The TLBI RVAE1, TLBI RVAE1NXS characteristics are:
Invalidates cached copies of translation table entries from TLBs that meet all the following requirements:
The entry is one of the following:
A 64-bit stage 1 translation table entry, from any level of the translation table walk up to the level indicated in the TTL hint.
If FEAT_D128 is implemented, a 128-bit stage 1 translation table entry, if TTL is 0b00.
The entry would be used to translate any of the VAs in the specified address range, and one of the following applies:
The entry is from a level of lookup above the final level and matches the specified ASID.
The entry is a global entry from the final level of lookup.
The entry is a non-global entry from the final level of lookup that matches the specified ASID.
The entry is within the address range determined by the formula [BaseADDR <= VA < BaseADDR + ((NUM +1)*2(5*SCALE +1) * Translation_Granule_Size)].
When EL2 is implemented and enabled in the current Security state:
When EL2 is not implemented or is disabled in the current Security state, the entry would be required to translate any of the VAs in the specified address range using the EL1&0 translation regime for the Security state.
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 the PE that executes this System instruction.
For 64-bit translation table entry, the range of addresses invalidated is UNPREDICTABLE when:
For the 4K translation granule:
For the 16K translation granule:
For the 64K translation granule:
This instruction is present only when FEAT_TLBIRANGE is implemented. Otherwise, direct accesses to TLBI RVAE1, TLBI RVAE1NXS are UNDEFINED.
TLBI RVAE1, TLBI RVAE1NXS is a 64-bit System instruction.
63 | 62 | 61 | 60 | 59 | 58 | 57 | 56 | 55 | 54 | 53 | 52 | 51 | 50 | 49 | 48 | 47 | 46 | 45 | 44 | 43 | 42 | 41 | 40 | 39 | 38 | 37 | 36 | 35 | 34 | 33 | 32 |
31 | 30 | 29 | 28 | 27 | 26 | 25 | 24 | 23 | 22 | 21 | 20 | 19 | 18 | 17 | 16 | 15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 | 7 | 6 | 5 | 4 | 3 | 2 | 1 | 0 |
ASID | TG | SCALE | NUM | TTL | BaseADDR | ||||||||||||||||||||||||||
BaseADDR |
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.
Translation granule size.
TG | Meaning |
---|---|
0b00 |
Reserved. |
0b01 |
4K translation granule. |
0b10 |
16K translation granule. |
0b11 |
64K translation granule. |
The instruction takes a translation granule size for the translations that are being invalidated. If the translations used a different translation granule size than the one being specified, then the architecture does not require that the instruction invalidates any entries.
The exponent element of the calculation that is used to produce the upper range.
The base element of the calculation that is used to produce the upper range.
TTL Level hint. The TTL hint is only guaranteed to invalidate:
Non-leaf-level entries in the range up to but not including the level described by the TTL hint.
Leaf-level entries in the range that match the level described by the TTL hint.
TTL | Meaning |
---|---|
0b00 |
The entries in the range can be using any level for the translation table entries. |
0b01 | The TTL hint indicates level 1. If FEAT_LPA2 is not implemented, when using a 16KB translation granule, this value is reserved and hardware should treat this field as 0b00. |
0b10 |
The TTL hint indicates level 2. |
0b11 |
The TTL hint indicates level 3. |
The starting address for the range of the maintenance instructions. This field is BaseADDR[52:16] for all translation granules.
When using a 4KB translation granule, BaseADDR[15:12] is treated as 0b0000.
When using a 16KB translation granule, BaseADDR[15:14] is treated as 0b00.
The starting address for the range of the maintenance instruction.
When using a 4KB translation granule, this field is BaseADDR[48:12].
When using a 16KB translation granule, this field is BaseADDR[50:14].
When using a 64KB translation granule, this field is BaseADDR[52:16].
