1*10465441SEvalZero /*
2*10465441SEvalZero * Copyright (c) 2006-2018, RT-Thread Development Team
3*10465441SEvalZero *
4*10465441SEvalZero * SPDX-License-Identifier: Apache-2.0
5*10465441SEvalZero *
6*10465441SEvalZero * Change Logs:
7*10465441SEvalZero * Date Author Notes
8*10465441SEvalZero * 2013-07-06 Bernard first version
9*10465441SEvalZero * 2015-11-06 zchong support iar compiler
10*10465441SEvalZero */
11*10465441SEvalZero
12*10465441SEvalZero #include <rthw.h>
13*10465441SEvalZero #include <rtthread.h>
14*10465441SEvalZero
15*10465441SEvalZero #include "am33xx.h"
16*10465441SEvalZero #include "interrupt.h"
17*10465441SEvalZero
18*10465441SEvalZero #define AINTC_BASE AM33XX_AINTC_REGS
19*10465441SEvalZero
20*10465441SEvalZero #define MAX_HANDLERS 128
21*10465441SEvalZero
22*10465441SEvalZero extern volatile rt_uint8_t rt_interrupt_nest;
23*10465441SEvalZero
24*10465441SEvalZero /* exception and interrupt handler table */
25*10465441SEvalZero struct rt_irq_desc isr_table[MAX_HANDLERS];
26*10465441SEvalZero rt_uint32_t rt_interrupt_from_thread, rt_interrupt_to_thread;
27*10465441SEvalZero rt_uint32_t rt_thread_switch_interrupt_flag;
28*10465441SEvalZero
29*10465441SEvalZero /**
30*10465441SEvalZero * @addtogroup AM33xx
31*10465441SEvalZero */
32*10465441SEvalZero /*@{*/
33*10465441SEvalZero
rt_dump_aintc(void)34*10465441SEvalZero void rt_dump_aintc(void)
35*10465441SEvalZero {
36*10465441SEvalZero int k;
37*10465441SEvalZero rt_kprintf("active irq %d", INTC_SIR_IRQ(AINTC_BASE));
38*10465441SEvalZero rt_kprintf("\n--- hw mask ---\n");
39*10465441SEvalZero for (k = 0; k < 4; k++)
40*10465441SEvalZero {
41*10465441SEvalZero rt_kprintf("0x%08x, ", INTC_MIR(AINTC_BASE, k));
42*10465441SEvalZero }
43*10465441SEvalZero rt_kprintf("\n--- hw itr ---\n");
44*10465441SEvalZero for (k = 0; k < 4; k++)
45*10465441SEvalZero {
46*10465441SEvalZero rt_kprintf("0x%08x, ", INTC_ITR(AINTC_BASE, k));
47*10465441SEvalZero }
48*10465441SEvalZero rt_kprintf("\n");
49*10465441SEvalZero }
50*10465441SEvalZero
51*10465441SEvalZero const unsigned int AM335X_VECTOR_BASE = 0x4030FC00;
52*10465441SEvalZero extern void rt_cpu_vector_set_base(unsigned int addr);
53*10465441SEvalZero #ifdef __ICCARM__
54*10465441SEvalZero extern int __vector;
55*10465441SEvalZero #else
56*10465441SEvalZero extern int system_vectors;
57*10465441SEvalZero #endif
58*10465441SEvalZero
rt_hw_vector_init(void)59*10465441SEvalZero static void rt_hw_vector_init(void)
60*10465441SEvalZero {
61*10465441SEvalZero unsigned int *dest = (unsigned int *)AM335X_VECTOR_BASE;
62*10465441SEvalZero
63*10465441SEvalZero #ifdef __ICCARM__
64*10465441SEvalZero unsigned int *src = (unsigned int *)&__vector;
65*10465441SEvalZero #else
66*10465441SEvalZero unsigned int *src = (unsigned int *)&system_vectors;
67*10465441SEvalZero #endif
68*10465441SEvalZero
69*10465441SEvalZero rt_memcpy(dest, src, 16 * 4);
70*10465441SEvalZero rt_cpu_vector_set_base(AM335X_VECTOR_BASE);
71*10465441SEvalZero }
72*10465441SEvalZero
73*10465441SEvalZero /**
74*10465441SEvalZero * This function will initialize hardware interrupt
75*10465441SEvalZero */
rt_hw_interrupt_init(void)76*10465441SEvalZero void rt_hw_interrupt_init(void)
77*10465441SEvalZero {
78*10465441SEvalZero /* initialize vector table */
79*10465441SEvalZero rt_hw_vector_init();
80*10465441SEvalZero
81*10465441SEvalZero /* init exceptions table */
82*10465441SEvalZero rt_memset(isr_table, 0x00, sizeof(isr_table));
83*10465441SEvalZero
84*10465441SEvalZero /* init interrupt nest, and context in thread sp */
85*10465441SEvalZero rt_interrupt_nest = 0;
86*10465441SEvalZero rt_interrupt_from_thread = 0;
87*10465441SEvalZero rt_interrupt_to_thread = 0;
88*10465441SEvalZero rt_thread_switch_interrupt_flag = 0;
89*10465441SEvalZero }
90*10465441SEvalZero
91*10465441SEvalZero /**
92*10465441SEvalZero * This function will mask a interrupt.
