[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index] [Xen-changelog] [xen stable-4.10] x86: Meltdown band-aid against malicious 64-bit PV guests
commit 234f481337ea1a93db968d614649a6bdfdc8418a Author: Jan Beulich <jbeulich@xxxxxxxx> AuthorDate: Wed Jan 17 16:56:57 2018 +0100 Commit: Jan Beulich <jbeulich@xxxxxxxx> CommitDate: Wed Jan 17 16:56:57 2018 +0100 x86: Meltdown band-aid against malicious 64-bit PV guests This is a very simplistic change limiting the amount of memory a running 64-bit PV guest has mapped (and hence available for attacking): Only the mappings of stack, IDT, and TSS are being cloned from the direct map into per-CPU page tables. Guest controlled parts of the page tables are being copied into those per-CPU page tables upon entry into the guest. Cross-vCPU synchronization of top level page table entry changes is being effected by forcing other active vCPU-s of the guest into the hypervisor. The change to context_switch() isn't strictly necessary, but there's no reason to keep switching page tables once a PV guest is being scheduled out. This isn't providing full isolation yet, but it should be covering all pieces of information exposure of which would otherwise require an XSA. There is certainly much room for improvement, especially of performance, here - first and foremost suppressing all the negative effects on AMD systems. But in the interest of backportability (including to really old hypervisors, which may not even have alternative patching) any such is being left out here. Signed-off-by: Jan Beulich <jbeulich@xxxxxxxx> Reviewed-by: Andrew Cooper <andrew.cooper3@xxxxxxxxxx> master commit: 5784de3e2067ed73efc2fe42e62831e8ae7f46c4 master date: 2018-01-16 17:49:03 +0100 --- xen/arch/x86/domain.c | 5 + xen/arch/x86/mm.c | 21 ++++ xen/arch/x86/smpboot.c | 198 +++++++++++++++++++++++++++++++++++++ xen/arch/x86/x86_64/asm-offsets.c | 2 + xen/arch/x86/x86_64/compat/entry.S | 11 +++ xen/arch/x86/x86_64/entry.S | 149 +++++++++++++++++++++++++++- xen/include/asm-x86/asm_defns.h | 30 ++++++ xen/include/asm-x86/current.h | 12 +++ xen/include/asm-x86/processor.h | 1 + xen/include/asm-x86/x86_64/page.h | 5 +- 10 files changed, 428 insertions(+), 6 deletions(-) diff --git a/xen/arch/x86/domain.c b/xen/arch/x86/domain.c index b44c95b..f4a3d74 100644 --- a/xen/arch/x86/domain.c +++ b/xen/arch/x86/domain.c @@ -1507,6 +1507,9 @@ void paravirt_ctxt_switch_to(struct vcpu *v) { unsigned long cr4; + this_cpu(root_pgt)[root_table_offset(PERDOMAIN_VIRT_START)] = + l4e_from_page(v->domain->arch.perdomain_l3_pg, __PAGE_HYPERVISOR_RW); + cr4 = pv_guest_cr4_to_real_cr4(v); if ( unlikely(cr4 != read_cr4()) ) write_cr4(cr4); @@ -1676,6 +1679,8 @@ void context_switch(struct vcpu *prev, struct vcpu *next) ASSERT(local_irq_is_enabled()); + get_cpu_info()->xen_cr3 = 0; + cpumask_copy(&dirty_mask, next->vcpu_dirty_cpumask); /* Allow at most one CPU at a time to be dirty. */ ASSERT(cpumask_weight(&dirty_mask) <= 1); diff --git a/xen/arch/x86/mm.c b/xen/arch/x86/mm.c index a7a76a7..6c7d120 100644 --- a/xen/arch/x86/mm.c +++ b/xen/arch/x86/mm.c @@ -3509,6 +3509,7 @@ long do_mmu_update( struct vcpu *curr = current, *v = curr; struct domain *d = v->domain, *pt_owner = d, *pg_owner; mfn_t map_mfn = INVALID_MFN; + bool sync_guest = false; uint32_t xsm_needed = 0; uint32_t xsm_checked = 0; int rc = put_old_guest_table(curr); @@ -3663,6 +3664,8 @@ long do_mmu_update( case PGT_l4_page_table: rc = mod_l4_entry(va, l4e_from_intpte(req.val), mfn, cmd == MMU_PT_UPDATE_PRESERVE_AD, v); + if ( !rc ) + sync_guest = true; break; case PGT_writable_page: perfc_incr(writable_mmu_updates); @@ -3765,6 +3768,24 @@ long do_mmu_update( if ( va ) unmap_domain_page(va); + if ( sync_guest ) + { + /* + * Force other vCPU-s of the affected guest to pick up L4 entry + * changes (if any). Issue a flush IPI with empty operation mask to + * facilitate this (including ourselves waiting for the IPI to + * actually have arrived). Utilize the fact that FLUSH_VA_VALID is + * meaningless without FLUSH_CACHE, but will allow to pass the no-op + * check in flush_area_mask(). + */ + unsigned int cpu = smp_processor_id(); + cpumask_t *mask = per_cpu(scratch_cpumask, cpu); + + cpumask_andnot(mask, pt_owner->domain_dirty_cpumask, cpumask_of(cpu)); + if ( !cpumask_empty(mask) ) + flush_area_mask(mask, ZERO_BLOCK_PTR, FLUSH_VA_VALID); + } + perfc_add(num_page_updates, i); out: diff --git a/xen/arch/x86/smpboot.c b/xen/arch/x86/smpboot.c index 1609b62..b1fbb57 100644 --- a/xen/arch/x86/smpboot.c +++ b/xen/arch/x86/smpboot.c @@ -327,6 +327,9 @@ void start_secondary(void *unused) */ spin_debug_disable(); + get_cpu_info()->xen_cr3 = 0; + get_cpu_info()->pv_cr3 = __pa(this_cpu(root_pgt)); + load_system_tables(); /* Full exception support from here on in. */ @@ -635,6 +638,187 @@ void cpu_exit_clear(unsigned int cpu) set_cpu_state(CPU_STATE_DEAD); } +static int clone_mapping(const void *ptr, root_pgentry_t *rpt) +{ + unsigned long linear = (unsigned long)ptr, pfn; + unsigned int flags; + l3_pgentry_t *pl3e = l4e_to_l3e(idle_pg_table[root_table_offset(linear)]) + + l3_table_offset(linear); + l2_pgentry_t *pl2e; + l1_pgentry_t *pl1e; + + if ( linear < DIRECTMAP_VIRT_START ) + return 0; + + flags = l3e_get_flags(*pl3e); + ASSERT(flags & _PAGE_PRESENT); + if ( flags & _PAGE_PSE ) + { + pfn = (l3e_get_pfn(*pl3e) & ~((1UL << (2 * PAGETABLE_ORDER)) - 1)) | + (PFN_DOWN(linear) & ((1UL << (2 * PAGETABLE_ORDER)) - 1)); + flags &= ~_PAGE_PSE; + } + else + { + pl2e = l3e_to_l2e(*pl3e) + l2_table_offset(linear); + flags = l2e_get_flags(*pl2e); + ASSERT(flags & _PAGE_PRESENT); + if ( flags & _PAGE_PSE ) + { + pfn = (l2e_get_pfn(*pl2e) & ~((1UL << PAGETABLE_ORDER) - 1)) | + (PFN_DOWN(linear) & ((1UL << PAGETABLE_ORDER) - 1)); + flags &= ~_PAGE_PSE; + } + else + { + pl1e = l2e_to_l1e(*pl2e) + l1_table_offset(linear); + flags = l1e_get_flags(*pl1e); + if ( !(flags & _PAGE_PRESENT) ) + return 0; + pfn = l1e_get_pfn(*pl1e); + } + } + + if ( !(root_get_flags(rpt[root_table_offset(linear)]) & _PAGE_PRESENT) ) + { + pl3e = alloc_xen_pagetable(); + if ( !pl3e ) + return -ENOMEM; + clear_page(pl3e); + l4e_write(&rpt[root_table_offset(linear)], + l4e_from_paddr(__pa(pl3e), __PAGE_HYPERVISOR)); + } + else + pl3e = l4e_to_l3e(rpt[root_table_offset(linear)]); + + pl3e += l3_table_offset(linear); + + if ( !(l3e_get_flags(*pl3e) & _PAGE_PRESENT) ) + { + pl2e = alloc_xen_pagetable(); + if ( !pl2e ) + return -ENOMEM; + clear_page(pl2e); + l3e_write(pl3e, l3e_from_paddr(__pa(pl2e), __PAGE_HYPERVISOR)); + } + else + { + ASSERT(!(l3e_get_flags(*pl3e) & _PAGE_PSE)); + pl2e = l3e_to_l2e(*pl3e); + } + + pl2e += l2_table_offset(linear); + + if ( !(l2e_get_flags(*pl2e) & _PAGE_PRESENT) ) + { + pl1e = alloc_xen_pagetable(); + if ( !pl1e ) + return -ENOMEM; + clear_page(pl1e); + l2e_write(pl2e, l2e_from_paddr(__pa(pl1e), __PAGE_HYPERVISOR)); + } + else + { + ASSERT(!(l2e_get_flags(*pl2e) & _PAGE_PSE)); + pl1e = l2e_to_l1e(*pl2e); + } + + pl1e += l1_table_offset(linear); + + if ( l1e_get_flags(*pl1e) & _PAGE_PRESENT ) + { + ASSERT(l1e_get_pfn(*pl1e) == pfn); + ASSERT(l1e_get_flags(*pl1e) == flags); + } + else + l1e_write(pl1e, l1e_from_pfn(pfn, flags)); + + return 0; +} + +DEFINE_PER_CPU(root_pgentry_t *, root_pgt); + +static int setup_cpu_root_pgt(unsigned int cpu) +{ + root_pgentry_t *rpt = alloc_xen_pagetable(); + unsigned int off; + int rc; + + if ( !rpt ) + return -ENOMEM; + + clear_page(rpt); + per_cpu(root_pgt, cpu) = rpt; + + rpt[root_table_offset(RO_MPT_VIRT_START)] = + idle_pg_table[root_table_offset(RO_MPT_VIRT_START)]; + /* SH_LINEAR_PT inserted together with guest mappings. */ + /* PERDOMAIN inserted during context switch. */ + rpt[root_table_offset(XEN_VIRT_START)] = + idle_pg_table[root_table_offset(XEN_VIRT_START)]; + + /* Install direct map page table entries for stack, IDT, and TSS. */ + for ( off = rc = 0; !rc && off < STACK_SIZE; off += PAGE_SIZE ) + rc = clone_mapping(__va(__pa(stack_base[cpu])) + off, rpt); + + if ( !rc ) + rc = clone_mapping(idt_tables[cpu], rpt); + if ( !rc ) + rc = clone_mapping(&per_cpu(init_tss, cpu), rpt); + + return rc; +} + +static void cleanup_cpu_root_pgt(unsigned int cpu) +{ + root_pgentry_t *rpt = per_cpu(root_pgt, cpu); + unsigned int r; + + if ( !rpt ) + return; + + per_cpu(root_pgt, cpu) = NULL; + + for ( r = root_table_offset(DIRECTMAP_VIRT_START); + r < root_table_offset(HYPERVISOR_VIRT_END); ++r ) + { + l3_pgentry_t *l3t; + unsigned int i3; + + if ( !