709 lines
19 KiB
C
709 lines
19 KiB
C
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/*
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* Copyright (c) 2006-2021, RT-Thread Development Team
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*
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* SPDX-License-Identifier: Apache-2.0
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*
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* Change Logs:
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* Date Author Notes
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* 2013-07-20 Bernard first version
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* 2014-04-03 Grissiom many enhancements
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* 2018-11-22 Jesven add rt_hw_ipi_send()
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* add rt_hw_ipi_handler_install()
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*/
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#include <rthw.h>
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#include <rtthread.h>
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#include "gicv3.h"
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#include "cp15.h"
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#ifndef RT_CPUS_NR
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#define RT_CPUS_NR 1
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#endif
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struct arm_gic_v3
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{
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rt_uint32_t offset; /* the first interrupt index in the vector table */
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rt_uint32_t redist_hw_base[RT_CPUS_NR]; /* the pointer of the gic redistributor */
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rt_uint32_t dist_hw_base; /* the base address of the gic distributor */
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rt_uint32_t cpu_hw_base[RT_CPUS_NR]; /* the base addrees of the gic cpu interface */
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};
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/* 'ARM_GIC_MAX_NR' is the number of cores */
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static struct arm_gic_v3 _gic_table[ARM_GIC_MAX_NR];
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static unsigned int _gic_max_irq;
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/**
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* @name: arm_gic_cpumask_to_affval
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* @msg:
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* @in param cpu_mask:
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* @out param cluster_id: aff1 [0:7],aff2 [8:15],aff3 [16:23]
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* @out param target_list: Target List. The set of PEs for which SGI interrupts will be generated. Each bit corresponds to the
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* PE within a cluster with an Affinity 0 value equal to the bit number.
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* @return {rt_uint32_t} 0 is finish , 1 is data valid
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*/
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RT_WEAK rt_uint32_t arm_gic_cpumask_to_affval(rt_uint32_t *cpu_mask, rt_uint32_t *cluster_id, rt_uint32_t *target_list)
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{
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return 0;
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}
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RT_WEAK rt_uint64_t get_main_cpu_affval(void)
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{
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return 0;
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}
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int arm_gic_get_active_irq(rt_uint32_t index)
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{
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int irq;
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RT_ASSERT(index < ARM_GIC_MAX_NR);
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__get_gicv3_reg(ICC_IAR1, irq);
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irq = (irq & 0x1FFFFFF) + _gic_table[index].offset;
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return irq;
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}
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void arm_gic_ack(rt_uint32_t index, int irq)
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{
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RT_ASSERT(index < ARM_GIC_MAX_NR);
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RT_ASSERT(irq >= 0U);
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__asm__ volatile("dsb 0xF" ::
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: "memory");
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__set_gicv3_reg(ICC_EOIR1, irq);
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}
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void arm_gic_mask(rt_uint32_t index, int irq)
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{
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rt_uint32_t mask = 1U << (irq % 32U);
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RT_ASSERT(index < ARM_GIC_MAX_NR);
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irq = irq - _gic_table[index].offset;
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RT_ASSERT(irq >= 0U);
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if (irq < 32U)
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{
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rt_int32_t cpu_id = rt_hw_cpu_id();
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RT_ASSERT((cpu_id) < RT_CPUS_NR);
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GIC_RDISTSGI_ICENABLER0(_gic_table[index].redist_hw_base[cpu_id]) = mask;
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}
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else
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{
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GIC_DIST_ENABLE_CLEAR(_gic_table[index].dist_hw_base, irq) = mask;
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}
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}
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void arm_gic_umask(rt_uint32_t index, int irq)
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{
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rt_uint32_t mask = 1U << (irq % 32U);
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RT_ASSERT(index < ARM_GIC_MAX_NR);
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irq = irq - _gic_table[index].offset;
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RT_ASSERT(irq >= 0U);
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if (irq < 32U)
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{
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rt_int32_t cpu_id = rt_hw_cpu_id();
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RT_ASSERT((cpu_id) < RT_CPUS_NR);
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GIC_RDISTSGI_ISENABLER0(_gic_table[index].redist_hw_base[cpu_id]) = mask;
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}
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else
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{
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GIC_DIST_ENABLE_SET(_gic_table[index].dist_hw_base, irq) = mask;
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}
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}
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rt_uint32_t arm_gic_get_pending_irq(rt_uint32_t index, int irq)
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{
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rt_uint32_t pend;
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RT_ASSERT(index < ARM_GIC_MAX_NR);
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irq = irq - _gic_table[index].offset;
