intregs.hh revision 7310:239ab4e0c7d4 
1/*
2 * Copyright (c) 2010 ARM Limited
3 * All rights reserved
4 *
5 * The license below extends only to copyright in the software and shall
6 * not be construed as granting a license to any other intellectual
7 * property including but not limited to intellectual property relating
8 * to a hardware implementation of the functionality of the software
9 * licensed hereunder.  You may use the software subject to the license
10 * terms below provided that you ensure that this notice is replicated
11 * unmodified and in its entirety in all distributions of the software,
12 * modified or unmodified, in source code or in binary form.
13 *
14 * Copyright (c) 2009 The Regents of The University of Michigan
15 * All rights reserved.
16 *
17 * Redistribution and use in source and binary forms, with or without
18 * modification, are permitted provided that the following conditions are
19 * met: redistributions of source code must retain the above copyright
20 * notice, this list of conditions and the following disclaimer;
21 * redistributions in binary form must reproduce the above copyright
22 * notice, this list of conditions and the following disclaimer in the
23 * documentation and/or other materials provided with the distribution;
24 * neither the name of the copyright holders nor the names of its
25 * contributors may be used to endorse or promote products derived from
26 * this software without specific prior written permission.
27 *
28 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
29 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
30 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
31 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
32 * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
33 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
34 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
35 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
36 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
37 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
38 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
39 *
40 * Authors: Gabe Black
41 */
42
43#include <assert.h>
44
45#ifndef __ARCH_ARM_INTREGS_HH__
46#define __ARCH_ARM_INTREGS_HH__
47
48#include "arch/arm/types.hh"
