186be9f0dSKonstantin Belousov /*- 2ebf5747bSPedro F. Giffuni * SPDX-License-Identifier: BSD-2-Clause-FreeBSD 3ebf5747bSPedro F. Giffuni * 40a110d5bSKonstantin Belousov * Copyright (c) 2013-2015 The FreeBSD Foundation 586be9f0dSKonstantin Belousov * All rights reserved. 686be9f0dSKonstantin Belousov * 786be9f0dSKonstantin Belousov * This software was developed by Konstantin Belousov <kib@FreeBSD.org> 886be9f0dSKonstantin Belousov * under sponsorship from the FreeBSD Foundation. 986be9f0dSKonstantin Belousov * 1086be9f0dSKonstantin Belousov * Redistribution and use in source and binary forms, with or without 1186be9f0dSKonstantin Belousov * modification, are permitted provided that the following conditions 1286be9f0dSKonstantin Belousov * are met: 1386be9f0dSKonstantin Belousov * 1. Redistributions of source code must retain the above copyright 1486be9f0dSKonstantin Belousov * notice, this list of conditions and the following disclaimer. 1586be9f0dSKonstantin Belousov * 2. Redistributions in binary form must reproduce the above copyright 1686be9f0dSKonstantin Belousov * notice, this list of conditions and the following disclaimer in the 1786be9f0dSKonstantin Belousov * documentation and/or other materials provided with the distribution. 1886be9f0dSKonstantin Belousov * 1986be9f0dSKonstantin Belousov * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 2086be9f0dSKonstantin Belousov * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 2186be9f0dSKonstantin Belousov * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 2286be9f0dSKonstantin Belousov * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 2386be9f0dSKonstantin Belousov * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 2486be9f0dSKonstantin Belousov * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 2586be9f0dSKonstantin Belousov * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 2686be9f0dSKonstantin Belousov * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 2786be9f0dSKonstantin Belousov * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 2886be9f0dSKonstantin Belousov * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 2986be9f0dSKonstantin Belousov * SUCH DAMAGE. 3086be9f0dSKonstantin Belousov * 3186be9f0dSKonstantin Belousov * $FreeBSD$ 3286be9f0dSKonstantin Belousov */ 3386be9f0dSKonstantin Belousov 3486be9f0dSKonstantin Belousov #ifndef __X86_IOMMU_INTEL_DMAR_H 3586be9f0dSKonstantin Belousov #define __X86_IOMMU_INTEL_DMAR_H 3686be9f0dSKonstantin Belousov 371238a28dSRuslan Bukin #include <dev/iommu/iommu.h> 3886be9f0dSKonstantin Belousov 3959e37c8aSRuslan Bukin struct dmar_unit; 4068eeb96aSKonstantin Belousov 411abfd355SKonstantin Belousov /* 421abfd355SKonstantin Belousov * Locking annotations: 4359e37c8aSRuslan Bukin * (u) - Protected by iommu unit lock 441abfd355SKonstantin Belousov * (d) - Protected by domain lock 451abfd355SKonstantin Belousov * (c) - Immutable after initialization 461abfd355SKonstantin Belousov */ 471abfd355SKonstantin Belousov 481abfd355SKonstantin Belousov /* 491abfd355SKonstantin Belousov * The domain abstraction. Most non-constant members of the domain 50ad969cb1SKonstantin Belousov * are protected by owning dmar unit lock, not by the domain lock. 51ad969cb1SKonstantin Belousov * Most important, the dmar lock protects the contexts list. 521abfd355SKonstantin Belousov * 531abfd355SKonstantin Belousov * The domain lock protects the address map for the domain, and list 541abfd355SKonstantin Belousov * of unload entries delayed. 