HFGITR

This register is present only when FEAT_FGT is implemented. Otherwise, direct accesses to HFGITR_EL2 are UNDEFINED.

Attributes

Field descriptions

Bit [63]

ATS1E1A, bit [62]
When FEAT_ATS1A is implemented:

Trap execution of AT S1E1A at EL1 using AArch64 to EL2.

ATS1E1A	Meaning
0b0	Execution of AT S1E1A is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of AT S1E1A at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

Bit [61]

COSPRCTX, bit [60]
When FEAT_SPECRES2 is implemented:

Trap execution of COSP RCTX at EL1 and EL0 using AArch64 and execution of COSPRCTX at EL0 using AArch32 when EL1 is using AArch64 to EL2.

COSPRCTX	Meaning
0b0	Execution of COSP RCTX at EL1 and EL0 using AArch64 and execution of COSPRCTX at EL0 using AArch32 are not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, the Effective value of HCR_EL2.{E2H, TGE} is not {1, 1}, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then unless the instruction generates a higher priority exception: Execution of COSP RCTX at EL1 and EL0 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18. Execution of COSPRCTX at EL0 using AArch32 when EL1 is using AArch64 is trapped to EL2 and reported with EC syndrome value 0x03.

COSPRCTX

Meaning

0b0

Execution of COSP RCTX at EL1 and EL0 using AArch64 and execution of COSPRCTX at EL0 using AArch32 are not trapped by this mechanism.

0b1

If EL2 is implemented and enabled in the current Security state, the Effective value of HCR_EL2.{E2H, TGE} is not {1, 1}, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then unless the instruction generates a higher priority exception:

Execution of COSP RCTX at EL1 and EL0 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18.
Execution of COSPRCTX at EL0 using AArch32 when EL1 is using AArch64 is trapped to EL2 and reported with EC syndrome value 0x03.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

nGCSEPP, bit [59]
When FEAT_GCS is implemented:

Trap execution of any of the following AArch64 instructions at EL1 to EL2:

GCSPUSHX.
GCSPOPCX.

nGCSEPP	Meaning
0b0	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution at EL1 using AArch64 of any of the specified instructions is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.
0b1	Execution of the specified instructions is not trapped by this mechanism.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

nGCSSTR_EL1, bit [58]
When FEAT_GCS is implemented:

Trap execution of any of the following AArch64 instructions at EL1 to EL2:

GCSSTR.
GCSSTTR when PSTATE.UAO is 1.
GCSSTTR when the Effective value of HCR_EL2.{NV, NV1} is {1, 1}.

nGCSSTR_EL1	Meaning
0b0	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution at EL1 using AArch64 of any of the specified instructions generates a GCS exception with EC syndrome value 0x2D, unless the instruction generates a higher priority exception.
0b1	Execution of the specified instructions is not trapped by this mechanism.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

nGCSPUSHM_EL1, bit [57]
When FEAT_GCS is implemented:

Trap execution of GCSPUSHM at EL1 using AArch64 to EL2.

nGCSPUSHM_EL1	Meaning
0b0	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of GCSPUSHM at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.
0b1	Execution of GCSPUSHM is not trapped by this mechanism.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

nBRBIALL, bit [56]
When FEAT_BRBE is implemented:

Trap execution of BRB IALL at EL1 using AArch64 to EL2.

nBRBIALL	Meaning
0b0	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of BRB IALL at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.
0b1	Execution of BRB IALL is not trapped by this mechanism.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

nBRBINJ, bit [55]
When FEAT_BRBE is implemented:

Trap execution of BRB INJ at EL1 using AArch64 to EL2.

nBRBINJ	Meaning
0b0	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of BRB INJ at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.
0b1	Execution of BRB INJ is not trapped by this mechanism.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

DCCVAC, bit [54]

Trap execution of any of the following AArch64 instructions at EL1 and EL0 to EL2:

DC CVAC.
DC CGVAC, if FEAT_MTE is implemented.
DC CGDVAC, if FEAT_MTE is implemented.

If the Point of Coherence is before any level of data cache, it is IMPLEMENTATION DEFINED whether the execution of the affected instruction is trapped when the value of this control is 1.

DCCVAC	Meaning
0b0	Execution of the specified instructions is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, the Effective value of HCR_EL2.{E2H, TGE} is not {1, 1}, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution at EL1 and EL0 using AArch64 of any of the specified instructions is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

SVC_EL1, bit [53]

Trap execution of SVC at EL1 using AArch64 to EL2.

