rt-thread-official/bsp/hifive1/drivers/interrupt.c

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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
*/
#include <rthw.h>
#include <plic_driver.h>
#include <platform.h>
#include <encoding.h>
#include <interrupt.h>
#define MAX_HANDLERS PLIC_NUM_INTERRUPTS
/* exception and interrupt handler table */
static struct rt_irq_desc irq_desc[MAX_HANDLERS];
static plic_instance_t g_plic;
/**
* This function will mask a interrupt.
* @param vector the interrupt number
*/
void rt_hw_interrupt_mask(int irq)
{
PLIC_disable_interrupt(&g_plic, irq);
}
/**
* This function will un-mask a interrupt.
* @param vector the interrupt number
*/
void rt_hw_interrupt_unmask(int irq)
{
PLIC_enable_interrupt(&g_plic, irq);
PLIC_set_priority(&g_plic, irq, 1);
}
rt_isr_handler_t rt_hw_interrupt_handle(rt_uint32_t vector, void *param)
{
rt_kprintf("UN-handled interrupt %d occurred!!!\n", vector);
return RT_NULL;
}
void rt_hw_interrupt_init(void)
{
int idx;
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/* config interrupt vector*/
asm volatile(
[libcpu][riscv]整合libcpu/riscv中的移植文件 提供一份公共代码于common (#6941) 整合libcpu/riscv中的移植文件 提供一份公共代码于common 在提交本pr时,除hpmicro的内核,rv32内核bsp已完成去除大部分的冗余,大部分代码采用common中的实现。本pr的作用是进一步统一common中的文件,从而提供一份公用代码,新移植的RV32内核的BSP可以全部使用common代码。 - 在common中提供一份公用文件:interrupt_gcc.S - 修改原有的文件,将原有的中断中上下文切换代码替换为interrupt_gcc.S - 基于上述修改,修改仓库中risc-v内核的BSP与移植相关的部分 (主要包含中断入口函数 中断栈等) - 在common中提供一份公用文件:trap_common.c;提供统一中断入口函数,中断入口函数初始化,中断入口注册等函数,并完善异常时的信息输出 - 在common中提供一份公用文件:rt_hw_stack_frame.h;将栈帧结构体剥离,供用户使用 - 在上述工作完成后,在上述工作的基础上测试仓库中risc-v内核的BSP - 完善函数中的命名,完善中断栈的获取 - 提供一份详细的基于现有common文件的移植指南 #### 在什么测试环境下测试通过 - 1.CH32V307V-R1-R0 - 2.CH32V208W-R0-1V4 - 3.HPM6750EVKMINI - 4.GD32VF103V-EVAL - 5.qemu(CORE-V-MCU ) > 与上述开发板使用同样芯片的BSP均测试通过 在CH32V307V-R1-R0与HPM6750EVKMINI上基于现有移植文件进行多线程复杂场景下的长时间测试,测试过程系统运行正常。
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"la t0, SW_handler\n"
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"csrw mtvec, t0"
);
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/* enable global interrupt*/
PLIC_init(&g_plic,
PLIC_CTRL_ADDR,
PLIC_NUM_INTERRUPTS,
PLIC_NUM_PRIORITIES);
/* init exceptions table */
for (idx = 0; idx < MAX_HANDLERS; idx++)
{
rt_hw_interrupt_mask(idx);
irq_desc[idx].handler = (rt_isr_handler_t)rt_hw_interrupt_handle;
irq_desc[idx].param = RT_NULL;
#ifdef RT_USING_INTERRUPT_INFO
rt_snprintf(irq_desc[idx].name, RT_NAME_MAX - 1, "default");
irq_desc[idx].counter = 0;
#endif
}
// enable machine external interrupt
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set_csr(mie, MIP_MEIP);
}
rt_uint32_t rt_hw_interrupt_get_active(rt_uint32_t fiq_irq)
{
return (rt_uint32_t)PLIC_claim_interrupt(&g_plic);
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}
void rt_hw_interrupt_ack(rt_uint32_t fiq_irq, rt_uint32_t id)
{
PLIC_complete_interrupt(&g_plic, id);
}
/**
* This function will install a interrupt service routine to a interrupt.
* @param vector the interrupt number
* @param handler the interrupt service routine to be installed
* @param param the interrupt service function parameter
* @param name the interrupt name
* @return old handler
*/
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 = irq_desc[vector].handler;
if (handler != RT_NULL)
{
irq_desc[vector].handler = (rt_isr_handler_t)handler;
irq_desc[vector].param = param;
#ifdef RT_USING_INTERRUPT_INFO
rt_snprintf(irq_desc[vector].name, RT_NAME_MAX - 1, "%s", name);
irq_desc[vector].counter = 0;
#endif
}
}
return old_handler;
}
/**
* This function will be call when external machine-level
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* interrupt from PLIC occurred.
*/
void handle_m_ext_interrupt(void)
{
rt_isr_handler_t isr_func;
rt_uint32_t irq;
void *param;
/* get irq number */
irq = rt_hw_interrupt_get_active(0);
/* get interrupt service routine */
isr_func = irq_desc[irq].handler;
param = irq_desc[irq].param;
/* turn to interrupt service routine */
isr_func(irq, param);
rt_hw_interrupt_ack(0, irq);
#ifdef RT_USING_INTERRUPT_INFO
irq_desc[irq].counter ++;
#endif
}