551abfd355SKonstantin Belousov * 561abfd355SKonstantin Belousov * Page tables pages and pages content is protected by the vm object 571abfd355SKonstantin Belousov * lock pgtbl_obj, which contains the page tables pages. 581abfd355SKonstantin Belousov */ 591abfd355SKonstantin Belousov struct dmar_domain { 6059e37c8aSRuslan Bukin struct iommu_domain iodom; 611abfd355SKonstantin Belousov int domain; /* (c) DID, written in context entry */ 621abfd355SKonstantin Belousov int mgaw; /* (c) Real max address width */ 631abfd355SKonstantin Belousov int agaw; /* (c) Adjusted guest address width */ 641abfd355SKonstantin Belousov int pglvl; /* (c) The pagelevel */ 651abfd355SKonstantin Belousov int awlvl; /* (c) The pagelevel as the bitmask, 661abfd355SKonstantin Belousov to set in context entry */ 671abfd355SKonstantin Belousov u_int ctx_cnt; /* (u) Number of contexts owned */ 681abfd355SKonstantin Belousov u_int refs; /* (u) Refs, including ctx */ 691abfd355SKonstantin Belousov struct dmar_unit *dmar; /* (c) */ 701abfd355SKonstantin Belousov LIST_ENTRY(dmar_domain) link; /* (u) Member in the dmar list */ 711abfd355SKonstantin Belousov LIST_HEAD(, dmar_ctx) contexts; /* (u) */ 721abfd355SKonstantin Belousov vm_object_t pgtbl_obj; /* (c) Page table pages */ 73e164cafcSKonstantin Belousov u_int batch_no; 7486be9f0dSKonstantin Belousov }; 7586be9f0dSKonstantin Belousov 761abfd355SKonstantin Belousov struct dmar_ctx { 7759e37c8aSRuslan Bukin struct iommu_ctx context; 781abfd355SKonstantin Belousov uint16_t rid; /* (c) pci RID */ 791abfd355SKonstantin Belousov uint64_t last_fault_rec[2]; /* Last fault reported */ 801abfd355SKonstantin Belousov LIST_ENTRY(dmar_ctx) link; /* (u) Member in the domain list */ 811abfd355SKonstantin Belousov u_int refs; /* (u) References from tags */ 821abfd355SKonstantin Belousov }; 831abfd355SKonstantin Belousov 841abfd355SKonstantin Belousov #define DMAR_DOMAIN_PGLOCK(dom) VM_OBJECT_WLOCK((dom)->pgtbl_obj) 851abfd355SKonstantin Belousov #define DMAR_DOMAIN_PGTRYLOCK(dom) VM_OBJECT_TRYWLOCK((dom)->pgtbl_obj) 861abfd355SKonstantin Belousov #define DMAR_DOMAIN_PGUNLOCK(dom) VM_OBJECT_WUNLOCK((dom)->pgtbl_obj) 871abfd355SKonstantin Belousov #define DMAR_DOMAIN_ASSERT_PGLOCKED(dom) \ 881abfd355SKonstantin Belousov VM_OBJECT_ASSERT_WLOCKED((dom)->pgtbl_obj) 8986be9f0dSKonstantin Belousov 9059e37c8aSRuslan Bukin #define DMAR_DOMAIN_LOCK(dom) mtx_lock(&(dom)->iodom.lock) 9159e37c8aSRuslan Bukin #define DMAR_DOMAIN_UNLOCK(dom) mtx_unlock(&(dom)->iodom.lock) 9259e37c8aSRuslan Bukin #define DMAR_DOMAIN_ASSERT_LOCKED(dom) mtx_assert(&(dom)->iodom.lock, MA_OWNED) 9386be9f0dSKonstantin Belousov 9478b51754SRuslan Bukin #define DMAR2IOMMU(dmar) &((dmar)->iommu) 9578b51754SRuslan Bukin #define IOMMU2DMAR(dmar) \ 9678b51754SRuslan Bukin __containerof((dmar), struct dmar_unit, iommu) 9778b51754SRuslan Bukin 9878b51754SRuslan Bukin #define DOM2IODOM(domain) &((domain)->iodom) 9978b51754SRuslan Bukin #define IODOM2DOM(domain) \ 10078b51754SRuslan Bukin __containerof((domain), struct dmar_domain, iodom) 10178b51754SRuslan Bukin 10278b51754SRuslan Bukin #define CTX2IOCTX(ctx) &((ctx)->context) 10378b51754SRuslan Bukin #define IOCTX2CTX(ctx) \ 10478b51754SRuslan Bukin __containerof((ctx), struct dmar_ctx, context) 10578b51754SRuslan Bukin 10678b51754SRuslan Bukin #define CTX2DOM(ctx) IODOM2DOM((ctx)->context.domain) 10778b51754SRuslan Bukin #define CTX2DMAR(ctx) (CTX2DOM(ctx)->dmar) 10878b51754SRuslan Bukin #define DOM2DMAR(domain) ((domain)->dmar) 10978b51754SRuslan Bukin 11068eeb96aSKonstantin Belousov struct