BL31: Program Priority Mask for SMC handling
On GICv3 systems, as a side effect of adding provision to handle EL3
interrupts (unconditionally routing FIQs to EL3), pending Non-secure
interrupts (signalled as FIQs) may preempt execution in lower Secure ELs
[1]. This will inadvertently disrupt the semantics of Fast SMC
(previously called Atomic SMC) calls.
To retain semantics of Fast SMCs, the GIC PMR must be programmed to
prevent Non-secure interrupts from preempting Secure execution. To that
effect, two new functions in the Exception Handling Framework subscribe
to events introduced in an earlier commit:
- Upon 'cm_exited_normal_world', the Non-secure PMR is stashed, and
the PMR is programmed to the highest Non-secure interrupt priority.
- Upon 'cm_entering_normal_world', the previously stashed Non-secure
PMR is restored.
The above sequence however prevents Yielding SMCs from being preempted
by Non-secure interrupts as intended. To facilitate this, the public API
exc_allow_ns_preemption() is introduced that programs the PMR to the
original Non-secure PMR value. Another API
exc_is_ns_preemption_allowed() is also introduced to check if
exc_allow_ns_preemption() had been called previously.
API documentation to follow.
[1] On GICv2 systems, this isn't a problem as, unlike GICv3, pending NS
IRQs during Secure execution are signalled as IRQs, which aren't
routed to EL3.
Change-Id: Ief96b162b0067179b1012332cd991ee1b3051dd0
Signed-off-by: Jeenu Viswambharan <jeenu.viswambharan@arm.com>
This commit is contained in:
Jeenu Viswambharan
parent
21b818c05f
commit
3d732e23e7
164
bl31/ehf.c
164
bl31/ehf.c
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@ -12,8 +12,10 @@
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#include <cpu_data.h>
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#include <debug.h>
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#include <ehf.h>
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#include <gic_common.h>
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#include <interrupt_mgmt.h>
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#include <platform.h>
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#include <pubsub_events.h>
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/* Output EHF logs as verbose */
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#define EHF_LOG(...) VERBOSE("EHF: " __VA_ARGS__)
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@ -208,6 +210,165 @@ void ehf_deactivate_priority(unsigned int priority)
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EHF_LOG("deactivate prio=%d\n", get_pe_highest_active_idx(pe_data));
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}
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/*
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* After leaving Non-secure world, stash current Non-secure Priority Mask, and
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* set Priority Mask to the highest Non-secure priority so that Non-secure
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* interrupts cannot preempt Secure execution.
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*
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* If the current running priority is in the secure range, or if there are
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* outstanding priority activations, this function does nothing.
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*
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* This function subscribes to the 'cm_exited_normal_world' event published by
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* the Context Management Library.
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*/
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static void *ehf_exited_normal_world(const void *arg)
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{
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unsigned int run_pri;
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pe_exc_data_t *pe_data = this_cpu_data();
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/* If the running priority is in the secure range, do nothing */
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run_pri = plat_ic_get_running_priority();
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if (IS_PRI_SECURE(run_pri))
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return 0;
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/* Do nothing if there are explicit activations */
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if (has_valid_pri_activations(pe_data))
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return 0;
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assert(pe_data->ns_pri_mask == 0);
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pe_data->ns_pri_mask =
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plat_ic_set_priority_mask(GIC_HIGHEST_NS_PRIORITY);
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/* The previous Priority Mask is not expected to be in secure range */
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if (IS_PRI_SECURE(pe_data->ns_pri_mask)) {
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ERROR("Priority Mask (0x%x) already in secure range\n",
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pe_data->ns_pri_mask);
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panic();
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}
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EHF_LOG("Priority Mask: 0x%x => 0x%x\n", pe_data->ns_pri_mask,
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GIC_HIGHEST_NS_PRIORITY);
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return 0;
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}
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/*
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* Conclude Secure execution and prepare for return to Non-secure world. Restore
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* the Non-secure Priority Mask previously stashed upon leaving Non-secure
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* world.
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*
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* If there the current running priority is in the secure range, or if there are
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* outstanding priority activations, this function does nothing.
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*
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* This function subscribes to the 'cm_entering_normal_world' event published by
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* the Context Management Library.
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*/
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static void *ehf_entering_normal_world(const void *arg)
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{
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unsigned int old_pmr, run_pri;
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pe_exc_data_t *pe_data = this_cpu_data();
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/* If the running priority is in the secure range, do nothing */
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run_pri = plat_ic_get_running_priority();
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if (IS_PRI_SECURE(run_pri))
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return 0;
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/*
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* If there are explicit activations, do nothing. The Priority Mask will
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* be restored upon the last deactivation.
