakahar 	}
1.1  knakahar
1.1  knakahar 	return count;
1.1  knakahar }
1.1  knakahar
1.1  knakahar /*
1.1  knakahar  * This function is used by device drivers like pci_intr_map().
1.1  knakahar  *
1.1  knakahar  * "ihps" is the array  of vector numbers which MSI used instead of IRQ number.
1.1  knakahar  * "count" must be power of 2.
1.1  knakahar  * "count" can decrease if struct intrsource cannot be allocated.
1.1  knakahar  * if count == 0, return non-zero value.
1.1  knakahar  */
1.1  knakahar int
1.2  knakahar pci_msi_alloc(const struct pci_attach_args *pa, pci_intr_handle_t **ihps,
1.2  knakahar     int *count)
1.1  knakahar {
1.1  knakahar 	int hw_max;
1.1  knakahar
1.1  knakahar 	/* MSI vector count must be power of 2. */
1.1  knakahar 	KASSERT(*count > 0);
1.1  knakahar 	KASSERT(((*count - 1) & *count) == 0);
1.1  knakahar
1.1  knakahar 	hw_max = pci_msi_count(pa);
1.1  knakahar 	if (hw_max == 0)
1.1  knakahar 		return ENODEV;
1.1  knakahar
1.1  knakahar 	if (*count > hw_max) {
1.1  knakahar 		DPRINTF(("cut off MSI count to %d\n", hw_max));
1.1  knakahar 		*count = hw_max; /* cut off hw_max */
1.1  knakahar 	}
1.1  knakahar
1.4  knakahar 	return x86_pci_msi_alloc(ihps, count, pa);
1.1  knakahar }
1.1  knakahar
1.1  knakahar /*
1.1  knakahar  * This function is used by device drivers like pci_intr_map().
1.1  knakahar  *
1.1  knakahar  * "ihps" is the array  of vector numbers which MSI used instead of IRQ number.
1.1  knakahar  * "count" must be power of 2.
1.1  knakahar  * "count" can not decrease.
1.1  knakahar  * If "count" struct intrsources cannot be allocated, return non-zero value.
1.1  knakahar  */
1.1  knakahar int
1.2  knakahar pci_msi_alloc_exact(const struct pci_attach_args *pa, pci_intr_handle_t **ihps,
1.1  knakahar     int count)
1.1  knakahar {
1.1  knakahar 	int hw_max;
1.1  knakahar
1.1  knakahar 	/* MSI vector count must be power of 2. */
1.1  knakahar 	KASSERT(count > 0);
1.1  knakahar 	KASSERT(((count - 1) & count) == 0);
1.1  knakahar
1.1  knakahar 	hw_max = pci_msi_count(pa);
1.1  knakahar 	if (hw_max == 0)
1.1  knakahar 		return ENODEV;
1.1  knakahar
1.1  knakahar 	if (count > hw_max) {
1.1  knakahar 		DPRINTF(("over hardware max MSI count %d\n", hw_max));
1.1  knakahar 		return EINVAL;
1.1  knakahar 	}
1.1  knakahar
1.4  knakahar 	return x86_pci_msi_alloc_exact(ihps, count, pa);
1.1  knakahar }
1.1  knakahar
1.1  knakahar /*
1.1  knakahar  * return number of the devices's MSI-X vectors
1.1  knakahar  * return 0 if the device does not support MSI-X
1.1  knakahar  */
1.1  knakahar int
1.2  knakahar pci_msix_count(const struct pci_attach_args *pa)
1.1  knakahar {
1.1  knakahar 	pci_chipset_tag_t pc;
1.1  knakahar 	pcitag_t tag;
1.1  knakahar 	pcireg_t reg;
1.1  knakahar 	int offset;
1.1  knakahar
1.1  knakahar 	pc = pa->pa_pc;
1.1  knakahar 	tag = pa->pa_tag;
1.1  knakahar 	if (pci_get_capability(pc, tag, PCI_CAP_MSIX, &offset, NULL) == 0)
1.1  knakahar 		return 0;
1.1  knakahar
1.1  knakahar 	reg = pci_conf_read(pc, tag, offset + PCI_MSIX_CTL);
1.1  knakahar
1.1  knakahar 	return PCI_MSIX_CTL_TBLSIZE(reg);
1.1  knakahar }
1.1  knakahar
1.1  knakahar /*
1.1  knakahar  * This function is used by device drivers like pci_intr_map().
1.1  knakahar  *
1.1  knakahar  * "ihps" is the array  of vector numbers which MSI-X used instead of IRQ number.
1.1  knakahar  * "count" can decrease if enough struct intrsources cannot be allocated.
1.1  knakahar  * if count == 0, return non-zero value.