dmar_msi_data { 11168eeb96aSKonstantin Belousov int irq; 11268eeb96aSKonstantin Belousov int irq_rid; 11368eeb96aSKonstantin Belousov struct resource *irq_res; 11468eeb96aSKonstantin Belousov void *intr_handle; 11568eeb96aSKonstantin Belousov int (*handler)(void *); 11668eeb96aSKonstantin Belousov int msi_data_reg; 11768eeb96aSKonstantin Belousov int msi_addr_reg; 11868eeb96aSKonstantin Belousov int msi_uaddr_reg; 11968eeb96aSKonstantin Belousov void (*enable_intr)(struct dmar_unit *); 12068eeb96aSKonstantin Belousov void (*disable_intr)(struct dmar_unit *); 12168eeb96aSKonstantin Belousov const char *name; 12268eeb96aSKonstantin Belousov }; 12368eeb96aSKonstantin Belousov 12468eeb96aSKonstantin Belousov #define DMAR_INTR_FAULT 0 12568eeb96aSKonstantin Belousov #define DMAR_INTR_QI 1 12668eeb96aSKonstantin Belousov #define DMAR_INTR_TOTAL 2 12768eeb96aSKonstantin Belousov 12886be9f0dSKonstantin Belousov struct dmar_unit { 12959e37c8aSRuslan Bukin struct iommu_unit iommu; 13086be9f0dSKonstantin Belousov device_t dev; 13186be9f0dSKonstantin Belousov uint16_t segment; 13286be9f0dSKonstantin Belousov uint64_t base; 13386be9f0dSKonstantin Belousov 13486be9f0dSKonstantin Belousov /* Resources */ 13586be9f0dSKonstantin Belousov int reg_rid; 13686be9f0dSKonstantin Belousov struct resource *regs; 13768eeb96aSKonstantin Belousov 13868eeb96aSKonstantin Belousov struct dmar_msi_data intrs[DMAR_INTR_TOTAL]; 13986be9f0dSKonstantin Belousov 14086be9f0dSKonstantin Belousov /* Hardware registers cache */ 14186be9f0dSKonstantin Belousov uint32_t hw_ver; 14286be9f0dSKonstantin Belousov uint64_t hw_cap; 14386be9f0dSKonstantin Belousov uint64_t hw_ecap; 14486be9f0dSKonstantin Belousov uint32_t hw_gcmd; 14586be9f0dSKonstantin Belousov 14686be9f0dSKonstantin Belousov /* Data for being a dmar */ 1471abfd355SKonstantin Belousov LIST_HEAD(, dmar_domain) domains; 14886be9f0dSKonstantin Belousov struct unrhdr *domids; 14986be9f0dSKonstantin Belousov vm_object_t ctx_obj; 15086be9f0dSKonstantin Belousov u_int barrier_flags; 15186be9f0dSKonstantin Belousov 15286be9f0dSKonstantin Belousov /* Fault handler data */ 15386be9f0dSKonstantin Belousov struct mtx fault_lock; 15486be9f0dSKonstantin Belousov uint64_t *fault_log; 15586be9f0dSKonstantin Belousov int fault_log_head; 15686be9f0dSKonstantin Belousov int fault_log_tail; 15786be9f0dSKonstantin Belousov int fault_log_size; 15886be9f0dSKonstantin Belousov struct task fault_task; 15986be9f0dSKonstantin Belousov struct taskqueue *fault_taskqueue; 16086be9f0dSKonstantin Belousov 16168eeb96aSKonstantin Belousov /* QI */ 16268eeb96aSKonstantin Belousov int qi_enabled; 16368eeb96aSKonstantin Belousov vm_offset_t inv_queue; 16468eeb96aSKonstantin Belousov vm_size_t inv_queue_size; 16568eeb96aSKonstantin Belousov uint32_t inv_queue_avail; 16668eeb96aSKonstantin Belousov uint32_t inv_queue_tail; 16768eeb96aSKonstantin Belousov volatile uint32_t inv_waitd_seq_hw; /* hw writes there on wait 16868eeb96aSKonstantin Belousov descr completion */ 16968eeb96aSKonstantin Belousov uint64_t inv_waitd_seq_hw_phys; 17068eeb96aSKonstantin Belousov uint32_t inv_waitd_seq; /* next sequence number to use for wait descr */ 17168eeb96aSKonstantin Belousov u_int inv_waitd_gen; /* seq number generation AKA seq overflows */ 17268eeb96aSKonstantin Belousov u_int inv_seq_waiters; /* count of waiters for seq */ 17368eeb96aSKonstantin Belousov u_int inv_queue_full; /* informational counter */ 17468eeb96aSKonstantin Belousov 1750a110d5bSKonstantin Belousov /* IR */ 1760a110d5bSKonstantin Belousov int