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RT_ASSERT(irq >= 0U);
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if (irq >= 16U)
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{
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pend = (GIC_DIST_PENDING_SET(_gic_table[index].dist_hw_base, irq) >> (irq % 32U)) & 0x1UL;
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}
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else
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{
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/* INTID 0-15 Software Generated Interrupt */
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pend = (GIC_DIST_SPENDSGI(_gic_table[index].dist_hw_base, irq) >> ((irq % 4U) * 8U)) & 0xFFUL;
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/* No CPU identification offered */
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if (pend != 0U)
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{
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pend = 1U;
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}
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else
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{
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pend = 0U;
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}
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}
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return (pend);
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}
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void arm_gic_set_pending_irq(rt_uint32_t index, int irq)
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{
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RT_ASSERT(index < ARM_GIC_MAX_NR);
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irq = irq - _gic_table[index].offset;
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RT_ASSERT(irq >= 0U);
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if (irq >= 16U)
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{
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GIC_DIST_PENDING_SET(_gic_table[index].dist_hw_base, irq) = 1U << (irq % 32U);
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}
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else
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{
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/* INTID 0-15 Software Generated Interrupt */
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/* Forward the interrupt to the CPU interface that requested it */
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GIC_DIST_SOFTINT(_gic_table[index].dist_hw_base) = (irq | 0x02000000U);
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}
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}
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void arm_gic_clear_pending_irq(rt_uint32_t index, int irq)
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{
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rt_uint32_t mask;
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RT_ASSERT(index < ARM_GIC_MAX_NR);
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irq = irq - _gic_table[index].offset;
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RT_ASSERT(irq >= 0U);
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if (irq >= 16U)
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{
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mask = 1U << (irq % 32U);
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GIC_DIST_PENDING_CLEAR(_gic_table[index].dist_hw_base, irq) = mask;
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}
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else
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{
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mask = 1U << ((irq % 4U) * 8U);
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GIC_DIST_CPENDSGI(_gic_table[index].dist_hw_base, irq) = mask;
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}
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}
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void arm_gic_set_configuration(rt_uint32_t index, int irq, uint32_t config)
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{
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rt_uint32_t icfgr;
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rt_uint32_t shift;
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RT_ASSERT(index < ARM_GIC_MAX_NR);
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irq = irq - _gic_table[index].offset;
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RT_ASSERT(irq >= 0U);
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icfgr = GIC_DIST_CONFIG(_gic_table[index].dist_hw_base, irq);
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shift = (irq % 16U) << 1U;
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icfgr &= (~(3U << shift));
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icfgr |= (config << shift);
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GIC_DIST_CONFIG(_gic_table[index].dist_hw_base, irq) = icfgr;
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}
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rt_uint32_t arm_gic_get_configuration(rt_uint32_t index, int irq)
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{
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RT_ASSERT(index < ARM_GIC_MAX_NR);
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irq = irq - _gic_table[index].offset;
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RT_ASSERT(irq >= 0U);
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return (GIC_DIST_CONFIG(_gic_table[index].dist_hw_base, irq) >> ((irq % 16U) >> 1U));
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}
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void arm_gic_clear_active(rt_uint32_t index, int irq)
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{
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rt_uint32_t mask = 1U << (irq % 32U);
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RT_ASSERT(index < ARM_GIC_MAX_NR);
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irq = irq - _gic_table[index].offset;
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RT_ASSERT(irq >= 0U);
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GIC_DIST_ACTIVE_CLEAR(_gic_table[index].dist_hw_base, irq) = mask;
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}
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/* Set up the cpu mask for the specific interrupt */
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void arm_gic_set_cpu(rt_uint32_t index, int irq, unsigned int cpumask)
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{
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rt_uint32_t old_tgt;
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RT_ASSERT(index < ARM_GIC_MAX_NR);
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irq = irq - _gic_table[index].offset;
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RT_ASSERT(irq >= 0U);
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old_tgt = GIC_DIST_TARGET(_gic_table[index].dist_hw_base, irq);
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old_tgt &= ~(0x0FFUL << ((irq % 4U) * 8U));
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old_tgt |= cpumask << ((irq % 4U) * 8U);
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GIC_DIST_TARGET(_gic_table[index].dist_hw_base, irq) = old_tgt;
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}
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rt_uint32_t arm_gic_get_target_cpu(rt_uint32_t index, int irq)
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{
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RT_ASSERT(index < ARM_GIC_MAX_NR);
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irq = irq - _gic_table[index].offset;
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RT_ASSERT(irq >= 0U);
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return (GIC_DIST_TARGET(_gic_table[index].dist_hw_base, irq) >> ((irq % 4U) * 8U)) & 0xFFUL;
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}
