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SUSE:SLE-15-SP7:GA
xen.32200
60bf9e1b-VT-d-size-qinval-queue-dynamically.patch
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File 60bf9e1b-VT-d-size-qinval-queue-dynamically.patch of Package xen.32200
# Commit cbfa62bb140c8f10a0ae96db3ce06e22b3b9d302 # Date 2021-06-08 17:43:06 +0100 # Author Jan Beulich <JBeulich@suse.com> # Committer Andrew Cooper <andrew.cooper3@citrix.com> VT-d: size qinval queue dynamically With the present synchronous model, we need two slots for every operation (the operation itself and a wait descriptor). There can be one such pair of requests pending per CPU. To ensure that under all normal circumstances a slot is always available when one is requested, size the queue ring according to the number of present CPUs. This is part of XSA-373 / CVE-2021-28692. Signed-off-by: Jan Beulich <jbeulich@suse.com> Reviewed-by: Paul Durrant <paul@xen.org> --- a/xen/drivers/passthrough/vtd/iommu.h +++ b/xen/drivers/passthrough/vtd/iommu.h @@ -450,17 +450,9 @@ struct qinval_entry { }q; }; -/* Order of queue invalidation pages(max is 8) */ -#define QINVAL_PAGE_ORDER 2 - -#define QINVAL_ARCH_PAGE_ORDER (QINVAL_PAGE_ORDER + PAGE_SHIFT_4K - PAGE_SHIFT) -#define QINVAL_ARCH_PAGE_NR ( QINVAL_ARCH_PAGE_ORDER < 0 ? \ - 1 : \ - 1 << QINVAL_ARCH_PAGE_ORDER ) - /* Each entry is 16 bytes, so 2^8 entries per page */ #define QINVAL_ENTRY_ORDER ( PAGE_SHIFT - 4 ) -#define QINVAL_ENTRY_NR (1 << (QINVAL_PAGE_ORDER + 8)) +#define QINVAL_MAX_ENTRY_NR (1u << (7 + QINVAL_ENTRY_ORDER)) /* Status data flag */ #define QINVAL_STAT_INIT 0 --- a/xen/drivers/passthrough/vtd/qinval.c +++ b/xen/drivers/passthrough/vtd/qinval.c @@ -31,6 +31,9 @@ #define VTD_QI_TIMEOUT 1 +static unsigned int __read_mostly qi_pg_order; +static unsigned int __read_mostly qi_entry_nr; + static int __must_check invalidate_sync(struct iommu *iommu); static void print_qi_regs(struct iommu *iommu) @@ -55,7 +58,7 @@ static unsigned int qinval_next_index(st tail >>= QINVAL_INDEX_SHIFT; /* (tail+1 == head) indicates a full queue, wait for HW */ - while ( ( tail + 1 ) % QINVAL_ENTRY_NR == + while ( ((tail + 1) & (qi_entry_nr - 1)) == ( dmar_readq(iommu->reg, DMAR_IQH_REG) >> QINVAL_INDEX_SHIFT ) ) cpu_relax(); @@ -68,7 +71,7 @@ static void qinval_update_qtail(struct i /* Need hold register lock when update tail */ ASSERT( spin_is_locked(&iommu->register_lock) ); - val = (index + 1) % QINVAL_ENTRY_NR; + val = (index + 1) & (qi_entry_nr - 1); dmar_writeq(iommu->reg, DMAR_IQT_REG, (val << QINVAL_INDEX_SHIFT)); } @@ -417,7 +420,27 @@ int enable_qinval(struct iommu *iommu) if ( qi_ctrl->qinval_maddr == 0 ) { drhd = iommu_to_drhd(iommu); - qi_ctrl->qinval_maddr = alloc_pgtable_maddr(drhd, QINVAL_ARCH_PAGE_NR); + if ( !qi_entry_nr ) + { + /* + * With the present synchronous model, we need two slots for every + * operation (the operation itself and a wait descriptor). There + * can be one such pair of requests pending per CPU. One extra + * entry is needed as the ring is considered full when there's + * only one entry left. + */ + BUILD_BUG_ON(CONFIG_NR_CPUS * 2 >= QINVAL_MAX_ENTRY_NR); + qi_pg_order = get_order_from_bytes((num_present_cpus() * 2 + 1) << + (PAGE_SHIFT - + QINVAL_ENTRY_ORDER)); + qi_entry_nr = 1u << (qi_pg_order + QINVAL_ENTRY_ORDER); + + dprintk(XENLOG_INFO VTDPREFIX, + "QI: using %u-entry ring(s)\n", qi_entry_nr); + } + + qi_ctrl->qinval_maddr = + alloc_pgtable_maddr(drhd, qi_entry_nr >> QINVAL_ENTRY_ORDER); if ( qi_ctrl->qinval_maddr == 0 ) { dprintk(XENLOG_WARNING VTDPREFIX, @@ -431,15 +454,16 @@ int enable_qinval(struct iommu *iommu) spin_lock_irqsave(&iommu->register_lock, flags); - /* Setup Invalidation Queue Address(IQA) register with the - * address of the page we just allocated. QS field at - * bits[2:0] to indicate size of queue is one 4KB page. - * That's 256 entries. Queued Head (IQH) and Queue Tail (IQT) - * registers are automatically reset to 0 with write - * to IQA register. + /* + * Setup Invalidation Queue Address (IQA) register with the address of the + * pages we just allocated. The QS field at bits[2:0] indicates the size + * (page order) of the queue. + * + * Queued Head (IQH) and Queue Tail (IQT) registers are automatically + * reset to 0 with write to IQA register. */ dmar_writeq(iommu->reg, DMAR_IQA_REG, - qi_ctrl->qinval_maddr | QINVAL_PAGE_ORDER); + qi_ctrl->qinval_maddr | qi_pg_order); dmar_writeq(iommu->reg, DMAR_IQT_REG, 0);
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