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arm-trusted-firmware/plat/common/plat_gicv3.c
Antonio Nino Diaz 09d40e0e08 Sanitise includes across codebase 
Enforce full include path for includes. Deprecate old paths.

The following folders inside include/lib have been left unchanged:

- include/lib/cpus/${ARCH}
- include/lib/el3_runtime/${ARCH}

The reason for this change is that having a global namespace for
includes isn't a good idea. It defeats one of the advantages of having
folders and it introduces problems that are sometimes subtle (because
you may not know the header you are actually including if there are two
of them).

For example, this patch had to be created because two headers were
called the same way: e0ea0928d5 ("Fix gpio includes of mt8173 platform
to avoid collision."). More recently, this patch has had similar
problems: 46f9b2c3a2 ("drivers: add tzc380 support").

This problem was introduced in commit 4ecca33988 ("Move include and
source files to logical locations"). At that time, there weren't too
many headers so it wasn't a real issue. However, time has shown that
this creates problems.

Platforms that want to preserve the way they include headers may add the
removed paths to PLAT_INCLUDES, but this is discouraged.

Change-Id: I39dc53ed98f9e297a5966e723d1936d6ccf2fc8f
Signed-off-by: Antonio Nino Diaz <antonio.ninodiaz@arm.com>
2019-01-04 10:43:17 +00:00