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void arm_gic_set_priority(rt_uint32_t index, int irq, rt_uint32_t priority)
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{
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rt_uint32_t mask;
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RT_ASSERT(index < ARM_GIC_MAX_NR);
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irq = irq - _gic_table[index].offset;
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RT_ASSERT(irq >= 0U);
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if (irq < 32U)
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{
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rt_int32_t cpu_id = rt_hw_cpu_id();
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RT_ASSERT((cpu_id) < RT_CPUS_NR);
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mask = GIC_RDISTSGI_IPRIORITYR(_gic_table[index].redist_hw_base[cpu_id], irq);
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mask &= ~(0xFFUL << ((irq % 4U) * 8U));
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mask |= ((priority & 0xFFUL) << ((irq % 4U) * 8U));
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GIC_RDISTSGI_IPRIORITYR(_gic_table[index].redist_hw_base[cpu_id], irq) = mask;
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}
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else
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{
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mask = GIC_DIST_PRI(_gic_table[index].dist_hw_base, irq);
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mask &= ~(0xFFUL << ((irq % 4U) * 8U));
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mask |= ((priority & 0xFFUL) << ((irq % 4U) * 8U));
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GIC_DIST_PRI(_gic_table[index].dist_hw_base, irq) = mask;
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}
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}
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rt_uint32_t arm_gic_get_priority(rt_uint32_t index, int irq)
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{
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RT_ASSERT(index < ARM_GIC_MAX_NR);
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irq = irq - _gic_table[index].offset;
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RT_ASSERT(irq >= 0U);
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if (irq < 32U)
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{
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rt_int32_t cpu_id = rt_hw_cpu_id();
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RT_ASSERT((cpu_id) < RT_CPUS_NR);
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return (GIC_RDISTSGI_IPRIORITYR(_gic_table[index].redist_hw_base[cpu_id], irq) >> ((irq % 4U) * 8U)) & 0xFFUL;
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}
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else
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{
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return (GIC_DIST_PRI(_gic_table[index].dist_hw_base, irq) >> ((irq % 4U) * 8U)) & 0xFFUL;
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}
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}
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void arm_gic_set_system_register_enable_mask(rt_uint32_t index, rt_uint32_t value)
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{
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RT_ASSERT(index < ARM_GIC_MAX_NR);
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value &= 0xFFUL;
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/* set priority mask */
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__set_gicv3_reg(ICC_SRE, value);
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__asm__ volatile ("isb 0xF"::
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:"memory");
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}
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rt_uint32_t arm_gic_get_system_register_enable_mask(rt_uint32_t index)
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{
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RT_ASSERT(index < ARM_GIC_MAX_NR);
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rt_uint32_t value;
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__get_gicv3_reg(ICC_SRE, value);
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return value;
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}
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void arm_gic_set_interface_prior_mask(rt_uint32_t index, rt_uint32_t priority)
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{
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RT_ASSERT(index < ARM_GIC_MAX_NR);
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priority &= 0xFFUL;
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/* set priority mask */
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__set_gicv3_reg(ICC_PMR, priority);
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}
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rt_uint32_t arm_gic_get_interface_prior_mask(rt_uint32_t index)
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{
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RT_ASSERT(index < ARM_GIC_MAX_NR);
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rt_uint32_t priority;
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__get_gicv3_reg(ICC_PMR, priority);
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return priority;
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}
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void arm_gic_set_binary_point(rt_uint32_t index, rt_uint32_t binary_point)
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{
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index = index;
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binary_point &= 0x7U;
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__set_gicv3_reg(ICC_BPR1, binary_point);
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}
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rt_uint32_t arm_gic_get_binary_point(rt_uint32_t index)
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{
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rt_uint32_t binary_point;
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index = index;
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__get_gicv3_reg(ICC_BPR1, binary_point);
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return binary_point;
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}
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rt_uint32_t arm_gic_get_irq_status(rt_uint32_t index, int irq)
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{
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rt_uint32_t pending;
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rt_uint32_t active;
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RT_ASSERT(index < ARM_GIC_MAX_NR);
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irq = irq - _gic_table[index].offset;
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RT_ASSERT(irq >= 0U);
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active = (GIC_DIST_ACTIVE_SET(_gic_table[index].dist_hw_base, irq) >> (irq % 32U)) & 0x1UL;
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pending = (GIC_DIST_PENDING_SET(_gic_table[index].dist_hw_base, irq) >> (irq % 32U)) & 0x1UL;
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return ((active << 1U) | pending);
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}
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void arm_gic_send_affinity_sgi(rt_uint32_t index, int irq, rt_uint32_t cpu_mask, rt_uint32_t routing_mode)
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{
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rt_uint64_t sgi_val;
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if (routing_mode)
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{
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sgi_val = (1ULL << 40) | ((irq & 0x0FULL) << 24); //Interrupts routed to all PEs in the system, excluding "self".
