Difference between revisions of "Speculative Execution Vulnerabilities of 2018"

From RCS Wiki
Jump to navigation Jump to search
(Add section on MDS / Kicksecure / SMT)
Line 59: Line 59:
 
== Attack surface reduction ==
 
== Attack surface reduction ==
  
Some known speculative execution vulnerabilities, e.g. MDS, rely on the CPU sharing some state between SMT threads running on the same core.  In response, some operating systems (such as Kicksecure) have disabled SMT in order to preemptively mitigate future speculative execution vulnerabilities.  Given that POWER9 L2 and L3 cache is per-slice, not per-core, users who desire maximum protection from future speculative execution vulnerabilities may wish to only enable one core per slice.  This is already the case for 4-core and 8-core CPU's sold by Raptor.
+
Some known speculative execution vulnerabilities, e.g. [https://en.wikipedia.org/wiki/Microarchitectural_Data_Sampling MDS], rely on the CPU sharing some state between SMT threads running on the same core.  In response, some operating systems (such as Kicksecure) have disabled SMT in order to preemptively mitigate future speculative execution vulnerabilities.  Given that POWER9 L2 and L3 cache is per-slice, not per-core, users who desire maximum protection from future speculative execution vulnerabilities may wish to only enable one core per slice.  This is already the case for 4-core and 8-core CPU's sold by Raptor.
  
 
== See also ==
 
== See also ==

Revision as of 10:07, 2 January 2022

In January of 2018, news of three speculative execution vulnerabilities was made public. Information about these vulnerabilities had been disclosed in private to certain companies and projects in June of 2016.

CVE Group GPZ name[1] Description
CVE-2017-5715 Spectre Variant 2 indirect branch prediction with side-channel analysis[2]
CVE-2017-5753 Spectre Variant 1 branch prediction with side-channel analysis[3]
CVE-2017-5754 Meltdown Variant 3 indirect branch prediction with side-channel analysis of data cache[4]

At this time we know that POWER9, POWER8, POWER8E, POWER7+, POWER6, and certain PowerPC architectures are affected by at least some of these vulnerabilities. [5][6][7][8]

CVE-2017-5715 (Spectre)

According to the official CVE list, this may affect processors using "speculative execution and indirect branch prediction". Google's Project Zero calls this Variant 2: branch target injection.

POWER9

Hardware fixes are in place for POWER9 Nimbus DD2.2 / Cumulus DD1.1 and above [9]. With these hardware changes, Spectre variant 2 is believed to be mitigated on the production POWER9 devices. Note that firmware applies the protections by throwing chicken switches in the silicon; as a result, the protection level is configurable via firmware flags.

CVE-2017-5753 (Spectre)

According to the official CVE list, this may affect processors using "speculative execution and branch prediction". Google's Project Zero calls this Variant 1: bounds check bypass.

POWER9

Hardware fixes are in place for POWER9 Nimbus DD2.2 / Cumulus DD1.1 and above [9]. With these hardware changes, cross-process attacks via Spectre variant 1 are believed to be fully mitigated on the production POWER9 devices.

CVE-2017-5754 (Meltdown)

According to the official CVE list, this may affect processors using "speculative execution and indirect branch prediction", but specifically uses a data cache side channel. Google's Project Zero calls this Variant 3: rogue data cache load.

Common Mitigations

POWER7, POWER8, and POWER9 are patched from CVE-2017-5754 by purging the L1 cache when context switching to a less privileged process, as the vulnerability on these architectures affects L1 but not L2 cache.[10] Firmware updates are also required to enable workarounds at the hardware level.[11] [12].

POWER9

Hardware fixes are also in place for POWER9 Nimbus DD2.2 / Cumulus DD1.1 and above [9]. In conjunction with the above kernel patch, Meltdown is fully mitigated on the production POWER9 devices.

Official statement from Raptor Computing Systems regarding Talos™ II

POWER9 will not ship with vulnerability to Meltdown or any loss in performance compared with the current prototype chips (DD2.1). Further, Spectre is fully mitigated with the exception of the same-process issue that is affecting the entire CPU industry. As far as we are aware there will be no further mitigation from any major CPU vendor now or in the future, as the remaining Spectre issue has been deemed an application level programming issue versus a CPU design issue. Patches for GCC to help fix the affected applications are already rolling out.

Attack surface reduction

Some known speculative execution vulnerabilities, e.g. MDS, rely on the CPU sharing some state between SMT threads running on the same core. In response, some operating systems (such as Kicksecure) have disabled SMT in order to preemptively mitigate future speculative execution vulnerabilities. Given that POWER9 L2 and L3 cache is per-slice, not per-core, users who desire maximum protection from future speculative execution vulnerabilities may wish to only enable one core per slice. This is already the case for 4-core and 8-core CPU's sold by Raptor.

See also

External Links

References

  1. Reading privileged memory with a side-channel. Google Project Zero blog
  2. CVE-2017-5715. Mitre CVE List. "Systems with microprocessors utilizing speculative execution and indirect branch prediction may allow unauthorized disclosure of information to an attacker with local user access via a side-channel analysis."
  3. CVE-2017-5753. Mitre CVE List. "Systems with microprocessors utilizing speculative execution and branch prediction may allow unauthorized disclosure of information to an attacker with local user access via a side-channel analysis."
  4. CVE-2017-5754. Mitre CVE List. "Systems with microprocessors utilizing speculative execution and indirect branch prediction may allow unauthorized disclosure of information to an attacker with local user access via a side-channel analysis of the data cache."
  5. IBM PSIRT Blog post, Potential Impact on Processors in the POWER family
  6. TenFourFox Development blog post, Actual field testing of Spectre on various Power Macs
  7. Raptor Engineering GNU Social notices about POWER8 and POWER9 vulnerability
  8. Red Hat security page for Kernel Side-Channel Attacks
  9. 9.0 9.1 9.2 Hostboot commit message listing security changes for NDD2.2 / CDD1.1
  10. Larabel, Michael. PowerPC Memory Protection Keys In For Linux 4.16, Power Has Meltdown Mitigation In 4.15. 2018-01-22
  11. IBM Power8 Systems Server Firmware
  12. IBM POWER9 Systems Server Firmware