ir_enabled; 1770a110d5bSKonstantin Belousov vm_paddr_t irt_phys; 1780a110d5bSKonstantin Belousov dmar_irte_t *irt; 1790a110d5bSKonstantin Belousov u_int irte_cnt; 1800a110d5bSKonstantin Belousov vmem_t *irtids; 1810a110d5bSKonstantin Belousov 18268eeb96aSKonstantin Belousov /* Delayed freeing of map entries queue processing */ 18359e37c8aSRuslan Bukin struct iommu_map_entries_tailq tlb_flush_entries; 18468eeb96aSKonstantin Belousov struct task qi_task; 18568eeb96aSKonstantin Belousov struct taskqueue *qi_taskqueue; 18686be9f0dSKonstantin Belousov }; 18786be9f0dSKonstantin Belousov 18859e37c8aSRuslan Bukin #define DMAR_LOCK(dmar) mtx_lock(&(dmar)->iommu.lock) 18959e37c8aSRuslan Bukin #define DMAR_UNLOCK(dmar) mtx_unlock(&(dmar)->iommu.lock) 19059e37c8aSRuslan Bukin #define DMAR_ASSERT_LOCKED(dmar) mtx_assert(&(dmar)->iommu.lock, MA_OWNED) 19186be9f0dSKonstantin Belousov 19286be9f0dSKonstantin Belousov #define DMAR_FAULT_LOCK(dmar) mtx_lock_spin(&(dmar)->fault_lock) 19386be9f0dSKonstantin Belousov #define DMAR_FAULT_UNLOCK(dmar) mtx_unlock_spin(&(dmar)->fault_lock) 19486be9f0dSKonstantin Belousov #define DMAR_FAULT_ASSERT_LOCKED(dmar) mtx_assert(&(dmar)->fault_lock, MA_OWNED) 19586be9f0dSKonstantin Belousov 19686be9f0dSKonstantin Belousov #define DMAR_IS_COHERENT(dmar) (((dmar)->hw_ecap & DMAR_ECAP_C) != 0) 19768eeb96aSKonstantin Belousov #define DMAR_HAS_QI(dmar) (((dmar)->hw_ecap & DMAR_ECAP_QI) != 0) 1980a110d5bSKonstantin Belousov #define DMAR_X2APIC(dmar) \ 1990a110d5bSKonstantin Belousov (x2apic_mode && ((dmar)->hw_ecap & DMAR_ECAP_EIM) != 0) 20086be9f0dSKonstantin Belousov 20186be9f0dSKonstantin Belousov /* Barrier ids */ 20286be9f0dSKonstantin Belousov #define DMAR_BARRIER_RMRR 0 20386be9f0dSKonstantin Belousov #define DMAR_BARRIER_USEQ 1 20486be9f0dSKonstantin Belousov 205f9feb091SKonstantin Belousov struct dmar_unit *dmar_find(device_t dev, bool verbose); 2060a110d5bSKonstantin Belousov struct dmar_unit *dmar_find_hpet(device_t dev, uint16_t *rid); 2070a110d5bSKonstantin Belousov struct dmar_unit *dmar_find_ioapic(u_int apic_id, uint16_t *rid); 20886be9f0dSKonstantin Belousov 20986be9f0dSKonstantin Belousov u_int dmar_nd2mask(u_int nd); 21086be9f0dSKonstantin Belousov bool dmar_pglvl_supported(struct dmar_unit *unit, int pglvl); 2111abfd355SKonstantin Belousov int domain_set_agaw(struct dmar_domain *domain, int mgaw); 21259e37c8aSRuslan Bukin int dmar_maxaddr2mgaw(struct dmar_unit *unit, iommu_gaddr_t maxaddr, 21386be9f0dSKonstantin Belousov bool allow_less); 21486be9f0dSKonstantin Belousov vm_pindex_t pglvl_max_pages(int pglvl); 2151abfd355SKonstantin Belousov int domain_is_sp_lvl(struct dmar_domain *domain, int lvl); 21659e37c8aSRuslan Bukin iommu_gaddr_t pglvl_page_size(int total_pglvl, int lvl); 21759e37c8aSRuslan Bukin iommu_gaddr_t domain_page_size(struct dmar_domain *domain, int lvl); 21859e37c8aSRuslan Bukin int calc_am(struct dmar_unit *unit, iommu_gaddr_t base, iommu_gaddr_t size, 21959e37c8aSRuslan Bukin iommu_gaddr_t *isizep); 22086be9f0dSKonstantin Belousov struct vm_page *dmar_pgalloc(vm_object_t obj, vm_pindex_t idx, int flags); 22186be9f0dSKonstantin Belousov void dmar_pgfree(vm_object_t obj, vm_pindex_t idx, int flags); 22286be9f0dSKonstantin Belousov void *dmar_map_pgtbl(vm_object_t obj, vm_pindex_t idx, int flags, 22386be9f0dSKonstantin Belousov struct sf_buf **sf); 2246b7c46afSKonstantin Belousov void dmar_unmap_pgtbl(struct sf_buf *sf); 22586be9f0dSKonstantin Belousov int dmar_load_root_entry_ptr(struct dmar_unit *unit); 22686be9f0dSKonstantin