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target/riscv: add common magic
[openocd.git] / src / target / cortex_m.h
1 /* SPDX-License-Identifier: GPL-2.0-or-later */
2
3 /***************************************************************************
4 * Copyright (C) 2005 by Dominic Rath *
5 * Dominic.Rath@gmx.de *
6 * *
7 * Copyright (C) 2006 by Magnus Lundin *
8 * lundin@mlu.mine.nu *
9 * *
10 * Copyright (C) 2008 by Spencer Oliver *
11 * spen@spen-soft.co.uk *
12 ***************************************************************************/
13
14 #ifndef OPENOCD_TARGET_CORTEX_M_H
15 #define OPENOCD_TARGET_CORTEX_M_H
16
17 #include "armv7m.h"
18 #include "helper/bits.h"
19
20 #define CORTEX_M_COMMON_MAGIC 0x1A451A45
21
22 #define SYSTEM_CONTROL_BASE 0x400FE000
23
24 #define ITM_TER0 0xE0000E00
25 #define ITM_TPR 0xE0000E40
26 #define ITM_TCR 0xE0000E80
27 #define ITM_TCR_ITMENA_BIT BIT(0)
28 #define ITM_TCR_BUSY_BIT BIT(23)
29 #define ITM_LAR 0xE0000FB0
30 #define ITM_LAR_KEY 0xC5ACCE55
31
32 #define CPUID 0xE000ED00
33
34 #define ARM_CPUID_PARTNO_POS 4
35 #define ARM_CPUID_PARTNO_MASK (0xFFF << ARM_CPUID_PARTNO_POS)
36
37 enum cortex_m_partno {
38 CORTEX_M_PARTNO_INVALID,
39 CORTEX_M0_PARTNO = 0xC20,
40 CORTEX_M1_PARTNO = 0xC21,
41 CORTEX_M3_PARTNO = 0xC23,
42 CORTEX_M4_PARTNO = 0xC24,
43 CORTEX_M7_PARTNO = 0xC27,
44 CORTEX_M0P_PARTNO = 0xC60,
45 CORTEX_M23_PARTNO = 0xD20,
46 CORTEX_M33_PARTNO = 0xD21,
47 CORTEX_M35P_PARTNO = 0xD31,
48 CORTEX_M55_PARTNO = 0xD22,
49 };
50
51 /* Relevant Cortex-M flags, used in struct cortex_m_part_info.flags */
52 #define CORTEX_M_F_HAS_FPV4 BIT(0)
53 #define CORTEX_M_F_HAS_FPV5 BIT(1)
54 #define CORTEX_M_F_TAR_AUTOINCR_BLOCK_4K BIT(2)
55
56 struct cortex_m_part_info {
57 enum cortex_m_partno partno;
58 const char *name;
59 enum arm_arch arch;
60 uint32_t flags;
61 };
62
63 /* Debug Control Block */
64 #define DCB_DHCSR 0xE000EDF0
65 #define DCB_DCRSR 0xE000EDF4
66 #define DCB_DCRDR 0xE000EDF8
67 #define DCB_DEMCR 0xE000EDFC
68 #define DCB_DSCSR 0xE000EE08
69
70 #define DCRSR_WNR BIT(16)
71
72 #define DWT_CTRL 0xE0001000
73 #define DWT_CYCCNT 0xE0001004
74 #define DWT_PCSR 0xE000101C
75 #define DWT_COMP0 0xE0001020
76 #define DWT_MASK0 0xE0001024
77 #define DWT_FUNCTION0 0xE0001028
78 #define DWT_DEVARCH 0xE0001FBC
79
80 #define DWT_DEVARCH_ARMV8M 0x101A02
81
82 #define FP_CTRL 0xE0002000
83 #define FP_REMAP 0xE0002004
84 #define FP_COMP0 0xE0002008
85 #define FP_COMP1 0xE000200C
86 #define FP_COMP2 0xE0002010
87 #define FP_COMP3 0xE0002014
88 #define FP_COMP4 0xE0002018
89 #define FP_COMP5 0xE000201C
90 #define FP_COMP6 0xE0002020
91 #define FP_COMP7 0xE0002024
92
93 #define FPU_CPACR 0xE000ED88
94 #define FPU_FPCCR 0xE000EF34
95 #define FPU_FPCAR 0xE000EF38
96 #define FPU_FPDSCR 0xE000EF3C
97
98 #define TPIU_SSPSR 0xE0040000
99 #define TPIU_CSPSR 0xE0040004
100 #define TPIU_ACPR 0xE0040010
101 #define TPIU_SPPR 0xE00400F0
102 #define TPIU_FFSR 0xE0040300
103 #define TPIU_FFCR 0xE0040304
104 #define TPIU_FSCR 0xE0040308
105
106 /* Maximum SWO prescaler value. */
107 #define TPIU_ACPR_MAX_SWOSCALER 0x1fff
108
109 /* DCB_DHCSR bit and field definitions */
110 #define DBGKEY (0xA05Ful << 16)
111 #define C_DEBUGEN BIT(0)
112 #define C_HALT BIT(1)