SVC_EL1	Meaning
0b0	Execution of SVC is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of SVC at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x15, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

SVC_EL0, bit [52]

Trap execution of SVC at EL0 using AArch64 and execution of SVC at EL0 using AArch32 when EL1 is using AArch64 to EL2.

SVC_EL0	Meaning
0b0	Execution of SVC at EL0 using AArch64 and execution of SVC at EL0 using AArch32 are not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, the Effective value of HCR_EL2.{E2H, TGE} is not {1, 1}, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then unless the instruction generates a higher priority exception: Execution of SVC at EL0 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x15. Execution of SVC at EL0 using AArch32 when EL1 is using AArch64 is trapped to EL2 and reported with EC syndrome value 0x11.

SVC_EL0

Meaning

0b0

Execution of SVC at EL0 using AArch64 and execution of SVC at EL0 using AArch32 are not trapped by this mechanism.

0b1

Execution of SVC at EL0 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x15.
Execution of SVC at EL0 using AArch32 when EL1 is using AArch64 is trapped to EL2 and reported with EC syndrome value 0x11.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

ERET, bit [51]

Trap execution of any of the following AArch64 instructions at EL1 to EL2:

ERET.
ERETAA, if FEAT_PAuth is implemented.
ERETAB, if FEAT_PAuth is implemented.

ERET	Meaning
0b0	Execution of the specified instructions is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution at EL1 using AArch64 of any of the specified instructions is trapped to EL2 and reported with EC syndrome value 0x1A, unless the instruction generates a higher priority exception.

If EL2 is implemented and enabled in the current Security state, HCR_EL2.API == 0, and this field enables a fine-grained trap on the instruction, then execution at EL1 using AArch64 of ERETAA or ERETAB instructions is trapped to EL2 and reported with EC syndrome value 0x1A with its associated ISS field, as the fine-grained trap has higher priority than the trap enabled by HCR_EL2.API == 0.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

CPPRCTX, bit [50]
When FEAT_SPECRES is implemented:

Trap execution of CPP RCTX at EL1 and EL0 using AArch64 and execution of CPPRCTX at EL0 using AArch32 when EL1 is using AArch64 to EL2.

CPPRCTX	Meaning
0b0	Execution of CPP RCTX at EL1 and EL0 using AArch64 and execution of CPPRCTX at EL0 using AArch32 are not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, the Effective value of HCR_EL2.{E2H, TGE} is not {1, 1}, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then unless the instruction generates a higher priority exception: Execution of CPP RCTX at EL1 and EL0 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18. Execution of CPPRCTX at EL0 using AArch32 when EL1 is using AArch64 is trapped to EL2 and reported with EC syndrome value 0x03.

CPPRCTX

Meaning

0b0

Execution of CPP RCTX at EL1 and EL0 using AArch64 and execution of CPPRCTX at EL0 using AArch32 are not trapped by this mechanism.

0b1

Execution of CPP RCTX at EL1 and EL0 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18.
Execution of CPPRCTX at EL0 using AArch32 when EL1 is using AArch64 is trapped to EL2 and reported with EC syndrome value 0x03.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

DVPRCTX, bit [49]
When FEAT_SPECRES is implemented:

Trap execution of DVP RCTX at EL1 and EL0 using AArch64 and execution of DVPRCTX at EL0 using AArch32 when EL1 is using AArch64 to EL2.

DVPRCTX	Meaning
0b0	Execution of DVP RCTX at EL1 and EL0 using AArch64 and execution of DVPRCTX at EL0 using AArch32 are not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, the Effective value of HCR_EL2.{E2H, TGE} is not {1, 1}, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then unless the instruction generates a higher priority exception: Execution of DVP RCTX at EL1 and EL0 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18. Execution of DVPRCTX at EL0 using AArch32 when EL1 is using AArch64 is trapped to EL2 and reported with EC syndrome value 0x03.

DVPRCTX

Meaning

0b0

Execution of DVP RCTX at EL1 and EL0 using AArch64 and execution of DVPRCTX at EL0 using AArch32 are not trapped by this mechanism.

0b1

Execution of DVP RCTX at EL1 and EL0 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18.
Execution of DVPRCTX at EL0 using AArch32 when EL1 is using AArch64 is trapped to EL2 and reported with EC syndrome value 0x03.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

CFPRCTX, bit [48]
When FEAT_SPECRES is implemented:

Trap execution of CFP RCTX at EL1 and EL0 using AArch64 and execution of CFPRCTX at EL0 using AArch32 when EL1 is using AArch64 to EL2.