Accesses to this instruction use the following encodings in the System instruction encoding space:
op0 | op1 | CRn | CRm | op2 |
---|---|---|---|---|
0b01 | 0b000 | 0b1000 | 0b0110 | 0b001 |
if PSTATE.EL == EL0 then UNDEFINED; elsif PSTATE.EL == EL1 then if EL2Enabled() && HCR_EL2.TTLB == '1' then AArch64.SystemAccessTrap(EL2, 0x18); elsif EL2Enabled() && IsFeatureImplemented(FEAT_FGT) && (!HaveEL(EL3) || SCR_EL3.FGTEn == '1') && HFGITR_EL2.TLBIRVAE1 == '1' then AArch64.SystemAccessTrap(EL2, 0x18); elsif EL2Enabled() && HCR_EL2.FB == '1' then if IsFeatureImplemented(FEAT_XS) && IsFeatureImplemented(FEAT_HCX) && IsHCRXEL2Enabled() && HCRX_EL2.FnXS == '1' then AArch64.TLBI_RVA(SecurityStateAtEL(EL1), Regime_EL10, VMID[], Shareability_ISH, TLBILevel_Any, TLBI_ExcludeXS, X[t, 64]); else AArch64.TLBI_RVA(SecurityStateAtEL(EL1), Regime_EL10, VMID[], Shareability_ISH, TLBILevel_Any, TLBI_AllAttr, X[t, 64]); else if IsFeatureImplemented(FEAT_XS) && IsFeatureImplemented(FEAT_HCX) && IsHCRXEL2Enabled() && HCRX_EL2.FnXS == '1' then AArch64.TLBI_RVA(SecurityStateAtEL(EL1), Regime_EL10, VMID[], Shareability_NSH, TLBILevel_Any, TLBI_ExcludeXS, X[t, 64]); else AArch64.TLBI_RVA(SecurityStateAtEL(EL1), Regime_EL10, VMID[], Shareability_NSH, TLBILevel_Any, TLBI_AllAttr, X[t, 64]); elsif PSTATE.EL == EL2 then if ELIsInHost(EL0) then AArch64.TLBI_RVA(SecurityStateAtEL(EL2), Regime_EL20, VMID_NONE, Shareability_NSH, TLBILevel_Any, TLBI_AllAttr, X[t, 64]); else AArch64.TLBI_RVA(SecurityStateAtEL(EL1), Regime_EL10, VMID[], Shareability_NSH, TLBILevel_Any, TLBI_AllAttr, X[t, 64]); elsif PSTATE.EL == EL3 then if ELIsInHost(EL0) then if IsFeatureImplemented(FEAT_RME) && !ValidSecurityStateAtEL(EL2) then return; else AArch64.TLBI_RVA(SecurityStateAtEL(EL2), Regime_EL20, VMID_NONE, Shareability_NSH, TLBILevel_Any, TLBI_AllAttr, X[t, 64]); else if IsFeatureImplemented(FEAT_RME) && !ValidSecurityStateAtEL(EL1) then return; else AArch64.TLBI_RVA(SecurityStateAtEL(EL1), Regime_EL10, VMID[], Shareability_NSH, TLBILevel_Any, TLBI_AllAttr, X[t, 64]);
op0 | op1 | CRn | CRm | op2 |
---|---|---|---|---|
0b01 | 0b000 | 0b1001 | 0b0110 | 0b001 |
if !IsFeatureImplemented(FEAT_XS) then UNDEFINED; elsif PSTATE.EL == EL0 then UNDEFINED; elsif PSTATE.EL == EL1 then if EL2Enabled() && HCR_EL2.TTLB == '1' then AArch64.SystemAccessTrap(EL2, 0x18); elsif EL2Enabled() && IsFeatureImplemented(FEAT_FGT) && (!HaveEL(EL3) || SCR_EL3.FGTEn == '1') && IsFeatureImplemented(FEAT_HCX) && (!IsHCRXEL2Enabled() || HCRX_EL2.FGTnXS == '0') && HFGITR_EL2.TLBIRVAE1 == '1' then AArch64.SystemAccessTrap(EL2, 0x18); elsif EL2Enabled() && HCR_EL2.FB == '1' then AArch64.TLBI_RVA(SecurityStateAtEL(EL1), Regime_EL10, VMID[], Shareability_ISH, TLBILevel_Any, TLBI_ExcludeXS, X[t, 64]); else AArch64.TLBI_RVA(SecurityStateAtEL(EL1), Regime_EL10, VMID[], Shareability_NSH, TLBILevel_Any, TLBI_ExcludeXS, X[t, 64]); elsif PSTATE.EL == EL2 then if ELIsInHost(EL0) then AArch64.TLBI_RVA(SecurityStateAtEL(EL2), Regime_EL20, VMID_NONE, Shareability_NSH, TLBILevel_Any, TLBI_ExcludeXS, X[t, 64]); else AArch64.TLBI_RVA(SecurityStateAtEL(EL1), Regime_EL10, VMID[], Shareability_NSH, TLBILevel_Any, TLBI_ExcludeXS, X[t, 64]); elsif PSTATE.EL == EL3 then if ELIsInHost(EL0) then if IsFeatureImplemented(FEAT_RME) && !ValidSecurityStateAtEL(EL2) then return; else AArch64.TLBI_RVA(SecurityStateAtEL(EL2), Regime_EL20, VMID_NONE, Shareability_NSH, TLBILevel_Any, TLBI_ExcludeXS, X[t, 64]); else if IsFeatureImplemented(FEAT_RME) && !ValidSecurityStateAtEL(EL1) then return; else AArch64.TLBI_RVA(SecurityStateAtEL(EL1), Regime_EL10, VMID[], Shareability_NSH, TLBILevel_Any, TLBI_ExcludeXS, X[t, 64]);
26/03/2024 09:49; 67c0ae5282a7629ba0ea0ba7267b43cd4f7939f6
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