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authorAngel Pons <th3fanbus@gmail.com>2020-08-11 23:18:04 +0200
committerPatrick Georgi <pgeorgi@google.com>2020-08-26 07:36:12 +0000
commit85a44639768e8365ba5e34e6752c7481534797b9 (patch)
treea6b11ed26777aa841554cc8e31470833f706644f
parenta0ef67879802f47c4e6e979fa0dd5a872960efc0 (diff)
Doc/soc/intel: Add info about microcode updates
Document a general overview of when and how microcode should be updated. Also explain what microcode updates are, and why they are required. Change-Id: I6dbe25122fa45a416ed64180ef1bfb11afe676ba Signed-off-by: Patrick Rudolph <patrick.rudolph@9elements.com> Signed-off-by: Angel Pons <th3fanbus@gmail.com> Reviewed-on: https://review.coreboot.org/c/coreboot/+/44400 Reviewed-by: Patrick Rudolph <siro@das-labor.org> Tested-by: build bot (Jenkins) <no-reply@coreboot.org>
-rw-r--r--Documentation/soc/intel/index.md1
-rw-r--r--Documentation/soc/intel/microcode.md136
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diff --git a/Documentation/soc/intel/index.md b/Documentation/soc/intel/index.md
index 76b67dc46e..5c7239af6b 100644
--- a/Documentation/soc/intel/index.md
+++ b/Documentation/soc/intel/index.md
@@ -8,6 +8,7 @@ This section contains documentation about coreboot on specific Intel SOCs.
- [FSP](fsp/index.md)
- [Ice Lake/9th Gen Core-i series](icelake/index.md)
- [MP Initialization](mp_init/mp_init.md)
+- [Microcode Updates](microcode.md)
- [Firmware Interface Table](fit.md)
- [Apollolake](apollolake/index.md)
- [CSE FW Update](cse_fw_update/cse_fw_update_model.md)
diff --git a/Documentation/soc/intel/microcode.md b/Documentation/soc/intel/microcode.md
new file mode 100644
index 0000000000..0d65b74b11
--- /dev/null
+++ b/Documentation/soc/intel/microcode.md
@@ -0,0 +1,136 @@
+# Microcode updates
+
+When booting a modern x86 platform, one task of the firmware is to update
+[microcode] to correct hardware bugs and mitigate security issues found
+after silicon has been shipped. The [Pentium FDIV bug] could have been
+fixed with a microcode update, had the Pentium used updateable microcode.
+Starting with the Pentium Pro, CPU microcode can be updated by software.
+
+As per BIOS Writer's Guides, Intel defines a processor as the silicon and
+the accompanying microcode update, and considers any processor that does
+not have its microcode updated to be running out of specification. This
+suggests that microcode is a crucial ingredient for correct operation.
+
+On multi-processor or Hyper-Threading-enabled systems, each thread has
+its own microcode. Therefore, microcode must be updated on every thread.
+
+## When to update microcode
+
+When a CPU core comes out of reset, it uses microcode from an internal
+ROM. This “default” microcode often contains bugs, so it needs to be
+updated as soon as possible. For example, Core 2 CPUs can boot without
+microcode updates, but have stability problems. On newer platforms,
+it is nearly impossible to boot without having updated the microcode.
+On some platforms, an updated microcode is required in order to enable
+Cache-As-RAM or to be able to successfully initialize the DRAM.
+
+Plus, microcode needs to be loaded multiple times. Intel Document 504790
+explains that this is because of so-called *enhanced microcode updates*,
+which are large updates with errata workarounds for both core and uncore.
+In order to correctly apply enhanced microcode updates, the [MP-Init]
+algorithm must be decomposed into multiple initialization phases.
+
+### Firmware Interface Table
+
+Beginning with 4th generation Intel Core processors, it is possible for
+microcode to be updated before the CPU is taken out of reset. This is
+accomplished by means of [FIT], a data structure which contains pointers
+to various firmware ingredients in the BIOS flash.
+
+In rare cases, FIT microcode updates may not be successful. Therefore,
+it is important to check that the microcode is up-to-date and, if not,
+update it. This needs to be done as early as possible, like on older
+processor generations without FIT support.
