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openSUSE:Step:15-SP4
xen.25148
xsa400-05.patch
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File xsa400-05.patch of Package xen.25148
AMD/IOMMU: re-assign devices directly Devices with unity map ranges, due to it being unspecified how/when these memory ranges may get accessed, may not be left disconnected from their unity mappings (as long as it's not certain that the device has been fully quiesced). Hence rather than tearing down the old root page table pointer and then establishing the new one, re-assignment needs to be done in a single step. Reported-by: Roger Pau Monné <roger.pau@citrix.com> This is part of XSA-400. Similarly quarantining scratch-page mode relies on page tables to be continuously wired up. To avoid complicating things more than necessary, treat all devices mostly equally, i.e. regardless of their association with any unity map ranges. The main difference is when it comes to updating DTEs, which need to be atomic when there are unity mappings. Yet atomicity can only be achieved with CMPXCHG16B, availability of which we can't take for given. Signed-off-by: Jan Beulich <jbeulich@suse.com> Reviewed-by: Paul Durrant <paul@xen.org> Reviewed-by: Roger Pau Monné <roger.pau@citrix.com> --- a/xen/include/asm-x86/hvm/svm/amd-iommu-proto.h +++ b/xen/include/asm-x86/hvm/svm/amd-iommu-proto.h @@ -72,8 +72,12 @@ void amd_iommu_share_p2m(struct domain * int get_dma_requestor_id(u16 seg, u16 bdf); void amd_iommu_set_intremap_table( u32 *dte, u64 intremap_ptr, u8 int_valid); -void amd_iommu_set_root_page_table( - u32 *dte, u64 root_ptr, u16 domain_id, u8 paging_mode, u8 valid); +#define SET_ROOT_VALID (1u << 0) +#define SET_ROOT_WITH_UNITY_MAP (1u << 1) +int __must_check amd_iommu_set_root_page_table( + uint32_t *dte, uint64_t root_ptr, uint16_t domain_id, uint8_t paging_mode, + unsigned int flags); +paddr_t amd_iommu_get_root_page_table(const uint32_t *dte); void iommu_dte_set_iotlb(u32 *dte, u8 i); void iommu_dte_add_device_entry(u32 *dte, struct ivrs_mappings *ivrs_dev); void iommu_dte_set_guest_cr3(u32 *dte, u16 dom_id, u64 gcr3, --- a/xen/drivers/passthrough/amd/iommu_map.c +++ b/xen/drivers/passthrough/amd/iommu_map.c @@ -143,12 +143,106 @@ static bool_t set_iommu_pte_present(unsi return need_flush; } -void amd_iommu_set_root_page_table( - u32 *dte, u64 root_ptr, u16 domain_id, u8 paging_mode, u8 valid) +/* + * This function returns + * - -errno for errors, + * - 0 for a successful update, atomic when necessary + * - 1 for a successful but non-atomic update, which may need to be warned + * about by the caller. + */ +int amd_iommu_set_root_page_table(uint32_t *dte, uint64_t root_ptr, + uint16_t domain_id, uint8_t paging_mode, + unsigned int flags) { + bool valid = flags & SET_ROOT_VALID; u64 addr_hi, addr_lo; u32 entry, dte0 = dte[0]; + addr_lo = root_ptr & DMA_32BIT_MASK; + addr_hi = root_ptr >> 32; + + if ( get_field_from_reg_u32(dte0, IOMMU_DEV_TABLE_VALID_MASK, + IOMMU_DEV_TABLE_VALID_SHIFT) && + get_field_from_reg_u32(dte0, IOMMU_DEV_TABLE_TRANSLATION_VALID_MASK, + IOMMU_DEV_TABLE_TRANSLATION_VALID_SHIFT) && + (cpu_has_cx16 || (flags & SET_ROOT_WITH_UNITY_MAP)) ) + { + union { + uint32_t dte[4]; + uint64_t raw64[2]; + __uint128_t raw128; + } ldte; + __uint128_t old; + int ret = 0; + + memcpy(ldte.dte, dte, sizeof(ldte)); + old = ldte.raw128; + + set_field_in_reg_u32(domain_id, ldte.dte[2], + IOMMU_DEV_TABLE_DOMAIN_ID_MASK, + IOMMU_DEV_TABLE_DOMAIN_ID_SHIFT, &ldte.dte[2]); + + set_field_in_reg_u32(addr_hi, ldte.dte[1], + IOMMU_DEV_TABLE_PAGE_TABLE_PTR_HIGH_MASK, + IOMMU_DEV_TABLE_PAGE_TABLE_PTR_HIGH_SHIFT, + &ldte.dte[1]); + set_field_in_reg_u32(IOMMU_CONTROL_ENABLED, ldte.dte[1], + IOMMU_DEV_TABLE_IO_WRITE_PERMISSION_MASK, + IOMMU_DEV_TABLE_IO_WRITE_PERMISSION_SHIFT, + &ldte.dte[1]); + set_field_in_reg_u32(IOMMU_CONTROL_ENABLED, ldte.dte[1], + IOMMU_DEV_TABLE_IO_READ_PERMISSION_MASK, + IOMMU_DEV_TABLE_IO_READ_PERMISSION_SHIFT, + &ldte.dte[1]); + + set_field_in_reg_u32(addr_lo >> PAGE_SHIFT, ldte.dte[0], + IOMMU_DEV_TABLE_PAGE_TABLE_PTR_LOW_MASK, + IOMMU_DEV_TABLE_PAGE_TABLE_PTR_LOW_SHIFT, + &ldte.dte[0]); + set_field_in_reg_u32(paging_mode, ldte.dte[0], + IOMMU_DEV_TABLE_PAGING_MODE_MASK, + IOMMU_DEV_TABLE_PAGING_MODE_SHIFT, &ldte.dte[0]); + set_field_in_reg_u32(IOMMU_CONTROL_ENABLED, ldte.dte[0], + IOMMU_DEV_TABLE_TRANSLATION_VALID_MASK, + IOMMU_DEV_TABLE_TRANSLATION_VALID_SHIFT, + &ldte.dte[0]); + set_field_in_reg_u32(valid ? IOMMU_CONTROL_ENABLED + : IOMMU_CONTROL_DISABLED, + ldte.dte[0], IOMMU_DEV_TABLE_VALID_MASK, + IOMMU_DEV_TABLE_VALID_SHIFT, &ldte.dte[0]); + + if ( cpu_has_cx16 ) + { + __uint128_t res = cmpxchg16b(dte, &old, &ldte.raw128); + + /* + * Hardware does not update the DTE behind our backs, so the + * return value should match "old". + */ + if ( res != old ) + { + printk(XENLOG_ERR + "Dom%d: unexpected DTE %016lx_%016lx (expected %016lx_%016lx)\n", + domain_id, + (uint64_t)(res >> 64), (uint64_t)res, + (uint64_t)(old >> 64), (uint64_t)old); + ret = -EILSEQ; + } + } + else /* Best effort, updating domain_id last. */ + { + uint64_t *ptr = (void *)dte; + + write_atomic(ptr + 0, ldte.raw64[0]); + /* No barrier should be needed between these two. */ + write_atomic(ptr + 1, ldte.raw64[1]); + + ret = 1; + } + + return ret; + } + if ( valid || get_field_from_reg_u32(dte0, IOMMU_DEV_TABLE_VALID_MASK, IOMMU_DEV_TABLE_VALID_SHIFT) ) @@ -168,9 +262,6 @@ void amd_iommu_set_root_page_table( IOMMU_DEV_TABLE_DOMAIN_ID_SHIFT, &entry); dte[2] = entry; - addr_lo = root_ptr & DMA_32BIT_MASK; - addr_hi = root_ptr >> 32; - set_field_in_reg_u32((u32)addr_hi, 0, IOMMU_DEV_TABLE_PAGE_TABLE_PTR_HIGH_MASK, IOMMU_DEV_TABLE_PAGE_TABLE_PTR_HIGH_SHIFT, &entry); @@ -197,6 +288,20 @@ void amd_iommu_set_root_page_table( IOMMU_DEV_TABLE_VALID_MASK, IOMMU_DEV_TABLE_VALID_SHIFT, &entry); write_atomic(&dte[0], entry); + + return 0; +} + +paddr_t amd_iommu_get_root_page_table(const uint32_t *dte) +{ + uint32_t lo = get_field_from_reg_u32( + dte[0], IOMMU_DEV_TABLE_PAGE_TABLE_PTR_LOW_MASK, + IOMMU_DEV_TABLE_PAGE_TABLE_PTR_LOW_SHIFT); + uint32_t hi = get_field_from_reg_u32( + dte[1], IOMMU_DEV_TABLE_PAGE_TABLE_PTR_HIGH_MASK, + IOMMU_DEV_TABLE_PAGE_TABLE_PTR_HIGH_SHIFT); + + return ((paddr_t)hi << 32) | (lo << PAGE_SHIFT); } void iommu_dte_set_iotlb(u32 *dte, u8 i) --- a/xen/drivers/passthrough/amd/pci_amd_iommu.c +++ b/xen/drivers/passthrough/amd/pci_amd_iommu.c @@ -107,22 +107,60 @@ static void disable_translation(u32 *dte dte[0] = entry; } -static void amd_iommu_setup_domain_device( +static int __must_check allocate_domain_resources(struct domain_iommu *hd) +{ + int rc; + + spin_lock(&hd->arch.mapping_lock); + rc = amd_iommu_alloc_root(hd); + spin_unlock(&hd->arch.mapping_lock); + + return rc; +} + +static bool any_pdev_behind_iommu(const struct domain *d, + const struct pci_dev *exclude, + const struct amd_iommu *iommu) +{ + const struct pci_dev *pdev; + + for_each_pdev ( d, pdev ) + { + if ( pdev == exclude ) + continue; + + if ( find_iommu_for_device(pdev->seg, + PCI_BDF2(pdev->bus, pdev->devfn)) == iommu ) + return true; + } + + return false; +} + +static int __must_check amd_iommu_setup_domain_device( struct domain *domain, struct amd_iommu *iommu, u8 devfn, struct pci_dev *pdev) { - void *dte; + uint32_t *dte; unsigned long flags; - int req_id, valid = 1; - int dte_i = 0; + unsigned int req_id, sr_flags; + int dte_i = 0, rc; u8 bus = pdev->bus; - const struct domain_iommu *hd = dom_iommu(domain); + struct domain_iommu *hd = dom_iommu(domain); + const struct ivrs_mappings *ivrs_dev; + + BUG_ON(!hd->arch.paging_mode || !iommu->dev_table.buffer); - BUG_ON( !hd->arch.root_table || !hd->arch.paging_mode || - !iommu->dev_table.buffer ); + rc = allocate_domain_resources(hd); + if ( rc ) + return rc; - if ( iommu_passthrough && is_hardware_domain(domain) ) - valid = 0; + req_id = get_dma_requestor_id(iommu->seg, + PCI_BDF2(pdev->bus, pdev->devfn)); + ivrs_dev = &get_ivrs_mappings(iommu->seg)[req_id]; + sr_flags = (iommu_passthrough && is_hardware_domain(domain) + ? 0 : SET_ROOT_VALID) + | (ivrs_dev->unity_map ? SET_ROOT_WITH_UNITY_MAP : 0); if ( ats_enabled ) dte_i = 1; @@ -130,32 +168,87 @@ static void amd_iommu_setup_domain_devic /* get device-table entry */ req_id = get_dma_requestor_id(iommu->seg, PCI_BDF2(bus, devfn)); dte = iommu->dev_table.buffer + (req_id * IOMMU_DEV_TABLE_ENTRY_SIZE); + ivrs_dev = &get_ivrs_mappings(iommu->seg)[req_id]; spin_lock_irqsave(&iommu->lock, flags); if ( !is_translation_valid((u32 *)dte) ) { /* bind DTE to domain page-tables */ - amd_iommu_set_root_page_table( - (u32 *)dte, page_to_maddr(hd->arch.root_table), domain->domain_id, - hd->arch.paging_mode, valid); + rc = amd_iommu_set_root_page_table( + dte, page_to_maddr(hd->arch.root_table), + domain->domain_id, hd->arch.paging_mode, sr_flags); + if ( rc ) + { + ASSERT(rc < 0); + spin_unlock_irqrestore(&iommu->lock, flags); + return rc; + } if ( pci_ats_device(iommu->seg, bus, pdev->devfn) && iommu_has_cap(iommu, PCI_CAP_IOTLB_SHIFT) ) iommu_dte_set_iotlb((u32 *)dte, dte_i); amd_iommu_flush_device(iommu, req_id); + } + else if ( amd_iommu_get_root_page_table(dte) != + page_to_maddr(hd->arch.root_table) ) + { + /* + * Strictly speaking if the device is the only one with this requestor + * ID, it could be allowed to be re-assigned regardless of unity map + * presence. But let's deal with that case only if it is actually + * found in the wild. + */ + if ( req_id != PCI_BDF2(bus, devfn) && + (sr_flags & SET_ROOT_WITH_UNITY_MAP) ) + rc = -EOPNOTSUPP; + else + rc = amd_iommu_set_root_page_table( + dte, page_to_maddr(hd->arch.root_table), + domain->domain_id, hd->arch.paging_mode, sr_flags); + if ( rc < 0 ) + { + spin_unlock_irqrestore(&iommu->lock, flags); + return rc; + } + if ( rc && + domain != pdev->domain && + /* + * By non-atomically updating the DTE's domain ID field last, + * during a short window in time TLB entries with the old domain + * ID but the new page tables may have been inserted. This could + * affect I/O of other devices using this same (old) domain ID. + * Such updating therefore is not a problem if this was the only + * device associated with the old domain ID. Diverting I/O of any + * of a dying domain's devices to the quarantine page tables is + * intended anyway. + */ + !pdev->domain->is_dying && + (any_pdev_behind_iommu(pdev->domain, pdev, iommu) || + pdev->phantom_stride) ) + printk(" %04x:%02x:%02x.