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*/
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if (has_valid_pri_activations(pe_data))
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return 0;
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/* Do nothing if we don't have a valid Priority Mask to restore */
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if (pe_data->ns_pri_mask == 0)
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return 0;
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old_pmr = plat_ic_set_priority_mask(pe_data->ns_pri_mask);
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/*
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* When exiting secure world, the current Priority Mask must be
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* GIC_HIGHEST_NS_PRIORITY (as set during entry), or the Non-secure
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* priority mask set upon calling ehf_allow_ns_preemption()
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*/
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if ((old_pmr != GIC_HIGHEST_NS_PRIORITY) &&
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(old_pmr != pe_data->ns_pri_mask)) {
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ERROR("Invalid Priority Mask (0x%x) restored\n", old_pmr);
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panic();
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}
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EHF_LOG("Priority Mask: 0x%x => 0x%x\n", old_pmr, pe_data->ns_pri_mask);
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pe_data->ns_pri_mask = 0;
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return 0;
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}
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/*
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* Program Priority Mask to the original Non-secure priority such that
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* Non-secure interrupts may preempt Secure execution, viz. during Yielding SMC
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* calls.
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*
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* This API is expected to be invoked before delegating a yielding SMC to Secure
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* EL1. I.e. within the window of secure execution after Non-secure context is
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* saved (after entry into EL3) and Secure context is restored (before entering
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* Secure EL1).
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*/
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void ehf_allow_ns_preemption(void)
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{
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unsigned int old_pmr __unused;
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pe_exc_data_t *pe_data = this_cpu_data();
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/*
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* We should have been notified earlier of entering secure world, and
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* therefore have stashed the Non-secure priority mask.
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*/
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assert(pe_data->ns_pri_mask != 0);
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/* Make sure no priority levels are active when requesting this */
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if (has_valid_pri_activations(pe_data)) {
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ERROR("PE %lx has priority activations: 0x%x\n",
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read_mpidr_el1(), pe_data->active_pri_bits);
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panic();
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}
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old_pmr = plat_ic_set_priority_mask(pe_data->ns_pri_mask);
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EHF_LOG("Priority Mask: 0x%x => 0x%x\n", old_pmr, pe_data->ns_pri_mask);
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pe_data->ns_pri_mask = 0;
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}
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/*
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* Return whether Secure execution has explicitly allowed Non-secure interrupts
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* to preempt itself, viz. during Yielding SMC calls.
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*/
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unsigned int ehf_is_ns_preemption_allowed(void)
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{
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unsigned int run_pri;
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pe_exc_data_t *pe_data = this_cpu_data();
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/* If running priority is in secure range, return false */
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run_pri = plat_ic_get_running_priority();
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if (IS_PRI_SECURE(run_pri))
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return 0;
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/*
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* If Non-secure preemption was permitted by calling
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* ehf_allow_ns_preemption() earlier:
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*
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* - There wouldn't have been priority activations;
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* - We would have cleared the stashed the Non-secure Priority Mask.
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*/
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if (has_valid_pri_activations(pe_data))
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return 0;
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if (pe_data->ns_pri_mask != 0)
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return 0;
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return 1;
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}
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/*
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* Top-level EL3 interrupt handler.
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*/
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@ -338,3 +499,6 @@ void ehf_register_priority_handler(unsigned int pri, ehf_handler_t handler)
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EHF_LOG("register pri=0x%x handler=%p\n", pri, handler);
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}
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SUBSCRIBE_TO_EVENT(cm_entering_normal_world, ehf_entering_normal_world);
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SUBSCRIBE_TO_EVENT(cm_exited_normal_world, ehf_exited_normal_world);
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@ -55,6 +55,9 @@ typedef struct {
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/* Priority mask value before any priority levels were active */
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uint8_t init_pri_mask;
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/* Non-secure priority mask value stashed during Secure execution */
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uint8_t ns_pri_mask;
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} __aligned(sizeof(uint64_t)) pe_exc_data_t;
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typedef int (*ehf_handler_t)(uint32_t intr_raw, uint32_t flags, void *handle,
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@ -79,6 +82,8 @@ void ehf_init(void);
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void ehf_activate_priority(unsigned int priority);
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void ehf_deactivate_priority(unsigned int priority);
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void ehf_register_priority_handler(unsigned int pri, ehf_handler_t handler);
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void ehf_allow_ns_preemption(void);
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unsigned int ehf_is_ns_preemption_allowed(void);
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#endif /* __ASSEMBLY__ */
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@ -34,10 +34,10 @@
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#define GIC_INTR_CFG_EDGE 1
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/* Constants to categorise priorities */
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#define GIC_HIGHEST_SEC_PRIORITY 0
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#define GIC_LOWEST_SEC_PRIORITY 127
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#define GIC_HIGHEST_NS_PRIORITY 128
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#define GIC_LOWEST_NS_PRIORITY 254 /* 255 would disable an interrupt */
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#define GIC_HIGHEST_SEC_PRIORITY 0x0
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#define GIC_LOWEST_SEC_PRIORITY 0x7f
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#define GIC_HIGHEST_NS_PRIORITY 0x80
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#define GIC_LOWEST_NS_PRIORITY 0xfe /* 0xff would disable all interrupts */
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/*******************************************************************************
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* GIC Distributor interface register offsets that are common to GICv3 & GICv2
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