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Subject[tip: x86/microcode] x86/microcode: Document the whole late loading problem
The following commit has been merged into the x86/microcode branch of tip:

Commit-ID: 35da8ad78e9b1a25d95a281966c439da1ef9a98a
Gitweb: https://git.kernel.org/tip/35da8ad78e9b1a25d95a281966c439da1ef9a98a
Author: Ashok Raj <ashok.raj@intel.com>
AuthorDate: Sat, 13 Aug 2022 22:38:21
Committer: Borislav Petkov <bp@suse.de>
CommitterDate: Mon, 15 Aug 2022 21:24:54 +02:00

x86/microcode: Document the whole late loading problem

Commit

d23d33ea0fcd ("x86/microcode: Taint and warn on late loading")

started tainting the kernel after microcode late loading.

There is some history behind why x86 microcode started doing the late
loading stop_machine() rendezvous. Document the whole situation.

No functional changes.

[ bp: Fix typos, heavily massage. ]

Signed-off-by: Ashok Raj <ashok.raj@intel.com>
Signed-off-by: Borislav Petkov <bp@suse.de>
Link: https://lore.kernel.org/r/20220813223825.3164861-2-ashok.raj@intel.com
---
Documentation/admin-guide/tainted-kernels.rst | 8 +-
Documentation/x86/microcode.rst | 118 +++++++++++++++--
2 files changed, 115 insertions(+), 11 deletions(-)

diff --git a/Documentation/admin-guide/tainted-kernels.rst b/Documentation/admin-guide/tainted-kernels.rst
index 7d80e8c..e59a710 100644
--- a/Documentation/admin-guide/tainted-kernels.rst
+++ b/Documentation/admin-guide/tainted-kernels.rst
@@ -134,7 +134,13 @@ More detailed explanation for tainting
scsi/snic on something else than x86_64, scsi/ips on non
x86/x86_64/itanium, have broken firmware settings for the
irqchip/irq-gic on arm64 ...).
-
+ - x86/x86_64: Microcode late loading is dangerous and will result in
+ tainting the kernel. It requires that all CPUs rendezvous to make sure
+ the update happens when the system is as quiescent as possible. However,
+ a higher priority MCE/SMI/NMI can move control flow away from that
+ rendezvous and interrupt the update, which can be detrimental to the
+ machine.
+e
3) ``R`` if a module was force unloaded by ``rmmod -f``, ``' '`` if all
modules were unloaded normally.

diff --git a/Documentation/x86/microcode.rst b/Documentation/x86/microcode.rst
index a320d37..21c56e0 100644
--- a/Documentation/x86/microcode.rst
+++ b/Documentation/x86/microcode.rst
@@ -6,6 +6,7 @@ The Linux Microcode Loader

:Authors: - Fenghua Yu <fenghua.yu@intel.com>
- Borislav Petkov <bp@suse.de>
+ - Ashok Raj <ashok.raj@intel.com>

The kernel has a x86 microcode loading facility which is supposed to
provide microcode loading methods in the OS. Potential use cases are
@@ -92,15 +93,8 @@ vendor's site.
Late loading
============

-There are two legacy user space interfaces to load microcode, either through
-/dev/cpu/microcode or through /sys/devices/system/cpu/microcode/reload file
-in sysfs.
-
-The /dev/cpu/microcode method is deprecated because it needs a special
-userspace tool for that.
-
-The easier method is simply installing the microcode packages your distro
-supplies and running::
+You simply install the microcode packages your distro supplies and
+run::

# echo 1 > /sys/devices/system/cpu/microcode/reload

@@ -110,6 +104,110 @@ The loading mechanism looks for microcode blobs in
/lib/firmware/{intel-ucode,amd-ucode}. The default distro installation
packages already put them there.

