target/arm: Reorganize ARMMMUIdx
Prepare for, but do not yet implement, the EL2&0 regime. This involves adding the new MMUIdx enumerators and adjusting some of the MMUIdx related predicates to match. Tested-by: Alex Bennée <alex.bennee@linaro.org> Reviewed-by: Alex Bennée <alex.bennee@linaro.org> Signed-off-by: Richard Henderson <richard.henderson@linaro.org> Message-id: 20200206105448.4726-20-richard.henderson@linaro.org Signed-off-by: Peter Maydell <peter.maydell@linaro.org>
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@ -29,6 +29,6 @@
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# define TARGET_PAGE_BITS_MIN 10
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#endif
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#define NB_MMU_MODES 8
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#define NB_MMU_MODES 9
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#endif
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134
target/arm/cpu.h
134
target/arm/cpu.h
@ -2819,18 +2819,21 @@ static inline bool arm_excp_unmasked(CPUState *cs, unsigned int excp_idx,
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* + NonSecure EL1 & 0 stage 1
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* + NonSecure EL1 & 0 stage 2
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* + NonSecure EL2
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* + Secure EL1 & EL0
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* + NonSecure EL2 & 0 (ARMv8.1-VHE)
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* + Secure EL1 & 0
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* + Secure EL3
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* If EL3 is 32-bit:
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* + NonSecure PL1 & 0 stage 1
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* + NonSecure PL1 & 0 stage 2
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* + NonSecure PL2
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* + Secure PL0 & PL1
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* + Secure PL0
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* + Secure PL1
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* (reminder: for 32 bit EL3, Secure PL1 is *EL3*, not EL1.)
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*
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* For QEMU, an mmu_idx is not quite the same as a translation regime because:
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* 1. we need to split the "EL1 & 0" regimes into two mmu_idxes, because they
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* may differ in access permissions even if the VA->PA map is the same
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* 1. we need to split the "EL1 & 0" and "EL2 & 0" regimes into two mmu_idxes,
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* because they may differ in access permissions even if the VA->PA map is
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* the same
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* 2. we want to cache in our TLB the full VA->IPA->PA lookup for a stage 1+2
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* translation, which means that we have one mmu_idx that deals with two
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* concatenated translation regimes [this sort of combined s1+2 TLB is
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@ -2842,19 +2845,23 @@ static inline bool arm_excp_unmasked(CPUState *cs, unsigned int excp_idx,
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* 4. we can also safely fold together the "32 bit EL3" and "64 bit EL3"
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* translation regimes, because they map reasonably well to each other
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* and they can't both be active at the same time.
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* This gives us the following list of mmu_idx values:
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* 5. we want to be able to use the TLB for accesses done as part of a
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* stage1 page table walk, rather than having to walk the stage2 page
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* table over and over.
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*
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* NS EL0 (aka NS PL0) stage 1+2
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* NS EL1 (aka NS PL1) stage 1+2
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* This gives us the following list of cases:
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*
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* NS EL0 EL1&0 stage 1+2 (aka NS PL0)
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* NS EL1 EL1&0 stage 1+2 (aka NS PL1)
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* NS EL0 EL2&0
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* NS EL2 EL2&0
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* NS EL2 (aka NS PL2)
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* S EL0 EL1&0 (aka S PL0)
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* S EL1 EL1&0 (not used if EL3 is 32 bit)
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* S EL3 (aka S PL1)
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* S EL0 (aka S PL0)
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* S EL1 (not used if EL3 is 32 bit)
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* NS EL0+1 stage 2
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* NS EL1&0 stage 2
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*
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* (The last of these is an mmu_idx because we want to be able to use the TLB
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* for the accesses done as part of a stage 1 page table walk, rather than
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* having to walk the stage 2 page table over and over.)
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* for a total of 9 different mmu_idx.
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*
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* R profile CPUs have an MPU, but can use the same set of MMU indexes
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* as A profile. They only need to distinguish NS EL0 and NS EL1 (and
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@ -2892,26 +2899,47 @@ static inline bool arm_excp_unmasked(CPUState *cs, unsigned int excp_idx,
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* For M profile we arrange them to have a bit for priv, a bit for negpri
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* and a bit for secure.