+
+Whether all threads on a processor get their microcode updated through
+FIT is not clear. According to Intel Documents 493770 and 535094, FIT
+microcode updates are applied to all cores within the package. However,
+Intel Document 550049 states that FIT microcode updates are applied to
+all threads within the package.
+
+## SMM bring-up
+
+Prior to SMM relocation, microcode must have been updated at least once.
+
+## Multi-Processor bring-up
+
+The BWG briefly describes microcode updates as part of the *MP-Init*.
+
+### MP-Init
+
+As part of the [MP-Init] sequence, two microcode updates are required.
+
+* The first update must happen as soon as one AP comes out of reset.
+* The second update must happen after the MP-Init sequence has written MTRRs,
+ PRMRR, DCU mode and prefetcher configuration, SMM has been relocated, but
+ before clearing the MCE banks.
+
+## Recommendations
+
+The Linux kernel developer's recommendations are:
+* Serialize microcode updates if possible.
+* Idle as many APs as possible while updating.
+* Idle the sibling thread on a Hyper-Threading enabled CPU while updating.
+
+## Platform BWGs
+
+The requirements specified in BWGs differ between platforms:
+
+### Sandy Bridge
+
+* Before setting up Cache-As-RAM, load microcode update into the SBSP.
+* Losing (non-SBSP) NBSPs must load their microcode update before being placed
+ back in the wait-for-SIPI state.
+* Sibling threads on HT must use a semaphore.
+* Microcode update loading has been done prior to SMM relocation.
+* In MP-Init the microcode update on an AP must be done before initializing the
+ cache, MTRRs, SMRRs and PRMRRs.
+* In MP-Init a second update must happen on all threads after initializing the
+ cache, MTRRs, SMRRs and PRMRRs.
+
+Refer to Intel Document 504790 for details.
+
+### Haswell/Broadwell Client
+
+* A microcode update must exist in FIT.
+* During the race to the BSP semaphore, each NBSP must load its microcode update.
+* All HT enabled threads can load microcode in parallel. However, the
+ IA32_BIOS_UPDT_TRIG MSR is core-scoped, just like on other platforms.
+* Microcode update loading has been done prior to SMM relocation.
+* In MP-Init the microcode update on an AP must be done before initializing the
+ cache, MTRRs, SMRRs and EMRR.
+* In MP-Init a second update must happen on all threads after initializing the
+ cache, MTRRs, SMRRs and EMRR and after SMM initialization.
+
+Refer to Intel Document 493770 and 535094 for details.
+
+### Broadwell Server
+
+* A microcode update must exist in FIT.
+* Before setting up Cache-As-RAM, load microcode update into each BSP.
+* In MP-Init the microcode update on an AP must be done before initializing the
+ cache, MTRRs, SMRRs and EMRR.
+* In MP-Init a second update must happen on all threads after initializing the
+ cache, MTRRs, SMRRs and EMRR and after SMM initialization.
+
+Refer to Intel Document 546625 for details.
+
+### Skylake/Kaby Lake/Coffee Lake/Whiskey Lake/Comet Lake
+
+* A microcode update must exist in FIT.
+* Before setting up Cache-As-RAM, load microcode update into the BSP.
+* Microcode update loading has been done prior to SMM relocation.
+* In MP-Init the first update must happen as soon as one AP comes out of reset.
+* In MP-Init the second update must happen after the MP-Init sequence has
+ written MTRRs, PRMRR, DCU mode and prefetcher configuration, but before
+ clearing the MCE banks.
+* Microcode updates must happen on all threads.
+* Sibling threads on HT should use a semaphore.
+
+Refer to Intel Document 550049 for details.
+
+[microcode]: https://en.wikipedia.org/wiki/Microcode
+[Pentium FDIV bug]: https://en.wikipedia.org/wiki/Pentium_FDIV_bug
+[FIT]: fit.md
+[SDM]: https://www.intel.com/content/dam/www/public/us/en/documents/manuals/64-ia-32-architectures-software-developer-vol-3a-part-1-manual.pdf
+[MP-Init]: mp_init/mp_init.md