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ID_AA64MMFR3_EL1: AArch64 Memory Model Feature Register 3

Purpose

Provides information about the implemented memory model and memory management support in AArch64 state.

Configuration

Note

Prior to the introduction of the features described by this register, this register was unnamed and reserved, RES0 from EL1, EL2, and EL3.

Attributes

ID_AA64MMFR3_EL1 is a 64-bit register.

Field descriptions

6362616059585756555453525150494847464544434241403938373635343332
313029282726252423222120191817161514131211109876543210
Spec_FPACCADERRSDERRRES0ANERRSNERRD128_2D128
MECAIES2POES1POES2PIES1PIESCTLRXTCRX

Spec_FPACC, bits [63:60]

When FEAT_FPACCOMBINE is implemented:

Speculative behavior in the event of a PAC authentication failure in an implementation that includes FEAT_FPACCOMBINE.

The value of this field is an IMPLEMENTATION DEFINED choice of:

Spec_FPACCMeaning
0b0000

The implementation does not disclose whether the speculative use of pointers processed by a PAC Authentication is materially different in terms of the impact on cached microarchitectural state between passing and failing of the PAC Authentication.

0b0001

The speculative use of pointers processed by a PAC Authentication is not materially different in terms of the impact on cached microarchitectural state between passing and failing of the PAC Authentication.

All other values are reserved.

For the purpose of this definition, cached microarchitecture state is the state of caching agents such as instruction caches, data caches and TLBs which can be altered as a result of speculation caused by a mispredicted execution, but is not restored to the state prior to the speculation when the misprediction is corrected.

Access to this field is RO.



Otherwise:

Reserved, RES0.

ADERR, bits [59:56]

Asynchronous Device error exceptions. With ID_AA64MMFR3_EL1.SDERR, describes the PE behavior for error exceptions on Device memory loads.

The value of this field is an IMPLEMENTATION DEFINED choice of:

ADERRMeaning
0b0000

If FEAT_RASv2 is not implemented and ID_AA64MMFR3_EL1.SDERR is 0b0000, then the behavior is not described. Otherwise, the behavior is described by ID_AA64MMFR3_EL1.SDERR.

0b0001

Some error exceptions for Device memory loads are taken asynchronously.

0b0010

FEAT_ADERR is implemented. SCTLR2_ELx.EnADERR and HCRX_EL2.EnSDERR are implemented.

If FEAT_ANERR is also implemented, then all the following apply:

  • SCTLR2_ELx.EnADERR should always be set to the same value as SCTLR2_ELx.EnANERR.
  • HCRX_EL2.EnSDERR should always be set to the same value as HCRX_EL2.EnSNERR.
0b0011

FEAT_ADERR is implemented. SCTLR2_ELx.EnADERR and HCRX_EL2.EnSDERR are implemented.

If FEAT_ANERR is also implemented, then SCTLR2_ELx.EnADERR and HCRX_EL2.EnSDERR operate independently of SCTLR2_ELx.EnANERR and HCRX_EL2.EnSNERR.

All other values are reserved.

When FEAT_RASv2 is implemented and ID_AA64MMFR3_EL1.SDERR is 0b0000, the value of this field is 0b0001.

When ID_AA64MMFR3_EL1.SDERR is 0b0001, the value of this field is 0b0000.

When ID_AA64MMFR3_EL1.SDERR is 0b0010, the value of this field is 0b0010.

When ID_AA64MMFR3_EL1.SDERR is 0b0011, the value of this field is 0b0011.

FEAT_ADERR implements the functionality described by the value 0b0010.

Access to this field is RO.

SDERR, bits [55:52]

Synchronous Device error exceptions. With ID_AA64MMFR3_EL1.ADERR, describes the PE behavior for error exceptions on Device memory loads.

The value of this field is an IMPLEMENTATION DEFINED choice of:

SDERRMeaning
0b0000

If FEAT_RASv2 is not implemented and ID_AA64MMFR3_EL1.ADERR is 0b0000, then the behavior is not described. Otherwise, the behavior is described by ID_AA64MMFR3_EL1.ADERR.

0b0001

All error exceptions for Device memory loads are taken synchronously.

0b0010

FEAT_ADERR is implemented. SCTLR2_ELx.EnADERR and HCRX_EL2.EnSDERR are implemented.

If FEAT_ANERR is also implemented, then all the following apply:

  • SCTLR2_ELx.EnADERR should always be set to the same value as SCTLR2_ELx.EnANERR.
  • HCRX_EL2.EnSDERR should always be set to the same value as HCRX_EL2.EnSNERR.
0b0011

FEAT_ADERR is implemented. SCTLR2_ELx.EnADERR and HCRX_EL2.EnSDERR are implemented.

If FEAT_ANERR is also implemented, then SCTLR2_ELx.EnADERR and HCRX_EL2.EnSDERR operate independently of SCTLR2_ELx.EnANERR and HCRX_EL2.EnSNERR.

All other values are reserved.