%u: reassignment may cause Dom%d data corruption\n", + pdev->seg, bus, PCI_SLOT(devfn), PCI_FUNC(devfn), + pdev->domain->domain_id); - AMD_IOMMU_DEBUG("Setup I/O page table: device id = %#x, type = %#x, " - "root table = %#"PRIx64", " - "domain = %d, paging mode = %d\n", - req_id, pdev->type, - page_to_maddr(hd->arch.root_table), - domain->domain_id, hd->arch.paging_mode); + if ( pci_ats_device(iommu->seg, bus, pdev->devfn) && + iommu_has_cap(iommu, PCI_CAP_IOTLB_SHIFT) ) + ASSERT(get_field_from_reg_u32( + dte[3], IOMMU_DEV_TABLE_IOTLB_SUPPORT_MASK, + IOMMU_DEV_TABLE_IOTLB_SUPPORT_SHIFT) == dte_i); + + amd_iommu_flush_device(iommu, req_id); } spin_unlock_irqrestore(&iommu->lock, flags); + AMD_IOMMU_DEBUG("Setup I/O page table: device id = %#x, type = %#x, " + "root table = %#"PRIx64", " + "domain = %d, paging mode = %d\n", + req_id, pdev->type, + page_to_maddr(hd->arch.root_table), + domain->domain_id, hd->arch.paging_mode); + ASSERT(pcidevs_locked()); if ( pci_ats_device(iommu->seg, bus, pdev->devfn) && @@ -166,6 +259,8 @@ static void amd_iommu_setup_domain_devic amd_iommu_flush_iotlb(devfn, pdev, INV_IOMMU_ALL_PAGES_ADDRESS, 0); } + + return 0; } int __init amd_iov_detect(void) @@ -207,17 +302,6 @@ int amd_iommu_alloc_root(struct domain_i return 0; } -static int __must_check allocate_domain_resources(struct domain_iommu *hd) -{ - int rc; - - spin_lock(&hd->arch.mapping_lock); - rc = amd_iommu_alloc_root(hd); - spin_unlock(&hd->arch.mapping_lock); - - return rc; -} - int __read_mostly amd_iommu_min_paging_mode = 1; static int amd_iommu_domain_init(struct domain *d) @@ -336,7 +420,6 @@ static int reassign_device(struct domain { struct amd_iommu *iommu; int bdf, rc; - struct domain_iommu *t = dom_iommu(target); const struct ivrs_mappings *ivrs_mappings = get_ivrs_mappings(pdev->seg); bdf = PCI_BDF2(pdev->bus, pdev->devfn); @@ -350,7 +433,15 @@ static int reassign_device(struct domain return -ENODEV; } - amd_iommu_disable_domain_device(source, iommu, devfn, pdev); + rc = amd_iommu_setup_domain_device(target, iommu, devfn, pdev); + if ( rc ) + return rc; + + if ( devfn == pdev->devfn && pdev->domain != target ) + { + list_move(&pdev->domain_list, &target->arch.pdev_list); + pdev->domain = target; + } /* * If the device belongs to the hardware domain, and it has a unity mapping, @@ -366,27 +457,10 @@ static int reassign_device(struct domain return rc; } - if ( devfn == pdev->devfn && pdev->domain != dom_io ) - { - list_move(&pdev->domain_list, &dom_io->arch.pdev_list); - pdev->domain = dom_io; - } - - rc = allocate_domain_resources(t); - if ( rc ) - return rc; - - amd_iommu_setup_domain_device(target, iommu, devfn, pdev); AMD_IOMMU_DEBUG("Re-assign %04x:%02x:%02x.%u from dom%d to dom%d\n", pdev->seg, pdev->bus, PCI_SLOT(devfn), PCI_FUNC(devfn), source->domain_id, target->domain_id); - if ( devfn == pdev->devfn && pdev->domain != target ) - { - list_move(&pdev->domain_list, &target->arch.pdev_list); - pdev->domain = target; - } - return 0; } @@ -517,8 +591,7 @@ static int amd_iommu_add_device(u8 devfn return -ENODEV; } - amd_iommu_setup_domain_device(pdev->domain, iommu, devfn, pdev); - return 0; + return amd_iommu_setup_domain_device(pdev->domain, iommu, devfn, pdev); } static int amd_iommu_remove_device(u8 devfn, struct pci_dev *pdev)
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