(root_get_flags(rpt[r]) & _PAGE_PRESENT) ) + continue; + + l3t = l4e_to_l3e(rpt[r]); + + for ( i3 = 0; i3 < L3_PAGETABLE_ENTRIES; ++i3 ) + { + l2_pgentry_t *l2t; + unsigned int i2; + + if ( !(l3e_get_flags(l3t[i3]) & _PAGE_PRESENT) ) + continue; + + ASSERT(!(l3e_get_flags(l3t[i3]) & _PAGE_PSE)); + l2t = l3e_to_l2e(l3t[i3]); + + for ( i2 = 0; i2 < L2_PAGETABLE_ENTRIES; ++i2 ) + { + if ( !(l2e_get_flags(l2t[i2]) & _PAGE_PRESENT) ) + continue; + + ASSERT(!(l2e_get_flags(l2t[i2]) & _PAGE_PSE)); + free_xen_pagetable(l2e_to_l1e(l2t[i2])); + } + + free_xen_pagetable(l2t); + } + + free_xen_pagetable(l3t); + } + + free_xen_pagetable(rpt); +} + static void cpu_smpboot_free(unsigned int cpu) { unsigned int order, socket = cpu_to_socket(cpu); @@ -673,6 +857,8 @@ static void cpu_smpboot_free(unsigned int cpu) free_domheap_page(mfn_to_page(mfn)); } + cleanup_cpu_root_pgt(cpu); + order = get_order_from_pages(NR_RESERVED_GDT_PAGES); free_xenheap_pages(per_cpu(gdt_table, cpu), order); @@ -728,6 +914,9 @@ static int cpu_smpboot_alloc(unsigned int cpu) set_ist(&idt_tables[cpu][TRAP_nmi], IST_NONE); set_ist(&idt_tables[cpu][TRAP_machine_check], IST_NONE); + if ( setup_cpu_root_pgt(cpu) ) + goto oom; + for ( stub_page = 0, i = cpu & ~(STUBS_PER_PAGE - 1); i < nr_cpu_ids && i <= (cpu | (STUBS_PER_PAGE - 1)); ++i ) if ( cpu_online(i) && cpu_to_node(i) == node ) @@ -783,6 +972,8 @@ static struct notifier_block cpu_smpboot_nfb = { void __init smp_prepare_cpus(unsigned int max_cpus) { + int rc; + register_cpu_notifier(&cpu_smpboot_nfb); mtrr_aps_sync_begin(); @@ -796,6 +987,11 @@ void __init smp_prepare_cpus(unsigned int max_cpus) stack_base[0] = stack_start; + rc = setup_cpu_root_pgt(0); + if ( rc ) + panic("Error %d setting up PV root page table\n", rc); + get_cpu_info()->pv_cr3 = __pa(per_cpu(root_pgt, 0)); + set_nr_sockets(); socket_cpumask = xzalloc_array(cpumask_t *, nr_sockets); @@ -864,6 +1060,8 @@ void __init smp_prepare_boot_cpu(void) #if NR_CPUS > 2 * BITS_PER_LONG per_cpu(scratch_cpumask, cpu) = &scratch_cpu0mask; #endif + + get_cpu_info()->xen_cr3 = 0; } static void diff --git a/xen/arch/x86/x86_64/asm-offsets.c b/xen/arch/x86/x86_64/asm-offsets.c index e136af6..b1a4310 100644 --- a/xen/arch/x86/x86_64/asm-offsets.c +++ b/xen/arch/x86/x86_64/asm-offsets.c @@ -137,6 +137,8 @@ void __dummy__(void) OFFSET(CPUINFO_processor_id, struct cpu_info, processor_id); OFFSET(CPUINFO_current_vcpu, struct cpu_info, current_vcpu); OFFSET(CPUINFO_cr4, struct