source: trunk/libs/newlib/src/libgloss/bfin/include/sys/exception.h @ 608

Last change on this file since 608 was 444, checked in by satin@…, 7 years ago

add newlib,libalmos-mkh, restructure shared_syscalls.h and mini-libc

File size: 7.7 KB
Line 
1/*
2 * The authors hereby grant permission to use, copy, modify, distribute,
3 * and license this software and its documentation for any purpose, provided
4 * that existing copyright notices are retained in all copies and that this
5 * notice is included verbatim in any distributions. No written agreement,
6 * license, or royalty fee is required for any of the authorized uses.
7 * Modifications to this software may be copyrighted by their authors
8 * and need not follow the licensing terms described here, provided that
9 * the new terms are clearly indicated on the first page of each file where
10 * they apply.
11 */
12
13#pragma once
14#ifndef __NO_BUILTIN
15#pragma system_header /* exception.h */
16#endif
17/************************************************************************
18 *
19 * exception.h
20 *
21 * (c) Copyright 2001-2008 Analog Devices, Inc.  All rights reserved.
22 *
23 ************************************************************************/
24
25#ifndef _EXCEPTION_H
26#define _EXCEPTION_H
27
28#ifdef _MISRA_RULES
29#pragma diag(push)
30#pragma diag(suppress:misra_rule_5_6)
31#pragma diag(suppress:misra_rule_5_7)
32#pragma diag(suppress:misra_rule_6_3)
33#pragma diag(suppress:misra_rule_19_4)
34#pragma diag(suppress:misra_rule_19_7)
35#pragma diag(suppress:misra_rule_19_10)
36#pragma diag(suppress:misra_rule_19_13)
37#endif /* _MISRA_RULES */
38
39
40
41/*
42** Definitions for user-friendly interrupt handling.
43*/
44
45/*
46** Memory-Mapped Registers (MMRs) - these record what causes address
47** exceptions.
48*/
49
50#define EX_DATA_FAULT_STATUS    0xFFE00008
51#define EX_DATA_FAULT_ADDR      0xFFE0000C
52#define EX_CODE_FAULT_STATUS    0xFFE01008
53#define EX_CODE_FAULT_ADDR      0xFFE0100C
54
55/*
56** Event Vector Table
57*/
58
59#define EX_EVENT_VECTOR_TABLE   0xFFE02000
60
61/*
62** Meaning of the various bits in EXCAUSE field in SEQSTAT register.
63*/
64
65#define EX_BITS         0x3F    /* All EXCAUSE bits */
66#define EX_TYPE         0x30    /* The bits which define the type */
67#define EX_DEBUG        0x10    /* If set, is a debug exception type */
68#define EX_SYS          0x20    /* If set, is a system exception type */
69                                /* If neither set, is from EXCPT instr */
70
71#define EX_IS_DEBUG_EXCEPTION(E)        (((E)&EX_TYPE)==EX_DEBUG)
72#define EX_IS_SYSTEM_EXCEPTION(E)       (((E)&EX_TYPE)==EX_SYS)
73#define EX_IS_USER_EXCEPTION(E)         (((E)&EX_TYPE)==0)
74
75/*
76** Service exceptions continue from the instruction after the one
77** that raised the exception.
78** Error exceptions restart the instruction that raised the exception.
79*/
80
81#define EX_IS_SERVICE_EXCEPTION(E)      (!EX_IS_SYSTEM_EXCEPTION(E))
82#define EX_IS_ERROR_EXCEPTION(E)        (EX_IS_SYSTEM_EXCEPTION(E))
83
84#define EX_DB_SINGLE_STEP 0x10  /* Processor is single-stepping */
85#define EX_DB_EMTRCOVRFLW 0x11  /* Emulation Trace buffer overflowed */
86
87#define EX_SYS_UNDEFINSTR 0x21  /* Undefined instruction */
88#define EX_SYS_ILLINSTRC  0x22  /* Illegal instruction combination */
89#define EX_SYS_DCPLBPROT  0x23  /* Data CPLB Protection violation */
90#define EX_SYS_DALIGN     0x24  /* Data access misaligned address violation */
91#define EX_SYS_UNRECEVT   0x25  /* Unrecoverable event */
92#define EX_SYS_DCPLBMISS  0x26  /* Data access CPLB Miss */
93#define EX_SYS_DCPLBMHIT  0x27  /* Data access CPLB Multiple Hits */
94#define EX_SYS_EMWATCHPT  0x28  /* Emulation watch point match */
95#define EX_SYS_CACCESSEX  0x29  /* Code fetch access exception */
96#define EX_SYS_CALIGN     0x2A  /* Attempted misaligned instr cache fetch */
97#define EX_SYS_CCPLBPROT  0x2B  /* Code fetch CPLB Protection */
98#define EX_SYS_CCPLBMISS  0x2C  /* CPLB miss on an instruction fetch */
99#define EX_SYS_CCPLBMHIT  0x2D  /* Code fetch CPLB Multiple Hits */
100#define EX_SYS_ILLUSESUP  0x2E  /* Illegal use of Supervisor Resource */
101
102/*
103** Meaning of the various bits in HWERRCAUSE in SEQSTAT
104*/
105
106#define EX_HWBITS (0x1F<<14)    /* bits 18:14 */
107
108#if !defined(__ADSPLPBLACKFIN__)
109#define EX_HW_NOMEM1    (0x16<<14)
110#define EX_HW_NOMEM2    (0x17<<14)
111#else
112#define EX_HW_SYSMMR    (0x02<<14)
113#define EX_HW_EXTMEM    (0x03<<14)
114#endif
