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 * 2011-09-23 Bernard first version
9*10465441SEvalZero */
10*10465441SEvalZero
11*10465441SEvalZero #include <rtthread.h>
12*10465441SEvalZero #include <rthw.h>
13*10465441SEvalZero
14*10465441SEvalZero #include "am33xx.h"
15*10465441SEvalZero #include "interrupt.h"
16*10465441SEvalZero
17*10465441SEvalZero #ifdef RT_USING_GDB
18*10465441SEvalZero #include "gdb_stub.h"
19*10465441SEvalZero #endif
20*10465441SEvalZero
21*10465441SEvalZero /**
22*10465441SEvalZero * @addtogroup AM33XX
23*10465441SEvalZero */
24*10465441SEvalZero /*@{*/
25*10465441SEvalZero
26*10465441SEvalZero extern struct rt_thread *rt_current_thread;
27*10465441SEvalZero #ifdef RT_USING_FINSH
28*10465441SEvalZero extern long list_thread(void);
29*10465441SEvalZero #endif
30*10465441SEvalZero
31*10465441SEvalZero /**
32*10465441SEvalZero * this function will show registers of CPU
33*10465441SEvalZero *
34*10465441SEvalZero * @param regs the registers point
35*10465441SEvalZero */
36*10465441SEvalZero
rt_hw_show_register(struct rt_hw_register * regs)37*10465441SEvalZero void rt_hw_show_register (struct rt_hw_register *regs)
38*10465441SEvalZero {
39*10465441SEvalZero rt_kprintf("Execption:\n");
40*10465441SEvalZero rt_kprintf("r00:0x%08x r01:0x%08x r02:0x%08x r03:0x%08x\n", regs->r0, regs->r1, regs->r2, regs->r3);
41*10465441SEvalZero rt_kprintf("r04:0x%08x r05:0x%08x r06:0x%08x r07:0x%08x\n", regs->r4, regs->r5, regs->r6, regs->r7);
42*10465441SEvalZero rt_kprintf("r08:0x%08x r09:0x%08x r10:0x%08x\n", regs->r8, regs->r9, regs->r10);
43*10465441SEvalZero rt_kprintf("fp :0x%08x ip :0x%08x\n", regs->fp, regs->ip);
44*10465441SEvalZero rt_kprintf("sp :0x%08x lr :0x%08x pc :0x%08x\n", regs->sp, regs->lr, regs->pc);
45*10465441SEvalZero rt_kprintf("cpsr:0x%08x\n", regs->cpsr);
46*10465441SEvalZero }
47*10465441SEvalZero
48*10465441SEvalZero /**
49*10465441SEvalZero * When ARM7TDMI comes across an instruction which it cannot handle,
50*10465441SEvalZero * it takes the undefined instruction trap.
51*10465441SEvalZero *
52*10465441SEvalZero * @param regs system registers
53*10465441SEvalZero *
54*10465441SEvalZero * @note never invoke this function in application
55*10465441SEvalZero */
rt_hw_trap_udef(struct rt_hw_register * regs)56*10465441SEvalZero void rt_hw_trap_udef(struct rt_hw_register *regs)
57*10465441SEvalZero {
58*10465441SEvalZero
59*10465441SEvalZero #ifdef RT_USING_GDB
60*10465441SEvalZero regs->pc -= 4; //lr in undef is pc + 4
61*10465441SEvalZero if (gdb_undef_hook(regs))
62*10465441SEvalZero return;
63*10465441SEvalZero #endif
64*10465441SEvalZero
65*10465441SEvalZero rt_hw_show_register(regs);
66*10465441SEvalZero
67*10465441SEvalZero rt_kprintf("undefined instruction\n");
68*10465441SEvalZero rt_kprintf("thread %.*s stack:\n", RT_NAME_MAX, rt_current_thread->name);
69*10465441SEvalZero
70*10465441SEvalZero #ifdef RT_USING_FINSH
71*10465441SEvalZero list_thread();
72*10465441SEvalZero #endif
73*10465441SEvalZero rt_hw_cpu_shutdown();
74*10465441SEvalZero }
75*10465441SEvalZero
76*10465441SEvalZero /**
77*10465441SEvalZero * The software interrupt instruction (SWI) is used for entering
78*10465441SEvalZero * Supervisor mode, usually to request a particular supervisor
79*10465441SEvalZero * function.
80*10465441SEvalZero *
81*10465441SEvalZero * @param regs system registers
82*10465441SEvalZero *
83*10465441SEvalZero * @note never invoke this function in application
84*10465441SEvalZero */
rt_hw_trap_swi(struct rt_hw_register * regs)85*10465441SEvalZero void rt_hw_trap_swi(struct rt_hw_register *regs)
86*10465441SEvalZero {
87*10465441SEvalZero rt_hw_show_register(regs);
88*10465441SEvalZero
89*10465441SEvalZero rt_kprintf("software interrupt\n");
90*10465441SEvalZero rt_hw_cpu_shutdown();
91*10465441SEvalZero }
92*10465441SEvalZero
93*10465441SEvalZero /**
94*10465441SEvalZero * An abort indicates that the current memory access cannot be completed,
95*10465441SEvalZero * which occurs during an instruction prefetch.
