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[Xen-devel] [PATCH 2 of 2 V4] x86/kexec: Change NMI and MCE handling on kexec path



 xen/arch/x86/crash.c            |  117 ++++++++++++++++++++++++++++++++++-----
 xen/arch/x86/machine_kexec.c    |   19 ++++++
 xen/arch/x86/x86_64/entry.S     |   34 +++++++++++
 xen/include/asm-x86/desc.h      |   42 ++++++++++++++
 xen/include/asm-x86/processor.h |    4 +
 5 files changed, 201 insertions(+), 15 deletions(-)


Experimentally, certain crash kernels will triple fault very early after
starting if started with NMIs disabled.  This was discovered when
experimenting with a debug keyhandler which deliberately created a
reentrant NMI, causing stack corruption.

Because of this discovered bug, and that the future changes to the NMI
handling will make the kexec path more fragile, take the time now to
bullet-proof the kexec behaviour to be safer in more circumstances.

This patch adds three new low level routines:
 * nmi_crash
    This is a special NMI handler for using during a kexec crash.
 * enable_nmis
    This function enables NMIs by executing an iret-to-self, to
    disengage the hardware NMI latch.
 * trap_nop
    This is a no op handler which irets immediately.  It is actually in
    the middle of enable_nmis to reuse the iret instruction, without
    having a single lone aligned iret inflating the code side.

And adds three new IDT entry helper routines:
 * _write_gate_lower
    This is a substitute for using cmpxchg16b to update a 128bit
    structure at once.  It assumes that the top 64 bits are unchanged
    (and ASSERT()s the fact) and performs a regular write on the lower
    64 bits.
 * _set_gate_lower
    This is functionally equivalent to the already present _set_gate(),
    except it uses _write_gate_lower rather than updating both 64bit
    values.
 * _update_gate_addr_lower
    This is designed to update an IDT entry handler only, without
    altering any other settings in the entry.  It also uses
    _write_gate_lower.

The IDT entry helpers are required because:
  * Is it unsafe to attempt a disable/update/re-enable cycle on the NMI
    or MCE IDT entries.
  * We need to be able to update NMI handlers without changing the IST
    entry.


As a result, the new behaviour of the kexec_crash path is:

nmi_shootdown_cpus() will:

 * Disable the crashing cpus NMI/MCE interrupt stack tables.
    Disabling the stack tables removes race conditions which would lead
    to corrupt exception frames and infinite loops.  As this pcpu is
    never planning to execute a sysret back to a pv vcpu, the update is
    safe from a security point of view.

 * Swap the NMI trap handlers.
    The crashing pcpu gets the nop handler, to prevent it getting stuck in
    an NMI context, causing a hang instead of crash.  The non-crashing
    pcpus all get the nmi_crash handler which is designed never to
    return.

do_nmi_crash() will:

 * Save the crash notes and shut the pcpu down.
    There is now an extra per-cpu variable to prevent us from executing
    this multiple times.  In the case where we reenter midway through,
    attempt the whole operation again in preference to not completing
    it in the first place.

 * Set up another NMI at the LAPIC.
    Even when the LAPIC has been disabled, the ID and command registers
    are still usable.  As a result, we can deliberately queue up a new
    NMI to re-interrupt us later if NMIs get unlatched.  Because of the
    call to __stop_this_cpu(), we have to hand craft self_nmi() to be
    safe from General Protection Faults.

 * Fall into infinite loop.

machine_kexec() will:

  * Swap the MCE handlers to be a nop.
     We cannot prevent MCEs from being delivered when we pass off to the
     crash kernel, and the less Xen context is being touched the better.

  * Explicitly enable NMIs.

Signed-off-by: Andrew Cooper <andrew.cooper3@xxxxxxxxxx>

--

Changes since v3:
 * Added IDT entry helpers to safely update NMI/MCE entries.

Changes since v2:

 * Rework the alteration of the stack tables to completely remove the
   possibility of a PV domain getting very lucky with the "NMI or MCE in
   a 1 instruction race window on sysret" and managing to execute code
   in the hypervisor context.
 * Make use of set_ist() from the previous patch in the series to avoid
   open-coding the IST manipulation.

