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SUSE:SLE-15-SP1:Update
xen.15649
5d4178ad-AMD-IOMMU-128bit-non-guest-APIC-IRTE.p...
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File 5d4178ad-AMD-IOMMU-128bit-non-guest-APIC-IRTE.patch of Package xen.15649
References: bsc#1135799 # Commit 8f3c86381c3f3b58e77c45db7cfa5c31525f397c # Date 2019-07-31 13:17:01 +0200 # Author Jan Beulich <jbeulich@suse.com> # Committer Jan Beulich <jbeulich@suse.com> AMD/IOMMU: introduce 128-bit IRTE non-guest-APIC IRTE format This is in preparation of actually enabling x2APIC mode, which requires this wider IRTE format to be used. A specific remark regarding the first hunk changing amd_iommu_ioapic_update_ire(): This bypass was introduced for XSA-36, i.e. by 94d4a1119d ("AMD,IOMMU: Clean up old entries in remapping tables when creating new one"). Other code introduced by that change has meanwhile disappeared or further changed, and I wonder if - rather than adding an x2apic_enabled check to the conditional - the bypass couldn't be deleted altogether. For now the goal is to affect the non-x2APIC paths as little as possible. Take the liberty and use the new "fresh" flag to suppress an unneeded flush in update_intremap_entry_from_ioapic(). Signed-off-by: Jan Beulich <jbeulich@suse.com> Reviewed-by: Andrew Cooper <andrew.cooper3@citrix.com> Acked-by: Brian Woods <brian.woods@amd.com> --- a/xen/drivers/passthrough/amd/iommu_intr.c +++ b/xen/drivers/passthrough/amd/iommu_intr.c @@ -39,12 +39,36 @@ union irte32 { } flds; }; +union irte128 { + uint64_t raw[2]; + struct { + bool remap_en:1; + bool sup_io_pf:1; + unsigned int int_type:3; + bool rq_eoi:1; + bool dm:1; + bool guest_mode:1; /* MBZ */ + unsigned int dest_lo:24; + unsigned int :32; + unsigned int vector:8; + unsigned int :24; + unsigned int :24; + unsigned int dest_hi:8; + } full; +}; + union irte_ptr { void *ptr; union irte32 *ptr32; + union irte128 *ptr128; }; -#define INTREMAP_TABLE_ORDER 1 +union irte_cptr { + const void *ptr; + const union irte32 *ptr32; + const union irte128 *ptr128; +} __transparent__; + #define INTREMAP_LENGTH 0xB #define INTREMAP_ENTRIES (1 << INTREMAP_LENGTH) @@ -57,6 +81,13 @@ unsigned int nr_ioapic_sbdf; static void dump_intremap_tables(unsigned char key); +static unsigned int __init intremap_table_order(const struct amd_iommu *iommu) +{ + return iommu->ctrl.ga_en + ? get_order_from_bytes(INTREMAP_ENTRIES * sizeof(union irte128)) + : get_order_from_bytes(INTREMAP_ENTRIES * sizeof(union irte32)); +} + unsigned int ioapic_id_to_index(unsigned int apic_id) { unsigned int idx; @@ -131,7 +162,10 @@ static union irte_ptr get_intremap_entry ASSERT(table.ptr && (index < INTREMAP_ENTRIES)); - table.ptr32 += index; + if ( iommu->ctrl.ga_en ) + table.ptr128 += index; + else + table.ptr32 += index; return table; } @@ -141,7 +175,22 @@ static void free_intremap_entry(const st { union irte_ptr entry = get_intremap_entry(iommu, bdf, index); - ACCESS_ONCE(entry.ptr32->raw) = 0; + if ( iommu->ctrl.ga_en ) + { + ACCESS_ONCE(entry.ptr128->raw[0]) = 0; + /* + * Low half (containing RemapEn) needs to be cleared first. Note that + * strictly speaking smp_wmb() isn't enough, as conceptually it expands + * to just barrier() when !CONFIG_SMP. But wmb() would be more than we + * need, since the IOMMU is a cache-coherent entity on the bus. And + * given that we don't allow CONFIG_SMP to be turned off, the SMP + * variant will do. + */ + smp_wmb(); + entry.ptr128->raw[1] = 0; + } + else + ACCESS_ONCE(entry.ptr32->raw) = 0; __clear_bit(index, get_ivrs_mappings(iommu->seg)[bdf].intremap_inuse); } @@ -151,17 +200,44 @@ static void update_intremap_entry(const unsigned int vector, unsigned int int_type, unsigned int dest_mode, unsigned int dest) { - union irte32 irte = { - .flds = { - .remap_en = true, - .int_type = int_type, - .dm = dest_mode, - .dest = dest, - .vector = vector, - }, - }; + if ( iommu->ctrl.ga_en ) + { + union irte128 irte = { + .full = { + .remap_en = true, + .int_type = int_type, + .dm = dest_mode, + .dest_lo = dest, + .dest_hi = dest >> 24, + .vector = vector, + }, + }; + + ACCESS_ONCE(entry.ptr128->raw[0]) = 0; + /* + * Low half, in particular RemapEn, needs to be cleared first. See + * comment in free_intremap_entry() regarding the choice of barrier. + */ + smp_wmb(); + entry.ptr128->raw[1] = irte.raw[1]; + /* High half needs to be set before low one (containing RemapEn). */ + smp_wmb(); + ACCESS_ONCE(entry.ptr128->raw[0]) = irte.raw[0]; + } + else + { + union irte32 irte = { + .flds = { + .remap_en = true, + .int_type = int_type, + .dm = dest_mode, + .dest = dest, + .vector = vector, + }, + }; - ACCESS_ONCE(entry.ptr32->raw) = irte.raw; + ACCESS_ONCE(entry.ptr32->raw) = irte.raw; + } } static inline int get_rte_index(const struct IO_APIC_route_entry *rte) @@ -175,6 +251,11 @@ static inline void set_rte_index(struct rte->delivery_mode = offset >> 8; } +static inline unsigned int get_full_dest(const union irte128 *entry) +{ + return entry->full.dest_lo | ((unsigned int)entry->full.dest_hi << 24); +} + static int update_intremap_entry_from_ioapic( int bdf, struct amd_iommu *iommu, @@ -184,10 +265,11 @@ static int update_intremap_entry_from_io { unsigned long flags; union irte_ptr entry; - u8 delivery_mode, dest, vector, dest_mode; + uint8_t delivery_mode, vector, dest_mode; int req_id; spinlock_t *lock; - unsigned int offset; + unsigned int dest, offset; + bool fresh = false; req_id = get_intremap_requestor_id(iommu->seg, bdf); lock = get_intremap_lock(iommu->seg, req_id); @@ -195,7 +277,7 @@ static int update_intremap_entry_from_io delivery_mode = rte->delivery_mode; vector = rte->vector; dest_mode = rte->dest_mode; - dest = rte->dest.logical.logical_dest; + dest = x2apic_enabled ? rte->dest.dest32 : rte->dest.logical.logical_dest; spin_lock_irqsave(lock, flags); @@ -210,25 +292,40 @@ static int update_intremap_entry_from_io return -ENOSPC; } *index = offset; - lo_update = 1; + fresh = true; } entry = get_intremap_entry(iommu, req_id, offset); - if ( !lo_update ) + if ( fresh ) + /* nothing */; + else if ( !lo_update ) { /* * Low half of incoming RTE is already in remapped format, * so need to recover vector and delivery mode from IRTE. */ ASSERT(get_rte_index(rte) == offset); - vector = entry.ptr32->flds.vector; + if ( iommu->ctrl.ga_en ) + vector = entry.ptr128->full.vector; + else + vector = entry.ptr32->flds.vector; + /* The IntType fields match for both formats. */ delivery_mode = entry.ptr32->flds.int_type; } + else if ( x2apic_enabled ) + { + /* + * High half of incoming RTE was read from the I/O APIC and hence may + * not hold the full destination, so need to recover full destination + * from IRTE. + */ + dest = get_full_dest(entry.ptr128); + } update_intremap_entry(iommu, entry, vector, delivery_mode, dest_mode, dest); spin_unlock_irqrestore(lock, flags); - if ( iommu->enabled ) + if ( iommu->enabled && !fresh ) { spin_lock_irqsave(&iommu->lock, flags); amd_iommu_flush_intremap(iommu, req_id); @@ -286,6 +383,18 @@ int __init amd_iommu_setup_ioapic_remapp dest_mode = rte.dest_mode; dest = rte.dest.logical.logical_dest; + if ( iommu->ctrl.xt_en ) + { + /* + * In x2APIC mode we have no way of discovering the high 24 + * bits of the destination