+Since kernel 5.19, late loading is not enabled by default.
+
+The /dev/cpu/microcode method has been removed in 5.19.
+
+Why is late loading dangerous?
+==============================
+
+Synchronizing all CPUs
+----------------------
+
+The microcode engine which receives the microcode update is shared
+between the two logical threads in a SMT system. Therefore, when
+the update is executed on one SMT thread of the core, the sibling
+"automatically" gets the update.
+
+Since the microcode can "simulate" MSRs too, while the microcode update
+is in progress, those simulated MSRs transiently cease to exist. This
+can result in unpredictable results if the SMT sibling thread happens to
+be in the middle of an access to such an MSR. The usual observation is
+that such MSR accesses cause #GPs to be raised to signal that former are
+not present.
+
+The disappearing MSRs are just one common issue which is being observed.
+Any other instruction that's being patched and gets concurrently
+executed by the other SMT sibling, can also result in similar,
+unpredictable behavior.
+
+To eliminate this case, a stop_machine()-based CPU synchronization was
+introduced as a way to guarantee that all logical CPUs will not execute
+any code but just wait in a spin loop, polling an atomic variable.
+
+While this took care of device or external interrupts, IPIs including
+LVT ones, such as CMCI etc, it cannot address other special interrupts
+that can't be shut off. Those are Machine Check (#MC), System Management
+(#SMI) and Non-Maskable interrupts (#NMI).
+
+Machine Checks
+--------------
+
+Machine Checks (#MC) are non-maskable. There are two kinds of MCEs.
+Fatal un-recoverable MCEs and recoverable MCEs. While un-recoverable
+errors are fatal, recoverable errors can also happen in kernel context
+are also treated as fatal by the kernel.
+
+On certain Intel machines, MCEs are also broadcast to all threads in a
+system. If one thread is in the middle of executing WRMSR, a MCE will be
+taken at the end of the flow. Either way, they will wait for the thread
+performing the wrmsr(0x79) to rendezvous in the MCE handler and shutdown
+eventually if any of the threads in the system fail to check in to the
+MCE rendezvous.
+
+To be paranoid and get predictable behavior, the OS can choose to set
+MCG_STATUS.MCIP. Since MCEs can be at most one in a system, if an
+MCE was signaled, the above condition will promote to a system reset
+automatically. OS can turn off MCIP at the end of the update for that
+core.
+
+System Management Interrupt
+---------------------------
+
+SMIs are also broadcast to all CPUs in the platform. Microcode update
+requests exclusive access to the core before writing to MSR 0x79. So if
+it does happen such that, one thread is in WRMSR flow, and the 2nd got
+an SMI, that thread will be stopped in the first instruction in the SMI
+handler.
+
+Since the secondary thread is stopped in the first instruction in SMI,
+there is very little chance that it would be in the middle of executing
+an instruction being patched. Plus OS has no way to stop SMIs from
+happening.
+
+Non-Maskable Interrupts
+-----------------------
+
+When thread0 of a core is doing the microcode update, if thread1 is
+pulled into NMI, that can cause unpredictable behavior due to the
+reasons above.
+
+OS can choose a variety of methods to avoid running into this situation.
+
+
+Is the microcode suitable for late loading?
+-------------------------------------------
+
+Late loading is done when the system is fully operational and running
+real workloads. Late loading behavior depends on what the base patch on
+the CPU is before upgrading to the new patch.
+
+This is true for Intel CPUs.
+
+Consider, for example, a CPU has patch level 1 and the update is to
+patch level 3.
+
+Between patch1 and patch3, patch2 might have deprecated a software-visible
+feature.
+
+This is unacceptable if software is even potentially using that feature.
+For instance, say MSR_X is no longer available after an update,
+accessing that MSR will cause a #GP fault.
+
+Basically there is no way to declare a new microcode update suitable
+for late-loading. This is another one of the problems that caused late
+loading to be not enabled by default.
+
Builtin microcode
=================

@@ -134,7 +232,7 @@ This basically means, you have the following tree structure locally::
| |-- 06-3a-09
...

-so that the build system can find those files and integrate them into
+So that the build system can find those files and integrate them into
the final kernel image. The early loader finds them and applies them.

Needless to say, this method is not the most flexible one because it
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