target/adiv5: Large Physical Address Extension
[openocd.git] / src / target / arm_opcodes.h
blob90f8416000c154b40791a6fa86434217693e0ea5
1 /*
2 * Copyright (C) 2005 by Dominic Rath
3 * Dominic.Rath@gmx.de
5 * Copyright (C) 2006 by Magnus Lundin
6 * lundin@mlu.mine.nu
8 * Copyright (C) 2008 by Spencer Oliver
9 * spen@spen-soft.co.uk
11 * Copyright (C) 2009 by Øyvind Harboe
12 * oyvind.harboe@zylin.com
14 * This program is free software; you can redistribute it and/or modify
15 * it under the terms of the GNU General Public License as published by
16 * the Free Software Foundation; either version 2 of the License, or
17 * (at your option) any later version.
19 * This program is distributed in the hope that it will be useful,
20 * but WITHOUT ANY WARRANTY; without even the implied warranty of
21 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
22 * GNU General Public License for more details.
24 * You should have received a copy of the GNU General Public License
25 * along with this program. If not, see <http://www.gnu.org/licenses/>.
28 #ifndef OPENOCD_TARGET_ARM_OPCODES_H
29 #define OPENOCD_TARGET_ARM_OPCODES_H
31 /**
32 * @file
33 * Macros used to generate various ARM or Thumb opcodes.
36 /* ARM mode instructions */
38 /* Store multiple increment after
39 * Rn: base register
40 * List: for each bit in list: store register
41 * S: in privileged mode: store user-mode registers
42 * W = 1: update the base register. W = 0: leave the base register untouched
44 #define ARMV4_5_STMIA(Rn, List, S, W) \
45 (0xe8800000 | ((S) << 22) | ((W) << 21) | ((Rn) << 16) | (List))
47 /* Load multiple increment after
48 * Rn: base register
49 * List: for each bit in list: store register
50 * S: in privileged mode: store user-mode registers
51 * W = 1: update the base register. W = 0: leave the base register untouched
53 #define ARMV4_5_LDMIA(Rn, List, S, W) \
54 (0xe8900000 | ((S) << 22) | ((W) << 21) | ((Rn) << 16) | (List))
56 /* MOV r8, r8 */
57 #define ARMV4_5_NOP (0xe1a08008)
59 /* Move PSR to general purpose register
60 * R = 1: SPSR R = 0: CPSR
61 * Rn: target register
63 #define ARMV4_5_MRS(Rn, R) (0xe10f0000 | ((R) << 22) | ((Rn) << 12))
65 /* Store register
66 * Rd: register to store
67 * Rn: base register
69 #define ARMV4_5_STR(Rd, Rn) (0xe5800000 | ((Rd) << 12) | ((Rn) << 16))
71 /* Load register
72 * Rd: register to load
73 * Rn: base register
75 #define ARMV4_5_LDR(Rd, Rn) (0xe5900000 | ((Rd) << 12) | ((Rn) << 16))
77 /* Move general purpose register to PSR
78 * R = 1: SPSR R = 0: CPSR
79 * Field: Field mask
80 * 1: control field 2: extension field 4: status field 8: flags field
81 * Rm: source register
83 #define ARMV4_5_MSR_GP(Rm, Field, R) \
84 (0xe120f000 | (Rm) | ((Field) << 16) | ((R) << 22))
85 #define ARMV4_5_MSR_IM(Im, Rotate, Field, R) \
86 (0xe320f000 | (Im) | ((Rotate) << 8) | ((Field) << 16) | ((R) << 22))
88 /* Load Register Word Immediate Post-Index
89 * Rd: register to load
90 * Rn: base register
92 #define ARMV4_5_LDRW_IP(Rd, Rn) (0xe4900004 | ((Rd) << 12) | ((Rn) << 16))
94 /* Load Register Halfword Immediate Post-Index
95 * Rd: register to load
96 * Rn: base register
98 #define ARMV4_5_LDRH_IP(Rd, Rn) (0xe0d000b2 | ((Rd) << 12) | ((Rn) << 16))
100 /* Load Register Byte Immediate Post-Index
101 * Rd: register to load
102 * Rn: base register
104 #define ARMV4_5_LDRB_IP(Rd, Rn) (0xe4d00001 | ((Rd) << 12) | ((Rn) << 16))
106 /* Store register Word Immediate Post-Index
107 * Rd: register to store
108 * Rn: base register
110 #define ARMV4_5_STRW_IP(Rd, Rn) (0xe4800004 | ((Rd) << 12) | ((Rn) << 16))
112 /* Store register Halfword Immediate Post-Index
113 * Rd: register to store
114 * Rn: base register
116 #define ARMV4_5_STRH_IP(Rd, Rn) (0xe0c000b2 | ((Rd) << 12) | ((Rn) << 16))
118 /* Store register Byte Immediate Post-Index
119 * Rd: register to store
120 * Rn: base register
122 #define ARMV4_5_STRB_IP(Rd, Rn) (0xe4c00001 | ((Rd) << 12) | ((Rn) << 16))
124 /* Branch (and Link)
125 * Im: Branch target (left-shifted by 2 bits, added to PC)
126 * L: 1: branch and link 0: branch only
128 #define ARMV4_5_B(Im, L) (0xea000000 | (Im) | ((L) << 24))
130 /* Branch and exchange (ARM state)
131 * Rm: register holding branch target address
133 #define ARMV4_5_BX(Rm) (0xe12fff10 | (Rm))
135 /* Copies two words from two ARM core registers
136 * into a doubleword extension register, or
137 * from a doubleword extension register to two ARM core registers.
