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[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index] Re: [Xen-devel] [PATCH 2/4] x86: suppress SMAP and SMEP while running 32-bit PV guest code
On 08/03/16 07:57, Jan Beulich wrote: > >>> @@ -174,10 +174,43 @@ compat_bad_hypercall: >>> /* %rbx: struct vcpu, interrupts disabled */ >>> ENTRY(compat_restore_all_guest) >>> ASSERT_INTERRUPTS_DISABLED >>> +.Lcr4_orig: >>> + ASM_NOP3 /* mov %cr4, %rax */ >>> + ASM_NOP6 /* and $..., %rax */ >>> + ASM_NOP3 /* mov %rax, %cr4 */ >>> + .pushsection .altinstr_replacement, "ax" >>> +.Lcr4_alt: >>> + mov %cr4, %rax >>> + and $~(X86_CR4_SMEP|X86_CR4_SMAP), %rax >>> + mov %rax, %cr4 >>> +.Lcr4_alt_end: >>> + .section .altinstructions, "a" >>> + altinstruction_entry .Lcr4_orig, .Lcr4_alt, X86_FEATURE_SMEP, 12, \ >>> + (.Lcr4_alt_end - .Lcr4_alt) >>> + altinstruction_entry .Lcr4_orig, .Lcr4_alt, X86_FEATURE_SMAP, 12, \ >>> + (.Lcr4_alt_end - .Lcr4_alt) >> These 12's look as if they should be (.Lcr4_alt - .Lcr4_orig). > Well, the NOPs that get put there make 12 (= 3 + 6 + 3) a > pretty obvious (shorter and hence more readable) option. But > yes, if you're of the strong opinion that we should use the > longer alternative, I can switch these around. I have to admit that I prefer the Linux ALTERNATIVE macro for assembly, which takes care of the calculations like this. It is slightly unfortunate that it generally requires its assembly blocks in strings, and is unsuitable for larger blocks. Perhaps we can see about an variant in due course. > >>> +/* This mustn't modify registers other than %rax. */ >>> +ENTRY(cr4_smep_smap_restore) >>> + mov %cr4, %rax >>> + test $X86_CR4_SMEP|X86_CR4_SMAP,%eax >>> + jnz 0f >>> + or cr4_smep_smap_mask(%rip), %rax >>> + mov %rax, %cr4 >>> + ret >>> +0: >>> + and cr4_smep_smap_mask(%rip), %eax >>> + cmp cr4_smep_smap_mask(%rip), %eax >>> + je 1f >>> + BUG >> What is the purpose of this bugcheck? It looks like it is catching a >> mismatch of masked options, but I am not completely sure. > This aims at detecting that some of the CR4 bits which are > expected to be set really aren't (other than the case when all > of the ones of interest here are clear). > >> For all other ASM level BUG's, I put a short comment on the same line, >> to aid people who hit the bug. > Will do. Question: Should this check perhaps become !NDEBUG > dependent? It probably should do. > >>> @@ -454,13 +455,64 @@ ENTRY(page_fault) >>> GLOBAL(handle_exception) >>> SAVE_ALL CLAC >>> handle_exception_saved: >>> + GET_CURRENT(%rbx) >>> testb $X86_EFLAGS_IF>>8,UREGS_eflags+1(%rsp) >>> jz exception_with_ints_disabled >>> - sti >>> + >>> +.Lsmep_smap_orig: >>> + jmp 0f >>> + .if 0 // GAS bug (affecting at least 2.22 ... 2.26) >>> + .org .Lsmep_smap_orig + (.Lsmep_smap_alt_end - .Lsmep_smap_alt), >>> 0xcc >>> + .else >>> + // worst case: rex + opcode + modrm + 4-byte displacement >>> + .skip (1 + 1 + 1 + 4) - 2, 0xcc >>> + .endif >> Which bug is this? How does it manifest. More generally, what is this >> alternative trying to achieve? > The .org gets a warning (.Lsmep_smap_orig supposedly being > undefined, and hence getting assumed to be zero) followed by > an error (attempt to move the current location backwards). The > fix https://sourceware.org/ml/binutils/2016-03/msg00030.html > is pending approval. I presume this is down to the documented restriction about crossing sections. i.e. there is no .Lsmep_smap_orig in .altinstr_replacement, where it found the first two symbols. >>> + .pushsection .altinstr_replacement, "ax" >>> +.Lsmep_smap_alt: >>> + mov VCPU_domain(%rbx),%rax >>> +.Lsmep_smap_alt_end: >>> + .section .altinstructions, "a" >>> + altinstruction_entry .Lsmep_smap_orig, .Lsmep_smap_alt, \ >>> + X86_FEATURE_SMEP, \ >>> + (.Lsmep_smap_alt_end - .Lsmep_smap_alt), \ >>> + (.Lsmep_smap_alt_end - .Lsmep_smap_alt) >>> + altinstruction_entry .Lsmep_smap_orig, .Lsmep_smap_alt, \ >>> + X86_FEATURE_SMAP, \ >>> + (.Lsmep_smap_alt_end - .Lsmep_smap_alt), \ >>> + (.Lsmep_smap_alt_end - .Lsmep_smap_alt) >>> + .popsection >>> + >>> + testb $3,UREGS_cs(%rsp) >>> + jz 0f >>> + cmpb $0,DOMAIN_is_32bit_pv(%rax) >> This comparison is wrong on hardware lacking SMEP and SMAP, as the "mov >> VCPU_domain(%rbx),%rax" won't have happened. > That mov indeed won't have happened, but the original instruction > is a branch past all of this code, so the above is correct (and I did > test on older hardware). Oh so it wont. It is moderately subtle that this entire codeblock is logically contained in the alternative. It would be far clearer, and work around your org bug, if this was a single alternative which patched jump into a nop. At the very least, a label of .Lcr3_pv32_fixup_done would be an improvement over 0. > >>> + je 0f >>> + call cr4_smep_smap_restore >>> + /* >>> + * An NMI or #MC may occur between clearing CR4.SMEP and CR4.SMAP >>> in >>> + * compat_restore_all_guest and it actually returning to guest >>> + * context, in which case the guest would run with the two features >>> + * enabled. The only bad that can happen from this is a kernel mode >>> + * #PF which the guest doesn't expect. Rather than trying to make >>> the >>> + * NMI/#MC exit path honor the intended CR4 setting, simply check >>> + * whether the wrong CR4 was in use when the #PF occurred, and exit >>> + * back to the guest (which will in turn clear the two CR4 bits) to >>> + * re-execute the instruction. If we get back here, the CR4 bits >>> + * should then be found clear (unless another NMI/#MC occurred at >>> + * exactly the right time), and we'll continue processing the >>> + * exception as normal. >>> + */ >>> + test %rax,%rax >>> + jnz 0f >>> + mov $PFEC_page_present,%al >>> + cmpb $TRAP_page_fault,UREGS_entry_vector(%rsp) >>> + jne 0f >>> + xor UREGS_error_code(%rsp),%eax >>> + test $~(PFEC_write_access|PFEC_insn_fetch),%eax >>> + jz compat_test_all_events >>> +0: sti >> Its code like this which makes me even more certain that we have far too >> much code written in assembly which doesn't need to be. Maybe not this >> specific sample, but it has taken me 15 minutes and a pad of paper to >> try and work out how this conditional works, and I am still not certain >> its correct. In particular, PFEC_prot_key looks like it fool the test >> into believing a non-smap/smep fault was a smap/smep fault. > Not sure how you come to think of PFEC_prot_key here: That's > a bit which can be set only together with PFEC_user_mode, yet > we care about kernel mode faults only here. I would not make that assumption. Assumptions about the valid set of #PF flags are precisely the reason that older Linux falls into an infinite loop when encountering a SMAP pagefault, rather than a clean crash. ~Andrew > >> Can you at least provide some C in a comment with the intended >> conditional, to aid clarity? > Sure, if you think that helps beyond the (I think) pretty extensive > comment: > > + test %rax,%rax > + jnz 0f > + /* > + * The below effectively is > + * if ( regs->entry_vector == TRAP_page_fault && > + * (regs->error_code & PFEC_page_present) && > + * !(regs->error_code & ~(PFEC_write_access|PFEC_insn_fetch)) ) > + * goto compat_test_all_events; > + */ > + mov $PFEC_page_present,%al > + cmpb $TRAP_page_fault,UREGS_entry_vector(%rsp) > + jne 0f > + xor UREGS_error_code(%rsp),%eax > + test $~(PFEC_write_access|PFEC_insn_fetch),%eax > + jz compat_test_all_events > +0: > > Jan _______________________________________________ Xen-devel mailing list Xen-devel@xxxxxxxxxxxxx http://lists.xen.org/xen-devel
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