93*10465441SEvalZero * @param vector the interrupt number
94*10465441SEvalZero */
rt_hw_interrupt_mask(int vector)95*10465441SEvalZero void rt_hw_interrupt_mask(int vector)
96*10465441SEvalZero {
97*10465441SEvalZero INTC_MIR_SET(AINTC_BASE, vector >> 0x05) = 0x1 << (vector & 0x1f);
98*10465441SEvalZero }
99*10465441SEvalZero
100*10465441SEvalZero /**
101*10465441SEvalZero * This function will un-mask a interrupt.
102*10465441SEvalZero * @param vector the interrupt number
103*10465441SEvalZero */
rt_hw_interrupt_umask(int vector)104*10465441SEvalZero void rt_hw_interrupt_umask(int vector)
105*10465441SEvalZero {
106*10465441SEvalZero INTC_MIR_CLEAR(AINTC_BASE, vector >> 0x05) = 0x1 << (vector & 0x1f);
107*10465441SEvalZero }
108*10465441SEvalZero
109*10465441SEvalZero /**
110*10465441SEvalZero * This function will control the interrupt attribute.
111*10465441SEvalZero * @param vector the interrupt number
112*10465441SEvalZero */
rt_hw_interrupt_control(int vector,int priority,int route)113*10465441SEvalZero void rt_hw_interrupt_control(int vector, int priority, int route)
114*10465441SEvalZero {
115*10465441SEvalZero int fiq;
116*10465441SEvalZero
117*10465441SEvalZero if (route == 0)
118*10465441SEvalZero fiq = 0;
119*10465441SEvalZero else
120*10465441SEvalZero fiq = 1;
121*10465441SEvalZero
122*10465441SEvalZero INTC_ILR(AINTC_BASE, vector) = ((priority << 0x02) & 0x1FC) | fiq ;
123*10465441SEvalZero }
124*10465441SEvalZero
rt_hw_interrupt_get_active(int fiq_irq)125*10465441SEvalZero int rt_hw_interrupt_get_active(int fiq_irq)
126*10465441SEvalZero {
127*10465441SEvalZero int ir;
128*10465441SEvalZero if (fiq_irq == INT_FIQ)
129*10465441SEvalZero {
130*10465441SEvalZero ir = INTC_SIR_FIQ(AINTC_BASE) & 0x7f;
131*10465441SEvalZero }
132*10465441SEvalZero else
133*10465441SEvalZero {
134*10465441SEvalZero ir = INTC_SIR_IRQ(AINTC_BASE) & 0x7f;
135*10465441SEvalZero }
136*10465441SEvalZero
137*10465441SEvalZero return ir;
138*10465441SEvalZero }
139*10465441SEvalZero
rt_hw_interrupt_ack(int fiq_irq)140*10465441SEvalZero void rt_hw_interrupt_ack(int fiq_irq)
141*10465441SEvalZero {
142*10465441SEvalZero if (fiq_irq == INT_FIQ)
143*10465441SEvalZero {
144*10465441SEvalZero /* new FIQ generation */
145*10465441SEvalZero INTC_CONTROL(AINTC_BASE) |= 0x02;
146*10465441SEvalZero }
147*10465441SEvalZero else
148*10465441SEvalZero {
149*10465441SEvalZero /* new IRQ generation */
150*10465441SEvalZero INTC_CONTROL(AINTC_BASE) |= 0x01;
151*10465441SEvalZero }
152*10465441SEvalZero }
153*10465441SEvalZero
154*10465441SEvalZero /**
155*10465441SEvalZero * This function will install a interrupt service routine to a interrupt.