138 * See Armv7-A arch reference manual section A8.8.345
139 * Rt: Arm core register 1
140 * Rt2: Arm core register 2
141 * Vm: The doubleword extension register
142 * M: m = UInt(M:Vm);
143 * op: to_arm_registers = (op == ‘1’);
145 #define ARMV4_5_VMOV(op, Rt2, Rt, M, Vm) \
146 (0xec400b10 | ((op) << 20) | ((Rt2) << 16) | \
147 ((Rt) << 12) | ((M) << 5) | (Vm))
149 /* Moves the value of the FPSCR to an ARM core register
150 * Rt: Arm core register
152 #define ARMV4_5_VMRS(Rt) (0xeef10a10 | ((Rt) << 12))
154 /* Moves the value of an ARM core register to the FPSCR.
155 * Rt: Arm core register
157 #define ARMV4_5_VMSR(Rt) (0xeee10a10 | ((Rt) << 12))
159 /* Store data from coprocessor to consecutive memory
160 * See Armv7-A arch doc section A8.6.187
161 * P: 1=index mode (offset from Rn)
162 * U: 1=add, 0=subtract Rn address with imm
163 * D: Opcode D encoding
164 * W: write back the offset start address to the Rn register
165 * CP: Coprocessor number (4 bits)
166 * CRd: Coprocessor source register (4 bits)
167 * Rn: Base register for memory address (4 bits)
168 * imm: Immediate value (0 - 1020, must be divisible by 4)
170 #define ARMV4_5_STC(P, U, D, W, CP, CRd, Rn, imm) \
171 (0xec000000 | ((P) << 24) | ((U) << 23) | ((D) << 22) | \
172 ((W) << 21) | ((Rn) << 16) | ((CRd) << 12) | ((CP) << 8) | ((imm)>>2))
174 /* Loads data from consecutive memory to coprocessor
175 * See Armv7-A arch doc section A8.6.51
176 * P: 1=index mode (offset from Rn)
177 * U: 1=add, 0=subtract Rn address with imm
178 * D: Opcode D encoding
179 * W: write back the offset start address to the Rn register
180 * CP: Coprocessor number (4 bits)
181 * CRd: Coprocessor dest register (4 bits)
182 * Rn: Base register for memory address (4 bits)
183 * imm: Immediate value (0 - 1020, must be divisible by 4)
185 #define ARMV4_5_LDC(P, U, D, W, CP, CRd, Rn, imm) \
186 (0xec100000 | ((P) << 24) | ((U) << 23) | ((D) << 22) | \
187 ((W) << 21) | ((Rn) << 16) | ((CRd) << 12) | ((CP) << 8) | ((imm) >> 2))
189 /* Move to ARM register from coprocessor
190 * CP: Coprocessor number
191 * op1: Coprocessor opcode
192 * Rd: destination register
193 * CRn: first coprocessor operand
194 * CRm: second coprocessor operand
195 * op2: Second coprocessor opcode
197 #define ARMV4_5_MRC(CP, op1, Rd, CRn, CRm, op2) \
198 (0xee100010 | (CRm) | ((op2) << 5) | ((CP) << 8) \
199 | ((Rd) << 12) | ((CRn) << 16) | ((op1) << 21))
201 /* Move to coprocessor from ARM register
202 * CP: Coprocessor number
203 * op1: Coprocessor opcode
204 * Rd: destination register
205 * CRn: first coprocessor operand
206 * CRm: second coprocessor operand
207 * op2: Second coprocessor opcode
209 #define ARMV4_5_MCR(CP, op1, Rd, CRn, CRm, op2) \
210 (0xee000010 | (CRm) | ((op2) << 5) | ((CP) << 8) \
211 | ((Rd) << 12) | ((CRn) << 16) | ((op1) << 21))
213 /* Breakpoint instruction (ARMv5)
214 * Im: 16-bit immediate
216 #define ARMV5_BKPT(Im) (0xe1200070 | ((Im & 0xfff0) << 4) | (Im & 0xf))
219 /* Thumb mode instructions
221 * NOTE: these 16-bit opcodes fill both halves of a word with the same
222 * value. The reason for this is that when we need to execute Thumb
223 * opcodes on ARM7/ARM9 cores (to switch to ARM state on debug entry),
224 * we must shift 32 bits to the bus using scan chain 1 ... if we write
225 * both halves, we don't need to track which half matters. On ARMv6 and
226 * ARMv7 we don't execute Thumb instructions in debug mode; the ITR
227 * register does not accept Thumb (or Thumb2) opcodes.