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*/
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#define ARM_MMU_IDX_A 0x10 /* A profile */
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#define ARM_MMU_IDX_NOTLB 0x20 /* does not have a TLB */
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#define ARM_MMU_IDX_M 0x40 /* M profile */
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#define ARM_MMU_IDX_A 0x10 /* A profile */
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#define ARM_MMU_IDX_NOTLB 0x20 /* does not have a TLB */
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#define ARM_MMU_IDX_M 0x40 /* M profile */
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/* meanings of the bits for M profile mmu idx values */
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#define ARM_MMU_IDX_M_PRIV 0x1
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/* Meanings of the bits for M profile mmu idx values */
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#define ARM_MMU_IDX_M_PRIV 0x1
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#define ARM_MMU_IDX_M_NEGPRI 0x2
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#define ARM_MMU_IDX_M_S 0x4
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#define ARM_MMU_IDX_M_S 0x4 /* Secure */
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#define ARM_MMU_IDX_TYPE_MASK (~0x7)
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#define ARM_MMU_IDX_COREIDX_MASK 0x7
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#define ARM_MMU_IDX_TYPE_MASK \
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(ARM_MMU_IDX_A | ARM_MMU_IDX_M | ARM_MMU_IDX_NOTLB)
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#define ARM_MMU_IDX_COREIDX_MASK 0xf
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typedef enum ARMMMUIdx {
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ARMMMUIdx_E10_0 = 0 | ARM_MMU_IDX_A,
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ARMMMUIdx_E10_1 = 1 | ARM_MMU_IDX_A,
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ARMMMUIdx_E2 = 2 | ARM_MMU_IDX_A,
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ARMMMUIdx_SE3 = 3 | ARM_MMU_IDX_A,
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ARMMMUIdx_SE10_0 = 4 | ARM_MMU_IDX_A,
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ARMMMUIdx_SE10_1 = 5 | ARM_MMU_IDX_A,
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ARMMMUIdx_Stage2 = 6 | ARM_MMU_IDX_A,
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/*
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* A-profile.
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*/
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ARMMMUIdx_E10_0 = 0 | ARM_MMU_IDX_A,
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ARMMMUIdx_E20_0 = 1 | ARM_MMU_IDX_A,
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ARMMMUIdx_E10_1 = 2 | ARM_MMU_IDX_A,
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ARMMMUIdx_E2 = 3 | ARM_MMU_IDX_A,
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ARMMMUIdx_E20_2 = 4 | ARM_MMU_IDX_A,
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ARMMMUIdx_SE10_0 = 5 | ARM_MMU_IDX_A,
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ARMMMUIdx_SE10_1 = 6 | ARM_MMU_IDX_A,
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ARMMMUIdx_SE3 = 7 | ARM_MMU_IDX_A,
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ARMMMUIdx_Stage2 = 8 | ARM_MMU_IDX_A,
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/*
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* These are not allocated TLBs and are used only for AT system
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* instructions or for the first stage of an S12 page table walk.
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*/
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ARMMMUIdx_Stage1_E0 = 0 | ARM_MMU_IDX_NOTLB,
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ARMMMUIdx_Stage1_E1 = 1 | ARM_MMU_IDX_NOTLB,
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/*
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* M-profile.
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*/
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ARMMMUIdx_MUser = ARM_MMU_IDX_M,
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ARMMMUIdx_MPriv = ARM_MMU_IDX_M | ARM_MMU_IDX_M_PRIV,
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ARMMMUIdx_MUserNegPri = ARMMMUIdx_MUser | ARM_MMU_IDX_M_NEGPRI,
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@ -2920,11 +2948,6 @@ typedef enum ARMMMUIdx {
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ARMMMUIdx_MSPriv = ARMMMUIdx_MPriv | ARM_MMU_IDX_M_S,
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ARMMMUIdx_MSUserNegPri = ARMMMUIdx_MUserNegPri | ARM_MMU_IDX_M_S,
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ARMMMUIdx_MSPrivNegPri = ARMMMUIdx_MPrivNegPri | ARM_MMU_IDX_M_S,
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/* Indexes below here don't have TLBs and are used only for AT system
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* instructions or for the first stage of an S12 page table walk.