115#define EX_HW_DMAHIT    (0x01<<14)
116#define EX_HW_PERFMON (0x12<<14)
117#define EX_HW_RAISE     (0x18<<14)
118
119/*
120** Meaning of the bits in DATA_FAULT_STATUS and CODE_FAULT_STATUS
121*/
122
123#define EX_DATA_FAULT_ILLADDR   (1<<19) /* non-existent memory */
124#define EX_DATA_FAULT_DAG       (1<<18) /* 0=>DAG0, 1=>DAG1 */
125#define EX_DATA_FAULT_USERSUPV  (1<<17) /* 0=>user mode, 1=> supervisor */
126#define EX_DATA_FAULT_READWRITE (1<<16) /* 0=>read, 1=>write */
127#define EX_DATA_FAULT_CPLB       0xFFFF /* 0=>CPLB0, 1=>CPLB1, etc */
128
129#define EX_CODE_FAULT_ILLADDR   (1<<19) /* non-existent memory */
130#define EX_CODE_FAULT_USERSUPV  (1<<17) /* 0=>user mode, 1=> supervisor */
131#define EX_CODE_FAULT_CPLB       0xFFFF /* 0=>CPLB0, 1=>CPLB1, etc */
132
133/*
134** The kinds of interrupt that can occur. These are also the
135** indices into the Event Vector Table.
136*/
137
138#ifdef __cplusplus
139extern "C" {
140#endif
141
142typedef enum {
143  ik_err=-1,
144  ik_emulation,
145  ik_reset,
146  ik_nmi,
147  ik_exception,
148  ik_global_int_enable,
149  ik_hardware_err,
150  ik_timer,
151  ik_ivg7,
152  ik_ivg8,
153  ik_ivg9,
154  ik_ivg10,
155  ik_ivg11,
156  ik_ivg12,
157  ik_ivg13,
158  ik_ivg14,
159  ik_ivg15,
160  num_interrupt_kind
161} interrupt_kind;
162
163/*
164** Structure for recording details of an exception or interrupt
165** that has occurred.
166*/
167
168typedef struct {
169  interrupt_kind kind;          /* whether interrupt, exception, etc. */
170  int value;                    /* interrupt number, exception type, etc. */
171  void *pc;                     /* PC at point where exception occurred */
172  void *addr;                   /* if an address faulted, which one. */
173  unsigned status;              /* if an address faulted, why. */
174} interrupt_info;
175
176/*
177** Macro for defining an interrupt routine
178*/
179
180typedef void (*ex_handler_fn)();
181
182#define EX_HANDLER(KIND,NAME) \
183_Pragma(#KIND) \
184void NAME (void)
185
186#define EX_HANDLER_PROTO(KIND, NAME) EX_HANDLER(KIND, NAME)
187
188#define EX_INTERRUPT_HANDLER(NAME)      EX_HANDLER(interrupt,NAME)
189#define EX_EXCEPTION_HANDLER(NAME)      EX_HANDLER(exception,NAME)
190#define EX_NMI_HANDLER(NAME)            EX_HANDLER(nmi,NAME)
191#define EX_REENTRANT_HANDLER(NAME) \
192_Pragma("interrupt_reentrant") \
193EX_HANDLER(interrupt,NAME)
194
195/*
196** A convenience function for setting up the interrupt_info contents.
197** Must be called from immediately with the interrupt handler.
198*/
199
200void get_interrupt_info(interrupt_kind int_kind, interrupt_info *int_info);
201
202/*
203** Diagnostics function for reporting unexpected events.
204*/
205
206void _ex_report_event(interrupt_info *int_info);
207
208/*
209** Register an interrupt handler within the EVT.
210** Return previous value if there was one.
211*/
212ex_handler_fn register_handler(interrupt_kind int_kind, ex_handler_fn handler);
213
214/*
215** Some magic values for registering default and null handlers.
216*/
217
218#define EX_INT_DEFAULT ((ex_handler_fn)-1)
219#define EX_INT_IGNORE  ((ex_handler_fn)0)
220
221/*
222** Extended function to register an interrupt handler within the EVT.
223** Returns the old handler.
224**
225** If enabled == EX_INT_ALWAYS_ENABLE, install fn (if fn != EX_INT_IGNORE
226** and fn != EX_INT_DISABLE), and then enable the interrupt in IMASK then
227** return
228**
229** If fn == EX_INT_IGNORE, disable the interrupt
230** If fn == EX_INT_DEFAULT, delete the handler entry in the EVT and disable
231**   the interrupt in IMASK
232** Otherwise, install the new interrupt handler.  Then,
233**  If enabled == EX_INT_DISABLE, disable the interrupt in IMASK
234**  If enabled == EX_INT_ENABLE, enable the interrupt in IMASK
235**  otherwise leave the interrupt status alone.
236*/
237ex_handler_fn register_handler_ex(interrupt_kind kind, ex_handler_fn fn,
238                                  int enable);
239
240/* Constants for the enabled parameter of register_handler_ex */
241#define EX_INT_DISABLE 0
242#define EX_INT_ENABLE 1
243#define EX_INT_KEEP_IMASK -1
244#define EX_INT_ALWAYS_ENABLE 2
245
246/*
247** Allow the user to raise exceptions from C.
248*/
249
250int raise_interrupt(interrupt_kind kind, int which,
251   int cmd, int arg1, int arg2);
252
253#ifdef __cplusplus
254  } /* extern "C" */
255#endif
256
257#ifdef _MISRA_RULES
258#pragma diag(pop)
259#endif /* _MISRA_RULES */
260
261#endif /* _EXCEPTION_H */
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