96*10465441SEvalZero *
97*10465441SEvalZero * @param regs system registers
98*10465441SEvalZero *
99*10465441SEvalZero * @note never invoke this function in application
100*10465441SEvalZero */
rt_hw_trap_pabt(struct rt_hw_register * regs)101*10465441SEvalZero void rt_hw_trap_pabt(struct rt_hw_register *regs)
102*10465441SEvalZero {
103*10465441SEvalZero rt_hw_show_register(regs);
104*10465441SEvalZero
105*10465441SEvalZero rt_kprintf("prefetch abort\n");
106*10465441SEvalZero rt_kprintf("thread %.*s stack:\n", RT_NAME_MAX, rt_current_thread->name);
107*10465441SEvalZero
108*10465441SEvalZero #ifdef RT_USING_FINSH
109*10465441SEvalZero list_thread();
110*10465441SEvalZero #endif
111*10465441SEvalZero rt_hw_cpu_shutdown();
112*10465441SEvalZero }
113*10465441SEvalZero
114*10465441SEvalZero /**
115*10465441SEvalZero * An abort indicates that the current memory access cannot be completed,
116*10465441SEvalZero * which occurs during a data access.
117*10465441SEvalZero *
118*10465441SEvalZero * @param regs system registers
119*10465441SEvalZero *
120*10465441SEvalZero * @note never invoke this function in application
121*10465441SEvalZero */
rt_hw_trap_dabt(struct rt_hw_register * regs)122*10465441SEvalZero void rt_hw_trap_dabt(struct rt_hw_register *regs)
123*10465441SEvalZero {
124*10465441SEvalZero
125*10465441SEvalZero #ifdef RT_USING_GDB
126*10465441SEvalZero if (gdb_mem_fault_handler) {
127*10465441SEvalZero regs->pc = (unsigned long)gdb_mem_fault_handler;
128*10465441SEvalZero return;
129*10465441SEvalZero }
130*10465441SEvalZero #endif
131*10465441SEvalZero rt_hw_show_register(regs);
132*10465441SEvalZero
133*10465441SEvalZero rt_kprintf("data abort\n");
134*10465441SEvalZero rt_kprintf("thread %.*s stack:\n", RT_NAME_MAX, rt_current_thread->name);
135*10465441SEvalZero
136*10465441SEvalZero #ifdef RT_USING_FINSH
137*10465441SEvalZero list_thread();
138*10465441SEvalZero #endif
139*10465441SEvalZero rt_hw_cpu_shutdown();
140*10465441SEvalZero }
141*10465441SEvalZero
rt_hw_trap_irq()142*10465441SEvalZero void rt_hw_trap_irq()
143*10465441SEvalZero {
144*10465441SEvalZero void *param;
145*10465441SEvalZero unsigned long ir;
146*10465441SEvalZero rt_isr_handler_t isr_func;
147*10465441SEvalZero extern struct rt_irq_desc isr_table[];
148*10465441SEvalZero
149*10465441SEvalZero ir = rt_hw_interrupt_get_active(INT_IRQ);
150*10465441SEvalZero if (ir == 127)
151*10465441SEvalZero {
152*10465441SEvalZero /* new IRQ generation */
153*10465441SEvalZero rt_hw_interrupt_ack(INT_IRQ);
154*10465441SEvalZero ir = rt_hw_interrupt_get_active(INT_IRQ);
155*10465441SEvalZero if (ir == 127)
156*10465441SEvalZero {
157*10465441SEvalZero /* still spurious interrupt, get out */
158*10465441SEvalZero /*rt_kprintf("still spurious interrupt\n");*/
159*10465441SEvalZero return;
160*10465441SEvalZero }
161*10465441SEvalZero /*rt_kprintf("new IRQ: %d\n", ir);*/
162*10465441SEvalZero }
163*10465441SEvalZero
164*10465441SEvalZero /* get interrupt service routine */
165*10465441SEvalZero isr_func = isr_table[ir].handler;
166*10465441SEvalZero param = isr_table[ir].param;
167*10465441SEvalZero
168*10465441SEvalZero /* turn to interrupt service routine */
169*10465441SEvalZero if (isr_func != RT_NULL)
170*10465441SEvalZero isr_func(ir, param);
171*10465441SEvalZero
172*10465441SEvalZero /* new IRQ generation */
173*10465441SEvalZero rt_hw_interrupt_ack(INT_IRQ);
174*10465441SEvalZero }
175*10465441SEvalZero
rt_hw_trap_fiq()176*10465441SEvalZero void rt_hw_trap_fiq()
177*10465441SEvalZero {
178*10465441SEvalZero void *param;
179*10465441SEvalZero unsigned long ir;
180*10465441SEvalZero rt_isr_handler_t isr_func;
181*10465441SEvalZero extern struct rt_irq_desc isr_table[];
182*10465441SEvalZero
183*10465441SEvalZero ir = rt_hw_interrupt_get_active(INT_FIQ);
184*10465441SEvalZero
185*10465441SEvalZero /* get interrupt service routine */
186*10465441SEvalZero isr_func = isr_table[ir].handler;
187*10465441SEvalZero param = isr_table[ir].param;
188*10465441SEvalZero
189*10465441SEvalZero /* turn to interrupt service routine */
190*10465441SEvalZero isr_func(ir, param);
191*10465441SEvalZero
192*10465441SEvalZero /* new FIQ generation */
193*10465441SEvalZero rt_hw_interrupt_ack(INT_FIQ);
194*10465441SEvalZero }
195*10465441SEvalZero
196*10465441SEvalZero /*@}*/
197