Belousov int dmar_inv_ctx_glob(struct dmar_unit *unit); 22786be9f0dSKonstantin Belousov int dmar_inv_iotlb_glob(struct dmar_unit *unit); 22886be9f0dSKonstantin Belousov int dmar_flush_write_bufs(struct dmar_unit *unit); 2296b7c46afSKonstantin Belousov void dmar_flush_pte_to_ram(struct dmar_unit *unit, dmar_pte_t *dst); 2306b7c46afSKonstantin Belousov void dmar_flush_ctx_to_ram(struct dmar_unit *unit, dmar_ctx_entry_t *dst); 2316b7c46afSKonstantin Belousov void dmar_flush_root_to_ram(struct dmar_unit *unit, dmar_root_entry_t *dst); 23286be9f0dSKonstantin Belousov int dmar_enable_translation(struct dmar_unit *unit); 23386be9f0dSKonstantin Belousov int dmar_disable_translation(struct dmar_unit *unit); 2340a110d5bSKonstantin Belousov int dmar_load_irt_ptr(struct dmar_unit *unit); 2350a110d5bSKonstantin Belousov int dmar_enable_ir(struct dmar_unit *unit); 2360a110d5bSKonstantin Belousov int dmar_disable_ir(struct dmar_unit *unit); 23786be9f0dSKonstantin Belousov bool dmar_barrier_enter(struct dmar_unit *dmar, u_int barrier_id); 23886be9f0dSKonstantin Belousov void dmar_barrier_exit(struct dmar_unit *dmar, u_int barrier_id); 239476358b3SKonstantin Belousov uint64_t dmar_get_timeout(void); 240476358b3SKonstantin Belousov void dmar_update_timeout(uint64_t newval); 24186be9f0dSKonstantin Belousov 24268eeb96aSKonstantin Belousov int dmar_fault_intr(void *arg); 24368eeb96aSKonstantin Belousov void dmar_enable_fault_intr(struct dmar_unit *unit); 24468eeb96aSKonstantin Belousov void dmar_disable_fault_intr(struct dmar_unit *unit); 24586be9f0dSKonstantin Belousov int dmar_init_fault_log(struct dmar_unit *unit); 24686be9f0dSKonstantin Belousov void dmar_fini_fault_log(struct dmar_unit *unit); 24786be9f0dSKonstantin Belousov 24868eeb96aSKonstantin Belousov int dmar_qi_intr(void *arg); 24968eeb96aSKonstantin Belousov void dmar_enable_qi_intr(struct dmar_unit *unit); 25068eeb96aSKonstantin Belousov void dmar_disable_qi_intr(struct dmar_unit *unit); 25168eeb96aSKonstantin Belousov int dmar_init_qi(struct dmar_unit *unit); 25268eeb96aSKonstantin Belousov void dmar_fini_qi(struct dmar_unit *unit); 25359e37c8aSRuslan Bukin void dmar_qi_invalidate_locked(struct dmar_domain *domain, iommu_gaddr_t start, 25459e37c8aSRuslan Bukin iommu_gaddr_t size, struct iommu_qi_genseq *psec, bool emit_wait); 25568eeb96aSKonstantin Belousov void dmar_qi_invalidate_ctx_glob_locked(struct dmar_unit *unit); 25668eeb96aSKonstantin Belousov void dmar_qi_invalidate_iotlb_glob_locked(struct dmar_unit *unit); 2570a110d5bSKonstantin Belousov void dmar_qi_invalidate_iec_glob(struct dmar_unit *unit); 2580a110d5bSKonstantin Belousov void dmar_qi_invalidate_iec(struct dmar_unit *unit, u_int start, u_int cnt); 25968eeb96aSKonstantin Belousov 2601abfd355SKonstantin Belousov vm_object_t domain_get_idmap_pgtbl(struct dmar_domain *domain, 26159e37c8aSRuslan Bukin iommu_gaddr_t maxaddr); 26286be9f0dSKonstantin Belousov void put_idmap_pgtbl(vm_object_t obj); 26359e37c8aSRuslan Bukin void domain_flush_iotlb_sync(struct dmar_domain *domain, iommu_gaddr_t base, 26459e37c8aSRuslan Bukin iommu_gaddr_t size); 2651abfd355SKonstantin Belousov int domain_alloc_pgtbl(struct dmar_domain *domain); 2661abfd355SKonstantin Belousov void domain_free_pgtbl(struct dmar_domain *domain); 267*16696f60SRuslan Bukin extern const struct iommu_domain_map_ops dmar_domain_map_ops; 26886be9f0dSKonstantin Belousov 269f9feb091SKonstantin Belousov int dmar_dev_depth(device_t child); 270f9feb091SKonstantin Belousov void dmar_dev_path(device_t child, int *busno, void *path1, int depth); 271f9feb091SKonstantin Belousov 2721abfd355SKonstantin Belousov struct dmar_ctx *dmar_get_ctx_for_dev(struct dmar_unit *dmar, device_t dev, 27367499354SRyan Stone uint16_t rid, bool id_mapped, bool rmrr_init); 274f9feb091SKonstantin Belousov struct dmar_ctx *dmar_get_ctx_for_devpath(struct dmar_unit *dmar, uint16_t rid, 275f9feb091SKonstantin Belousov int dev_domain, int dev_busno, const void *dev_path, int dev_path_len, 276f9feb091SKonstantin Belousov bool id_mapped, bool rmrr_init); 2771abfd355SKonstantin Belousov int dmar_move_ctx_to_domain(struct dmar_domain *domain, struct dmar_ctx *ctx); 27886be9f0dSKonstantin Belousov void dmar_free_ctx_locked(struct dmar_unit *dmar, struct dmar_ctx *ctx); 27986be9f0dSKonstantin Belousov void dmar_free_ctx(struct dmar_ctx *ctx); 28067499354SRyan Stone struct dmar_ctx *dmar_find_ctx_locked(struct dmar_unit *dmar, uint16_t rid); 28159e37c8aSRuslan Bukin void dmar_domain_unload_entry(struct iommu_map_entry *entry, bool free); 2821abfd355SKonstantin Belousov void dmar_domain_unload(struct dmar_domain *domain, 28359e37c8aSRuslan Bukin struct iommu_map_entries_tailq *entries, bool cansleep); 28459e37c8aSRuslan Bukin void dmar_domain_free_entry(struct iommu_map_entry *entry, bool free); 28586be9f0dSKonstantin Belousov 286f9feb091SKonstantin Belousov void dmar_dev_parse_rmrr(struct dmar_domain *domain, int dev_domain, 287f9feb091SKonstantin Belousov int dev_busno, const void *dev_path, int dev_path_len, 28859e37c8aSRuslan Bukin struct iommu_map_entries_tailq *rmrr_entries); 28959e37c8aSRuslan Bukin int dmar_instantiate_rmrr_ctxs(struct iommu_unit *dmar); 29086be9f0dSKonstantin Belousov 29186be9f0dSKonstantin Belousov void dmar_quirks_post_ident(struct dmar_unit *dmar); 29259e37c8aSRuslan Bukin void dmar_quirks_pre_use(struct iommu_unit *dmar); 29386be9f0dSKonstantin Belousov 2940a110d5bSKonstantin Belousov int dmar_init_irt(struct dmar_unit *unit); 2950a110d5bSKonstantin Belousov void dmar_fini_irt(struct dmar_unit *unit); 2960a110d5bSKonstantin Belousov 29759e37c8aSRuslan Bukin extern iommu_haddr_t dmar_high; 29886be9f0dSKonstantin Belousov extern int haw; 29986be9f0dSKonstantin Belousov extern int dmar_tbl_pagecnt; 300e164cafcSKonstantin Belousov extern int dmar_batch_coalesce; 30186be9f0dSKonstantin Belousov 30286be9f0dSKonstantin Belousov static inline uint32_t 30386be9f0dSKonstantin Belousov dmar_read4(const struct dmar_unit *unit, int reg) 30486be9f0dSKonstantin Belousov { 30586be9f0dSKonstantin Belousov 30686be9f0dSKonstantin Belousov return (bus_read_4(unit->regs, reg)); 30786be9f0dSKonstantin Belousov } 30886be9f0dSKonstantin Belousov 30986be9f0dSKonstantin Belousov static inline uint64_t 31086be9f0dSKonstantin Belousov dmar_read8(const struct dmar_unit *unit, int reg) 31186be9f0dSKonstantin Belousov { 31286be9f0dSKonstantin Belousov #ifdef __i386__ 31386be9f0dSKonstantin Belousov uint32_t high, low; 31486be9f0dSKonstantin Belousov 31586be9f0dSKonstantin Belousov low = bus_read_4(unit->regs, reg); 31686be9f0dSKonstantin Belousov high = bus_read_4(unit->regs, reg + 4); 31786be9f0dSKonstantin Belousov return (low | ((uint64_t)high << 32)); 31886be9f0dSKonstantin Belousov #else 31986be9f0dSKonstantin Belousov return (bus_read_8(unit->regs, reg)); 32086be9f0dSKonstantin Belousov #endif 32186be9f0dSKonstantin Belousov } 32286be9f0dSKonstantin Belousov 32386be9f0dSKonstantin Belousov static inline void 32486be9f0dSKonstantin Belousov dmar_write4(const struct dmar_unit *unit, int reg, uint32_t val) 32586be9f0dSKonstantin