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/* Write the ICC_SGI1R registers */
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__asm__ volatile("dsb 0xF" ::
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: "memory");
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__set_cp64(15, 0, sgi_val, 12);
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__asm__ volatile("isb 0xF" ::
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: "memory");
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}
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else
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{
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rt_uint32_t cluster_id, target_list;
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while (arm_gic_cpumask_to_affval(&cpu_mask, &cluster_id, &target_list))
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{
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sgi_val = ((irq & 0x0FULL) << 24 |
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target_list |
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((cluster_id >> 8) & 0xFFULL) << GIC_RSGI_AFF1_OFFSET |
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((cluster_id >> 16) & 0xFFULL) << GIC_RSGI_AFF2_OFFSET |
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((cluster_id >> 24) & 0xFFull) << GIC_RSGI_AFF3_OFFSET);
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__asm__ volatile("dsb 0xF" ::
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: "memory");
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__set_cp64(15, 0, sgi_val, 12);
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__asm__ volatile("isb 0xF" ::
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: "memory");
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}
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}
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}
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||
|
|
||
|
rt_uint32_t arm_gic_get_high_pending_irq(rt_uint32_t index)
|
||
|
{
|
||
|
rt_uint32_t irq;
|
||
|
RT_ASSERT(index < ARM_GIC_MAX_NR);
|
||
|
|
||
|
index = index;
|
||
|
__get_gicv3_reg(ICC_HPPIR1, irq);
|
||
|
return irq;
|
||
|
}
|
||
|
|
||
|
rt_uint32_t arm_gic_get_interface_id(rt_uint32_t index)
|
||
|
{
|
||
|
RT_ASSERT(index < ARM_GIC_MAX_NR);
|
||
|
|
||
|
return GIC_CPU_IIDR(_gic_table[index].cpu_hw_base);
|
||
|
}
|
||
|
|
||
|
void arm_gic_set_group(rt_uint32_t index, int irq, rt_uint32_t group)
|
||
|
{
|
||
|
uint32_t igroupr;
|
||
|
uint32_t shift;
|
||
|
|
||
|
RT_ASSERT(index < ARM_GIC_MAX_NR);
|
||
|
RT_ASSERT(group <= 1U);
|
||
|
|
||
|
irq = irq - _gic_table[index].offset;
|
||
|
RT_ASSERT(irq >= 0U);
|
||
|
|
||
|
igroupr = GIC_DIST_IGROUP(_gic_table[index].dist_hw_base, irq);
|
||
|
shift = (irq % 32U);
|
||
|
igroupr &= (~(1U << shift));
|
||
|
igroupr |= ((group & 0x1U) << shift);
|
||
|
|
||
|
GIC_DIST_IGROUP(_gic_table[index].dist_hw_base, irq) = igroupr;
|
||
|
}
|
||
|
|
||
|
rt_uint32_t arm_gic_get_group(rt_uint32_t index, int irq)
|
||
|
{
|
||
|
RT_ASSERT(index < ARM_GIC_MAX_NR);