343 lines
8.7 KiB
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/*
* Copyright (c) 2015-2018, ARM Limited and Contributors. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <assert.h>
#include <stdbool.h>
#include <arch_helpers.h>
#include <common/bl_common.h>
#include <bl31/interrupt_mgmt.h>
#include <drivers/arm/gic_common.h>
#include <drivers/arm/gicv3.h>
#include <lib/cassert.h>
#include <plat/common/platform.h>
#ifdef IMAGE_BL31
/*
* The following platform GIC functions are weakly defined. They
* provide typical implementations that may be re-used by multiple
* platforms but may also be overridden by a platform if required.
*/
#pragma weak plat_ic_get_pending_interrupt_id
#pragma weak plat_ic_get_pending_interrupt_type
#pragma weak plat_ic_acknowledge_interrupt
#pragma weak plat_ic_get_interrupt_type
#pragma weak plat_ic_end_of_interrupt
#pragma weak plat_interrupt_type_to_line
#pragma weak plat_ic_get_running_priority
#pragma weak plat_ic_is_spi
#pragma weak plat_ic_is_ppi
#pragma weak plat_ic_is_sgi
#pragma weak plat_ic_get_interrupt_active
#pragma weak plat_ic_enable_interrupt
#pragma weak plat_ic_disable_interrupt
#pragma weak plat_ic_set_interrupt_priority
#pragma weak plat_ic_set_interrupt_type
#pragma weak plat_ic_raise_el3_sgi
#pragma weak plat_ic_set_spi_routing
#pragma weak plat_ic_set_interrupt_pending
#pragma weak plat_ic_clear_interrupt_pending
CASSERT((INTR_TYPE_S_EL1 == INTR_GROUP1S) &&
(INTR_TYPE_NS == INTR_GROUP1NS) &&
(INTR_TYPE_EL3 == INTR_GROUP0), assert_interrupt_type_mismatch);
/*
* This function returns the highest priority pending interrupt at
* the Interrupt controller
*/
uint32_t plat_ic_get_pending_interrupt_id(void)
{
unsigned int irqnr;
assert(IS_IN_EL3());
irqnr = gicv3_get_pending_interrupt_id();
return gicv3_is_intr_id_special_identifier(irqnr) ?
INTR_ID_UNAVAILABLE : irqnr;
}
/*
* This function returns the type of the highest priority pending interrupt
* at the Interrupt controller. In the case of GICv3, the Highest Priority
* Pending interrupt system register (`ICC_HPPIR0_EL1`) is read to determine
* the id of the pending interrupt. The type of interrupt depends upon the
* id value as follows.
* 1. id = PENDING_G1S_INTID (1020) is reported as a S-EL1 interrupt
* 2. id = PENDING_G1NS_INTID (1021) is reported as a Non-secure interrupt.
* 3. id = GIC_SPURIOUS_INTERRUPT (1023) is reported as an invalid interrupt
* type.
* 4. All other interrupt id's are reported as EL3 interrupt.
*/
uint32_t plat_ic_get_pending_interrupt_type(void)
{
unsigned int irqnr;
uint32_t type;
assert(IS_IN_EL3());
irqnr = gicv3_get_pending_interrupt_type();
switch (irqnr) {
case PENDING_G1S_INTID:
type = INTR_TYPE_S_EL1;
break;
case PENDING_G1NS_INTID:
type = INTR_TYPE_NS;
break;
case GIC_SPURIOUS_INTERRUPT:
type = INTR_TYPE_INVAL;
break;
default:
type = INTR_TYPE_EL3;
break;
}
return type;
}
/*
* This function returns the highest priority pending interrupt at
* the Interrupt controller and indicates to the Interrupt controller
* that the interrupt processing has started.
*/
uint32_t plat_ic_acknowledge_interrupt(void)
{
assert(IS_IN_EL3());
return gicv3_acknowledge_interrupt();
}
/*
* This function returns the type of the interrupt `id`, depending on how
* the interrupt has been configured in the interrupt controller
*/
uint32_t plat_ic_get_interrupt_type(uint32_t id)
{
assert(IS_IN_EL3());
return gicv3_get_interrupt_type(id, plat_my_core_pos());
}
/*
* This functions is used to indicate to the interrupt controller that
* the processing of the interrupt corresponding to the `id` has
* finished.
*/
void plat_ic_end_of_interrupt(uint32_t id)
{
assert(IS_IN_EL3());
gicv3_end_of_interrupt(id);
}
/*
* An ARM processor signals interrupt exceptions through the IRQ and FIQ pins.
* The interrupt controller knows which pin/line it uses to signal a type of
* interrupt. It lets the interrupt management framework determine for a type of
* interrupt and security state, which line should be used in the SCR_EL3 to
* control its routing to EL3. The interrupt line is represented as the bit
* position of the IRQ or FIQ bit in the SCR_EL3.
*/
uint32_t plat_interrupt_type_to_line(uint32_t type,
uint32_t security_state)
{
assert((type == INTR_TYPE_S_EL1) ||
(type == INTR_TYPE_EL3) ||
(type == INTR_TYPE_NS));
assert(sec_state_is_valid(security_state));
assert(IS_IN_EL3());