CFPRCTX	Meaning
0b0	Execution of CFP RCTX at EL1 and EL0 using AArch64 and execution of CFPRCTX at EL0 using AArch32 are not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, the Effective value of HCR_EL2.{E2H, TGE} is not {1, 1}, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then unless the instruction generates a higher priority exception: Execution of CFP RCTX at EL1 and EL0 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18. Execution of CFPRCTX at EL0 using AArch32 when EL1 is using AArch64 is trapped to EL2 and reported with EC syndrome value 0x03.

CFPRCTX

Meaning

0b0

Execution of CFP RCTX at EL1 and EL0 using AArch64 and execution of CFPRCTX at EL0 using AArch32 are not trapped by this mechanism.

0b1

Execution of CFP RCTX at EL1 and EL0 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18.
Execution of CFPRCTX at EL0 using AArch32 when EL1 is using AArch64 is trapped to EL2 and reported with EC syndrome value 0x03.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

TLBIVAALE1, bit [47]

Trap execution of TLBI VAALE1 at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI VAALE1NXS.

TLBIVAALE1	Meaning
0b0	Execution of TLBI VAALE1 is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI VAALE1 at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

TLBIVALE1, bit [46]

Trap execution of TLBI VALE1 at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI VALE1NXS.

TLBIVALE1	Meaning
0b0	Execution of TLBI VALE1 is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI VALE1 at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

TLBIVAAE1, bit [45]

Trap execution of TLBI VAAE1 at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI VAAE1NXS.

TLBIVAAE1	Meaning
0b0	Execution of TLBI VAAE1 is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI VAAE1 at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

TLBIASIDE1, bit [44]

Trap execution of TLBI ASIDE1 at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI ASIDE1NXS.

TLBIASIDE1	Meaning
0b0	Execution of TLBI ASIDE1 is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI ASIDE1 at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

TLBIVAE1, bit [43]

Trap execution of TLBI VAE1 at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI VAE1NXS.

TLBIVAE1	Meaning
0b0	Execution of TLBI VAE1 is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI VAE1 at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

TLBIVMALLE1, bit [42]

Trap execution of TLBI VMALLE1 at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI VMALLE1NXS.

TLBIVMALLE1	Meaning
0b0	Execution of TLBI VMALLE1 is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI VMALLE1 at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

TLBIRVAALE1, bit [41]
When FEAT_TLBIRANGE is implemented:

Trap execution of TLBI RVAALE1 at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI RVAALE1NXS.

TLBIRVAALE1	Meaning
0b0	Execution of TLBI RVAALE1 is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI RVAALE1 at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

TLBIRVALE1, bit [40]
When FEAT_TLBIRANGE is implemented:

Trap execution of TLBI RVALE1 at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI RVALE1NXS.

TLBIRVALE1	Meaning
0b0	Execution of TLBI RVALE1 is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI RVALE1 at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

TLBIRVAAE1, bit [39]
When FEAT_TLBIRANGE is implemented:

Trap execution of TLBI RVAAE1 at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI RVAAE1NXS.

TLBIRVAAE1	Meaning
0b0	Execution of TLBI RVAAE1 is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI RVAAE1 at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

TLBIRVAE1, bit [38]
When FEAT_TLBIRANGE is implemented:

Trap execution of TLBI RVAE1 at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI RVAE1NXS.

TLBIRVAE1	Meaning
0b0	Execution of TLBI RVAE1 is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI RVAE1 at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

TLBIRVAALE1IS, bit [37]
When FEAT_TLBIRANGE is implemented:

Trap execution of TLBI RVAALE1IS at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI RVAALE1ISNXS.

TLBIRVAALE1IS	Meaning
0b0	Execution of TLBI RVAALE1IS is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI RVAALE1IS at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

TLBIRVALE1IS, bit [36]
When FEAT_TLBIRANGE is implemented:

Trap execution of TLBI RVALE1IS at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI RVALE1ISNXS.

TLBIRVALE1IS	Meaning
0b0	Execution of TLBI RVALE1IS is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI RVALE1IS at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

TLBIRVAAE1IS, bit [35]
When FEAT_TLBIRANGE is implemented:

Trap execution of TLBI RVAAE1IS at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI RVAAE1ISNXS.

TLBIRVAAE1IS	Meaning
0b0	Execution of TLBI RVAAE1IS is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI RVAAE1IS at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

TLBIRVAE1IS, bit [34]
When FEAT_TLBIRANGE is implemented:

Trap execution of TLBI RVAE1IS at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI RVAE1ISNXS.

TLBIRVAE1IS	Meaning
0b0	Execution of TLBI RVAE1IS is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI RVAE1IS at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

TLBIVAALE1IS, bit [33]

Trap execution of TLBI VAALE1IS at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI VAALE1ISNXS.

