rt-thread/libcpu/arm/cortex-a/interrupt.c

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/*
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* Copyright (c) 2006-2021, RT-Thread Development Team
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*
* SPDX-License-Identifier: Apache-2.0
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*
* Change Logs:
* Date Author Notes
* 2013-07-06 Bernard first version
* 2018-11-22 Jesven add smp support
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*/
#include <rthw.h>
#include <rtthread.h>
#include "interrupt.h"
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#ifdef RT_USING_GIC_V2
#include "gic.h"
#else
#include "gicv3.h"
#endif
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/* exception and interrupt handler table */
struct rt_irq_desc isr_table[MAX_HANDLERS];
#ifndef RT_USING_SMP
/* Those varibles will be accessed in ISR, so we need to share them. */
rt_uint32_t rt_interrupt_from_thread = 0;
rt_uint32_t rt_interrupt_to_thread = 0;
rt_uint32_t rt_thread_switch_interrupt_flag = 0;
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#ifdef RT_USING_HOOK
static void (*rt_interrupt_switch_hook)(void);
void rt_interrupt_switch_sethook(void (*hook)(void))
{
rt_interrupt_switch_hook = hook;
}
#endif
void rt_interrupt_hook(void)
{
RT_OBJECT_HOOK_CALL(rt_interrupt_switch_hook, ());
}
#endif
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const unsigned int VECTOR_BASE = 0x00;
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extern void rt_cpu_vector_set_base(unsigned int addr);
extern int system_vectors;
void rt_hw_vector_init(void)
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{
rt_cpu_vector_set_base((unsigned int)&system_vectors);
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}
#ifdef RT_USING_GIC_V2
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/**
* This function will initialize hardware interrupt
*/
void rt_hw_interrupt_init(void)
{
rt_uint32_t gic_cpu_base;
rt_uint32_t gic_dist_base;
rt_uint32_t gic_irq_start;
/* initialize vector table */
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rt_hw_vector_init();
/* initialize exceptions table */
rt_memset(isr_table, 0x00, sizeof(isr_table));
/* initialize ARM GIC */
#ifdef RT_USING_SMART
gic_dist_base = (uint32_t)rt_hw_mmu_map(&mmu_info, 0, (void*)platform_get_gic_dist_base(), 0x2000, MMU_MAP_K_RW);
gic_cpu_base = (uint32_t)rt_hw_mmu_map(&mmu_info, 0, (void*)platform_get_gic_cpu_base(), 0x1000, MMU_MAP_K_RW);
#else
gic_dist_base = platform_get_gic_dist_base();
gic_cpu_base = platform_get_gic_cpu_base();
#endif
gic_irq_start = GIC_IRQ_START;
arm_gic_dist_init(0, gic_dist_base, gic_irq_start);
arm_gic_cpu_init(0, gic_cpu_base);
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}
#else
/**
* This function will initialize hardware interrupt
* Called by the primary cpu(cpu0)
*/
void rt_hw_interrupt_init(void)
{
rt_uint32_t gic_dist_base;
rt_uint32_t gic_irq_start;
/* initialize vector table */
rt_hw_vector_init();
/* initialize exceptions table */
rt_memset(isr_table, 0x00, sizeof(isr_table));
/* initialize ARM GIC */
#ifdef RT_USING_SMART
gic_dist_base = (uint32_t)rt_hw_mmu_map(&mmu_info, 0, (void*)platform_get_gic_dist_base(), 0x2000, MMU_MAP_K_RW);
#else
gic_dist_base = platform_get_gic_dist_base();
#endif
gic_irq_start = GIC_IRQ_START;
arm_gic_dist_init(0, gic_dist_base, gic_irq_start);
arm_gic_cpu_init(0);
arm_gic_redist_init(0);
}
#endif
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/**
* This function will mask a interrupt.
* @param vector the interrupt number
*/
void rt_hw_interrupt_mask(int vector)
{
arm_gic_mask(0, vector);
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}
/**
* This function will un-mask a interrupt.
* @param vector the interrupt number
*/
void rt_hw_interrupt_umask(int vector)
{
arm_gic_umask(0, vector);
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}
/**
* This function returns the active interrupt number.
* @param none
*/
int rt_hw_interrupt_get_irq(void)
{
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return arm_gic_get_active_irq(0);
}
/**
* This function acknowledges the interrupt.
* @param vector the interrupt number
*/
void rt_hw_interrupt_ack(int vector)
{
arm_gic_ack(0, vector);
}
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/**
* This function set interrupt CPU targets.
* @param vector: the interrupt number
* cpu_mask: target cpus mask, one bit for one core
*/
void rt_hw_interrupt_set_target_cpus(int vector, unsigned int cpu_mask)
{
arm_gic_set_cpu(0, vector, cpu_mask);
}
/**
* This function get interrupt CPU targets.