switch (type) {
case INTR_TYPE_S_EL1:
/*
* The S-EL1 interrupts are signaled as IRQ in S-EL0/1 contexts
* and as FIQ in the NS-EL0/1/2 contexts
*/
if (security_state == SECURE)
return __builtin_ctz(SCR_IRQ_BIT);
else
return __builtin_ctz(SCR_FIQ_BIT);
assert(0); /* Unreachable */
case INTR_TYPE_NS:
/*
* The Non secure interrupts will be signaled as FIQ in S-EL0/1
* contexts and as IRQ in the NS-EL0/1/2 contexts.
*/
if (security_state == SECURE)
return __builtin_ctz(SCR_FIQ_BIT);
else
return __builtin_ctz(SCR_IRQ_BIT);
assert(0); /* Unreachable */
case INTR_TYPE_EL3:
/*
* The EL3 interrupts are signaled as FIQ in both S-EL0/1 and
* NS-EL0/1/2 contexts
*/
return __builtin_ctz(SCR_FIQ_BIT);
default:
panic();
}
}
unsigned int plat_ic_get_running_priority(void)
{
return gicv3_get_running_priority();
}
int plat_ic_is_spi(unsigned int id)
{
return (id >= MIN_SPI_ID) && (id <= MAX_SPI_ID);
}
int plat_ic_is_ppi(unsigned int id)
{
return (id >= MIN_PPI_ID) && (id < MIN_SPI_ID);
}
int plat_ic_is_sgi(unsigned int id)
{
return (id >= MIN_SGI_ID) && (id < MIN_PPI_ID);
}
unsigned int plat_ic_get_interrupt_active(unsigned int id)
{
return gicv3_get_interrupt_active(id, plat_my_core_pos());
}
void plat_ic_enable_interrupt(unsigned int id)
{
gicv3_enable_interrupt(id, plat_my_core_pos());
}
void plat_ic_disable_interrupt(unsigned int id)
{
gicv3_disable_interrupt(id, plat_my_core_pos());
}
void plat_ic_set_interrupt_priority(unsigned int id, unsigned int priority)
{
gicv3_set_interrupt_priority(id, plat_my_core_pos(), priority);
}
int plat_ic_has_interrupt_type(unsigned int type)
{
assert((type == INTR_TYPE_EL3) || (type == INTR_TYPE_S_EL1) ||
(type == INTR_TYPE_NS));
return 1;
}
void plat_ic_set_interrupt_type(unsigned int id, unsigned int type)
{
gicv3_set_interrupt_type(id, plat_my_core_pos(), type);
}
void plat_ic_raise_el3_sgi(int sgi_num, u_register_t target)
{
/* Target must be a valid MPIDR in the system */
assert(plat_core_pos_by_mpidr(target) >= 0);
/* Verify that this is a secure EL3 SGI */
assert(plat_ic_get_interrupt_type((unsigned int)sgi_num) ==
INTR_TYPE_EL3);
gicv3_raise_secure_g0_sgi((unsigned int)sgi_num, target);
}
void plat_ic_set_spi_routing(unsigned int id, unsigned int routing_mode,
u_register_t mpidr)
{
unsigned int irm = 0;
switch (routing_mode) {
case INTR_ROUTING_MODE_PE:
assert(plat_core_pos_by_mpidr(mpidr) >= 0);
irm = GICV3_IRM_PE;
break;
case INTR_ROUTING_MODE_ANY:
irm = GICV3_IRM_ANY;
break;
default:
assert(0); /* Unreachable */
break;
}
gicv3_set_spi_routing(id, irm, mpidr);
}
void plat_ic_set_interrupt_pending(unsigned int id)
{
/* Disallow setting SGIs pending */
assert(id >= MIN_PPI_ID);
gicv3_set_interrupt_pending(id, plat_my_core_pos());
}
void plat_ic_clear_interrupt_pending(unsigned int id)
{
/* Disallow setting SGIs pending */
assert(id >= MIN_PPI_ID);
gicv3_clear_interrupt_pending(id, plat_my_core_pos());
}
unsigned int plat_ic_set_priority_mask(unsigned int mask)
{
return gicv3_set_pmr(mask);
}
unsigned int plat_ic_get_interrupt_id(unsigned int raw)
{
unsigned int id = raw & INT_ID_MASK;
return gicv3_is_intr_id_special_identifier(id) ?
INTR_ID_UNAVAILABLE : id;
}
#endif
#ifdef IMAGE_BL32
#pragma weak plat_ic_get_pending_interrupt_id
#pragma weak plat_ic_acknowledge_interrupt
#pragma weak plat_ic_end_of_interrupt
/* In AArch32, the secure group1 interrupts are targeted to Secure PL1 */
#ifdef AARCH32
#define IS_IN_EL1() IS_IN_SECURE()
#endif
/*
* This function returns the highest priority pending interrupt at
* the Interrupt controller
*/
uint32_t plat_ic_get_pending_interrupt_id(void)
{
unsigned int irqnr;
assert(IS_IN_EL1());
irqnr = gicv3_get_pending_interrupt_id_sel1();
return (irqnr == GIC_SPURIOUS_INTERRUPT) ?
INTR_ID_UNAVAILABLE : irqnr;
}
/*
* This function returns the highest priority pending interrupt at
* the Interrupt controller and indicates to the Interrupt controller
* that the interrupt processing has started.
*/
uint32_t plat_ic_acknowledge_interrupt(void)
{
assert(IS_IN_EL1());
return gicv3_acknowledge_interrupt_sel1();
}
/*
* This functions is used to indicate to the interrupt controller that
* the processing of the interrupt corresponding to the `id` has
* finished.
*/
void plat_ic_end_of_interrupt(uint32_t id)
{
assert(IS_IN_EL1());
gicv3_end_of_interrupt_sel1(id);
}
#endif
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