When FEAT_RASv2 is implemented and ID_AA64MMFR3_EL1.ADERR is 0b0000, the value of this field is 0b0001.

When ID_AA64MMFR3_EL1.ADERR is 0b0001, the value of this field is 0b0000.

When ID_AA64MMFR3_EL1.ADERR is 0b0010, the value of this field is 0b0010.

When ID_AA64MMFR3_EL1.ADERR is 0b0011, the value of this field is 0b0011.

FEAT_ADERR implements the functionality described by the value 0b0010.

Access to this field is RO.

Bits [51:48]

Reserved, RES0.

ANERR, bits [47:44]

Asynchronous Normal error exceptions. With ID_AA64MMFR3_EL1.SNERR, describes the PE behavior for error exceptions on Normal memory loads.

The value of this field is an IMPLEMENTATION DEFINED choice of:

ANERRMeaning
0b0000

If FEAT_RASv2 is not implemented and ID_AA64MMFR3_EL1.SNERR is 0b0000, then the behavior is not described. Otherwise, the behavior is described by ID_AA64MMFR3_EL1.SNERR.

0b0001

Some error exceptions for Normal memory loads are taken asynchronously.

0b0010

FEAT_ANERR is implemented. SCTLR2_ELx.EnANERR and HCRX_EL2.EnSNERR are implemented.

If FEAT_ADERR is also implemented, then all the following apply:

  • SCTLR2_ELx.EnANERR should always be set to the same value as SCTLR2_ELx.EnADERR.
  • HCRX_EL2.EnSNERR should always be set to the same value as HCRX_EL2.EnSDERR.
0b0011

FEAT_ANERR is implemented. SCTLR2_ELx.EnANERR and HCRX_EL2.EnSNERR are implemented.

If FEAT_ADERR is also implemented, then SCTLR2_ELx.EnANERR and HCRX_EL2.EnSNERR operate independently of SCTLR2_ELx.EnADERR and HCRX_EL2.EnSDERR.

All other values are reserved.

When FEAT_RASv2 is implemented and ID_AA64MMFR3_EL1.SNERR is 0b0000, the value of this field is 0b0001.

When ID_AA64MMFR3_EL1.SNERR is 0b0001, the value of this field is 0b0000.

When ID_AA64MMFR3_EL1.SNERR is 0b0010, the value of this field is 0b0010.

When ID_AA64MMFR3_EL1.SNERR is 0b0011, the value of this field is 0b0011.

FEAT_ANERR implements the functionality described by the value 0b0010.

Access to this field is RO.

SNERR, bits [43:40]

Synchronous Normal error exceptions. With ID_AA64MMFR3_EL1.ANERR, describes the PE behavior for error exceptions on Normal memory loads.

The value of this field is an IMPLEMENTATION DEFINED choice of:

SNERRMeaning
0b0000

If FEAT_RASv2 is not implemented and ID_AA64MMFR3_EL1.ANERR is 0b0000, then the behavior is not described. Otherwise, the behavior is described by ID_AA64MMFR3_EL1.ANERR.

0b0001

All error exceptions for Normal memory loads are taken synchronously.

0b0010

FEAT_ANERR is implemented. SCTLR2_ELx.EnANERR and HCRX_EL2.EnSNERR are implemented.

If FEAT_ADERR is also implemented, then all the following apply:

  • SCTLR2_ELx.EnANERR should always be set to the same value as SCTLR2_ELx.EnADERR.
  • HCRX_EL2.EnSNERR should always be set to the same value as HCRX_EL2.EnSDERR.
0b0011

FEAT_ANERR is implemented. SCTLR2_ELx.EnANERR and HCRX_EL2.EnSNERR are implemented.

If FEAT_ADERR is also implemented, then SCTLR2_ELx.EnANERR and HCRX_EL2.EnSNERR operate independently of SCTLR2_ELx.EnADERR and HCRX_EL2.EnSDERR.

All other values are reserved.

When FEAT_RASv2 is implemented and ID_AA64MMFR3_EL1.ANERR is 0b0000, the value of this field is 0b0001.

When ID_AA64MMFR3_EL1.ANERR is 0b0001, the value of this field is 0b0000.

When ID_AA64MMFR3_EL1.ANERR is 0b0010, the value of this field is 0b0010.

When ID_AA64MMFR3_EL1.ANERR is 0b0011, the value of this field is 0b0011.

FEAT_ANERR implements the functionality described by the value 0b0010.

Access to this field is RO.

D128_2, bits [39:36]

128-bit translation table descriptor at stage 2. Indicates support for 128-bit translation table descriptor at stage 2.

The value of this field is an IMPLEMENTATION DEFINED choice of:

D128_2Meaning
0b0000

128-bit translation table descriptor Extension at stage 2 is not supported.

0b0001

128-bit translation table descriptor Extension at stage 2 is supported.

All other values are reserved.

Access to this field is RO.

D128, bits [35:32]

128-bit translation table descriptor. Indicates support for 128-bit translation table descriptor.