* @param vector: the interrupt number
* @return target cpus mask, one bit for one core
*/
unsigned int rt_hw_interrupt_get_target_cpus(int vector)
{
return arm_gic_get_target_cpu(0, vector);
}
/**
* This function set interrupt triger mode.
* @param vector: the interrupt number
* mode: interrupt triger mode; 0: level triger, 1: edge triger
*/
void rt_hw_interrupt_set_triger_mode(int vector, unsigned int mode)
{
arm_gic_set_configuration(0, vector, mode);
}
/**
* This function get interrupt triger mode.
* @param vector: the interrupt number
* @return interrupt triger mode; 0: level triger, 1: edge triger
*/
unsigned int rt_hw_interrupt_get_triger_mode(int vector)
{
return arm_gic_get_configuration(0, vector);
}
/**
* This function set interrupt pending flag.
* @param vector: the interrupt number
*/
void rt_hw_interrupt_set_pending(int vector)
{
arm_gic_set_pending_irq(0, vector);
}
/**
* This function get interrupt pending flag.
* @param vector: the interrupt number
* @return interrupt pending flag, 0: not pending; 1: pending
*/
unsigned int rt_hw_interrupt_get_pending(int vector)
{
return arm_gic_get_pending_irq(0, vector);
}
/**
* This function clear interrupt pending flag.
* @param vector: the interrupt number
*/
void rt_hw_interrupt_clear_pending(int vector)
{
arm_gic_clear_pending_irq(0, vector);
}
/**
* This function set interrupt priority value.
* @param vector: the interrupt number
* priority: the priority of interrupt to set
*/
void rt_hw_interrupt_set_priority(int vector, unsigned int priority)
{
arm_gic_set_priority(0, vector, priority);
}
/**
* This function get interrupt priority.
* @param vector: the interrupt number
* @return interrupt priority value
*/
unsigned int rt_hw_interrupt_get_priority(int vector)
{
return arm_gic_get_priority(0, vector);
}
/**
* This function set priority masking threshold.
* @param priority: priority masking threshold
*/
void rt_hw_interrupt_set_priority_mask(unsigned int priority)
{
arm_gic_set_interface_prior_mask(0, priority);
}
/**
* This function get priority masking threshold.
* @param none
* @return priority masking threshold
*/
unsigned int rt_hw_interrupt_get_priority_mask(void)
{
return arm_gic_get_interface_prior_mask(0);
}
/**
* This function set priority grouping field split point.
* @param bits: priority grouping field split point
* @return 0: success; -1: failed
*/
int rt_hw_interrupt_set_prior_group_bits(unsigned int bits)
{
int status;
if (bits < 8)
{
arm_gic_set_binary_point(0, (7 - bits));
status = 0;
}
else
{
status = -1;
}
return (status);
}
/**
* This function get priority grouping field split point.
* @param none
* @return priority grouping field split point
*/
unsigned int rt_hw_interrupt_get_prior_group_bits(void)
{
unsigned int bp;
bp = arm_gic_get_binary_point(0) & 0x07;
return (7 - bp);
}
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/**
* This function will install a interrupt service routine to a interrupt.
* @param vector the interrupt number
* @param new_handler the interrupt service routine to be installed
* @param old_handler the old interrupt service routine
*/
rt_isr_handler_t rt_hw_interrupt_install(int vector, rt_isr_handler_t handler,
void *param, const char *name)
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{
rt_isr_handler_t old_handler = RT_NULL;
if (vector < MAX_HANDLERS)
{
old_handler = isr_table[vector].handler;
if (handler != RT_NULL)
{
#ifdef RT_USING_INTERRUPT_INFO
rt_strncpy(isr_table[vector].name, name, RT_NAME_MAX);
#endif /* RT_USING_INTERRUPT_INFO */
isr_table[vector].handler = handler;
isr_table[vector].param = param;
}
}
return old_handler;
}
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#ifdef RT_USING_SMP
void rt_hw_ipi_send(int ipi_vector, unsigned int cpu_mask)
{
#ifdef RT_USING_GIC_V2
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arm_gic_send_sgi(0, ipi_vector, cpu_mask, 0);
#else
arm_gic_send_affinity_sgi(0, ipi_vector, cpu_mask, ROUTED_TO_SPEC);
#endif
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}
void rt_hw_ipi_handler_install(int ipi_vector, rt_isr_handler_t ipi_isr_handler)
{
/* note: ipi_vector maybe different with irq_vector */
rt_hw_interrupt_install(ipi_vector, ipi_isr_handler, 0, "IPI_HANDLER");
}
#endif