TLBIVAALE1IS	Meaning
0b0	Execution of TLBI VAALE1IS is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI VAALE1IS at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

TLBIVALE1IS, bit [32]

Trap execution of TLBI VALE1IS at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI VALE1ISNXS.

TLBIVALE1IS	Meaning
0b0	Execution of TLBI VALE1IS is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI VALE1IS at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

TLBIVAAE1IS, bit [31]

Trap execution of TLBI VAAE1IS at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI VAAE1ISNXS.

TLBIVAAE1IS	Meaning
0b0	Execution of TLBI VAAE1IS is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI VAAE1IS at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

TLBIASIDE1IS, bit [30]

Trap execution of TLBI ASIDE1IS at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI ASIDE1ISNXS.

TLBIASIDE1IS	Meaning
0b0	Execution of TLBI ASIDE1IS is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI ASIDE1IS at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

TLBIVAE1IS, bit [29]

Trap execution of TLBI VAE1IS at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI VAE1ISNXS.

TLBIVAE1IS	Meaning
0b0	Execution of TLBI VAE1IS is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI VAE1IS at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

TLBIVMALLE1IS, bit [28]

Trap execution of TLBI VMALLE1IS at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI VMALLE1ISNXS.

TLBIVMALLE1IS	Meaning
0b0	Execution of TLBI VMALLE1IS is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI VMALLE1IS at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

TLBIRVAALE1OS, bit [27]
When FEAT_TLBIRANGE is implemented and FEAT_TLBIOS is implemented:

Trap execution of TLBI RVAALE1OS at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI RVAALE1OSNXS.

TLBIRVAALE1OS	Meaning
0b0	Execution of TLBI RVAALE1OS is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI RVAALE1OS at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

TLBIRVALE1OS, bit [26]
When FEAT_TLBIRANGE is implemented and FEAT_TLBIOS is implemented:

Trap execution of TLBI RVALE1OS at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI RVALE1OSNXS.

TLBIRVALE1OS	Meaning
0b0	Execution of TLBI RVALE1OS is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI RVALE1OS at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

TLBIRVAAE1OS, bit [25]
When FEAT_TLBIRANGE is implemented and FEAT_TLBIOS is implemented:

Trap execution of TLBI RVAAE1OS at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI RVAAE1OSNXS.

TLBIRVAAE1OS	Meaning
0b0	Execution of TLBI RVAAE1OS is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI RVAAE1OS at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

TLBIRVAE1OS, bit [24]
When FEAT_TLBIRANGE is implemented and FEAT_TLBIOS is implemented:

Trap execution of TLBI RVAE1OS at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI RVAE1OSNXS.

TLBIRVAE1OS	Meaning
0b0	Execution of TLBI RVAE1OS is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI RVAE1OS at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

TLBIVAALE1OS, bit [23]
When FEAT_TLBIOS is implemented:

Trap execution of TLBI VAALE1OS at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI VAALE1OSNXS.

TLBIVAALE1OS	Meaning
0b0	Execution of TLBI VAALE1OS is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI VAALE1OS at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

TLBIVALE1OS, bit [22]
When FEAT_TLBIOS is implemented:

Trap execution of TLBI VALE1OS at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI VALE1OSNXS.

TLBIVALE1OS	Meaning
0b0	Execution of TLBI VALE1OS is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI VALE1OS at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

TLBIVAAE1OS, bit [21]
When FEAT_TLBIOS is implemented:

Trap execution of TLBI VAAE1OS at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI VAAE1OSNXS.

TLBIVAAE1OS	Meaning
0b0	Execution of TLBI VAAE1OS is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI VAAE1OS at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

TLBIASIDE1OS, bit [20]
When FEAT_TLBIOS is implemented:

Trap execution of TLBI ASIDE1OS at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI ASIDE1OSNXS.

TLBIASIDE1OS	Meaning
0b0	Execution of TLBI ASIDE1OS is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI ASIDE1OS at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

TLBIVAE1OS, bit [19]
When FEAT_TLBIOS is implemented:

Trap execution of TLBI VAE1OS at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI VAE1OSNXS.

TLBIVAE1OS	Meaning
0b0	Execution of TLBI VAE1OS is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI VAE1OS at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

TLBIVMALLE1OS, bit [18]
When FEAT_TLBIOS is implemented:

Trap execution of TLBI VMALLE1OS at EL1 using AArch64 to EL2.

If FEAT_XS is implemented and HCRX_EL2.FGTnXS == 0, this field also traps execution of TLBI VMALLE1OSNXS.