Changes since v1:
 * Reintroduce atomic_dec(&waiting_for_crash_ipi); which got missed
   during the original refactoring.
 * Fold trap_nop into the middle of enable_nmis to reuse the iret.
 * Expand comments in areas as per Tim's suggestions.

diff -r def9d03429f6 -r 528bd4030389 xen/arch/x86/crash.c
--- a/xen/arch/x86/crash.c
+++ b/xen/arch/x86/crash.c
@@ -32,41 +32,128 @@
 
 static atomic_t waiting_for_crash_ipi;
 static unsigned int crashing_cpu;
+static DEFINE_PER_CPU_READ_MOSTLY(bool_t, crash_save_done);
 
-static int crash_nmi_callback(struct cpu_user_regs *regs, int cpu)
+/* This becomes the NMI handler for non-crashing CPUs, when Xen is crashing. */
+void __attribute__((noreturn)) do_nmi_crash(struct cpu_user_regs *regs)
 {
-    /* Don't do anything if this handler is invoked on crashing cpu.
-     * Otherwise, system will completely hang. Crashing cpu can get
-     * an NMI if system was initially booted with nmi_watchdog parameter.
+    int cpu = smp_processor_id();
+
+    /* nmi_shootdown_cpus() should ensure that this assertion is correct. */
+    ASSERT( cpu != crashing_cpu );
+
+    /* Save crash information and shut down CPU.  Attempt only once. */
+    if ( ! this_cpu(crash_save_done) )
+    {
+        /* Disable the interrupt stack table for the MCE handler.  This
+         * prevents race conditions between clearing MCIP and receving a
+         * new MCE, during which the exception frame would be clobbered
+         * and the MCE handler fall into an infinite loop.  We are soon
+         * going to disable the NMI watchdog, so the loop would not be
+         * caught.
+         *
+         * We do not need to change the NMI IST, as the nmi_crash
+         * handler is immue to corrupt exception frames, by virtue of
+         * being designed never to return.
+         *
+         * This update is safe from a security point of view, as this
+         * pcpu is never going to try to sysret back to a PV vcpu.
+         */
+        set_ist(&idt_tables[cpu][TRAP_machine_check], IST_NONE);
+
+        kexec_crash_save_cpu();
+        __stop_this_cpu();
+
+        this_cpu(crash_save_done) = 1;
+        atomic_dec(&waiting_for_crash_ipi);
+    }
+
+    /* Poor mans self_nmi().  __stop_this_cpu() has reverted the LAPIC
+     * back to its boot state, so we are unable to rely on the regular
+     * apic_* functions, due to 'x2apic_enabled' being possibly wrong.
+     * (The likely scenario is that we have reverted from x2apic mode to
+     * xapic, at which point #GPFs will occur if we use the apic_*
+     * functions)
+     *
+     * The ICR and APIC ID of the LAPIC are still valid even during
+     * software disable (Intel SDM Vol 3, 10.4.7.2).  As a result, we
+     * can deliberately queue up another NMI at the LAPIC which will not
+     * be delivered as the hardware NMI latch is currently in effect.
+     * This means that if NMIs become unlatched (e.g. following a
+     * non-fatal MCE), the LAPIC will force us back here rather than
+     * wandering back into regular Xen code.
      */
-    if ( cpu == crashing_cpu )
-        return 1;
-    local_irq_disable();
+    switch ( current_local_apic_mode() )
+    {
+        u32 apic_id;
 
-    kexec_crash_save_cpu();
+    case APIC_MODE_X2APIC:
+        apic_id = apic_rdmsr(APIC_ID);
 
-    __stop_this_cpu();
+        apic_wrmsr(APIC_ICR, APIC_DM_NMI | APIC_DEST_PHYSICAL | ((u64)apic_id 
<< 32));
+        break;
 
-    atomic_dec(&waiting_for_crash_ipi);
+    case APIC_MODE_XAPIC:
+        apic_id = GET_xAPIC_ID(apic_mem_read(APIC_ID));
+
+        while ( apic_mem_read(APIC_ICR) & APIC_ICR_BUSY )
+            cpu_relax();
+
+        apic_mem_write(APIC_ICR2, apic_id << 24);
+        apic_mem_write(APIC_ICR, APIC_DM_NMI | APIC_DEST_PHYSICAL);
+        break;
+
+    default:
+        break;
+    }
 
     for ( ; ; )
         halt();
-
-    return 1;
 }
 
 static void nmi_shootdown_cpus(void)
 {
     unsigned long msecs;
+    int i, cpu = smp_processor_id();
 
     local_irq_disable();
 