cpu_info, cr4); + OFFSET(CPUINFO_xen_cr3, struct cpu_info, xen_cr3); + OFFSET(CPUINFO_pv_cr3, struct cpu_info, pv_cr3); DEFINE(CPUINFO_sizeof, sizeof(struct cpu_info)); BLANK(); diff --git a/xen/arch/x86/x86_64/compat/entry.S b/xen/arch/x86/x86_64/compat/entry.S index 3fea54e..e668f00 100644 --- a/xen/arch/x86/x86_64/compat/entry.S +++ b/xen/arch/x86/x86_64/compat/entry.S @@ -199,6 +199,17 @@ ENTRY(cstar_enter) pushq $0 movl $TRAP_syscall, 4(%rsp) SAVE_ALL + + GET_STACK_END(bx) + mov STACK_CPUINFO_FIELD(xen_cr3)(%rbx), %rcx + neg %rcx + jz .Lcstar_cr3_okay + mov %rcx, STACK_CPUINFO_FIELD(xen_cr3)(%rbx) + neg %rcx + write_cr3 rcx, rdi, rsi + movq $0, STACK_CPUINFO_FIELD(xen_cr3)(%rbx) +.Lcstar_cr3_okay: + GET_CURRENT(bx) movq VCPU_domain(%rbx),%rcx cmpb $0,DOMAIN_is_32bit_pv(%rcx) diff --git a/xen/arch/x86/x86_64/entry.S b/xen/arch/x86/x86_64/entry.S index 1dd9ccf..fc38874 100644 --- a/xen/arch/x86/x86_64/entry.S +++ b/xen/arch/x86/x86_64/entry.S @@ -37,6 +37,32 @@ ENTRY(switch_to_kernel) /* %rbx: struct vcpu, interrupts disabled */ restore_all_guest: ASSERT_INTERRUPTS_DISABLED + + /* Copy guest mappings and switch to per-CPU root page table. */ + mov %cr3, %r9 + GET_STACK_END(dx) + mov STACK_CPUINFO_FIELD(pv_cr3)(%rdx), %rdi + movabs $PADDR_MASK & PAGE_MASK, %rsi + movabs $DIRECTMAP_VIRT_START, %rcx + mov %rdi, %rax + and %rsi, %rdi + and %r9, %rsi + add %rcx, %rdi + add %rcx, %rsi + mov $ROOT_PAGETABLE_FIRST_XEN_SLOT, %ecx + mov root_table_offset(SH_LINEAR_PT_VIRT_START)*8(%rsi), %r8 + mov %r8, root_table_offset(SH_LINEAR_PT_VIRT_START)*8(%rdi) + rep movsq + mov $ROOT_PAGETABLE_ENTRIES - \ + ROOT_PAGETABLE_LAST_XEN_SLOT - 1, %ecx + sub $(ROOT_PAGETABLE_FIRST_XEN_SLOT - \ + ROOT_PAGETABLE_LAST_XEN_SLOT - 1) * 8, %rsi + sub $(ROOT_PAGETABLE_FIRST_XEN_SLOT - \ + ROOT_PAGETABLE_LAST_XEN_SLOT - 1) * 8, %rdi + rep movsq + mov %r9, STACK_CPUINFO_FIELD(xen_cr3)(%rdx) + write_cr3 rax, rdi, rsi + RESTORE_ALL testw $TRAP_syscall,4(%rsp) jz iret_exit_to_guest @@ -71,6 +97,22 @@ iret_exit_to_guest: ALIGN /* No special register assumptions. */ restore_all_xen: + /* + * Check whether we need to switch to the per-CPU page tables, in + * case we return to late PV exit code (from an NMI or #MC). + */ + GET_STACK_END(ax) + mov STACK_CPUINFO_FIELD(xen_cr3)(%rax), %rdx + mov STACK_CPUINFO_FIELD(pv_cr3)(%rax), %rax + test %rdx, %rdx + /* + * Ideally the condition would be "nsz", but such doesn't exist, + * so "g" will have to do. + */ +UNLIKELY_START(g, exit_cr3) + write_cr3 rax, rdi, rsi +UNLIKELY_END(exit_cr3) + RESTORE_ALL adj=8 iretq @@ -100,7 +142,18 @@ ENTRY(lstar_enter) pushq $0 movl $TRAP_syscall, 4(%rsp) SAVE_ALL - GET_CURRENT(bx) + + GET_STACK_END(bx) + mov STACK_CPUINFO_FIELD(xen_cr3)(%rbx), %rcx + neg %rcx + jz .Llstar_cr3_okay + mov %rcx, STACK_CPUINFO_FIELD(xen_cr3)(%rbx) + neg %rcx + write_cr3 rcx, rdi, rsi + movq $0, STACK_CPUINFO_FIELD(xen_cr3)(%rbx) +.Llstar_cr3_okay: + + __GET_CURRENT(bx) testb $TF_kernel_mode,VCPU_thread_flags(%rbx) jz switch_to_kernel @@ -192,7 +245,18 @@ GLOBAL(sysenter_eflags_saved) pushq $0 movl $TRAP_syscall, 4(%rsp) SAVE_ALL - GET_CURRENT(bx) + + GET_STACK_END(bx) + mov STACK_CPUINFO_FIELD(xen_cr3)(%rbx), %rcx + neg %rcx + jz .Lsyse_cr3_okay + mov %rcx, STACK_CPUINFO_FIELD(xen_cr3)(%rbx) + neg %rcx + write_cr3 rcx, rdi, rsi + movq $0, STACK_CPUINFO_FIELD(xen_cr3)(%rbx) +.Lsyse_cr3_okay: + + __GET_CURRENT(bx) cmpb $0,VCPU_sysenter_disables_events(%rbx) movq VCPU_sysenter_addr(%rbx),%rax setne %cl @@ -228,13 +292,23 @@ ENTRY(int80_direct_trap) movl $0x80, 4(%rsp) SAVE_ALL + GET_STACK_END(bx) + mov STACK_CPUINFO_FIELD(xen_cr3)(%rbx), %rcx + neg %rcx + jz .Lint80_cr3_okay + mov %rcx, STACK_CPUINFO_FIELD(xen_cr3)(%rbx) + neg %rcx + write_cr3 rcx, rdi, rsi + movq $0, STACK_CPUINFO_FIELD(xen_cr3)(%rbx) +.Lint80_cr3_okay: + cmpb $0,untrusted_msi(%rip) UNLIKELY_START(ne, msi_check) movl $0x80,%edi call check_for_unexpected_msi UNLIKELY_END(msi_check) - GET_CURRENT(bx) + __GET_CURRENT(bx) /* Check that the callback is non-null. */ leaq VCPU_int80_bounce(%rbx),%rdx @@ -391,9 +465,27 @@ ENTRY(dom_crash_sync_extable) ENTRY(common_interrupt) SAVE_ALL CLAC + + GET_STACK_END(14) + mov STACK_CPUINFO_FIELD(xen_cr3)(%r14), %rcx + mov %rcx, %r15 + neg %rcx + jz .Lintr_cr3_okay + jns .Lintr_cr3_load + mov %rcx, STACK_CPUINFO_FIELD(xen_cr3)(%r14) + neg %rcx +.Lintr_cr3_load: + write_cr3 rcx, rdi, rsi + xor %ecx, %ecx + mov %rcx, STACK_CPUINFO_FIELD(xen_cr3)(%r14) + testb $3, UREGS_cs(%rsp) + cmovnz %rcx, %r15 +.Lintr_cr3_okay: + CR4_PV32_RESTORE movq %rsp,%rdi callq do_IRQ + mov %r15, STACK_CPUINFO_FIELD(xen_cr3)(%r14) jmp ret_from_intr /* No special register assumptions. */ @@ -411,6 +503,23 @@ ENTRY(page_fault) /* No special register assumptions. */ GLOBAL(handle_exception) SAVE_ALL CLAC + + GET_STACK_END(14) + mov STACK_CPUINFO_FIELD(xen_cr3)(%r14), %rcx + mov %rcx, %r15 + neg %rcx + jz .Lxcpt_cr3_okay + jns .Lxcpt_cr3_load + mov %rcx, STACK_CPUINFO_FIELD(xen_cr3)(%r14) + neg %rcx +.Lxcpt_cr3_load: + write_cr3 rcx, rdi, rsi + xor %ecx, %ecx + mov %rcx, STACK_CPUINFO_FIELD(xen_cr3)(%r14) + testb $3, UREGS_cs(%rsp) + cmovnz %rcx, %r15 +.Lxcpt_cr3_okay: + handle_exception_saved: GET_CURRENT(bx) testb $X86_EFLAGS_IF>>8,UREGS_eflags+1(%rsp) @@ -475,6 +584,7 @@ handle_exception_saved: leaq exception_table(%rip),%rdx PERFC_INCR(exceptions, %rax, %rbx) callq *(%rdx,%rax,8) + mov %r15, STACK_CPUINFO_FIELD(xen_cr3)(%r14) testb $3,UREGS_cs(%rsp) jz restore_all_xen