TLBIVMALLE1OS	Meaning
0b0	Execution of TLBI VMALLE1OS is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of TLBI VMALLE1OS at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

ATS1E1WP, bit [17]
When FEAT_PAN2 is implemented:

Trap execution of AT S1E1WP at EL1 using AArch64 to EL2.

ATS1E1WP	Meaning
0b0	Execution of AT S1E1WP is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of AT S1E1WP at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

ATS1E1RP, bit [16]
When FEAT_PAN2 is implemented:

Trap execution of AT S1E1RP at EL1 using AArch64 to EL2.

ATS1E1RP	Meaning
0b0	Execution of AT S1E1RP is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of AT S1E1RP at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

ATS1E0W, bit [15]

Trap execution of AT S1E0W at EL1 using AArch64 to EL2.

ATS1E0W	Meaning
0b0	Execution of AT S1E0W is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of AT S1E0W at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

ATS1E0R, bit [14]

Trap execution of AT S1E0R at EL1 using AArch64 to EL2.

ATS1E0R	Meaning
0b0	Execution of AT S1E0R is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of AT S1E0R at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

ATS1E1W, bit [13]

Trap execution of AT S1E1W at EL1 using AArch64 to EL2.

ATS1E1W	Meaning
0b0	Execution of AT S1E1W is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of AT S1E1W at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

ATS1E1R, bit [12]

Trap execution of AT S1E1R at EL1 using AArch64 to EL2.

ATS1E1R	Meaning
0b0	Execution of AT S1E1R is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of AT S1E1R at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

DCZVA, bit [11]

Trap execution of any of the following AArch64 instructions at EL1 and EL0 to EL2:

DC ZVA.
DC GVA, if FEAT_MTE is implemented.
DC GZVA, if FEAT_MTE is implemented.

Note

Unlike HCR_EL2.TDZ, this field has no effect on DCZID_EL0.DZP.

DCZVA	Meaning
0b0	Execution of the specified instructions is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, the Effective value of HCR_EL2.{E2H, TGE} is not {1, 1}, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution at EL1 and EL0 using AArch64 of any of the specified instructions is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

DCCIVAC, bit [10]

Trap execution of any of the following AArch64 instructions at EL1 and EL0 to EL2:

DC CIVAC.
DC CIGVAC, if FEAT_MTE is implemented.
DC CIGDVAC, if FEAT_MTE is implemented.

If the Point of Coherence is before any level of data cache, it is IMPLEMENTATION DEFINED whether the execution of the affected instruction is trapped when the value of this control is 1.

DCCIVAC	Meaning
0b0	Execution of the specified instructions is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, the Effective value of HCR_EL2.{E2H, TGE} is not {1, 1}, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution at EL1 and EL0 using AArch64 of any of the specified instructions is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

DCCVADP, bit [9]
When FEAT_DPB2 is implemented:

Trap execution of any of the following AArch64 instructions at EL1 and EL0 to EL2:

DC CVADP.
DC CGVADP, if FEAT_MTE is implemented.
DC CGDVADP, if FEAT_MTE is implemented.

If the Point of Deep Persistence is before any level of data cache, it is IMPLEMENTATION DEFINED whether the execution of the affected instruction is trapped when the value of this control is 1.

DCCVADP	Meaning
0b0	Execution of the specified instructions is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, the Effective value of HCR_EL2.{E2H, TGE} is not {1, 1}, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution at EL1 and EL0 using AArch64 of any of the specified instructions is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Otherwise:

DCCVAP, bit [8]

Trap execution of any of the following AArch64 instructions at EL1 and EL0 to EL2:

DC CVAP.
DC CGVAP, if FEAT_MTE is implemented.
DC CGDVAP, if FEAT_MTE is implemented.

If the Point of Persistence is before any level of data cache, it is IMPLEMENTATION DEFINED whether the execution of the affected instruction is trapped when the value of this control is 1.

DCCVAP	Meaning
0b0	Execution of the specified instructions is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, the Effective value of HCR_EL2.{E2H, TGE} is not {1, 1}, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution at EL1 and EL0 using AArch64 of any of the specified instructions is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

DCCVAU, bit [7]

Trap execution of DC CVAU at EL1 and EL0 using AArch64 to EL2.

If the Point of Unification is before any level of data cache, it is IMPLEMENTATION DEFINED whether the execution of the affected instruction is trapped when the value of this control is 1.

DCCVAU	Meaning
0b0	Execution of DC CVAU is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, the Effective value of HCR_EL2.{E2H, TGE} is not {1, 1}, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of DC CVAU at EL1 and EL0 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

DCCISW, bit [6]

Trap execution of any of the following AArch64 instructions at EL1 to EL2:

DC CISW.
DC CIGSW, if FEAT_MTE2 is implemented.
DC CIGDSW, if FEAT_MTE2 is implemented.