49
50namespace ArmISA
51{
52
53enum IntRegIndex
54{
55    /* All the unique register indices. */
56    INTREG_R0,
57    INTREG_R1,
58    INTREG_R2,
59    INTREG_R3,
60    INTREG_R4,
61    INTREG_R5,
62    INTREG_R6,
63    INTREG_R7,
64    INTREG_R8,
65    INTREG_R9,
66    INTREG_R10,
67    INTREG_R11,
68    INTREG_R12,
69    INTREG_R13,
70    INTREG_SP = INTREG_R13,
71    INTREG_R14,
72    INTREG_LR = INTREG_R14,
73    INTREG_R15,
74    INTREG_PC = INTREG_R15,
75
76    INTREG_R13_SVC,
77    INTREG_SP_SVC = INTREG_R13_SVC,
78    INTREG_R14_SVC,
79    INTREG_LR_SVC = INTREG_R14_SVC,
80
81    INTREG_R13_MON,
82    INTREG_SP_MON = INTREG_R13_MON,
83    INTREG_R14_MON,
84    INTREG_LR_MON = INTREG_R14_MON,
85
86    INTREG_R13_ABT,
87    INTREG_SP_ABT = INTREG_R13_ABT,
88    INTREG_R14_ABT,
89    INTREG_LR_ABT = INTREG_R14_ABT,
90
91    INTREG_R13_UND,
92    INTREG_SP_UND = INTREG_R13_UND,
93    INTREG_R14_UND,
94    INTREG_LR_UND = INTREG_R14_UND,
95
96    INTREG_R13_IRQ,
97    INTREG_SP_IRQ = INTREG_R13_IRQ,
98    INTREG_R14_IRQ,
99    INTREG_LR_IRQ = INTREG_R14_IRQ,
100
101    INTREG_R8_FIQ,
102    INTREG_R9_FIQ,
103    INTREG_R10_FIQ,
104    INTREG_R11_FIQ,
105    INTREG_R12_FIQ,
106    INTREG_R13_FIQ,
107    INTREG_SP_FIQ = INTREG_R13_FIQ,
108    INTREG_R14_FIQ,
109    INTREG_LR_FIQ = INTREG_R14_FIQ,
110
111    INTREG_ZERO, // Dummy zero reg since there has to be one.
112    INTREG_UREG0,
113    INTREG_CONDCODES,
114
115    NUM_INTREGS,
116    NUM_ARCH_INTREGS = INTREG_PC + 1,
117
118    /* All the aliased indexes. */
119
120    /* USR mode */
121    INTREG_R0_USR = INTREG_R0,
122    INTREG_R1_USR = INTREG_R1,
123    INTREG_R2_USR = INTREG_R2,
124    INTREG_R3_USR = INTREG_R3,
125    INTREG_R4_USR = INTREG_R4,
126    INTREG_R5_USR = INTREG_R5,
127    INTREG_R6_USR = INTREG_R6,
128    INTREG_R7_USR = INTREG_R7,
129    INTREG_R8_USR = INTREG_R8,
130    INTREG_R9_USR = INTREG_R9,
131    INTREG_R10_USR = INTREG_R10,
132    INTREG_R11_USR = INTREG_R11,
133    INTREG_R12_USR = INTREG_R12,
134    INTREG_R13_USR = INTREG_R13,
135    INTREG_SP_USR = INTREG_SP,
136    INTREG_R14_USR = INTREG_R14,
137    INTREG_LR_USR = INTREG_LR,
138    INTREG_R15_USR = INTREG_R15,
139    INTREG_PC_USR = INTREG_PC,
140
141    /* SVC mode */
142    INTREG_R0_SVC = INTREG_R0,
143    INTREG_R1_SVC = INTREG_R1,
144    INTREG_R2_SVC = INTREG_R2,
145    INTREG_R3_SVC = INTREG_R3,
146    INTREG_R4_SVC = INTREG_R4,
147    INTREG_R5_SVC = INTREG_R5,
148    INTREG_R6_SVC = INTREG_R6,
149    INTREG_R7_SVC = INTREG_R7,
150    INTREG_R8_SVC = INTREG_R8,
151    INTREG_R9_SVC = INTREG_R9,
152    INTREG_R10_SVC = INTREG_R10,
153    INTREG_R11_SVC = INTREG_R11,
154    INTREG_R12_SVC = INTREG_R12,
155    INTREG_PC_SVC = INTREG_PC,
156    INTREG_R15_SVC = INTREG_R15,
157
158    /* MON mode */
159    INTREG_R0_MON = INTREG_R0,
160    INTREG_R1_MON = INTREG_R1,
161    INTREG_R2_MON = INTREG_R2,
162    INTREG_R3_MON = INTREG_R3,
163    INTREG_R4_MON = INTREG_R4,
164    INTREG_R5_MON = INTREG_R5,