|
||
|
|
||
|
irq = irq - _gic_table[index].offset;
|
||
|
RT_ASSERT(irq >= 0U);
|
||
|
|
||
|
return (GIC_DIST_IGROUP(_gic_table[index].dist_hw_base, irq) >> (irq % 32U)) & 0x1UL;
|
||
|
}
|
||
|
|
||
|
static int arm_gicv3_wait_rwp(rt_uint32_t index, rt_uint32_t irq)
|
||
|
{
|
||
|
rt_uint32_t rwp_bit;
|
||
|
rt_uint32_t base;
|
||
|
|
||
|
RT_ASSERT(index < ARM_GIC_MAX_NR);
|
||
|
|
||
|
if (irq < 32u)
|
||
|
{
|
||
|
rt_int32_t cpu_id = rt_hw_cpu_id();
|
||
|
|
||
|
RT_ASSERT((cpu_id) < RT_CPUS_NR);
|
||
|
base = _gic_table[index].redist_hw_base[cpu_id];
|
||
|
rwp_bit = GICR_CTLR_RWP;
|
||
|
}
|
||
|
else
|
||
|
{
|
||
|
base = _gic_table[index].dist_hw_base;
|
||
|
rwp_bit = GICD_CTLR_RWP;
|
||
|
}
|
||
|
|
||
|
while (__REG32(base) & rwp_bit)
|
||
|
{
|
||
|
;
|
||
|
}
|
||
|
|
||
|
return 0;
|
||
|
}
|
||
|
|
||
|
int arm_gic_dist_init(rt_uint32_t index, rt_uint32_t dist_base, int irq_start)
|
||
|
{
|
||
|
rt_uint64_t cpu0_affval;
|
||
|
unsigned int gic_type, i;
|
||
|
|
||
|
RT_ASSERT(index < ARM_GIC_MAX_NR);
|
||
|
|
||
|
_gic_table[index].dist_hw_base = dist_base;
|
||
|
_gic_table[index].offset = irq_start;
|
||
|
|
||
|
/* Find out how many interrupts are supported. */
|
||
|
gic_type = GIC_DIST_TYPE(dist_base);
|
||
|
_gic_max_irq = ((gic_type & 0x1fU) + 1U) * 32U;
|
||
|
|
||
|
/*
|
||
|
* The GIC only supports up to 1020 interrupt sources.
|
||
|
* Limit this to either the architected maximum, or the
|
||
|
* platform maximum.
|
||
|
*/
|
||
|
if (_gic_max_irq > 1020U)
|
||
|
_gic_max_irq = 1020U;
|
||
|
if (_gic_max_irq > ARM_GIC_NR_IRQS) /* the platform maximum interrupts */
|
||
|
_gic_max_irq = ARM_GIC_NR_IRQS;
|
||
|
|
||
|
GIC_DIST_CTRL(dist_base) = 0x0U;
|
||
|
/* Wait for register write pending */
|
||
|
arm_gicv3_wait_rwp(0, 32);
|
||
|
|
||
|
/* Set all global interrupts to be level triggered, active low. */
|
||
|
for (i = 32U; i < _gic_max_irq; i += 16U)
|
||
|
GIC_DIST_CONFIG(dist_base, i) = 0x0U;
|
||
|
|
||
|
arm_gicv3_wait_rwp(0, 32);
|
||
|
|
||
|
cpu0_affval = get_main_cpu_affval();
|
||
|
/* Set all global interrupts to this CPU only. */
|
||
|
for (i = 32U; i < _gic_max_irq; i++)
|
||
|
{
|
||
|
GIC_DIST_IROUTER_LOW(dist_base, i) = cpu0_affval;
|
||
|
GIC_DIST_IROUTER_HIGH(dist_base, i) = cpu0_affval >> 32;
|
||
|
}
|
||
|
|
||
|
arm_gicv3_wait_rwp(0, 32);
|
||
|
|
||
|
/* Set priority on spi interrupts. */
|
||
|
for (i = 32U; i < _gic_max_irq; i += 4U)
|
||
|
GIC_DIST_PRI(dist_base, i) = 0xa0a0a0a0U;
|
||
|
|
||
|
arm_gicv3_wait_rwp(0, 32);
|
||
|
/* Disable all interrupts. */
|
||
|
for (i = 0U; i < _gic_max_irq; i += 32U)
|
||
|
{
|
||
|
GIC_DIST_PENDING_CLEAR(dist_base, i) = 0xffffffffU;
|
||
|
GIC_DIST_ENABLE_CLEAR(dist_base, i) = 0xffffffffU;
|
||
|
}
|
||
|
|
||
|
arm_gicv3_wait_rwp(0, 32);
|
||
|
/* All interrupts defaults to IGROUP1(IRQ). */
|
||
|
for (i = 0U; i < _gic_max_irq; i += 32U)
|
||
|
GIC_DIST_IGROUP(dist_base, i) = 0xffffffffU;
|
||
|
|
||
|
arm_gicv3_wait_rwp(0, 32);
|
||
|
|
||
|
/*
|
||
|
The Distributor control register (GICD_CTLR) must be configured to enable the interrupt groups and to set the routing mode.