DCCISW	Meaning
0b0	Execution of the specified instructions is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution at EL1 using AArch64 of any of the specified instructions is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

DCCSW, bit [5]

Trap execution of any of the following AArch64 instructions at EL1 to EL2:

DC CSW.
DC CGSW, if FEAT_MTE2 is implemented.
DC CGDSW, if FEAT_MTE2 is implemented.

DCCSW	Meaning
0b0	Execution of the specified instructions is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution at EL1 using AArch64 of any of the specified instructions is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

DCISW, bit [4]

Trap execution of any of the following AArch64 instructions at EL1 to EL2:

DC ISW.
DC IGSW, if FEAT_MTE2 is implemented.
DC IGDSW, if FEAT_MTE2 is implemented.

DCISW	Meaning
0b0	Execution of the specified instructions is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution at EL1 using AArch64 of any of the specified instructions is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

DCIVAC, bit [3]

Trap execution of any of the following AArch64 instructions at EL1 to EL2:

DC IVAC.
DC IGVAC, if FEAT_MTE2 is implemented.
DC IGDVAC, if FEAT_MTE2 is implemented.

If the Point of Coherence is before any level of data cache, it is IMPLEMENTATION DEFINED whether the execution of the affected instruction is trapped when the value of this control is 1.

DCIVAC	Meaning
0b0	Execution of the specified instructions is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution at EL1 using AArch64 of any of the specified instructions is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

ICIVAU, bit [2]

Trap execution of IC IVAU at EL1 and EL0 using AArch64 to EL2.

If the Point of Unification is before any level of data cache, it is IMPLEMENTATION DEFINED whether the execution of the affected instruction is trapped when the value of this control is 1.

ICIVAU	Meaning
0b0	Execution of IC IVAU is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, the Effective value of HCR_EL2.{E2H, TGE} is not {1, 1}, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of IC IVAU at EL1 and EL0 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

ICIALLU, bit [1]

Trap execution of IC IALLU at EL1 using AArch64 to EL2.

If the Point of Unification is before any level of data cache, it is IMPLEMENTATION DEFINED whether the execution of the affected instruction is trapped when the value of this control is 1.

ICIALLU	Meaning
0b0	Execution of IC IALLU is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of IC IALLU at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

ICIALLUIS, bit [0]

Trap execution of IC IALLUIS at EL1 using AArch64 to EL2.

If the Point of Unification is before any level of data cache, it is IMPLEMENTATION DEFINED whether the execution of the affected instruction is trapped when the value of this control is 1.

ICIALLUIS	Meaning
0b0	Execution of IC IALLUIS is not trapped by this mechanism.
0b1	If EL2 is implemented and enabled in the current Security state, and either EL3 is not implemented or SCR_EL3.FGTEn == 1, then execution of IC IALLUIS at EL1 using AArch64 is trapped to EL2 and reported with EC syndrome value 0x18, unless the instruction generates a higher priority exception.

The reset behavior of this field is:

On a Warm reset:
- When the highest implemented Exception level is EL2, this field resets to 0.
- Otherwise, this field resets to an architecturally UNKNOWN value.

Accessing HFGITR_EL2

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

MRS <Xt>, HFGITR_EL2

op0	op1	CRn	CRm	op2
0b11	0b100	0b0001	0b0001	0b110

if PSTATE.EL == EL0 then UNDEFINED; elsif PSTATE.EL == EL1 then if EffectiveHCR_EL2_NVx() IN {'1x1'} then X[t, 64] = NVMem[0x1C8]; elsif EffectiveHCR_EL2_NVx() IN {'xx1'} then AArch64.SystemAccessTrap(EL2, 0x18); else UNDEFINED; elsif PSTATE.EL == EL2 then if HaveEL(EL3) && EL3SDDUndefPriority() && SCR_EL3.FGTEn == '0' then UNDEFINED; elsif HaveEL(EL3) && SCR_EL3.FGTEn == '0' then if EL3SDDUndef() then UNDEFINED; else AArch64.SystemAccessTrap(EL3, 0x18); else X[t, 64] = HFGITR_EL2; elsif PSTATE.EL == EL3 then X[t, 64] = HFGITR_EL2;