230 /* Store register (Thumb mode)
231 * Rd: source register
232 * Rn: base register
234 #define ARMV4_5_T_STR(Rd, Rn) \
235 ((0x6000 | (Rd) | ((Rn) << 3)) | \
236 ((0x6000 | (Rd) | ((Rn) << 3)) << 16))
238 /* Load register (Thumb state)
239 * Rd: destination register
240 * Rn: base register
242 #define ARMV4_5_T_LDR(Rd, Rn) \
243 ((0x6800 | ((Rn) << 3) | (Rd)) \
244 | ((0x6800 | ((Rn) << 3) | (Rd)) << 16))
246 /* Load multiple (Thumb state)
247 * Rn: base register
248 * List: for each bit in list: store register
250 #define ARMV4_5_T_LDMIA(Rn, List) \
251 ((0xc800 | ((Rn) << 8) | (List)) \
252 | ((0xc800 | ((Rn) << 8) | (List)) << 16))
254 /* Load register with PC relative addressing
255 * Rd: register to load
257 #define ARMV4_5_T_LDR_PCREL(Rd) \
258 ((0x4800 | ((Rd) << 8)) \
259 | ((0x4800 | ((Rd) << 8)) << 16))
261 /* Move hi register (Thumb mode)
262 * Rd: destination register
263 * Rm: source register
265 #define ARMV4_5_T_MOV(Rd, Rm) \
266 ((0x4600 | ((Rd) & 0x7) | (((Rd) & 0x8) << 4) | \
267 (((Rm) & 0x7) << 3) | (((Rm) & 0x8) << 3)) \
268 | ((0x4600 | ((Rd) & 0x7) | (((Rd) & 0x8) << 4) | \
269 (((Rm) & 0x7) << 3) | (((Rm) & 0x8) << 3)) << 16))
271 /* No operation (Thumb mode)
272 * NOTE: this is "MOV r8, r8" ... Thumb2 adds two
273 * architected NOPs, 16-bit and 32-bit.
275 #define ARMV4_5_T_NOP (0x46c0 | (0x46c0 << 16))
277 /* Move immediate to register (Thumb state)
278 * Rd: destination register
279 * Im: 8-bit immediate value
281 #define ARMV4_5_T_MOV_IM(Rd, Im) \
282 ((0x2000 | ((Rd) << 8) | (Im)) \
283 | ((0x2000 | ((Rd) << 8) | (Im)) << 16))
285 /* Branch and Exchange
286 * Rm: register containing branch target
288 #define ARMV4_5_T_BX(Rm) \
289 ((0x4700 | ((Rm) << 3)) \
290 | ((0x4700 | ((Rm) << 3)) << 16))
292 /* Branch (Thumb state)
293 * Imm: Branch target
295 #define ARMV4_5_T_B(Imm) \
296 ((0xe000 | (Imm)) \
297 | ((0xe000 | (Imm)) << 16))
299 /* Breakpoint instruction (ARMv5) (Thumb state)
300 * Im: 8-bit immediate
302 #define ARMV5_T_BKPT(Im) \
303 ((0xbe00 | (Im)) \
304 | ((0xbe00 | (Im)) << 16))
306 /* Move to Register from Special Register
307 * 32 bit Thumb2 instruction
308 * Rd: destination register
309 * SYSm: source special register
311 #define ARM_T2_MRS(Rd, SYSm) \
312 ((0xF3EF) | ((0x8000 | (Rd << 8) | SYSm) << 16))
314 /* Move from Register from Special Register
315 * 32 bit Thumb2 instruction
316 * Rd: source register
317 * SYSm: destination special register
319 #define ARM_T2_MSR(SYSm, Rn) \
320 ((0xF380 | (Rn << 8)) | ((0x8800 | SYSm) << 16))
322 /* Change Processor State.
323 * 16 bit Thumb2 instruction
324 * Rd: source register
325 * IF: A_FLAG and/or I_FLAG and/or F_FLAG
327 #define A_FLAG 4
328 #define I_FLAG 2
329 #define F_FLAG 1
330 #define ARM_T2_CPSID(IF) \
331 ((0xB660 | (1 << 8) | ((IF)&0x3)) \
332 | ((0xB660 | (1 << 8) | ((IF)&0x3)) << 16))
333 #define ARM_T2_CPSIE(IF) \
334 ((0xB660 | (0 << 8) | ((IF)&0x3)) \
335 | ((0xB660 | (0 << 8) | ((IF)&0x3)) << 16))
337 #endif /* OPENOCD_TARGET_ARM_OPCODES_H */