|
||
|
Enable Affinity routing (ARE bits) The ARE bits in GICD_CTLR control whether affinity routing is enabled.
|
||
|
If affinity routing is not enabled, GICv3 can be configured for legacy operation.
|
||
|
Whether affinity routing is enabled or not can be controlled separately for Secure and Non-secure state.
|
||
|
Enables GICD_CTLR contains separate enable bits for Group 0, Secure Group 1 and Non-secure Group 1:
|
||
|
GICD_CTLR.EnableGrp1S enables distribution of Secure Group 1 interrupts.
|
||
|
GICD_CTLR.EnableGrp1NS enables distribution of Non-secure Group 1 interrupts.
|
||
|
GICD_CTLR.EnableGrp0 enables distribution of Group 0 interrupts.
|
||
|
*/
|
||
|
GIC_DIST_CTRL(dist_base) = GICD_CTLR_ARE_NS | GICD_CTLR_ENGRP1NS;
|
||
|
|
||
|
return 0;
|
||
|
}
|
||
|
|
||
|
int arm_gic_redist_address_set(rt_uint32_t index, rt_uint32_t redist_addr, rt_uint32_t cpu_id)
|
||
|
{
|
||
|
RT_ASSERT(index < ARM_GIC_MAX_NR);
|
||
|
RT_ASSERT((cpu_id) < RT_CPUS_NR);
|
||
|
_gic_table[index].redist_hw_base[cpu_id] = redist_addr;
|
||
|
|
||
|
return 0;
|
||
|
}
|
||
|
|
||
|
int arm_gic_cpu_interface_address_set(rt_uint32_t index, rt_uint32_t interface_addr, rt_uint32_t cpu_id)
|
||
|
{
|
||
|
RT_ASSERT(index < ARM_GIC_MAX_NR);
|
||
|
RT_ASSERT((cpu_id) < RT_CPUS_NR);
|
||
|
_gic_table[index].cpu_hw_base[cpu_id] = interface_addr;
|
||
|
|
||
|
return 0;
|
||
|
}
|
||
|
|
||
|
int arm_gic_redist_init(rt_uint32_t index)
|
||
|
{
|
||
|
unsigned int i;
|
||
|
rt_uint32_t base;
|
||
|
rt_int32_t cpu_id = rt_hw_cpu_id();
|
||
|
|
||
|
RT_ASSERT(index < ARM_GIC_MAX_NR);
|
||
|
RT_ASSERT((cpu_id) < RT_CPUS_NR);
|
||
|
|
||
|
base = _gic_table[index].redist_hw_base[cpu_id];
|
||
|
/* redistributor enable */
|
||
|
GIC_RDIST_WAKER(base) &= ~(1U << 1);
|
||
|
while (GIC_RDIST_WAKER(base) & (1 << 2))
|
||
|
{
|
||
|
;
|
||
|
}
|
||
|
|
||
|
/* Disable all sgi and ppi interrupt */
|
||
|
GIC_RDISTSGI_ICENABLER0(base) = 0xFFFFFFFF;
|
||
|
arm_gicv3_wait_rwp(0, 0);
|
||
|
|
||
|
/* Clear all inetrrupt pending */
|
||
|
GIC_RDISTSGI_ICPENDR0(base) = 0xFFFFFFFF;
|
||
|
|
||
|
/* the corresponding interrupt is Group 1 or Non-secure Group 1. */
|
||
|
GIC_RDISTSGI_IGROUPR0(base, 0) = 0xFFFFFFFF;
|
||
|
GIC_RDISTSGI_IGRPMODR0(base, 0) = 0xFFFFFFFF;
|
||
|
|
||
|
/* Configure default priorities for SGI 0:15 and PPI 16:31. */
|
||
|
for (i = 0; i < 32; i += 4)
|
||
|
{
|
||
|
GIC_RDISTSGI_IPRIORITYR(base, i) = 0xa0a0a0a0U;
|
||
|
}
|
||
|
|
||
|
/* Trigger level for PPI interrupts*/
|
||
|
GIC_RDISTSGI_ICFGR1(base) = 0x0U; // PPI is level-sensitive.