113 #define C_STEP BIT(2)
114 #define C_MASKINTS BIT(3)
115 #define S_REGRDY BIT(16)
116 #define S_HALT BIT(17)
117 #define S_SLEEP BIT(18)
118 #define S_LOCKUP BIT(19)
119 #define S_RETIRE_ST BIT(24)
120 #define S_RESET_ST BIT(25)
121
122 /* DCB_DEMCR bit and field definitions */
123 #define TRCENA BIT(24)
124 #define VC_HARDERR BIT(10)
125 #define VC_INTERR BIT(9)
126 #define VC_BUSERR BIT(8)
127 #define VC_STATERR BIT(7)
128 #define VC_CHKERR BIT(6)
129 #define VC_NOCPERR BIT(5)
130 #define VC_MMERR BIT(4)
131 #define VC_CORERESET BIT(0)
132
133 /* DCB_DSCSR bit and field definitions */
134 #define DSCSR_CDS BIT(16)
135
136 /* NVIC registers */
137 #define NVIC_ICTR 0xE000E004
138 #define NVIC_ISE0 0xE000E100
139 #define NVIC_ICSR 0xE000ED04
140 #define NVIC_AIRCR 0xE000ED0C
141 #define NVIC_SHCSR 0xE000ED24
142 #define NVIC_CFSR 0xE000ED28
143 #define NVIC_MMFSRB 0xE000ED28
144 #define NVIC_BFSRB 0xE000ED29
145 #define NVIC_USFSRH 0xE000ED2A
146 #define NVIC_HFSR 0xE000ED2C
147 #define NVIC_DFSR 0xE000ED30
148 #define NVIC_MMFAR 0xE000ED34
149 #define NVIC_BFAR 0xE000ED38
150 #define NVIC_SFSR 0xE000EDE4
151 #define NVIC_SFAR 0xE000EDE8
152
153 /* NVIC_AIRCR bits */
154 #define AIRCR_VECTKEY (0x5FAul << 16)
155 #define AIRCR_SYSRESETREQ BIT(2)
156 #define AIRCR_VECTCLRACTIVE BIT(1)
157 #define AIRCR_VECTRESET BIT(0)
158 /* NVIC_SHCSR bits */
159 #define SHCSR_BUSFAULTENA BIT(17)
160 /* NVIC_DFSR bits */
161 #define DFSR_HALTED 1
162 #define DFSR_BKPT 2
163 #define DFSR_DWTTRAP 4
164 #define DFSR_VCATCH 8
165 #define DFSR_EXTERNAL 16
166
167 #define FPCR_CODE 0
168 #define FPCR_LITERAL 1
169 #define FPCR_REPLACE_REMAP (0ul << 30)
170 #define FPCR_REPLACE_BKPT_LOW (1ul << 30)
171 #define FPCR_REPLACE_BKPT_HIGH (2ul << 30)
172 #define FPCR_REPLACE_BKPT_BOTH (3ul << 30)
173
174 struct cortex_m_fp_comparator {
175 bool used;
176 int type;
177 uint32_t fpcr_value;
178 uint32_t fpcr_address;
179 };
180
181 struct cortex_m_dwt_comparator {
182 bool used;
183 uint32_t comp;
184 uint32_t mask;
185 uint32_t function;
186 uint32_t dwt_comparator_address;
187 };
188
189 enum cortex_m_soft_reset_config {
190 CORTEX_M_RESET_SYSRESETREQ,
191 CORTEX_M_RESET_VECTRESET,
192 };
193
194 enum cortex_m_isrmasking_mode {
195 CORTEX_M_ISRMASK_AUTO,
196 CORTEX_M_ISRMASK_OFF,
197 CORTEX_M_ISRMASK_ON,
198 CORTEX_M_ISRMASK_STEPONLY,
199 };
200
201 struct cortex_m_common {
202 int common_magic;
203
204 /* Context information */
205 uint32_t dcb_dhcsr;
206 uint32_t dcb_dhcsr_cumulated_sticky;
207 uint32_t nvic_dfsr; /* Debug Fault Status Register - shows reason for debug halt */
208 uint32_t nvic_icsr; /* Interrupt Control State Register - shows active and pending IRQ */
209
210 /* Flash Patch and Breakpoint (FPB) */
211 unsigned int fp_num_lit;
212 unsigned int fp_num_code;
213 int fp_rev;
214 bool fpb_enabled;
215 struct cortex_m_fp_comparator *fp_comparator_list;
216
217 /* Data Watchpoint and Trace (DWT) */
218 unsigned int dwt_num_comp;
219 unsigned int dwt_comp_available;
220 uint32_t dwt_devarch;
221 struct cortex_m_dwt_comparator *dwt_comparator_list;
222 struct reg_cache *dwt_cache;
223
224 enum cortex_m_soft_reset_config soft_reset_config;
225 bool vectreset_supported;
226 enum cortex_m_isrmasking_mode isrmasking_mode;
227
