/* * Copyright (c) 2006-2021, RT-Thread Development Team * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2013-07-20 Bernard first version * 2014-04-03 Grissiom many enhancements */ #include #include #include "gic.h" #include "cp15.h" struct arm_gic { rt_uint32_t offset; rt_uint32_t dist_hw_base; rt_uint32_t cpu_hw_base; }; static struct arm_gic _gic_table[ARM_GIC_MAX_NR]; #define GIC_CPU_CTRL(hw_base) __REG32((hw_base) + 0x00) #define GIC_CPU_PRIMASK(hw_base) __REG32((hw_base) + 0x04) #define GIC_CPU_BINPOINT(hw_base) __REG32((hw_base) + 0x08) #define GIC_CPU_INTACK(hw_base) __REG32((hw_base) + 0x0c) #define GIC_CPU_EOI(hw_base) __REG32((hw_base) + 0x10) #define GIC_CPU_RUNNINGPRI(hw_base) __REG32((hw_base) + 0x14) #define GIC_CPU_HIGHPRI(hw_base) __REG32((hw_base) + 0x18) #define GIC_DIST_CTRL(hw_base) __REG32((hw_base) + 0x000) #define GIC_DIST_TYPE(hw_base) __REG32((hw_base) + 0x004) #define GIC_DIST_IGROUP(hw_base, n) __REG32((hw_base) + 0x080 + ((n)/32) * 4) #define GIC_DIST_ENABLE_SET(hw_base, n) __REG32((hw_base) + 0x100 + ((n)/32) * 4) #define GIC_DIST_ENABLE_CLEAR(hw_base, n) __REG32((hw_base) + 0x180 + ((n)/32) * 4) #define GIC_DIST_PENDING_SET(hw_base, n) __REG32((hw_base) + 0x200 + ((n)/32) * 4) #define GIC_DIST_PENDING_CLEAR(hw_base, n) __REG32((hw_base) + 0x280 + ((n)/32) * 4) #define GIC_DIST_ACTIVE_SET(hw_base, n) __REG32((hw_base) + 0x300 + ((n)/32) * 4) #define GIC_DIST_ACTIVE_CLEAR(hw_base, n) __REG32((hw_base) + 0x380 + ((n)/32) * 4) #define GIC_DIST_PRI(hw_base, n) __REG32((hw_base) + 0x400 + ((n)/4) * 4) #define GIC_DIST_TARGET(hw_base, n) __REG32((hw_base) + 0x800 + ((n)/4) * 4) #define GIC_DIST_CONFIG(hw_base, n) __REG32((hw_base) + 0xc00 + ((n)/16) * 4) #define GIC_DIST_SOFTINT(hw_base) __REG32((hw_base) + 0xf00) #define GIC_DIST_CPENDSGI(hw_base, n) __REG32((hw_base) + 0xf10 + ((n)/4) * 4) #define GIC_DIST_ICPIDR2(hw_base) __REG32((hw_base) + 0xfe8) static unsigned int _gic_max_irq; int arm_gic_get_active_irq(rt_uint32_t index) { int irq; RT_ASSERT(index < ARM_GIC_MAX_NR); irq = GIC_CPU_INTACK(_gic_table[index].cpu_hw_base); irq += _gic_table[index].offset; return irq; } void arm_gic_ack(rt_uint32_t index, int irq) { rt_uint32_t mask = 1 << (irq % 32); RT_ASSERT(index < ARM_GIC_MAX_NR); irq = irq - _gic_table[index].offset; RT_ASSERT(irq >= 0); GIC_DIST_ENABLE_CLEAR(_gic_table[index].dist_hw_base, irq) = mask; GIC_CPU_EOI(_gic_table[index].cpu_hw_base) = irq; GIC_DIST_ENABLE_SET(_gic_table[index].dist_hw_base, irq) = mask; } void arm_gic_mask(rt_uint32_t index, int irq) { rt_uint32_t mask = 1 << (irq % 32); RT_ASSERT(index < ARM_GIC_MAX_NR); irq = irq - _gic_table[index].offset; RT_ASSERT(irq >= 0); GIC_DIST_ENABLE_CLEAR(_gic_table[index].dist_hw_base, irq) = mask; } void arm_gic_clear_pending(rt_uint32_t index, int irq) { rt_uint32_t mask = 1 << (irq % 32); RT_ASSERT(index < ARM_GIC_MAX_NR); irq = irq - _gic_table[index].offset; RT_ASSERT(irq >= 0); GIC_DIST_PENDING_CLEAR(_gic_table[index].dist_hw_base, irq) = mask; } void arm_gic_clear_active(rt_uint32_t index, int irq) { rt_uint32_t mask = 1 << (irq % 32); RT_ASSERT(index < ARM_GIC_MAX_NR); irq = irq - _gic_table[index].offset; RT_ASSERT(irq >= 0); GIC_DIST_ACTIVE_CLEAR(_gic_table[index].dist_hw_base, irq) = mask; } void arm_gic_set_cpu(rt_uint32_t index, int irq, unsigned int cpumask) { rt_uint32_t old_tgt; RT_ASSERT(index < ARM_GIC_MAX_NR); irq = irq - _gic_table[index].offset; RT_ASSERT(irq >= 0); old_tgt = GIC_DIST_TARGET(_gic_table[index].dist_hw_base, irq); old_tgt &= ~(0x0FFUL << ((irq % 4)*8)); old_tgt |= cpumask << ((irq % 4)*8); GIC_DIST_TARGET(_gic_table[index].dist_hw_base, irq) = old_tgt; } void arm_gic_umask(rt_uint32_t index, int irq) { rt_uint32_t mask = 1 << (irq % 32); RT_ASSERT(index < ARM_GIC_MAX_NR); irq = irq - _gic_table[index].offset; RT_ASSERT(irq >= 0); GIC_DIST_ENABLE_SET(_gic_table[index].dist_hw_base, irq) = mask; } 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) >> 4) & 0xf, _gic_table[index].dist_hw_base, _gic_max_irq, gic_type & (1 << 10) ? "has" : "no", gic_type); } void arm_gic_dump(rt_uint32_t index) { unsigned int i, k; k = GIC_CPU_HIGHPRI(_gic_table[index].cpu_hw_base); rt_kprintf("--- high pending priority: %d(%08x)\n", k, k); rt_kprintf("--- hw mask ---\n"); for (i = 0; i < _gic_max_irq / 32; i++) { rt_kprintf("0x%08x, ", GIC_DIST_ENABLE_SET(_gic_table[index].dist_hw_base, i * 32)); } rt_kprintf("\n--- hw pending ---\n"); for (i = 0; i < _gic_max_irq / 32; i++) { rt_kprintf("0x%08x, ", GIC_DIST_PENDING_SET(_gic_table[index].dist_hw_base, i * 32)); } rt_kprintf("\n--- hw active ---\n"); for (i = 0; i < _gic_max_irq / 32; i++) { rt_kprintf("0x%08x, ", GIC_DIST_ACTIVE_SET(_gic_table[index].dist_hw_base, i * 32)); } rt_kprintf("\n"); } #ifdef RT_USING_FINSH #include FINSH_FUNCTION_EXPORT_ALIAS(arm_gic_dump, gic, show gic status); #endif int arm_gic_dist_init(rt_uint32_t index, rt_uint32_t dist_base, int irq_start) { unsigned int gic_type, i; rt_uint32_t cpumask = 1 << 0; 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 & 0x1f) + 1) * 32; /* * The GIC only supports up to 1020 interrupt sources. * Limit this to either the architected maximum, or the * platform maximum. */ if (_gic_max_irq > 1020) _gic_max_irq = 1020; if (_gic_max_irq > ARM_GIC_NR_IRQS) _gic_max_irq = ARM_GIC_NR_IRQS; #ifndef RT_PRETENT_AS_CPU0 /* If we are run on the second core, the GIC should have already been setup * by BootStrapProcessor. */ if ((rt_cpu_get_smp_id() & 0xF) != 0) return 0; #endif #ifdef RT_USING_VMM return 0; #endif cpumask |= cpumask << 8; cpumask |= cpumask << 16; GIC_DIST_CTRL(dist_base) = 0x0; /* Set all global interrupts to be level triggered, active low. */ for (i = 32; i < _gic_max_irq; i += 16) GIC_DIST_CONFIG(dist_base, i) = 0x0; /* Set all global interrupts to this CPU only. */ for (i = 32; i < _gic_max_irq; i += 4) GIC_DIST_TARGET(dist_base, i) = cpumask; /* Set priority on all interrupts. */ for (i = 0; i < _gic_max_irq; i += 4) GIC_DIST_PRI(dist_base, i) = 0xa0a0a0a0; /* Disable all interrupts. */ for (i = 0; i < _gic_max_irq; i += 32) GIC_DIST_ENABLE_CLEAR(dist_base, i) = 0xffffffff; /* All interrupts defaults to IGROUP1(IRQ). */ for (i = 0; i < _gic_max_irq; i += 32) GIC_DIST_IGROUP(dist_base, i) = 0xffffffff; /* Enable group0 and group1 interrupt forwarding. */ GIC_DIST_CTRL(dist_base) = 0x03; return 0; } int arm_gic_cpu_init(rt_uint32_t index, rt_uint32_t cpu_base) { RT_ASSERT(index < ARM_GIC_MAX_NR); _gic_table[index].cpu_hw_base = cpu_base; #ifndef RT_PRETENT_AS_CPU0 /* If we are run on the second core, the GIC should have already been setup * by BootStrapProcessor. */ if ((rt_cpu_get_smp_id() & 0xF) != 0) return 0; #endif #ifdef RT_USING_VMM return 0; #endif GIC_CPU_PRIMASK(cpu_base) = 0xf0; /* Enable CPU interrupt */ GIC_CPU_CTRL(cpu_base) = 0x01; return 0; } void arm_gic_set_group(rt_uint32_t index, int vector, int group) { /* As for GICv2, there are only group0 and group1. */ RT_ASSERT(group <= 1); RT_ASSERT(vector < _gic_max_irq); if (group == 0) { GIC_DIST_IGROUP(_gic_table[index].dist_hw_base, vector) &= ~(1 << (vector % 32)); } else if (group == 1) { GIC_DIST_IGROUP(_gic_table[index].dist_hw_base, vector) |= (1 << (vector % 32)); } } void arm_gic_trigger(rt_uint32_t index, int target_cpu, int irq) { unsigned int reg; RT_ASSERT(irq <= 15); RT_ASSERT(target_cpu <= 255); reg = (target_cpu << 16) | irq; GIC_DIST_SOFTINT(_gic_table[index].dist_hw_base) = reg; } void arm_gic_clear_sgi(rt_uint32_t index, int target_cpu, int irq) { RT_ASSERT(irq <= 15); RT_ASSERT(target_cpu <= 255); GIC_DIST_CPENDSGI(_gic_table[index].dist_hw_base, irq) = target_cpu << (irq % 4); }