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TLBI VALE2OS, TLBI VALE2OSNXS: TLB Invalidate by VA, Last level, EL2, Outer Shareable

Purpose

When EL2 is implemented and enabled in the current Security state, invalidates cached copies of translation table entries from TLBs that meet all the following requirements:

The Security state is indicated by the value of SCR_EL3.NS if FEAT_RME is not implemented, or SCR_EL3.{NSE, NS} if FEAT_RME is implemented.

The invalidation applies to all PEs in the same Outer Shareable shareability domain as the PE that executes this System instruction.

If FEAT_XS is implemented, the nXS variant of this System instruction is defined.

Both variants perform the same invalidation, but the TLBI System instruction without the nXS qualifier waits for all memory accesses using in-scope old translation information to complete before it is considered complete.

The TLBI System instruction with the nXS qualifier is considered complete when the subset of these memory accesses with XS attribute set to 0 are complete.

Configuration

This instruction is present only when FEAT_TLBIOS is implemented. Otherwise, direct accesses to TLBI VALE2OS, TLBI VALE2OSNXS are UNDEFINED.

Attributes

TLBI VALE2OS, TLBI VALE2OSNXS is a 64-bit System instruction.

Field descriptions

6362616059585756555453525150494847464544434241403938373635343332
313029282726252423222120191817161514131211109876543210
ASIDTTLVA[55:12]
VA[55:12]

ASID, bits [63:48]

When the Effective value of HCR_EL2.E2H is 1:

ASID value to match. Any TLB entries that match the ASID value and VA value will be affected by this System instruction.

Global TLB entries that match the VA value will be affected by this System instruction, regardless of the value of the ASID field.

If the implementation supports 16 bits of ASID, then the upper 8 bits of the ASID must be written to 0 by software when the context being invalidated only uses 8 bits.



Otherwise:

Reserved, RES0.

TTL, bits [47:44]

When FEAT_TTL is implemented:

Translation Table Level. Indicates the level of the translation table walk that holds the leaf entry for the address being invalidated.

TTLMeaning
0b00xx

No information supplied as to the translation table level. Hardware must assume that the entry can be from any level. In this case, TTL<1:0> is RES0.

0b01xx

The entry comes from a 4KB translation granule. The level of walk for the leaf level 0bxx is encoded as:

0b00 : If FEAT_LPA2 is implemented, level 0. Otherwise, treat as if TTL<3:2> is 0b00.

0b01 : Level 1.

0b10 : Level 2.

0b11 : Level 3.

0b10xx

The entry comes from a 16KB translation granule. The level of walk for the leaf level 0bxx is encoded as:

0b00 : Reserved. Treat as if TTL<3:2> is 0b00.

0b01 : If FEAT_LPA2 is implemented, level 1. Otherwise, treat as if TTL<3:2> is 0b00.

0b10 : Level 2.

0b11 : Level 3.

0b11xx

The entry comes from a 64KB translation granule. The level of walk for the leaf level 0bxx is encoded as:

0b00 : Reserved. Treat as if TTL<3:2> is 0b00.

0b01 : Level 1.

0b10 : Level 2.

0b11 : Level 3.

If an incorrect value of the TTL field is specified for the entry being invalidated by the instruction, then no entries are required by the architecture to be invalidated from the TLB.



Otherwise:

Reserved, RES0.

VA[55:12], bits [43:0]

Bits[55:12] of the virtual address to match. Any appropriate TLB entries that match the ASID value (if appropriate) and VA will be affected by this System instruction.

If the TLB maintenance instructions are targeting a translation regime that is using AArch32, and so has a VA of only 32 bits, then the software must treat bits[55:32] as RES0.

The treatment of the low-order bits of this field depends on the translation granule size, as follows:

Executing TLBI VALE2OS, TLBI VALE2OSNXS

Accesses to this instruction use the following encodings in the System instruction encoding space:

TLBI VALE2OS{, <Xt>}

op0op1CRnCRmop2
0b010b1000b10000b00010b101

if PSTATE.EL == EL0 then UNDEFINED; elsif PSTATE.EL == EL1 then if EffectiveHCR_EL2_NVx() IN {'xx1'} then AArch64.SystemAccessTrap(EL2, 0x18); else UNDEFINED; elsif PSTATE.EL == EL2 then if ELIsInHost(EL2) then AArch64.TLBI_VA(SecurityStateAtEL(EL2), Regime_EL20, VMID_NONE, Shareability_OSH, TLBILevel_Last, TLBI_AllAttr, X[t, 64]); else AArch64.TLBI_VA(SecurityStateAtEL(EL2), Regime_EL2, VMID_NONE, Shareability_OSH, TLBILevel_Last, TLBI_AllAttr, X[t, 64]); elsif PSTATE.EL == EL3 then if !EL2Enabled() then UNDEFINED; elsif ELIsInHost(EL2) then if IsFeatureImplemented(FEAT_RME) && !ValidSecurityStateAtEL(EL2) then return; else AArch64.TLBI_VA(SecurityStateAtEL(EL2), Regime_EL20, VMID_NONE, Shareability_OSH, TLBILevel_Last, TLBI_AllAttr, X[t, 64]); else if IsFeatureImplemented(FEAT_RME) && !ValidSecurityStateAtEL(EL2) then return; else AArch64.TLBI_VA(SecurityStateAtEL(EL2), Regime_EL2, VMID_NONE, Shareability_OSH, TLBILevel_Last, TLBI_AllAttr, X[t, 64]);

TLBI VALE2OSNXS{, <Xt>}

op0op1CRnCRmop2
0b010b1000b10010b00010b101

if !IsFeatureImplemented(FEAT_XS) then UNDEFINED; elsif PSTATE.EL == EL0 then UNDEFINED; elsif PSTATE.EL == EL1 then if EffectiveHCR_EL2_NVx() IN {'xx1'} then AArch64.SystemAccessTrap(EL2, 0x18); else UNDEFINED; elsif PSTATE.EL == EL2 then if ELIsInHost(EL2) then AArch64.TLBI_VA(SecurityStateAtEL(EL2), Regime_EL20, VMID_NONE, Shareability_OSH, TLBILevel_Last, TLBI_ExcludeXS, X[t, 64]); else AArch64.TLBI_VA(SecurityStateAtEL(EL2), Regime_EL2, VMID_NONE, Shareability_OSH, TLBILevel_Last, TLBI_ExcludeXS, X[t, 64]); elsif PSTATE.EL == EL3 then if !EL2Enabled() then UNDEFINED; elsif ELIsInHost(EL2) then if IsFeatureImplemented(FEAT_RME) && !ValidSecurityStateAtEL(EL2) then return; else AArch64.TLBI_VA(SecurityStateAtEL(EL2), Regime_EL20, VMID_NONE, Shareability_OSH, TLBILevel_Last, TLBI_ExcludeXS, X[t, 64]); else if IsFeatureImplemented(FEAT_RME) && !ValidSecurityStateAtEL(EL2) then return; else AArch64.TLBI_VA(SecurityStateAtEL(EL2), Regime_EL2, VMID_NONE, Shareability_OSH, TLBILevel_Last, TLBI_ExcludeXS, X[t, 64]);