228 const struct cortex_m_part_info *core_info;
229 struct armv7m_common armv7m;
230
231 bool slow_register_read; /* A register has not been ready, poll S_REGRDY */
232
233 uint64_t apsel;
234
235 /* Whether this target has the erratum that makes C_MASKINTS not apply to
236 * already pending interrupts */
237 bool maskints_erratum;
238 };
239
240 static inline bool is_cortex_m_or_hla(const struct cortex_m_common *cortex_m)
241 {
242 return cortex_m->common_magic == CORTEX_M_COMMON_MAGIC;
243 }
244
245 static inline bool is_cortex_m_with_dap_access(const struct cortex_m_common *cortex_m)
246 {
247 if (!is_cortex_m_or_hla(cortex_m))
248 return false;
249
250 return !cortex_m->armv7m.is_hla_target;
251 }
252
253 /**
254 * @returns the pointer to the target specific struct
255 * without matching a magic number.
256 * Use in target specific service routines, where the correct
257 * type of arch_info is certain.
258 */
259 static inline struct cortex_m_common *
260 target_to_cm(struct target *target)
261 {
262 return container_of(target->arch_info,
263 struct cortex_m_common, armv7m.arm);
264 }
265
266 /**
267 * @returns the pointer to the target specific struct
268 * or NULL if the magic number does not match.
269 * Use in a flash driver or any place where mismatch of the arch_info
270 * type can happen.
271 */
272 static inline struct cortex_m_common *
273 target_to_cortex_m_safe(struct target *target)
274 {
275 /* Check the parent types first to prevent peeking memory too far
276 * from arch_info pointer */
277 if (!target_to_armv7m_safe(target))
278 return NULL;
279
280 struct cortex_m_common *cortex_m = target_to_cm(target);
281 if (!is_cortex_m_or_hla(cortex_m))
282 return NULL;
283
284 return cortex_m;
285 }
286
287 /**
288 * @returns cached value of Cortex-M part number
289 * or CORTEX_M_PARTNO_INVALID if the magic number does not match
290 * or core_info is not initialised.
291 */
292 static inline enum cortex_m_partno cortex_m_get_partno_safe(struct target *target)
293 {
294 struct cortex_m_common *cortex_m = target_to_cortex_m_safe(target);
295 if (!cortex_m)
296 return CORTEX_M_PARTNO_INVALID;
297
298 if (!cortex_m->core_info)
299 return CORTEX_M_PARTNO_INVALID;
300
301 return cortex_m->core_info->partno;
302 }
303
304 int cortex_m_examine(struct target *target);
305 int cortex_m_set_breakpoint(struct target *target, struct breakpoint *breakpoint);
306 int cortex_m_unset_breakpoint(struct target *target, struct breakpoint *breakpoint);
307 int cortex_m_add_breakpoint(struct target *target, struct breakpoint *breakpoint);
308 int cortex_m_remove_breakpoint(struct target *target, struct breakpoint *breakpoint);
309 int cortex_m_add_watchpoint(struct target *target, struct watchpoint *watchpoint);
310 int cortex_m_remove_watchpoint(struct target *target, struct watchpoint *watchpoint);
311 void cortex_m_enable_breakpoints(struct target *target);
312 void cortex_m_enable_watchpoints(struct target *target);
313 void cortex_m_deinit_target(struct target *target);
314 int cortex_m_profiling(struct target *target, uint32_t *samples,
315 uint32_t max_num_samples, uint32_t *num_samples, uint32_t seconds);
316
317 #endif /* OPENOCD_TARGET_CORTEX_M_H */
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