165    INTREG_R6_MON = INTREG_R6,
166    INTREG_R7_MON = INTREG_R7,
167    INTREG_R8_MON = INTREG_R8,
168    INTREG_R9_MON = INTREG_R9,
169    INTREG_R10_MON = INTREG_R10,
170    INTREG_R11_MON = INTREG_R11,
171    INTREG_R12_MON = INTREG_R12,
172    INTREG_PC_MON = INTREG_PC,
173    INTREG_R15_MON = INTREG_R15,
174
175    /* ABT mode */
176    INTREG_R0_ABT = INTREG_R0,
177    INTREG_R1_ABT = INTREG_R1,
178    INTREG_R2_ABT = INTREG_R2,
179    INTREG_R3_ABT = INTREG_R3,
180    INTREG_R4_ABT = INTREG_R4,
181    INTREG_R5_ABT = INTREG_R5,
182    INTREG_R6_ABT = INTREG_R6,
183    INTREG_R7_ABT = INTREG_R7,
184    INTREG_R8_ABT = INTREG_R8,
185    INTREG_R9_ABT = INTREG_R9,
186    INTREG_R10_ABT = INTREG_R10,
187    INTREG_R11_ABT = INTREG_R11,
188    INTREG_R12_ABT = INTREG_R12,
189    INTREG_PC_ABT = INTREG_PC,
190    INTREG_R15_ABT = INTREG_R15,
191
192    /* UND mode */
193    INTREG_R0_UND = INTREG_R0,
194    INTREG_R1_UND = INTREG_R1,
195    INTREG_R2_UND = INTREG_R2,
196    INTREG_R3_UND = INTREG_R3,
197    INTREG_R4_UND = INTREG_R4,
198    INTREG_R5_UND = INTREG_R5,
199    INTREG_R6_UND = INTREG_R6,
200    INTREG_R7_UND = INTREG_R7,
201    INTREG_R8_UND = INTREG_R8,
202    INTREG_R9_UND = INTREG_R9,
203    INTREG_R10_UND = INTREG_R10,
204    INTREG_R11_UND = INTREG_R11,
205    INTREG_R12_UND = INTREG_R12,
206    INTREG_PC_UND = INTREG_PC,
207    INTREG_R15_UND = INTREG_R15,
208
209    /* IRQ mode */
210    INTREG_R0_IRQ = INTREG_R0,
211    INTREG_R1_IRQ = INTREG_R1,
212    INTREG_R2_IRQ = INTREG_R2,
213    INTREG_R3_IRQ = INTREG_R3,
214    INTREG_R4_IRQ = INTREG_R4,
215    INTREG_R5_IRQ = INTREG_R5,
216    INTREG_R6_IRQ = INTREG_R6,
217    INTREG_R7_IRQ = INTREG_R7,
218    INTREG_R8_IRQ = INTREG_R8,
219    INTREG_R9_IRQ = INTREG_R9,
220    INTREG_R10_IRQ = INTREG_R10,
221    INTREG_R11_IRQ = INTREG_R11,
222    INTREG_R12_IRQ = INTREG_R12,
223    INTREG_PC_IRQ = INTREG_PC,
224    INTREG_R15_IRQ = INTREG_R15,
225
226    /* FIQ mode */
227    INTREG_R0_FIQ = INTREG_R0,
228    INTREG_R1_FIQ = INTREG_R1,
229    INTREG_R2_FIQ = INTREG_R2,
230    INTREG_R3_FIQ = INTREG_R3,
231    INTREG_R4_FIQ = INTREG_R4,
232    INTREG_R5_FIQ = INTREG_R5,
233    INTREG_R6_FIQ = INTREG_R6,
234    INTREG_R7_FIQ = INTREG_R7,
235    INTREG_PC_FIQ = INTREG_PC,
236    INTREG_R15_FIQ = INTREG_R15,
237};
238
239typedef IntRegIndex IntRegMap[NUM_ARCH_INTREGS];
240
241const IntRegMap IntRegUsrMap = {
242    INTREG_R0_USR,  INTREG_R1_USR,  INTREG_R2_USR,  INTREG_R3_USR,
243    INTREG_R4_USR,  INTREG_R5_USR,  INTREG_R6_USR,  INTREG_R7_USR,
244    INTREG_R8_USR,  INTREG_R9_USR,  INTREG_R10_USR, INTREG_R11_USR,
245    INTREG_R12_USR, INTREG_R13_USR, INTREG_R14_USR, INTREG_R15_USR
246};
247
248static inline IntRegIndex
249INTREG_USR(unsigned index)
250{
251    assert(index < NUM_ARCH_INTREGS);
252    return IntRegUsrMap[index];
253}
254
255const IntRegMap IntRegSvcMap = {
256    INTREG_R0_SVC,  INTREG_R1_SVC,  INTREG_R2_SVC,  INTREG_R3_SVC,