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*/
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ARMMMUIdx_Stage1_E0 = 0 | ARM_MMU_IDX_NOTLB,
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ARMMMUIdx_Stage1_E1 = 1 | ARM_MMU_IDX_NOTLB,
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} ARMMMUIdx;
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/*
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@ -2936,8 +2959,10 @@ typedef enum ARMMMUIdx {
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typedef enum ARMMMUIdxBit {
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TO_CORE_BIT(E10_0),
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TO_CORE_BIT(E20_0),
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TO_CORE_BIT(E10_1),
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TO_CORE_BIT(E2),
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TO_CORE_BIT(E20_2),
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TO_CORE_BIT(SE10_0),
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TO_CORE_BIT(SE10_1),
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TO_CORE_BIT(SE3),
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@ -2957,49 +2982,6 @@ typedef enum ARMMMUIdxBit {
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#define MMU_USER_IDX 0
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static inline int arm_to_core_mmu_idx(ARMMMUIdx mmu_idx)
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{
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return mmu_idx & ARM_MMU_IDX_COREIDX_MASK;
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}
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static inline ARMMMUIdx core_to_arm_mmu_idx(CPUARMState *env, int mmu_idx)
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{
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if (arm_feature(env, ARM_FEATURE_M)) {
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return mmu_idx | ARM_MMU_IDX_M;
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} else {
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return mmu_idx | ARM_MMU_IDX_A;
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}
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}
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/* Return the exception level we're running at if this is our mmu_idx */
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static inline int arm_mmu_idx_to_el(ARMMMUIdx mmu_idx)
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{
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switch (mmu_idx & ARM_MMU_IDX_TYPE_MASK) {
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case ARM_MMU_IDX_A:
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return mmu_idx & 3;
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case ARM_MMU_IDX_M:
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return mmu_idx & ARM_MMU_IDX_M_PRIV;
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default:
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g_assert_not_reached();
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}
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}
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/*
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* Return the MMU index for a v7M CPU with all relevant information
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* manually specified.
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*/
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ARMMMUIdx arm_v7m_mmu_idx_all(CPUARMState *env,
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bool secstate, bool priv, bool negpri);
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/* Return the MMU index for a v7M CPU in the specified security and
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* privilege state.
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*/
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ARMMMUIdx arm_v7m_mmu_idx_for_secstate_and_priv(CPUARMState *env,
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bool secstate, bool priv);
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/* Return the MMU index for a v7M CPU in the specified security state */
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ARMMMUIdx arm_v7m_mmu_idx_for_secstate(CPUARMState *env, bool secstate);
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/**
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* cpu_mmu_index:
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* @env: The cpu environment
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@ -8707,9 +8707,11 @@ void arm_cpu_do_interrupt(CPUState *cs)
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#endif /* !CONFIG_USER_ONLY */
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/* Return the exception level which controls this address translation regime */
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static inline uint32_t regime_el(CPUARMState *env, ARMMMUIdx mmu_idx)
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static uint32_t regime_el(CPUARMState *env, ARMMMUIdx mmu_idx)
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{
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switch (mmu_idx) {
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case ARMMMUIdx_E20_0:
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case ARMMMUIdx_E20_2:
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case ARMMMUIdx_Stage2:
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case ARMMMUIdx_E2:
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return 2;
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@ -8720,6 +8722,8 @@ static inline uint32_t regime_el(CPUARMState *env, ARMMMUIdx mmu_idx)
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case ARMMMUIdx_SE10_1:
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case ARMMMUIdx_Stage1_E0:
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case ARMMMUIdx_Stage1_E1:
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case ARMMMUIdx_E10_0:
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case ARMMMUIdx_E10_1:
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case ARMMMUIdx_MPrivNegPri:
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case ARMMMUIdx_MUserNegPri:
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case ARMMMUIdx_MPriv:
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@ -8821,10 +8825,14 @@ static inline TCR *regime_tcr(CPUARMState *env, ARMMMUIdx mmu_idx)
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*/
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static inline ARMMMUIdx stage_1_mmu_idx(ARMMMUIdx mmu_idx)
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{
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if (mmu_idx == ARMMMUIdx_E10_0 || mmu_idx == ARMMMUIdx_E10_1) {
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mmu_idx += (ARMMMUIdx_Stage1_E0 - ARMMMUIdx_E10_0);
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switch (mmu_idx) {
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case ARMMMUIdx_E10_0:
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return ARMMMUIdx_Stage1_E0;
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case ARMMMUIdx_E10_1:
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return ARMMMUIdx_Stage1_E1;
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default:
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return mmu_idx;
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}
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return mmu_idx;
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}
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/* Return true if the translation regime is using LPAE format page tables */
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@ -8857,6 +8865,7 @@ static inline bool regime_is_user(CPUARMState *env, ARMMMUIdx mmu_idx)
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{
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switch (mmu_idx) {
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case ARMMMUIdx_SE10_0:
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case ARMMMUIdx_E20_0:
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case ARMMMUIdx_Stage1_E0:
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case ARMMMUIdx_MUser:
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case ARMMMUIdx_MSUser:
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@ -11282,6 +11291,31 @@ int fp_exception_el(CPUARMState *env, int cur_el)