leaq VCPU_trap_bounce(%rbx),%rdx @@ -507,6 +617,7 @@ exception_with_ints_disabled: rep; movsq # make room for ec/ev 1: movq UREGS_error_code(%rsp),%rax # ec/ev movq %rax,UREGS_kernel_sizeof(%rsp) + mov %r15, STACK_CPUINFO_FIELD(xen_cr3)(%r14) jmp restore_all_xen # return to fixup code /* No special register assumptions. */ @@ -585,6 +696,17 @@ ENTRY(double_fault) movl $TRAP_double_fault,4(%rsp) /* Set AC to reduce chance of further SMAP faults */ SAVE_ALL STAC + + GET_STACK_END(bx) + mov STACK_CPUINFO_FIELD(xen_cr3)(%rbx), %rbx + test %rbx, %rbx + jz .Ldblf_cr3_okay + jns .Ldblf_cr3_load + neg %rbx +.Ldblf_cr3_load: + write_cr3 rbx, rdi, rsi +.Ldblf_cr3_okay: + movq %rsp,%rdi call do_double_fault BUG /* do_double_fault() shouldn't return. */ @@ -603,10 +725,28 @@ ENTRY(nmi) movl $TRAP_nmi,4(%rsp) handle_ist_exception: SAVE_ALL CLAC + + GET_STACK_END(14) + mov STACK_CPUINFO_FIELD(xen_cr3)(%r14), %rcx + mov %rcx, %r15 + neg %rcx + jz .List_cr3_okay + jns .List_cr3_load + mov %rcx, STACK_CPUINFO_FIELD(xen_cr3)(%r14) + neg %rcx +.List_cr3_load: + write_cr3 rcx, rdi, rsi + movq $0, STACK_CPUINFO_FIELD(xen_cr3)(%r14) +.List_cr3_okay: + CR4_PV32_RESTORE testb $3,UREGS_cs(%rsp) jz 1f - /* Interrupted guest context. Copy the context to stack bottom. */ + /* + * Interrupted guest context. Clear the restore value for xen_cr3 + * and copy the context to stack bottom. + */ + xor %r15, %r15 GET_CPUINFO_FIELD(guest_cpu_user_regs,di) movq %rsp,%rsi movl $UREGS_kernel_sizeof/8,%ecx @@ -616,6 +756,7 @@ handle_ist_exception: movzbl UREGS_entry_vector(%rsp),%eax leaq exception_table(%rip),%rdx callq *(%rdx,%rax,8) + mov %r15, STACK_CPUINFO_FIELD(xen_cr3)(%r14) cmpb $TRAP_nmi,UREGS_entry_vector(%rsp) jne ret_from_intr diff --git a/xen/include/asm-x86/asm_defns.h b/xen/include/asm-x86/asm_defns.h index 98192eb..fb0fee9 100644 --- a/xen/include/asm-x86/asm_defns.h +++ b/xen/include/asm-x86/asm_defns.h @@ -93,9 +93,30 @@ void ret_from_intr(void); UNLIKELY_DONE(mp, tag); \ __UNLIKELY_END(tag) + .equ .Lrax, 0 + .equ .Lrcx, 1 + .equ .Lrdx, 2 + .equ .Lrbx, 3 + .equ .Lrsp, 4 + .equ .Lrbp, 5 + .equ .Lrsi, 6 + .equ .Lrdi, 7 + .equ .Lr8, 8 + .equ .Lr9, 9 + .equ .Lr10, 10 + .equ .Lr11, 11 + .equ .Lr12, 12 + .equ .Lr13, 13 + .equ .Lr14, 14 + .equ .Lr15, 15 + #define STACK_CPUINFO_FIELD(field) (1 - CPUINFO_sizeof + CPUINFO_##field) #define GET_STACK_END(reg) \ + .if .Lr##reg > 8; \ + movq $STACK_SIZE-1, %r##reg; \ + .else; \ movl $STACK_SIZE-1, %e##reg; \ + .endif; \ orq %rsp, %r##reg #define GET_CPUINFO_FIELD(field, reg) \ @@ -177,6 +198,15 @@ void ret_from_intr(void); #define ASM_STAC ASM_AC(STAC) #define ASM_CLAC ASM_AC(CLAC) +.macro write_cr3 val:req, tmp1:req, tmp2:req + mov %cr4, %\tmp1 + mov %\tmp1, %\tmp2 + and $~X86_CR4_PGE, %\tmp1 + mov %\tmp1, %cr4 + mov %\val, %cr3 + mov %\tmp2, %cr4 +.endm + #define CR4_PV32_RESTORE \ 667: ASM_NOP5; \ .pushsection .altinstr_replacement, "ax"; \ diff --git a/xen/include/asm-x86/current.h b/xen/include/asm-x86/current.h index 8984992..b929c48 100644 --- a/xen/include/asm-x86/current.h +++ b/xen/include/asm-x86/current.h @@ -41,6 +41,18 @@ struct cpu_info { struct vcpu *current_vcpu; unsigned long per_cpu_offset; unsigned long cr4; + /* + * Of the two following fields the latter is being set to the CR3 value + * to be used on the given pCPU for loading whenever 64-bit PV guest + * context is being entered. The value never changes once set. + * The former is the value to restore when re-entering Xen, if any. IOW + * its value being zero means there's nothing to restore. However, its + * value can also be negative, indicating to the exit-to-Xen code that + * restoring is not necessary, but allowing any nested entry code paths + * to still know the value to put back into CR3. + */ + unsigned long xen_cr3; + unsigned long pv_cr3; /* get_stack_bottom() must be 16-byte aligned */ }; diff --git a/xen/include/asm-x86/processor.h b/xen/include/asm-x86/processor.h index 41a8d8c..2962e83 100644 --- a/xen/include/asm-x86/processor.h +++ b/xen/include/asm-x86/processor.h @@ -462,6 +462,7 @@ extern idt_entry_t idt_table[]; extern idt_entry_t *idt_tables[]; DECLARE_PER_CPU(struct tss_struct, init_tss); +DECLARE_PER_CPU(root_pgentry_t *, root_pgt); extern void init_int80_direct_trap(struct vcpu *v); diff --git a/xen/include/asm-x86/x86_64/page.h b/xen/include/asm-x86/x86_64/page.h index 6fb7cd5..05a0334 100644 --- a/xen/include/asm-x86/x86_64/page.h +++ b/xen/include/asm-x86/x86_64/page.h @@ -24,8 +24,8 @@ /* These are architectural limits. Current CPUs support only 40-bit phys. */ #define PADDR_BITS 52 #define VADDR_BITS 48 -#define PADDR_MASK ((1UL << PADDR_BITS)-1) -#define VADDR_MASK ((1UL << VADDR_BITS)-1) +#define PADDR_MASK ((_AC(1,UL) << PADDR_BITS) - 1) +#define VADDR_MASK ((_AC(1,UL) << VADDR_BITS) - 1) #define VADDR_TOP_BIT (1UL << (VADDR_BITS - 1)) #define CANONICAL_MASK (~0UL & ~VADDR_MASK) @@ -107,6 +107,7 @@ typedef l4_pgentry_t root_pgentry_t; : (((_s) < ROOT_PAGETABLE_FIRST_XEN_SLOT) || \ ((_s) > ROOT_PAGETABLE_LAST_XEN_SLOT))) +#define root_table_offset l4_table_offset #define root_get_pfn l4e_get_pfn #define root_get_flags l4e_get_flags #define root_get_intpte l4e_get_intpte -- generated by git-patchbot for /home/xen/git/xen.git#stable-4.10 _______________________________________________ Xen-changelog mailing list Xen-changelog@xxxxxxxxxxxxxxxxxxxx https://lists.xenproject.org/xen-changelog
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