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SUSE:SLE-15-SP5:GA
xen.33137
xsa452-6.patch
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File xsa452-6.patch of Package xen.33137
From: Andrew Cooper <andrew.cooper3@citrix.com> Subject: x86/spec-ctrl: VERW-handling adjustments ... before we add yet more complexity to this logic. Mostly expanded comments, but with three minor changes. 1) Introduce cpu_has_useful_md_clear to simplify later logic in this patch and future ones. 2) We only ever need SC_VERW_IDLE when SMT is active. If SMT isn't active, then there's no re-partition of pipeline resources based on thread-idleness to worry about. 3) The logic to adjust HVM VERW based on L1D_FLUSH is unmaintainable and, as it turns out, wrong. SKIP_L1DFL is just a hint bit, whereas opt_l1d_flush is the relevant decision of whether to use L1D_FLUSH based on susceptibility and user preference. Rewrite the logic so it can be followed, and incorporate the fact that when FB_CLEAR is visible, L1D_FLUSH isn't a safe substitution. This is part of XSA-452 / CVE-2023-28746. Signed-off-by: Andrew Cooper <andrew.cooper3@citrix.com> Acked-by: Jan Beulich <jbeulich@suse.com> (cherry picked from commit 1eb91a8a06230b4b64228c9a380194f8cfe6c5e2) --- a/xen/arch/x86/spec_ctrl.c +++ b/xen/arch/x86/spec_ctrl.c @@ -1467,7 +1467,7 @@ void __init init_speculation_mitigations { enum ind_thunk thunk = THUNK_DEFAULT; bool has_spec_ctrl, ibrs = false, hw_smt_enabled; - bool cpu_has_bug_taa, retpoline_safe; + bool cpu_has_bug_taa, cpu_has_useful_md_clear, retpoline_safe; hw_smt_enabled = check_smt_enabled(); @@ -1754,50 +1754,97 @@ void __init init_speculation_mitigations "enabled. Please assess your configuration and choose an\n" "explicit 'smt=<bool>' setting. See XSA-273.\n"); + /* + * A brief summary of VERW-related changes. + * + * https://www.intel.com/content/www/us/en/developer/articles/technical/software-security-guidance/technical-documentation/intel-analysis-microarchitectural-data-sampling.html + * https://www.intel.com/content/www/us/en/developer/articles/technical/software-security-guidance/technical-documentation/processor-mmio-stale-data-vulnerabilities.html + * + * Relevant ucodes: + * + * - May 2019, for MDS. Introduces the MD_CLEAR CPUID bit and VERW side + * effects to scrub Store/Load/Fill buffers as applicable. MD_CLEAR + * exists architecturally, even when the side effects have been removed. + * + * Use VERW to scrub on return-to-guest. Parts with L1D_FLUSH to + * mitigate L1TF have the same side effect, so no need to do both. + * + * Various Atoms suffer from Store-buffer sampling only. Store buffers + * are statically partitioned between non-idle threads, so scrubbing is + * wanted when going idle too. + * + * Load ports and Fill buffers are competitively shared between threads. + * SMT must be disabled for VERW scrubbing to be fully effective. + * + * - November 2019, for TAA. Extended VERW side effects to TSX-enabled + * MDS_NO parts. + * + * - February 2022, for Client TSX de-feature. Removed VERW side effects + * from Client CPUs only. + * + * - May 2022, for MMIO Stale Data. (Re)introduced Fill Buffer scrubbing + * on all MMIO-affected parts which didn't already have it for MDS + * reasons, enumerating FB_CLEAR on those parts only. + * + * If FB_CLEAR is enumerated, L1D_FLUSH does not have the same scrubbing + * side effects as VERW and cannot be used in its place. + */ mds_calculations(); /* - * Parts which enumerate FB_CLEAR are those which are post-MDS_NO and have - * reintroduced the VERW fill buffer flushing side effect because of a - * susceptibility to FBSDP. + * Parts which enumerate FB_CLEAR are those with now-updated microcode + * which weren't susceptible to the original MFBDS (and therefore didn't + * have Fill Buffer scrubbing side effects to begin with, or were Client + * MDS_NO non-TAA_NO parts where the scrubbing was removed), but have had + * the scrubbing reintroduced because of a susceptibility to FBSDP. * * If unprivileged guests have (or will have) MMIO mappings, we can * mitigate cross-domain leakage of fill buffer data by issuing VERW on - * the return-to-guest path. + * the return-to-guest path. This is only a token effort if SMT is + * active. */ if ( opt_unpriv_mmio ) opt_verw_mmio = cpu_has_fb_clear; /* - * By default, enable PV and HVM mitigations on MDS-vulnerable hardware. - * This will only be a token effort for MLPDS/MFBDS when HT is enabled, - * but it is somewhat better than nothing. + * MD_CLEAR is enumerated architecturally forevermore, even after the + * scrubbing side effects have been removed. Create ourselves an version + * which expressed whether we think MD_CLEAR is having any useful side + * effect. + */ + cpu_has_useful_md_clear = (cpu_has_md_clear && + (cpu_has_bug_mds || cpu_has_bug_msbds_only)); + + /* + * By default, use VERW scrubbing on applicable hardware, if we think it's + * going to have an effect. This will only be a token effort for + * MLPDS/MFBDS when SMT is enabled. */ if ( opt_verw_pv == -1 ) - opt_verw_pv = ((cpu_has_bug_mds || cpu_has_bug_msbds_only) && - cpu_has_md_clear); + opt_verw_pv = cpu_has_useful_md_clear; if ( opt_verw_hvm == -1 ) - opt_verw_hvm = ((cpu_has_bug_mds || cpu_has_bug_msbds_only) && - cpu_has_md_clear); + opt_verw_hvm = cpu_has_useful_md_clear; /* - * Enable MDS/MMIO defences as applicable. The Idle blocks need using if - * either the PV or HVM MDS defences are used, or if we may give MMIO - * access to untrusted guests. - * - * HVM is more complicated. The MD_CLEAR microcode extends L1D_FLUSH with - * equivalent semantics to avoid needing to perform both flushes on the - * HVM path. Therefore, we don't need VERW in addition to L1D_FLUSH (for - * MDS mitigations. L1D_FLUSH is not safe for MMIO mitigations.) - * - * After calculating the appropriate idle setting, simplify - * opt_verw_hvm to mean just "should we VERW on the way into HVM - * guests", so spec_ctrl_init_domain() can calculate suitable settings. + * If SMT is active, and we're protecting against MDS or MMIO stale data, + * we need to scrub before going idle as well as on return to guest. + * Various pipeline resources are repartitioned amongst non-idle threads. */ - if ( opt_verw_pv || opt_verw_hvm || opt_verw_mmio ) + if ( ((cpu_has_useful_md_clear && (opt_verw_pv || opt_verw_hvm)) || + opt_verw_mmio) && hw_smt_enabled ) setup_force_cpu_cap(X86_FEATURE_SC_VERW_IDLE); - opt_verw_hvm &= !cpu_has_skip_l1dfl && !opt_l1d_flush; + + /* + * After calculating the appropriate idle setting, simplify opt_verw_hvm + * to mean just "should we VERW on the way into HVM guests", so + * spec_ctrl_init_domain() can calculate suitable settings. + * + * It is only safe to use L1D_FLUSH in place of VERW when MD_CLEAR is the + * only *_CLEAR we can see. + */ + if ( opt_l1d_flush && cpu_has_md_clear && !cpu_has_fb_clear ) + opt_verw_hvm = false; /* * Warn the user if they are on MLPDS/MFBDS-vulnerable hardware with HT
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