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return 0;
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}
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/* Return the exception level we're running at if this is our mmu_idx */
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int arm_mmu_idx_to_el(ARMMMUIdx mmu_idx)
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{
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if (mmu_idx & ARM_MMU_IDX_M) {
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return mmu_idx & ARM_MMU_IDX_M_PRIV;
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}
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switch (mmu_idx) {
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case ARMMMUIdx_E10_0:
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case ARMMMUIdx_E20_0:
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case ARMMMUIdx_SE10_0:
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return 0;
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case ARMMMUIdx_E10_1:
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case ARMMMUIdx_SE10_1:
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return 1;
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case ARMMMUIdx_E2:
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case ARMMMUIdx_E20_2:
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return 2;
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case ARMMMUIdx_SE3:
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return 3;
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default:
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g_assert_not_reached();
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}
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}
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#ifndef CONFIG_TCG
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ARMMMUIdx arm_v7m_mmu_idx_for_secstate(CPUARMState *env, bool secstate)
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{
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@ -11295,10 +11329,26 @@ ARMMMUIdx arm_mmu_idx_el(CPUARMState *env, int el)
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return arm_v7m_mmu_idx_for_secstate(env, env->v7m.secure);
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}
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if (el < 2 && arm_is_secure_below_el3(env)) {
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return ARMMMUIdx_SE10_0 + el;
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} else {
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return ARMMMUIdx_E10_0 + el;
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switch (el) {
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case 0:
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/* TODO: ARMv8.1-VHE */
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if (arm_is_secure_below_el3(env)) {
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return ARMMMUIdx_SE10_0;
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}
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return ARMMMUIdx_E10_0;
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case 1:
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if (arm_is_secure_below_el3(env)) {
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return ARMMMUIdx_SE10_1;
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}
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return ARMMMUIdx_E10_1;
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case 2:
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/* TODO: ARMv8.1-VHE */
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/* TODO: ARMv8.4-SecEL2 */
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return ARMMMUIdx_E2;
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case 3:
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return ARMMMUIdx_SE3;
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default:
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g_assert_not_reached();
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}
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}
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@ -769,6 +769,39 @@ bool arm_cpu_tlb_fill(CPUState *cs, vaddr address, int size,
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MMUAccessType access_type, int mmu_idx,
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bool probe, uintptr_t retaddr);
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static inline int arm_to_core_mmu_idx(ARMMMUIdx mmu_idx)
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{
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return mmu_idx & ARM_MMU_IDX_COREIDX_MASK;
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}
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static inline ARMMMUIdx core_to_arm_mmu_idx(CPUARMState *env, int mmu_idx)
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{
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if (arm_feature(env, ARM_FEATURE_M)) {
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return mmu_idx | ARM_MMU_IDX_M;
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} else {
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return mmu_idx | ARM_MMU_IDX_A;
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}
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}
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int arm_mmu_idx_to_el(ARMMMUIdx mmu_idx);
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/*
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* Return the MMU index for a v7M CPU with all relevant information
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* manually specified.
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*/
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ARMMMUIdx arm_v7m_mmu_idx_all(CPUARMState *env,
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bool secstate, bool priv, bool negpri);
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/*
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* Return the MMU index for a v7M CPU in the specified security and
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* privilege state.
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*/
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ARMMMUIdx arm_v7m_mmu_idx_for_secstate_and_priv(CPUARMState *env,
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bool secstate, bool priv);
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/* Return the MMU index for a v7M CPU in the specified security state */
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ARMMMUIdx arm_v7m_mmu_idx_for_secstate(CPUARMState *env, bool secstate);
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/* Return true if the stage 1 translation regime is using LPAE format page
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* tables */
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bool arm_s1_regime_using_lpae_format(CPUARMState *env, ARMMMUIdx mmu_idx);
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@ -810,6 +843,8 @@ static inline bool regime_is_secure(CPUARMState *env, ARMMMUIdx mmu_idx)
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switch (mmu_idx) {
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case ARMMMUIdx_E10_0:
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case ARMMMUIdx_E10_1:
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case ARMMMUIdx_E20_0:
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case ARMMMUIdx_E20_2:
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case ARMMMUIdx_Stage1_E0:
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case ARMMMUIdx_Stage1_E1:
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case ARMMMUIdx_E2:
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@ -172,7 +172,6 @@ static inline int get_a32_user_mem_index(DisasContext *s)
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case ARMMMUIdx_MSUserNegPri:
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case ARMMMUIdx_MSPrivNegPri:
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return arm_to_core_mmu_idx(ARMMMUIdx_MSUserNegPri);
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case ARMMMUIdx_Stage2:
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default:
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g_assert_not_reached();
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}
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