of an already enabled interrupt. + * We come here earlier than for xAPIC mode, so no interrupts + * should have been set up before. + */ + AMD_IOMMU_DEBUG("Unmasked IO-APIC#%u entry %u in x2APIC mode\n", + IO_APIC_ID(apic), pin); + } + spin_lock_irqsave(lock, flags); offset = alloc_intremap_entry(seg, req_id, 1); BUG_ON(offset >= INTREMAP_ENTRIES); @@ -320,7 +429,8 @@ void amd_iommu_ioapic_update_ire( struct IO_APIC_route_entry new_rte = { 0 }; unsigned int rte_lo = (reg & 1) ? reg - 1 : reg; unsigned int pin = (reg - 0x10) / 2; - int saved_mask, seg, bdf, rc; + int seg, bdf, rc; + bool saved_mask, fresh = false; struct amd_iommu *iommu; unsigned int idx; @@ -362,12 +472,22 @@ void amd_iommu_ioapic_update_ire( *(((u32 *)&new_rte) + 1) = value; } - if ( new_rte.mask && - ioapic_sbdf[idx].pin_2_idx[pin] >= INTREMAP_ENTRIES ) + if ( ioapic_sbdf[idx].pin_2_idx[pin] >= INTREMAP_ENTRIES ) { ASSERT(saved_mask); - __io_apic_write(apic, reg, value); - return; + + /* + * There's nowhere except the IRTE to store a full 32-bit destination, + * so we may not bypass entry allocation and updating of the low RTE + * half in the (usual) case of the high RTE half getting written first. + */ + if ( new_rte.mask && !x2apic_enabled ) + { + __io_apic_write(apic, reg, value); + return; + } + + fresh = true; } /* mask the interrupt while we change the intremap table */ @@ -396,8 +516,12 @@ void amd_iommu_ioapic_update_ire( if ( reg == rte_lo ) return; - /* unmask the interrupt after we have updated the intremap table */ - if ( !saved_mask ) + /* + * Unmask the interrupt after we have updated the intremap table. Also + * write the low half if a fresh entry was allocated for a high half + * update in x2APIC mode. + */ + if ( !saved_mask || (x2apic_enabled && fresh) ) { old_rte.mask = saved_mask; __io_apic_write(apic, rte_lo, *((u32 *)&old_rte)); @@ -411,31 +535,40 @@ unsigned int amd_iommu_read_ioapic_from_ unsigned int offset; unsigned int val = __io_apic_read(apic, reg); unsigned int pin = (reg - 0x10) / 2; + uint16_t seg, bdf, req_id; + const struct amd_iommu *iommu; + union irte_ptr entry; idx = ioapic_id_to_index(IO_APIC_ID(apic)); if ( idx == MAX_IO_APICS ) return val; offset = ioapic_sbdf[idx].pin_2_idx[pin]; + if ( offset >= INTREMAP_ENTRIES ) + return val; - if ( !(reg & 1) && offset < INTREMAP_ENTRIES ) - { - u16 bdf = ioapic_sbdf[idx].bdf; - u16 seg = ioapic_sbdf[idx].seg; - u16 req_id = get_intremap_requestor_id(seg, bdf); - const struct amd_iommu *iommu = find_iommu_for_device(seg, bdf); - union irte_ptr entry; + seg = ioapic_sbdf[idx].seg; + bdf = ioapic_sbdf[idx].bdf; + iommu = find_iommu_for_device(seg, bdf); + if ( !iommu ) + return val; + req_id = get_intremap_requestor_id(seg, bdf); + entry = get_intremap_entry(iommu, req_id, offset); - if ( !iommu ) - return val; + if ( !(reg & 1) ) + { ASSERT(offset == (val & (INTREMAP_ENTRIES - 1))); - entry = get_intremap_entry(iommu, req_id, offset); val &= ~(INTREMAP_ENTRIES - 1); + /* The IntType fields match for both formats. */ val |= MASK_INSR(entry.ptr32->flds.int_type, IO_APIC_REDIR_DELIV_MODE_MASK); - val |= MASK_INSR(entry.ptr32->flds.vector, + val |= MASK_INSR(iommu->ctrl.ga_en + ? entry.ptr128->full.vector + : entry.ptr32->flds.vector, IO_APIC_REDIR_VECTOR_MASK); } + else if ( x2apic_enabled ) + val = get_full_dest(entry.ptr128); return val; } @@ -447,9 +580,9 @@ static int update_intremap_entry_from_ms unsigned long flags; union irte_ptr entry; u16 req_id, alias_id; - u8 delivery_mode, dest, vector, dest_mode; + uint8_t delivery_mode, vector, dest_mode; spinlock_t *lock; - unsigned int offset, i; + unsigned int dest, offset, i; req_id = get_dma_requestor_id(iommu->seg, bdf); alias_id = get_intremap_requestor_id(iommu->seg, bdf); @@ -470,7 +603,12 @@ static int update_intremap_entry_from_ms dest_mode = (msg->address_lo >> MSI_ADDR_DESTMODE_SHIFT) & 0x1; delivery_mode = (msg->data >> MSI_DATA_DELIVERY_MODE_SHIFT) & 0x1; vector = (msg->data >> MSI_DATA_VECTOR_SHIFT) & MSI_DATA_VECTOR_MASK; - dest = (msg->address_lo >> MSI_ADDR_DEST_ID_SHIFT) & 0xff; + + if ( x2apic_enabled ) + dest = msg->dest32; + else + dest = MASK_EXTR(msg->address_lo, MSI_ADDR_DEST_ID_MASK); + offset = *remap_index; if ( offset >= INTREMAP_ENTRIES ) { @@ -616,10 +754,21 @@ void amd_iommu_read_msi_from_ire( } msg->data &= ~(INTREMAP_ENTRIES - 1); + /* The IntType fields match for both formats. */ msg->data |= MASK_INSR(entry.ptr32->flds.int_type, MSI_DATA_DELIVERY_MODE_MASK); - msg->data |= MASK_INSR(entry.ptr32->flds.vector, - MSI_DATA_VECTOR_MASK); + if ( iommu->ctrl.ga_en ) + { + msg->data |= MASK_INSR(entry.ptr128->full.vector, + MSI_DATA_VECTOR_MASK); + msg->dest32 = get_full_dest(entry.ptr128); + } + else + { + msg->data |= MASK_INSR(entry.ptr32->flds.vector, + MSI_DATA_VECTOR_MASK); + msg->dest32 = entry.ptr32->flds.dest; + } } int __init amd_iommu_free_intremap_table( @@ -631,7 +780,7 @@ int __init amd_iommu_free_intremap_table if ( tb ) { - __free_amd_iommu_tables(tb, INTREMAP_TABLE_ORDER); + __free_amd_iommu_tables(tb, intremap_table_order(iommu)); ivrs_mapping->intremap_table = NULL; } @@ -641,10 +790,10 @@ int __init amd_iommu_free_intremap_table void *__init amd_iommu_alloc_intremap_table( const struct amd_iommu *iommu, unsigned long **inuse_map) { - void *tb; - tb = __alloc_amd_iommu_tables(INTREMAP_TABLE_ORDER); + void *tb = __alloc_amd_iommu_tables(intremap_table_order(iommu)); + BUG_ON(tb == NULL); - memset(tb, 0, PAGE_SIZE * (1UL << INTREMAP_TABLE_ORDER)); + memset(tb, 0, PAGE_SIZE << intremap_table_order(iommu)); *inuse_map = xzalloc_array(unsigned long, BITS_TO_LONGS(INTREMAP_ENTRIES)); BUG_ON(*inuse_map == NULL); return tb; @@ -685,18 +834,29 @@ int __init amd_setup_hpet_msi(struct msi return rc; } -static void dump_intremap_table(const u32 *table) +static void dump_intremap_table(const struct amd_iommu *iommu, + union irte_cptr tbl) { - u32 count; + unsigned int count; - if ( !table ) + if ( !tbl.ptr ) return; for ( count = 0; count < INTREMAP_ENTRIES; count++ ) { - if ( !table[count] ) - continue; - printk(" IRTE[%03x] %08x\n", count, table[count]); + if ( iommu->ctrl.ga_en ) + { + if ( !tbl.ptr128[count].raw[0] && !tbl.ptr128[count].raw[1] ) + continue; + printk(" IRTE[%03x] %016lx_%016lx\n", + count, tbl.ptr128[count].raw[1], tbl.ptr128[count].raw[0]); + } + else + { + if ( !tbl.ptr32[count].raw ) + continue; + printk(" IRTE[%03x] %08x\n", count, tbl.ptr32[count].raw); + } } } @@ -714,7 +874,7 @@ static int dump_intremap_mapping(const s PCI_FUNC(ivrs_mapping->dte_requestor_id)); spin_lock_irqsave(&(ivrs_mapping->intremap_lock), flags); - dump_intremap_table(ivrs_mapping->intremap_table); + dump_intremap_table(iommu, ivrs_mapping->intremap_table); spin_unlock_irqrestore(&(ivrs_mapping->intremap_lock), flags); process_pending_softirqs(); @@ -733,6 +893,8 @@ static void dump_intremap_tables(unsigne printk("--- Dumping Shared IOMMU Interrupt Remapping Table ---\n"); spin_lock_irqsave(&shared_intremap_lock, flags); - dump_intremap_table(shared_intremap_table); + dump_intremap_table(list_first_entry(&amd_iommu_head, struct amd_iommu, + list), + shared_intremap_table); spin_unlock_irqrestore(&shared_intremap_lock, flags); }
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