156*10465441SEvalZero * @param vector the interrupt number
157*10465441SEvalZero * @param new_handler the interrupt service routine to be installed
158*10465441SEvalZero * @param old_handler the old interrupt service routine
159*10465441SEvalZero */
rt_hw_interrupt_install(int vector,rt_isr_handler_t handler,void * param,const char * name)160*10465441SEvalZero rt_isr_handler_t rt_hw_interrupt_install(int vector, rt_isr_handler_t handler,
161*10465441SEvalZero void *param, const char *name)
162*10465441SEvalZero {
163*10465441SEvalZero rt_isr_handler_t old_handler = RT_NULL;
164*10465441SEvalZero
165*10465441SEvalZero if(vector < MAX_HANDLERS)
166*10465441SEvalZero {
167*10465441SEvalZero old_handler = isr_table[vector].handler;
168*10465441SEvalZero
169*10465441SEvalZero if (handler != RT_NULL)
170*10465441SEvalZero {
171*10465441SEvalZero #ifdef RT_USING_INTERRUPT_INFO
172*10465441SEvalZero rt_strncpy(isr_table[vector].name, name, RT_NAME_MAX);
173*10465441SEvalZero #endif /* RT_USING_INTERRUPT_INFO */
174*10465441SEvalZero isr_table[vector].handler = handler;
175*10465441SEvalZero isr_table[vector].param = param;
176*10465441SEvalZero }
177*10465441SEvalZero }
178*10465441SEvalZero
179*10465441SEvalZero return old_handler;
180*10465441SEvalZero }
181*10465441SEvalZero
182*10465441SEvalZero /**
183*10465441SEvalZero * This function will trigger an interrupt.
184*10465441SEvalZero * @param vector the interrupt number
185*10465441SEvalZero */
rt_hw_interrupt_trigger(int vector)186*10465441SEvalZero void rt_hw_interrupt_trigger(int vector)
187*10465441SEvalZero {
188*10465441SEvalZero INTC_ISR_SET(AINTC_BASE, vector>>5) = 1 << (vector & 0x1f);
189*10465441SEvalZero }
190*10465441SEvalZero
rt_hw_interrupt_clear(int vector)191*10465441SEvalZero void rt_hw_interrupt_clear(int vector)
192*10465441SEvalZero {
193*10465441SEvalZero INTC_ISR_CLEAR(AINTC_BASE, vector>>5) = 1 << (vector & 0x1f);
194*10465441SEvalZero }
195*10465441SEvalZero
rt_dump_isr_table(void)196*10465441SEvalZero void rt_dump_isr_table(void)
197*10465441SEvalZero {
198*10465441SEvalZero int idx;
199*10465441SEvalZero for(idx = 0; idx < MAX_HANDLERS; idx++)
200*10465441SEvalZero {
201*10465441SEvalZero #ifdef RT_USING_INTERRUPT_INFO
202*10465441SEvalZero rt_kprintf("nr:%4d, name: %*.s, handler: 0x%p, param: 0x%08x\r\n",
203*10465441SEvalZero idx, RT_NAME_MAX, isr_table[idx].name,
204*10465441SEvalZero isr_table[idx].handler, isr_table[idx].param);
205*10465441SEvalZero #else
206*10465441SEvalZero rt_kprintf("nr:%4d, handler: 0x%p, param: 0x%08x\r\n",
207*10465441SEvalZero idx, isr_table[idx].handler, isr_table[idx].param);
208*10465441SEvalZero #endif
209*10465441SEvalZero }
210*10465441SEvalZero }
211*10465441SEvalZero /*@}*/
212*10465441SEvalZero
213*10465441SEvalZero
214