257    INTREG_R4_SVC,  INTREG_R5_SVC,  INTREG_R6_SVC,  INTREG_R7_SVC,
258    INTREG_R8_SVC,  INTREG_R9_SVC,  INTREG_R10_SVC, INTREG_R11_SVC,
259    INTREG_R12_SVC, INTREG_R13_SVC, INTREG_R14_SVC, INTREG_R15_SVC
260};
261
262static inline IntRegIndex
263INTREG_SVC(unsigned index)
264{
265    assert(index < NUM_ARCH_INTREGS);
266    return IntRegSvcMap[index];
267}
268
269const IntRegMap IntRegMonMap = {
270    INTREG_R0_MON,  INTREG_R1_MON,  INTREG_R2_MON,  INTREG_R3_MON,
271    INTREG_R4_MON,  INTREG_R5_MON,  INTREG_R6_MON,  INTREG_R7_MON,
272    INTREG_R8_MON,  INTREG_R9_MON,  INTREG_R10_MON, INTREG_R11_MON,
273    INTREG_R12_MON, INTREG_R13_MON, INTREG_R14_MON, INTREG_R15_MON
274};
275
276static inline IntRegIndex
277INTREG_MON(unsigned index)
278{
279    assert(index < NUM_ARCH_INTREGS);
280    return IntRegMonMap[index];
281}
282
283const IntRegMap IntRegAbtMap = {
284    INTREG_R0_ABT,  INTREG_R1_ABT,  INTREG_R2_ABT,  INTREG_R3_ABT,
285    INTREG_R4_ABT,  INTREG_R5_ABT,  INTREG_R6_ABT,  INTREG_R7_ABT,
286    INTREG_R8_ABT,  INTREG_R9_ABT,  INTREG_R10_ABT, INTREG_R11_ABT,
287    INTREG_R12_ABT, INTREG_R13_ABT, INTREG_R14_ABT, INTREG_R15_ABT
288};
289
290static inline IntRegIndex
291INTREG_ABT(unsigned index)
292{
293    assert(index < NUM_ARCH_INTREGS);
294    return IntRegAbtMap[index];
295}
296
297const IntRegMap IntRegUndMap = {
298    INTREG_R0_UND,  INTREG_R1_UND,  INTREG_R2_UND,  INTREG_R3_UND,
299    INTREG_R4_UND,  INTREG_R5_UND,  INTREG_R6_UND,  INTREG_R7_UND,
300    INTREG_R8_UND,  INTREG_R9_UND,  INTREG_R10_UND, INTREG_R11_UND,
301    INTREG_R12_UND, INTREG_R13_UND, INTREG_R14_UND, INTREG_R15_UND
302};
303
304static inline IntRegIndex
305INTREG_UND(unsigned index)
306{
307    assert(index < NUM_ARCH_INTREGS);
308    return IntRegUndMap[index];
309}
310
311const IntRegMap IntRegIrqMap = {
312    INTREG_R0_IRQ,  INTREG_R1_IRQ,  INTREG_R2_IRQ,  INTREG_R3_IRQ,
313    INTREG_R4_IRQ,  INTREG_R5_IRQ,  INTREG_R6_IRQ,  INTREG_R7_IRQ,
314    INTREG_R8_IRQ,  INTREG_R9_IRQ,  INTREG_R10_IRQ, INTREG_R11_IRQ,
315    INTREG_R12_IRQ, INTREG_R13_IRQ, INTREG_R14_IRQ, INTREG_R15_IRQ
316};
317
318static inline IntRegIndex
319INTREG_IRQ(unsigned index)
320{
321    assert(index < NUM_ARCH_INTREGS);
322    return IntRegIrqMap[index];
323}
324
325const IntRegMap IntRegFiqMap = {
326    INTREG_R0_FIQ,  INTREG_R1_FIQ,  INTREG_R2_FIQ,  INTREG_R3_FIQ,
327    INTREG_R4_FIQ,  INTREG_R5_FIQ,  INTREG_R6_FIQ,  INTREG_R7_FIQ,
328    INTREG_R8_FIQ,  INTREG_R9_FIQ,  INTREG_R10_FIQ, INTREG_R11_FIQ,
329    INTREG_R12_FIQ, INTREG_R13_FIQ, INTREG_R14_FIQ, INTREG_R15_FIQ
330};
331
332static inline IntRegIndex
333INTREG_FIQ(unsigned index)
334{
335    assert(index < NUM_ARCH_INTREGS);
336    return IntRegFiqMap[index];
337}
338
339static const unsigned intRegsPerMode = NUM_INTREGS;
340
341static inline int
342intRegInMode(OperatingMode mode, int reg)
343{
344    assert(reg < NUM_ARCH_INTREGS);
345    return mode * intRegsPerMode + reg;
346}
347
348}
349
350#endif
351