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-rw-r--r--target/arm/helper.c130
1 files changed, 79 insertions, 51 deletions
diff --git a/target/arm/helper.c b/target/arm/helper.c
index 70cf313260..9e7eaa1080 100644
--- a/target/arm/helper.c
+++ b/target/arm/helper.c
@@ -9348,67 +9348,28 @@ static void v8m_security_lookup(CPUARMState *env, uint32_t address,
}
}
-static bool get_phys_addr_pmsav8(CPUARMState *env, uint32_t address,
- MMUAccessType access_type, ARMMMUIdx mmu_idx,
- hwaddr *phys_ptr, MemTxAttrs *txattrs,
- int *prot, uint32_t *fsr)
+static bool pmsav8_mpu_lookup(CPUARMState *env, uint32_t address,
+ MMUAccessType access_type, ARMMMUIdx mmu_idx,
+ hwaddr *phys_ptr, MemTxAttrs *txattrs,
+ int *prot, uint32_t *fsr, uint32_t *mregion)
{
+ /* Perform a PMSAv8 MPU lookup (without also doing the SAU check
+ * that a full phys-to-virt translation does).
+ * mregion is (if not NULL) set to the region number which matched,
+ * or -1 if no region number is returned (MPU off, address did not
+ * hit a region, address hit in multiple regions).
+ */
ARMCPU *cpu = arm_env_get_cpu(env);
bool is_user = regime_is_user(env, mmu_idx);
uint32_t secure = regime_is_secure(env, mmu_idx);
int n;
int matchregion = -1;
bool hit = false;
- V8M_SAttributes sattrs = {};
*phys_ptr = address;
*prot = 0;
-
- if (arm_feature(env, ARM_FEATURE_M_SECURITY)) {
- v8m_security_lookup(env, address, access_type, mmu_idx, &sattrs);
- if (access_type == MMU_INST_FETCH) {
- /* Instruction fetches always use the MMU bank and the
- * transaction attribute determined by the fetch address,
- * regardless of CPU state. This is painful for QEMU
- * to handle, because it would mean we need to encode
- * into the mmu_idx not just the (user, negpri) information
- * for the current security state but also that for the
- * other security state, which would balloon the number
- * of mmu_idx values needed alarmingly.
- * Fortunately we can avoid this because it's not actually
- * possible to arbitrarily execute code from memory with
- * the wrong security attribute: it will always generate
- * an exception of some kind or another, apart from the
- * special case of an NS CPU executing an SG instruction
- * in S&NSC memory. So we always just fail the translation
- * here and sort things out in the exception handler
- * (including possibly emulating an SG instruction).
- */
- if (sattrs.ns != !secure) {
- *fsr = sattrs.nsc ? M_FAKE_FSR_NSC_EXEC : M_FAKE_FSR_SFAULT;
- return true;
- }
- } else {
- /* For data accesses we always use the MMU bank indicated
- * by the current CPU state, but the security attributes
- * might downgrade a secure access to nonsecure.
- */
- if (sattrs.ns) {
- txattrs->secure = false;
- } else if (!secure) {
- /* NS access to S memory must fault.
- * Architecturally we should first check whether the
- * MPU information for this address indicates that we
- * are doing an unaligned access to Device memory, which
- * should generate a UsageFault instead. QEMU does not
- * currently check for that kind of unaligned access though.
- * If we added it we would need to do so as a special case
- * for M_FAKE_FSR_SFAULT in arm_v7m_cpu_do_interrupt().
- */
- *fsr = M_FAKE_FSR_SFAULT;
- return true;
- }
- }
+ if (mregion) {
+ *mregion = -1;
}
/* Unlike the ARM ARM pseudocode, we don't need to check whether this
@@ -9497,12 +9458,79 @@ static bool get_phys_addr_pmsav8(CPUARMState *env, uint32_t address,
/* We don't need to look the attribute up in the MAIR0/MAIR1
* registers because that only tells us about cacheability.
*/
+ if (mregion) {
+ *mregion = matchregion;
+ }
}
*fsr = 0x00d; /* Permission fault */
return !(*prot & (1 << access_type));
}
+
+static bool get_phys_addr_pmsav8(CPUARMState *env, uint32_t address,
+ MMUAccessType access_type, ARMMMUIdx mmu_idx,
+ hwaddr *phys_ptr, MemTxAttrs *txattrs,
+ int *prot, uint32_t *fsr)
+{
+ uint32_t secure = regime_is_secure(env, mmu_idx);
+ V8M_SAttributes sattrs = {};
+
+ if (arm_feature(env, ARM_FEATURE_M_SECURITY)) {
+ v8m_security_lookup(env, address, access_type, mmu_idx, &sattrs);
+ if (access_type == MMU_INST_FETCH) {
+ /* Instruction fetches always use the MMU bank and the
+ * transaction attribute determined by the fetch address,
+ * regardless of CPU state. This is painful for QEMU
+ * to handle, because it would mean we need to encode
+ * into the mmu_idx not just the (user, negpri) information
+ * for the current security state but also that for the
+ * other security state, which would balloon the number
+ * of mmu_idx values needed alarmingly.
+ * Fortunately we can avoid this because it's not actually
+ * possible to arbitrarily execute code from memory with
+ * the wrong security attribute: it will always generate
+ * an exception of some kind or another, apart from the
+ * special case of an NS CPU executing an SG instruction
+ * in S&NSC memory. So we always just fail the translation
+ * here and sort things out in the exception handler
+ * (including possibly emulating an SG instruction).
+ */
+ if (sattrs.ns != !secure) {
+ *fsr = sattrs.nsc ? M_FAKE_FSR_NSC_EXEC : M_FAKE_FSR_SFAULT;
+ *phys_ptr = address;
+ *prot = 0;
+ return true;
+ }
+ } else {
+ /* For data accesses we always use the MMU bank indicated
+ * by the current CPU state, but the security attributes
+ * might downgrade a secure access to nonsecure.
+ */
+ if (sattrs.ns) {
+ txattrs->secure = false;
+ } else if (!secure) {
+ /* NS access to S memory must fault.
+ * Architecturally we should first check whether the
+ * MPU information for this address indicates that we
+ * are doing an unaligned access to Device memory, which
+ * should generate a UsageFault instead. QEMU does not
+ * currently check for that kind of unaligned access though.
+ * If we added it we would need to do so as a special case
+ * for M_FAKE_FSR_SFAULT in arm_v7m_cpu_do_interrupt().
+ */
+ *fsr = M_FAKE_FSR_SFAULT;
+ *phys_ptr = address;
+ *prot = 0;
+ return true;
+ }
+ }
+ }
+
+ return pmsav8_mpu_lookup(env, address, access_type, mmu_idx, phys_ptr,
+ txattrs, prot, fsr, NULL);
+}
+
static bool get_phys_addr_pmsav5(CPUARMState *env, uint32_t address,
MMUAccessType access_type, ARMMMUIdx mmu_idx,
hwaddr *phys_ptr, int *prot, uint32_t *fsr)