-    crashing_cpu = smp_processor_id();
+    crashing_cpu = cpu;
     local_irq_count(crashing_cpu) = 0;
 
     atomic_set(&waiting_for_crash_ipi, num_online_cpus() - 1);
-    /* Would it be better to replace the trap vector here? */
-    set_nmi_callback(crash_nmi_callback);
+
+    /* Change NMI trap handlers.  Non-crashing pcpus get nmi_crash which
+     * invokes do_nmi_crash (above), which cause them to write state and
+     * fall into a loop.  The crashing pcpu gets the nop handler to
+     * cause it to return to this function ASAP.
+     */
+    for ( i = 0; i < nr_cpu_ids; ++i )
+        if ( idt_tables[i] )
+        {
+
+            if ( i == cpu )
+            {
+                /* Disable the interrupt stack tables for this MCE and
+                 * NMI handler (shortly to become a nop) as there is a 1
+                 * instruction race window where NMIs could be
+                 * re-enabled and corrupt the exception frame, leaving
+                 * us unable to continue on this crash path (which half
+                 * defeats the point of using the nop handler in the
+                 * first place).
+                 *
+                 * This update is safe from a security point of view, as
+                 * this pcpu is never going to try to sysret back to a
+                 * PV vcpu.
+                 */
+                _set_gate_lower(&idt_tables[i][TRAP_nmi], 14, 0, &trap_nop);
+                set_ist(&idt_tables[i][TRAP_machine_check], IST_NONE);
+            }
+            else
+                /* Do not update stack table for other pcpus. */
+                _update_gate_addr_lower(&idt_tables[i][TRAP_nmi], &nmi_crash);
+        }
+
     /* Ensure the new callback function is set before sending out the NMI. */
     wmb();
 
diff -r def9d03429f6 -r 528bd4030389 xen/arch/x86/machine_kexec.c
--- a/xen/arch/x86/machine_kexec.c
+++ b/xen/arch/x86/machine_kexec.c
@@ -81,12 +81,31 @@ void machine_kexec(xen_kexec_image_t *im
         .base = (unsigned long)(boot_cpu_gdt_table - FIRST_RESERVED_GDT_ENTRY),
         .limit = LAST_RESERVED_GDT_BYTE
     };
+    int i;
 
     /* We are about to permenantly jump out of the Xen context into the kexec
      * purgatory code.  We really dont want to be still servicing interupts.
      */
     local_irq_disable();
 
+    /* Now regular interrupts are disabled, we need to reduce the impact
+     * of interrupts not disabled by 'cli'.
+     *
+     * The NMI handlers have already been set up nmi_shootdown_cpus().  All
+     * pcpus other than us have the nmi_crash handler, while we have the nop
+     * handler.
+     *
+     * The MCE handlers touch extensive areas of Xen code and data.  At this
+     * point, there is nothing we can usefully do, so set the nop handler.
+     */
+    for ( i = 0; i < nr_cpu_ids; ++i )
+        if ( idt_tables[i] )
+            _update_gate_addr_lower(&idt_tables[i][TRAP_machine_check], 
&trap_nop);
+
+    /* Explicitly enable NMIs on this CPU.  Some crashdump kernels do
+     * not like running with NMIs disabled. */
+    enable_nmis();
+
     /*
      * compat_machine_kexec() returns to idle pagetables, which requires us
      * to be running on a static GDT mapping (idle pagetables have no GDT
diff -r def9d03429f6 -r 528bd4030389 xen/arch/x86/x86_64/entry.S
--- a/xen/arch/x86/x86_64/entry.S
+++ b/xen/arch/x86/x86_64/entry.S
@@ -635,11 +635,45 @@ ENTRY(nmi)
         movl  $TRAP_nmi,4(%rsp)
         jmp   handle_ist_exception
 
+ENTRY(nmi_crash)
+        cli
+        pushq $0
+        movl $TRAP_nmi,4(%rsp)
+        SAVE_ALL
+        movq %rsp,%rdi
+        callq do_nmi_crash /* Does not return */
+        ud2
+
 ENTRY(machine_check)
         pushq $0
         movl  $TRAP_machine_check,4(%rsp)
         jmp   handle_ist_exception
 