1.1  knakahar  */
1.1  knakahar int
1.2  knakahar pci_msix_alloc(const struct pci_attach_args *pa, pci_intr_handle_t **ihps,
1.2  knakahar     int *count)
1.1  knakahar {
1.1  knakahar 	int hw_max;
1.1  knakahar
1.1  knakahar 	KASSERT(*count > 0);
1.1  knakahar
1.1  knakahar 	hw_max = pci_msix_count(pa);
1.1  knakahar 	if (hw_max == 0)
1.1  knakahar 		return ENODEV;
1.1  knakahar
1.1  knakahar 	if (*count > hw_max) {
1.1  knakahar 		DPRINTF(("cut off MSI-X count to %d\n", hw_max));
1.1  knakahar 		*count = hw_max; /* cut off hw_max */
1.1  knakahar 	}
1.1  knakahar
1.4  knakahar 	return x86_pci_msix_alloc(ihps, count, pa);
1.1  knakahar }
1.1  knakahar
1.1  knakahar /*
1.1  knakahar  * This function is used by device drivers like pci_intr_map().
1.1  knakahar  *
1.1  knakahar  * "ihps" is the array of vector numbers which MSI-X used instead of IRQ number.
1.1  knakahar  * "count" can not decrease.
1.1  knakahar  * If "count" struct intrsource cannot be allocated, return non-zero value.
1.1  knakahar  */
1.1  knakahar int
1.2  knakahar pci_msix_alloc_exact(const struct pci_attach_args *pa, pci_intr_handle_t **ihps,
1.1  knakahar     int count)
1.1  knakahar {
1.1  knakahar 	int hw_max;
1.1  knakahar
1.1  knakahar 	KASSERT(count > 0);
1.1  knakahar
1.1  knakahar 	hw_max = pci_msix_count(pa);
1.1  knakahar 	if (hw_max == 0)
1.1  knakahar 		return ENODEV;
1.1  knakahar
1.1  knakahar 	if (count > hw_max) {
1.1  knakahar 		DPRINTF(("over hardware max MSI-X count %d\n", hw_max));
1.1  knakahar 		return EINVAL;
1.1  knakahar 	}
1.1  knakahar
1.4  knakahar 	return x86_pci_msix_alloc_exact(ihps, count, pa);
1.1  knakahar }
1.1  knakahar
1.1  knakahar /*
1.1  knakahar  * This function is used by device drivers like pci_intr_map().
1.1  knakahar  * Futhermore, this function can map each handle to a MSI-X table index.
1.1  knakahar  *
1.1  knakahar  * "ihps" is the array of vector numbers which MSI-X used instead of IRQ number.
1.1  knakahar  * "count" can not decrease.
1.1  knakahar  * "map" size must be equal to "count".
1.1  knakahar  * If "count" struct intrsource cannot be allocated, return non-zero value.
1.1  knakahar  * e.g.
1.1  knakahar  *     If "map" = { 1, 4, 0 },
1.1  knakahar  *     1st handle is bound to MSI-X index 1
1.1  knakahar  *     2nd handle is bound to MSI-X index 4
1.1  knakahar  *     3rd handle is bound to MSI-X index 0
1.1  knakahar  */
1.1  knakahar int
1.2  knakahar pci_msix_alloc_map(const struct pci_attach_args *pa, pci_intr_handle_t **ihps,
1.1  knakahar     u_int *table_indexes, int count)
1.1  knakahar {
1.1  knakahar 	int hw_max, i, j;
1.1  knakahar
1.1  knakahar 	KASSERT(count > 0);
1.1  knakahar
1.1  knakahar 	hw_max = pci_msix_count(pa);
1.1  knakahar 	if (hw_max == 0)
1.1  knakahar 		return ENODEV;
1.1  knakahar
1.1  knakahar 	if (count > hw_max) {
1.1  knakahar 		DPRINTF(("over hardware max MSI-X count %d\n", hw_max));
1.1  knakahar 		return EINVAL;
1.1  knakahar 	}
1.1  knakahar
1.1  knakahar 	/* check not to duplicate table_index */
1.1  knakahar 	for (i = 0; i < count; i++) {
1.1  knakahar 		u_int basing = table_indexes[i];
1.1  knakahar
1.1  knakahar 		KASSERT(table_indexes[i] < PCI_MSIX_MAX_VECTORS);
1.1  knakahar 		if (basing >= hw_max) {
1.1  knakahar 			DPRINTF(("table index is over hardware max MSI-X index %d\n",
1.1  knakahar 				hw_max - 1));
1.1  knakahar 			return EINVAL;
1.1  knakahar 		}
1.1  knakahar
1.1  knakahar 		for (j = i + 1; j < count; j++) {
1.1  knakahar 			if (basing == table_indexes[j]) {
1.1  knakahar 				DPRINTF(("MSI-X table index duplicated\n"));
1.1  knakahar 				return EINVAL;
1.1  knakahar 			}
1.1  knakahar 		}
1.1  knakahar 	}
1.1  knakahar
1.4  knakahar 	return x86_pci_msix_alloc_map(ihps, table_indexes, count, pa);
1.1  knakahar }