|
||
|
return 0;
|
||
|
}
|
||
|
|
||
|
int arm_gic_cpu_init(rt_uint32_t index)
|
||
|
{
|
||
|
rt_uint32_t value;
|
||
|
RT_ASSERT(index < ARM_GIC_MAX_NR);
|
||
|
|
||
|
value = arm_gic_get_system_register_enable_mask(index);
|
||
|
value |= (1U << 0);
|
||
|
arm_gic_set_system_register_enable_mask(index, value);
|
||
|
__set_gicv3_reg(ICC_CTLR, 0);
|
||
|
|
||
|
arm_gic_set_interface_prior_mask(index, 0xFFU);
|
||
|
|
||
|
/* Enable group1 interrupt */
|
||
|
value = 0x1U;
|
||
|
__set_gicv3_reg(ICC_IGRPEN1, value);
|
||
|
|
||
|
arm_gic_set_binary_point(0, 0);
|
||
|
|
||
|
/* ICC_BPR0_EL1 determines the preemption group for both
|
||
|
Group 0 and Group 1 interrupts.
|
||
|
*/
|
||
|
value = 0x1U;
|
||
|
__set_gicv3_reg(ICC_CTLR, value);
|
||
|
|
||
|
return 0;
|
||
|
}
|
||
|
|
||
|
#ifdef RT_USING_SMP
|
||
|
void arm_gic_secondary_cpu_init(void)
|
||
|
{
|
||
|
arm_gic_redist_init(0);
|
||
|
|
||
|
arm_gic_cpu_init(0);
|
||
|
}
|
||
|
#endif
|
||
|
|
||
|
void arm_gic_dump_type(rt_uint32_t index)
|
||
|
{
|
||
|
unsigned int gic_type;
|
||
|
|
||
|
gic_type = GIC_DIST_TYPE(_gic_table[index].dist_hw_base);
|
||
|
rt_kprintf("GICv%d on %p, max IRQs: %d, %s security extension(%08x)\n",
|
||
|
(GIC_DIST_ICPIDR2(_gic_table[index].dist_hw_base) >> 4U) & 0xfUL,
|
||
|
_gic_table[index].dist_hw_base,
|
||
|
_gic_max_irq,
|
||
|
gic_type & (1U << 10U) ? "has" : "no",
|
||
|
gic_type);
|
||
|
}
|
||
|
|
||
|
void arm_gic_dump(rt_uint32_t index)
|
||
|
{
|
||
|
unsigned int i, k;
|
||
|
|
||
|
k = arm_gic_get_high_pending_irq(0);
|
||
|
rt_kprintf("--- high pending priority: %d(%08x)\n", k, k);
|
||
|
rt_kprintf("--- hw mask ---\n");
|
||
|
for (i = 0U; i < _gic_max_irq / 32U; i++)
|
||
|
{
|
||
|
rt_kprintf("0x%08x, ",
|
||
|
GIC_DIST_ENABLE_SET(_gic_table[index].dist_hw_base,
|
||
|
i * 32U));
|
||
|
}
|
||
|
rt_kprintf("\n--- hw pending ---\n");
|
||
|
for (i = 0U; i < _gic_max_irq / 32U; i++)
|
||
|
{
|
||
|
rt_kprintf("0x%08x, ",
|
||
|
GIC_DIST_PENDING_SET(_gic_table[index].dist_hw_base,
|
||
|
i * 32U));
|
||
|
}
|
||
|
rt_kprintf("\n--- hw active ---\n");
|
||
|
for (i = 0U; i < _gic_max_irq / 32U; i++)
|
||
|
{
|
||
|
rt_kprintf("0x%08x, ",
|
||
|
GIC_DIST_ACTIVE_SET(_gic_table[index].dist_hw_base,
|
||
|
i * 32U));
|
||
|
}
|
||
|
rt_kprintf("\n");
|
||
|
}
|
||
|
|
||
|
long gic_dump(void)
|
||
|
{
|
||
|
arm_gic_dump_type(0);
|
||
|
arm_gic_dump(0);
|
||
|
|
||
|
return 0;
|
||
|
}
|
||
|
MSH_CMD_EXPORT(gic_dump, show gic status);
|