Belousov { 32686be9f0dSKonstantin Belousov 32786be9f0dSKonstantin Belousov KASSERT(reg != DMAR_GCMD_REG || (val & DMAR_GCMD_TE) == 32886be9f0dSKonstantin Belousov (unit->hw_gcmd & DMAR_GCMD_TE), 32959e37c8aSRuslan Bukin ("dmar%d clearing TE 0x%08x 0x%08x", unit->iommu.unit, 33086be9f0dSKonstantin Belousov unit->hw_gcmd, val)); 33186be9f0dSKonstantin Belousov bus_write_4(unit->regs, reg, val); 33286be9f0dSKonstantin Belousov } 33386be9f0dSKonstantin Belousov 33486be9f0dSKonstantin Belousov static inline void 33586be9f0dSKonstantin Belousov dmar_write8(const struct dmar_unit *unit, int reg, uint64_t val) 33686be9f0dSKonstantin Belousov { 33786be9f0dSKonstantin Belousov 33886be9f0dSKonstantin Belousov KASSERT(reg != DMAR_GCMD_REG, ("8byte GCMD write")); 33986be9f0dSKonstantin Belousov #ifdef __i386__ 34086be9f0dSKonstantin Belousov uint32_t high, low; 34186be9f0dSKonstantin Belousov 34286be9f0dSKonstantin Belousov low = val; 34386be9f0dSKonstantin Belousov high = val >> 32; 34486be9f0dSKonstantin Belousov bus_write_4(unit->regs, reg, low); 34586be9f0dSKonstantin Belousov bus_write_4(unit->regs, reg + 4, high); 34686be9f0dSKonstantin Belousov #else 34786be9f0dSKonstantin Belousov bus_write_8(unit->regs, reg, val); 34886be9f0dSKonstantin Belousov #endif 34986be9f0dSKonstantin Belousov } 35086be9f0dSKonstantin Belousov 35186be9f0dSKonstantin Belousov /* 35286be9f0dSKonstantin Belousov * dmar_pte_store and dmar_pte_clear ensure that on i386, 32bit writes 35386be9f0dSKonstantin Belousov * are issued in the correct order. For store, the lower word, 35486be9f0dSKonstantin Belousov * containing the P or R and W bits, is set only after the high word 35586be9f0dSKonstantin Belousov * is written. For clear, the P bit is cleared first, then the high 35686be9f0dSKonstantin Belousov * word is cleared. 3570a110d5bSKonstantin Belousov * 3580a110d5bSKonstantin Belousov * dmar_pte_update updates the pte. For amd64, the update is atomic. 3590a110d5bSKonstantin Belousov * For i386, it first disables the entry by clearing the word 3600a110d5bSKonstantin Belousov * containing the P bit, and then defer to dmar_pte_store. The locked 3610a110d5bSKonstantin Belousov * cmpxchg8b is probably available on any machine having DMAR support, 3620a110d5bSKonstantin Belousov * but interrupt translation table may be mapped uncached. 36386be9f0dSKonstantin Belousov */ 36486be9f0dSKonstantin Belousov static inline void 3650a110d5bSKonstantin Belousov dmar_pte_store1(volatile uint64_t *dst, uint64_t val) 36686be9f0dSKonstantin Belousov { 36786be9f0dSKonstantin Belousov #ifdef __i386__ 36886be9f0dSKonstantin Belousov volatile uint32_t *p; 36986be9f0dSKonstantin Belousov uint32_t hi, lo; 37086be9f0dSKonstantin Belousov 37186be9f0dSKonstantin Belousov hi = val >> 32; 37286be9f0dSKonstantin Belousov lo = val; 37386be9f0dSKonstantin Belousov p = (volatile uint32_t *)dst; 37486be9f0dSKonstantin Belousov *(p + 1) = hi; 37586be9f0dSKonstantin Belousov *p = lo; 37686be9f0dSKonstantin Belousov #else 37786be9f0dSKonstantin Belousov *dst = val; 37886be9f0dSKonstantin Belousov #endif 37986be9f0dSKonstantin Belousov } 38086be9f0dSKonstantin Belousov 38186be9f0dSKonstantin Belousov static inline void 3820a110d5bSKonstantin Belousov dmar_pte_store(volatile uint64_t *dst, uint64_t val) 3830a110d5bSKonstantin Belousov { 3840a110d5bSKonstantin Belousov 3850a110d5bSKonstantin Belousov KASSERT(*dst == 0, ("used pte %p oldval %jx newval %jx", 3860a110d5bSKonstantin Belousov dst, (uintmax_t)*dst, (uintmax_t)val)); 3870a110d5bSKonstantin Belousov