+/* Enable NMIs.  No special register assumptions. Only %rax is not preserved. 
*/
+ENTRY(enable_nmis)
+        movq  %rsp, %rax /* Grab RSP before pushing */
+
+        /* Set up stack frame */
+        pushq $0               /* SS */
+        pushq %rax             /* RSP */
+        pushfq                 /* RFLAGS */
+        pushq $__HYPERVISOR_CS /* CS */
+        leaq  1f(%rip),%rax
+        pushq %rax             /* RIP */
+
+        iretq /* Disable the hardware NMI latch */
+1:
+        retq
+
+/* No op trap handler.  Required for kexec crash path.  This is not
+ * declared with the ENTRY() macro to avoid wasted alignment space.
+ */
+.globl trap_nop
+trap_nop:
+        iretq
+
+
+
 .section .rodata, "a", @progbits
 
 ENTRY(exception_table)
diff -r def9d03429f6 -r 528bd4030389 xen/include/asm-x86/desc.h
--- a/xen/include/asm-x86/desc.h
+++ b/xen/include/asm-x86/desc.h
@@ -106,6 +106,19 @@ typedef struct {
     u64 a, b;
 } idt_entry_t;
 
+/* Write the lower 64 bits of an IDT Entry. This relies on the upper 32
+ * bits of the address not changing, which is a safe aumption until our
+ * code size exceeds 4GB.
+ *
+ * Ideally, we would use cmpxchg16b, but this is not supported on some
+ * old AMD 64bit capable processors, and has no safe equivelent.
+ */
+static inline void _write_gate_lower(idt_entry_t * gate, idt_entry_t * new)
+{
+    ASSERT(gate->b == new->b);
+    *(volatile unsigned long *)&gate->a = new->a;
+}
+
 #define _set_gate(gate_addr,type,dpl,addr)               \
 do {                                                     \
     (gate_addr)->a = 0;                                  \
@@ -122,6 +135,35 @@ do {                                    
         (1UL << 47);                                     \
 } while (0)
 
+#define _set_gate_lower(gate_addr,type,dpl,addr)         \
+    do {                                                 \
+    idt_entry_t idte;                                    \
+    idte.b = (gate_addr)->b;                             \
+    idte.a =                                            \
+        (((unsigned long)(addr) & 0xFFFF0000UL) << 32) | \
+        ((unsigned long)(dpl) << 45) |                   \
+        ((unsigned long)(type) << 40) |                  \
+        ((unsigned long)(addr) & 0xFFFFUL) |             \
+        ((unsigned long)__HYPERVISOR_CS64 << 16) |       \
+        (1UL << 47);                                     \
+    _write_gate_lower((gate_addr), &idte);               \
+} while (0)
+
+/* Update the lower half handler of an IDT Entry, without changing any
+ * other configuration. */
+static inline void _update_gate_addr_lower(idt_entry_t * gate, void * addr)
+{
+    idt_entry_t idte;
+    idte.a = gate->a;
+
+    idte.b = ((unsigned long)(addr) >> 32);
+    idte.a &= 0x0000FFFFFFFF0000ULL;
+    idte.a |= (((unsigned long)(addr) & 0xFFFF0000UL) << 32) |
+        ((unsigned long)(addr) & 0xFFFFUL);
+
+    _write_gate_lower(gate, &idte);
+}
+
 #define _set_tssldt_desc(desc,addr,limit,type)           \
 do {                                                     \
     (desc)[0].b = (desc)[1].b = 0;                       \
diff -r def9d03429f6 -r 528bd4030389 xen/include/asm-x86/processor.h
--- a/xen/include/asm-x86/processor.h
+++ b/xen/include/asm-x86/processor.h
@@ -527,6 +527,7 @@ void do_ ## _name(struct cpu_user_regs *
 DECLARE_TRAP_HANDLER(divide_error);
 DECLARE_TRAP_HANDLER(debug);
 DECLARE_TRAP_HANDLER(nmi);
+DECLARE_TRAP_HANDLER(nmi_crash);
 DECLARE_TRAP_HANDLER(int3);
 DECLARE_TRAP_HANDLER(overflow);
 DECLARE_TRAP_HANDLER(bounds);
@@ -545,6 +546,9 @@ DECLARE_TRAP_HANDLER(alignment_check);
 DECLARE_TRAP_HANDLER(spurious_interrupt_bug);
 #undef DECLARE_TRAP_HANDLER
 
+void trap_nop(void);
+void enable_nmis(void);
+
 void syscall_enter(void);
 void sysenter_entry(void);
 void sysenter_eflags_saved(void);

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