The value of this field is an IMPLEMENTATION DEFINED choice of:

D128Meaning
0b0000

128-bit translation table descriptor Extension is not supported.

0b0001

128-bit translation table descriptor Extension is supported.

All other values are reserved.

Access to this field is RO.

MEC, bits [31:28]

Indicates support for Memory Encryption Contexts.

The value of this field is an IMPLEMENTATION DEFINED choice of:

MECMeaning
0b0000

Memory Encryption Contexts is not supported.

0b0001

Memory Encryption Contexts is supported, with multiple contexts in the Realm physical address space.

All other values are reserved.

FEAT_MEC implements the functionality identified by the value 0b0001.

Access to this field is RO.

AIE, bits [27:24]

Attribute Indexing. Indicates support for the Attribute Index Enhancement.

The value of this field is an IMPLEMENTATION DEFINED choice of:

AIEMeaning
0b0000

The Attribute Index Enhancement is not supported.

0b0001

The Attribute Index Enhancement at stage 1 is supported.

All other values are reserved.

FEAT_AIE implements the functionality identified by the value 0b0001.

Access to this field is RO.

S2POE, bits [23:20]

Stage 2 Permission Overlay. Indicates support for Permission Overlay at stage 2.

The value of this field is an IMPLEMENTATION DEFINED choice of:

S2POEMeaning
0b0000

Permission Overlay at stage 2 is not supported.

0b0001

Permission Overlay at stage 2 is supported.

All other values are reserved.

FEAT_S2POE implements the functionality identified by the value 0b0001.

Access to this field is RO.

S1POE, bits [19:16]

Stage 1 Permission Overlay. Indicates support for Permission Overlay at stage 1.

The value of this field is an IMPLEMENTATION DEFINED choice of:

S1POEMeaning
0b0000

Permission Overlay at stage 1 is not supported.

0b0001

Permission Overlay at stage 1 is supported.

All other values are reserved.

FEAT_S1POE implements the functionality identified by the value 0b0001.

Access to this field is RO.

S2PIE, bits [15:12]

Stage 2 Permission Indirection. Indicates support for Permission Indirection at stage 2.

The value of this field is an IMPLEMENTATION DEFINED choice of:

S2PIEMeaning
0b0000

Permission Indirection at stage 2 is not supported.

0b0001

Permission Indirection at stage 2 is supported.

All other values are reserved.

FEAT_S2PIE implements the functionality identified by the value 0b0001.

Access to this field is RO.

S1PIE, bits [11:8]

Stage 1 Permission Indirection. Indicates support for Permission Indirection at stage 1.

The value of this field is an IMPLEMENTATION DEFINED choice of:

S1PIEMeaning
0b0000

Permission Indirection at stage 1 is not supported.

0b0001

Permission Indirection at stage 1 is supported.

All other values are reserved.

FEAT_S1PIE implements the functionality identified by the value 0b0001.

Access to this field is RO.

SCTLRX, bits [7:4]

SCTLR Extension. Indicates support for extension of SCTLR_ELx.

The value of this field is an IMPLEMENTATION DEFINED choice of:

SCTLRXMeaning
0b0000

SCTLR2_EL1, SCTLR2_EL2, SCTLR2_EL3 registers, and their associated trap controls are not implemented.

0b0001

SCTLR2_EL1, SCTLR2_EL2, SCTLR2_EL3 resisters, and their associated trap controls are implemented.

All other values are reserved.

Access to this field is RO.

TCRX, bits [3:0]

TCR Extension. Indicates support for extension of TCR_ELx.

The value of this field is an IMPLEMENTATION DEFINED choice of:

TCRXMeaning
0b0000

TCR2_EL1, TCR2_EL2, and their associated trap controls are not implemented.

0b0001

TCR2_EL1, TCR2_EL2, and their associated trap controls are implemented.

All other values are reserved.

Access to this field is RO.

Accessing ID_AA64MMFR3_EL1

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

MRS <Xt>, ID_AA64MMFR3_EL1

op0op1CRnCRmop2
0b110b0000b00000b01110b011

if PSTATE.EL == EL0 then if IsFeatureImplemented(FEAT_IDST) then if EL2Enabled() && HCR_EL2.TGE == '1' then AArch64.SystemAccessTrap(EL2, 0x18); else AArch64.SystemAccessTrap(EL1, 0x18); else UNDEFINED; elsif PSTATE.EL == EL1 then if EL2Enabled() && (IsFeatureImplemented(FEAT_FGT) || !IsZero(ID_AA64MMFR3_EL1) || boolean IMPLEMENTATION_DEFINED "ID_AA64MMFR3_EL1 trapped by HCR_EL2.TID3") && HCR_EL2.TID3 == '1' then AArch64.SystemAccessTrap(EL2, 0x18); else X[t, 64] = ID_AA64MMFR3_EL1; elsif PSTATE.EL == EL2 then X[t, 64] = ID_AA64MMFR3_EL1; elsif PSTATE.EL == EL3 then X[t, 64] = ID_AA64MMFR3_EL1;