dmar_pte_store1(dst, val); 3880a110d5bSKonstantin Belousov } 3890a110d5bSKonstantin Belousov 3900a110d5bSKonstantin Belousov static inline void 3910a110d5bSKonstantin Belousov dmar_pte_update(volatile uint64_t *dst, uint64_t val) 3920a110d5bSKonstantin Belousov { 3930a110d5bSKonstantin Belousov 3940a110d5bSKonstantin Belousov #ifdef __i386__ 3950a110d5bSKonstantin Belousov volatile uint32_t *p; 3960a110d5bSKonstantin Belousov 3970a110d5bSKonstantin Belousov p = (volatile uint32_t *)dst; 3980a110d5bSKonstantin Belousov *p = 0; 3990a110d5bSKonstantin Belousov #endif 4000a110d5bSKonstantin Belousov dmar_pte_store1(dst, val); 4010a110d5bSKonstantin Belousov } 4020a110d5bSKonstantin Belousov 4030a110d5bSKonstantin Belousov static inline void 40486be9f0dSKonstantin Belousov dmar_pte_clear(volatile uint64_t *dst) 40586be9f0dSKonstantin Belousov { 40686be9f0dSKonstantin Belousov #ifdef __i386__ 40786be9f0dSKonstantin Belousov volatile uint32_t *p; 40886be9f0dSKonstantin Belousov 40986be9f0dSKonstantin Belousov p = (volatile uint32_t *)dst; 41086be9f0dSKonstantin Belousov *p = 0; 41186be9f0dSKonstantin Belousov *(p + 1) = 0; 41286be9f0dSKonstantin Belousov #else 41386be9f0dSKonstantin Belousov *dst = 0; 41486be9f0dSKonstantin Belousov #endif 41586be9f0dSKonstantin Belousov } 41686be9f0dSKonstantin Belousov 417476358b3SKonstantin Belousov extern struct timespec dmar_hw_timeout; 418476358b3SKonstantin Belousov 419476358b3SKonstantin Belousov #define DMAR_WAIT_UNTIL(cond) \ 420476358b3SKonstantin Belousov { \ 421476358b3SKonstantin Belousov struct timespec last, curr; \ 422476358b3SKonstantin Belousov bool forever; \ 423476358b3SKonstantin Belousov \ 424476358b3SKonstantin Belousov if (dmar_hw_timeout.tv_sec == 0 && \ 425476358b3SKonstantin Belousov dmar_hw_timeout.tv_nsec == 0) { \ 426476358b3SKonstantin Belousov forever = true; \ 427476358b3SKonstantin Belousov } else { \ 428476358b3SKonstantin Belousov forever = false; \ 429476358b3SKonstantin Belousov nanouptime(&curr); \ 4306040822cSAlan Somers timespecadd(&curr, &dmar_hw_timeout, &last); \ 431476358b3SKonstantin Belousov } \ 432476358b3SKonstantin Belousov for (;;) { \ 433476358b3SKonstantin Belousov if (cond) { \ 434476358b3SKonstantin Belousov error = 0; \ 435476358b3SKonstantin Belousov break; \ 436476358b3SKonstantin Belousov } \ 437476358b3SKonstantin Belousov nanouptime(&curr); \ 438476358b3SKonstantin Belousov if (!forever && timespeccmp(&last, &curr, <)) { \ 439476358b3SKonstantin Belousov error = ETIMEDOUT; \ 440476358b3SKonstantin Belousov break; \ 441476358b3SKonstantin Belousov } \ 442476358b3SKonstantin Belousov cpu_spinwait(); \ 443476358b3SKonstantin Belousov } \ 444476358b3SKonstantin Belousov } 445476358b3SKonstantin Belousov 44686be9f0dSKonstantin Belousov #ifdef INVARIANTS 44786be9f0dSKonstantin Belousov #define TD_PREP_PINNED_ASSERT \ 44886be9f0dSKonstantin Belousov int old_td_pinned; \ 44986be9f0dSKonstantin Belousov old_td_pinned = curthread->td_pinned 45086be9f0dSKonstantin Belousov #define TD_PINNED_ASSERT \ 45186be9f0dSKonstantin Belousov KASSERT(curthread->td_pinned == old_td_pinned, \ 45286be9f0dSKonstantin Belousov ("pin count leak: %d %d %s:%d", curthread->td_pinned, \ 45386be9f0dSKonstantin Belousov old_td_pinned, __FILE__, __LINE__)) 45486be9f0dSKonstantin Belousov #else 45586be9f0dSKonstantin Belousov #define TD_PREP_PINNED_ASSERT 45686be9f0dSKonstantin Belousov #define TD_PINNED_ASSERT 45786be9f0dSKonstantin Belousov #endif 45886be9f0dSKonstantin Belousov 45986be9f0dSKonstantin Belousov #endif 460