Hi Marc,
On 21/11/2023 18:02, Marc Zyngier wrote:
On Tue, 21 Nov 2023 16:49:52 +0000,
Miguel Luis <miguel.luis@xxxxxxxxxx> wrote:
Hi Marc,
On 20 Nov 2023, at 12:09, Marc Zyngier <maz@xxxxxxxxxx> wrote:
This is the 5th drop of NV support on arm64 for this year, and most
probably the last one for this side of Christmas.
For the previous episodes, see [1].
What's changed:
- Drop support for the original FEAT_NV. No existing hardware supports
it without FEAT_NV2, and the architecture is deprecating the former
entirely. This results in fewer patches, and a slightly simpler
model overall.
- Reorganise the series to make it a bit more logical now that FEAT_NV
is gone.
- Apply the NV idreg restrictions on VM first run rather than on each
access.
- Make the nested vgic shadow CPU interface a per-CPU structure rather
than per-vcpu.
- Fix the EL0 timer fastpath
- Work around the architecture deficiencies when trapping WFI from a
L2 guest.
- Fix sampling of nested vgic state (MISR, ELRSR, EISR)
- Drop the patches that have already been merged (NV trap forwarding,
per-MMU VTCR)
- Rebased on top of 6.7-rc2 + the FEAT_E2H0 support [2].
The branch containing these patches (and more) is at [3]. As for the
previous rounds, my intention is to take a prefix of this series into
6.8, provided that it gets enough reviewing.
[1] https://lore.kernel.org/r/20230515173103.1017669-1-maz@xxxxxxxxxx
[2] https://lore.kernel.org/r/20231120123721.851738-1-maz@xxxxxxxxxx
[3] https://git.kernel.org/pub/scm/linux/kernel/git/maz/arm-platforms.git/log/?h=kvm-arm64/nv-6.8-nv2-only
While I was testing this with kvmtool for 5.16 I noted the following on dmesg:
[ 803.014258] kvm [19040]: Unsupported guest sys_reg access at: 8129fa50 [600003c9]
{ Op0( 3), Op1( 5), CRn( 1), CRm( 0), Op2( 2), func_read },
This is CPACR_EL12.
CPACR_EL12 is redirected to VNCR[0x100]. It really shouldn't trap...
Still need yet to debug.
Can you disassemble the guest around the offending PC?
[ 1248.686350] kvm [7013]: Unsupported guest sys_reg access at: 812baa50 [600003c9]
{ Op0( 3), Op1( 5), CRn( 1), CRm( 0), Op2( 2), func_read },
12baa00: 14000008 b 0x12baa20
12baa04: d000d501 adrp x1, 0x2d5c000
12baa08: 91154021 add x1, x1, #0x550
12baa0c: f9400022 ldr x2, [x1]
12baa10: f9400421 ldr x1, [x1, #8]
12baa14: 8a010042 and x2, x2, x1
12baa18: d3441c42 ubfx x2, x2, #4, #4
12baa1c: b4000082 cbz x2, 0x12baa2c
12baa20: d2a175a0 mov x0, #0xbad0000 // #195887104
12baa24: f2994220 movk x0, #0xca11
12baa28: d69f03e0 eret
12baa2c: d2c00080 mov x0, #0x400000000 // #17179869184
12baa30: f2b10000 movk x0, #0x8800, lsl #16
12baa34: f2800000 movk x0, #0x0
12baa38: d51c1100 msr hcr_el2, x0
12baa3c: d5033fdf isb
12baa40: d53c4100 mrs x0, sp_el1
12baa44: 9100001f mov sp, x0
12baa48: d538d080 mrs x0, tpidr_el1
12baa4c: d51cd040 msr tpidr_el2, x0
12baa50: d53d1040 mrs x0, cpacr_el12
12baa54: d5181040 msr cpacr_el1, x0
12baa58: d53dc000 mrs x0, vbar_el12
12baa5c: d518c000 msr vbar_el1, x0
12baa60: d53c1120 mrs x0, mdcr_el2
12baa64: 9272f400 and x0, x0, #0xffffffffffffcfff
12baa68: 9266f400 and x0, x0, #0xfffffffffcffffff
12baa6c: d51c1120 msr mdcr_el2, x0
12baa70: d53d2040 mrs x0, tcr_el12
12baa74: d5182040 msr tcr_el1, x0
12baa78: d53d2000 mrs x0, ttbr0_el12
12baa7c: d5182000 msr ttbr0_el1, x0
12baa80: d53d2020 mrs x0, ttbr1_el12
12baa84: d5182020 msr ttbr1_el1, x0
12baa88: d53da200 mrs x0, mair_el12
12baa8c: d518a200 msr mair_el1, x0
12baa90: d5380761 mrs x1, s3_0_c0_c7_3
12baa94: d3400c21 ubfx x1, x1, #0, #4
12baa98: b4000141 cbz x1, 0x12baac0
12baa9c: d53d2060 mrs x0, s3_5_c2_c0_3