MSR HFGITR_EL2, <Xt>

op0	op1	CRn	CRm	op2
0b11	0b100	0b0001	0b0001	0b110

if PSTATE.EL == EL0 then UNDEFINED; elsif PSTATE.EL == EL1 then if EffectiveHCR_EL2_NVx() IN {'1x1'} then NVMem[0x1C8] = X[t, 64]; elsif EffectiveHCR_EL2_NVx() IN {'xx1'} then AArch64.SystemAccessTrap(EL2, 0x18); else UNDEFINED; elsif PSTATE.EL == EL2 then if HaveEL(EL3) && EL3SDDUndefPriority() && SCR_EL3.FGTEn == '0' then UNDEFINED; elsif HaveEL(EL3) && SCR_EL3.FGTEn == '0' then if EL3SDDUndef() then UNDEFINED; else AArch64.SystemAccessTrap(EL3, 0x18); else HFGITR_EL2 = X[t, 64]; elsif PSTATE.EL == EL3 then HFGITR_EL2 = X[t, 64];

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
RES0	ATS1E1A	RES0	COSPRCTX	nGCSEPP	nGCSSTR_EL1	nGCSPUSHM_EL1	nBRBIALL	nBRBINJ	DCCVAC	SVC_EL1	SVC_EL0	ERET	CPPRCTX	DVPRCTX	CFPRCTX	TLBIVAALE1	TLBIVALE1	TLBIVAAE1	TLBIASIDE1	TLBIVAE1	TLBIVMALLE1	TLBIRVAALE1	TLBIRVALE1	TLBIRVAAE1	TLBIRVAE1	TLBIRVAALE1IS	TLBIRVALE1IS	TLBIRVAAE1IS	TLBIRVAE1IS	TLBIVAALE1IS	TLBIVALE1IS
TLBIVAAE1IS	TLBIASIDE1IS	TLBIVAE1IS	TLBIVMALLE1IS	TLBIRVAALE1OS	TLBIRVALE1OS	TLBIRVAAE1OS	TLBIRVAE1OS	TLBIVAALE1OS	TLBIVALE1OS	TLBIVAAE1OS	TLBIASIDE1OS	TLBIVAE1OS	TLBIVMALLE1OS	ATS1E1WP	ATS1E1RP	ATS1E0W	ATS1E0R	ATS1E1W	ATS1E1R	DCZVA	DCCIVAC	DCCVADP	DCCVAP	DCCVAU	DCCISW	DCCSW	DCISW	DCIVAC	ICIVAU	ICIALLU	ICIALLUIS

HFGITR_EL2, Hypervisor Fine-Grained Instruction Trap Register

Purpose

Configuration

Attributes

Field descriptions

Bit [63]

ATS1E1A, bit [62]When FEAT_ATS1A is implemented:

Otherwise:

Bit [61]

COSPRCTX, bit [60]When FEAT_SPECRES2 is implemented:

Otherwise:

nGCSEPP, bit [59]When FEAT_GCS is implemented:

Otherwise:

nGCSSTR_EL1, bit [58]When FEAT_GCS is implemented:

Otherwise:

nGCSPUSHM_EL1, bit [57]When FEAT_GCS is implemented:

Otherwise:

nBRBIALL, bit [56]When FEAT_BRBE is implemented:

Otherwise:

nBRBINJ, bit [55]When FEAT_BRBE is implemented:

Otherwise:

DCCVAC, bit [54]

SVC_EL1, bit [53]

SVC_EL0, bit [52]

ERET, bit [51]

CPPRCTX, bit [50]When FEAT_SPECRES is implemented:

Otherwise:

DVPRCTX, bit [49]When FEAT_SPECRES is implemented:

Otherwise:

CFPRCTX, bit [48]When FEAT_SPECRES is implemented:

Otherwise:

TLBIVAALE1, bit [47]

TLBIVALE1, bit [46]

TLBIVAAE1, bit [45]

TLBIASIDE1, bit [44]

TLBIVAE1, bit [43]

TLBIVMALLE1, bit [42]

TLBIRVAALE1, bit [41]When FEAT_TLBIRANGE is implemented:

Otherwise:

TLBIRVALE1, bit [40]When FEAT_TLBIRANGE is implemented:

Otherwise:

TLBIRVAAE1, bit [39]When FEAT_TLBIRANGE is implemented:

Otherwise:

TLBIRVAE1, bit [38]When FEAT_TLBIRANGE is implemented:

Otherwise:

TLBIRVAALE1IS, bit [37]When FEAT_TLBIRANGE is implemented:

Otherwise:

TLBIRVALE1IS, bit [36]When FEAT_TLBIRANGE is implemented:

Otherwise:

TLBIRVAAE1IS, bit [35]When FEAT_TLBIRANGE is implemented:

Otherwise:

TLBIRVAE1IS, bit [34]When FEAT_TLBIRANGE is implemented:

Otherwise:

TLBIVAALE1IS, bit [33]

TLBIVALE1IS, bit [32]

TLBIVAAE1IS, bit [31]

TLBIASIDE1IS, bit [30]

TLBIVAE1IS, bit [29]

TLBIVMALLE1IS, bit [28]

TLBIRVAALE1OS, bit [27]When FEAT_TLBIRANGE is implemented and FEAT_TLBIOS is implemented:

Otherwise:

TLBIRVALE1OS, bit [26]When FEAT_TLBIRANGE is implemented and FEAT_TLBIOS is implemented:

Otherwise:

TLBIRVAAE1OS, bit [25]When FEAT_TLBIRANGE is implemented and FEAT_TLBIOS is implemented:

Otherwise:

TLBIRVAE1OS, bit [24]When FEAT_TLBIRANGE is implemented and FEAT_TLBIOS is implemented:

Otherwise:

TLBIVAALE1OS, bit [23]When FEAT_TLBIOS is implemented:

Otherwise:

TLBIVALE1OS, bit [22]When FEAT_TLBIOS is implemented:

Otherwise:

TLBIVAAE1OS, bit [21]When FEAT_TLBIOS is implemented:

Otherwise:

TLBIASIDE1OS, bit [20]When FEAT_TLBIOS is implemented:

Otherwise:

TLBIVAE1OS, bit [19]When FEAT_TLBIOS is implemented:

Otherwise:

TLBIVMALLE1OS, bit [18]When FEAT_TLBIOS is implemented:

Otherwise:

ATS1E1WP, bit [17]When FEAT_PAN2 is implemented:

ATS1E1A, bit [62]
When FEAT_ATS1A is implemented:

COSPRCTX, bit [60]
When FEAT_SPECRES2 is implemented:

nGCSEPP, bit [59]
When FEAT_GCS is implemented:

nGCSSTR_EL1, bit [58]
When FEAT_GCS is implemented:

nGCSPUSHM_EL1, bit [57]
When FEAT_GCS is implemented:

nBRBIALL, bit [56]
When FEAT_BRBE is implemented:

nBRBINJ, bit [55]
When FEAT_BRBE is implemented:

CPPRCTX, bit [50]
When FEAT_SPECRES is implemented:

DVPRCTX, bit [49]
When FEAT_SPECRES is implemented:

CFPRCTX, bit [48]
When FEAT_SPECRES is implemented:

TLBIRVAALE1, bit [41]
When FEAT_TLBIRANGE is implemented:

TLBIRVALE1, bit [40]
When FEAT_TLBIRANGE is implemented:

TLBIRVAAE1, bit [39]
When FEAT_TLBIRANGE is implemented:

TLBIRVAE1, bit [38]
When FEAT_TLBIRANGE is implemented:

TLBIRVAALE1IS, bit [37]
When FEAT_TLBIRANGE is implemented:

TLBIRVALE1IS, bit [36]
When FEAT_TLBIRANGE is implemented:

TLBIRVAAE1IS, bit [35]
When FEAT_TLBIRANGE is implemented:

TLBIRVAE1IS, bit [34]
When FEAT_TLBIRANGE is implemented:

TLBIRVAALE1OS, bit [27]
When FEAT_TLBIRANGE is implemented and FEAT_TLBIOS is implemented:

TLBIRVALE1OS, bit [26]
When FEAT_TLBIRANGE is implemented and FEAT_TLBIOS is implemented:

TLBIRVAAE1OS, bit [25]
When FEAT_TLBIRANGE is implemented and FEAT_TLBIOS is implemented:

TLBIRVAE1OS, bit [24]
When FEAT_TLBIRANGE is implemented and FEAT_TLBIOS is implemented:

TLBIVAALE1OS, bit [23]
When FEAT_TLBIOS is implemented:

TLBIVALE1OS, bit [22]
When FEAT_TLBIOS is implemented:

TLBIVAAE1OS, bit [21]
When FEAT_TLBIOS is implemented:

TLBIASIDE1OS, bit [20]
When FEAT_TLBIOS is implemented:

TLBIVAE1OS, bit [19]
When FEAT_TLBIOS is implemented:

TLBIVMALLE1OS, bit [18]
When FEAT_TLBIOS is implemented:

ATS1E1WP, bit [17]
When FEAT_PAN2 is implemented:

ATS1E1RP, bit [16]
When FEAT_PAN2 is implemented:

DCCVADP, bit [9]
When FEAT_DPB2 is implemented: