1b725ae77Skettenis /* Target dependent code for CRIS, for GDB, the GNU debugger.
2b725ae77Skettenis
3b725ae77Skettenis Copyright 2001, 2002, 2003, 2004 Free Software Foundation, Inc.
4b725ae77Skettenis
5b725ae77Skettenis Contributed by Axis Communications AB.
6b725ae77Skettenis Written by Hendrik Ruijter, Stefan Andersson, and Orjan Friberg.
7b725ae77Skettenis
8b725ae77Skettenis This file is part of GDB.
9b725ae77Skettenis
10b725ae77Skettenis This program is free software; you can redistribute it and/or modify
11b725ae77Skettenis it under the terms of the GNU General Public License as published by
12b725ae77Skettenis the Free Software Foundation; either version 2 of the License, or
13b725ae77Skettenis (at your option) any later version.
14b725ae77Skettenis
15b725ae77Skettenis This program is distributed in the hope that it will be useful,
16b725ae77Skettenis but WITHOUT ANY WARRANTY; without even the implied warranty of
17b725ae77Skettenis MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
18b725ae77Skettenis GNU General Public License for more details.
19b725ae77Skettenis
20b725ae77Skettenis You should have received a copy of the GNU General Public License
21b725ae77Skettenis along with this program; if not, write to the Free Software
22b725ae77Skettenis Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
23b725ae77Skettenis
24b725ae77Skettenis #include "defs.h"
25b725ae77Skettenis #include "frame.h"
26b725ae77Skettenis #include "frame-unwind.h"
27b725ae77Skettenis #include "frame-base.h"
28b725ae77Skettenis #include "trad-frame.h"
29b725ae77Skettenis #include "dwarf2-frame.h"
30b725ae77Skettenis #include "symtab.h"
31b725ae77Skettenis #include "inferior.h"
32b725ae77Skettenis #include "gdbtypes.h"
33b725ae77Skettenis #include "gdbcore.h"
34b725ae77Skettenis #include "gdbcmd.h"
35b725ae77Skettenis #include "target.h"
36b725ae77Skettenis #include "value.h"
37b725ae77Skettenis #include "opcode/cris.h"
38b725ae77Skettenis #include "arch-utils.h"
39b725ae77Skettenis #include "regcache.h"
40b725ae77Skettenis #include "gdb_assert.h"
41b725ae77Skettenis
42b725ae77Skettenis /* To get entry_point_address. */
43b725ae77Skettenis #include "objfiles.h"
44b725ae77Skettenis
45b725ae77Skettenis #include "solib.h" /* Support for shared libraries. */
46b725ae77Skettenis #include "solib-svr4.h" /* For struct link_map_offsets. */
47b725ae77Skettenis #include "gdb_string.h"
48b725ae77Skettenis #include "dis-asm.h"
49b725ae77Skettenis
50b725ae77Skettenis enum cris_num_regs
51b725ae77Skettenis {
52b725ae77Skettenis /* There are no floating point registers. Used in gdbserver low-linux.c. */
53b725ae77Skettenis NUM_FREGS = 0,
54b725ae77Skettenis
55b725ae77Skettenis /* There are 16 general registers. */
56b725ae77Skettenis NUM_GENREGS = 16,
57b725ae77Skettenis
58b725ae77Skettenis /* There are 16 special registers. */
59b725ae77Skettenis NUM_SPECREGS = 16
60b725ae77Skettenis };
61b725ae77Skettenis
62b725ae77Skettenis /* Register numbers of various important registers.
63b725ae77Skettenis CRIS_FP_REGNUM Contains address of executing stack frame.
64b725ae77Skettenis STR_REGNUM Contains the address of structure return values.
65b725ae77Skettenis RET_REGNUM Contains the return value when shorter than or equal to 32 bits
66b725ae77Skettenis ARG1_REGNUM Contains the first parameter to a function.
67b725ae77Skettenis ARG2_REGNUM Contains the second parameter to a function.
68b725ae77Skettenis ARG3_REGNUM Contains the third parameter to a function.
69b725ae77Skettenis ARG4_REGNUM Contains the fourth parameter to a function. Rest on stack.
70b725ae77Skettenis SP_REGNUM Contains address of top of stack.
71b725ae77Skettenis PC_REGNUM Contains address of next instruction.
72b725ae77Skettenis SRP_REGNUM Subroutine return pointer register.
73b725ae77Skettenis BRP_REGNUM Breakpoint return pointer register. */
74b725ae77Skettenis
75b725ae77Skettenis enum cris_regnums
76b725ae77Skettenis {
77b725ae77Skettenis /* Enums with respect to the general registers, valid for all
78b725ae77Skettenis CRIS versions. */
79b725ae77Skettenis CRIS_FP_REGNUM = 8,
80b725ae77Skettenis STR_REGNUM = 9,
81b725ae77Skettenis RET_REGNUM = 10,
82b725ae77Skettenis ARG1_REGNUM = 10,
83b725ae77Skettenis ARG2_REGNUM = 11,
84b725ae77Skettenis ARG3_REGNUM = 12,
85b725ae77Skettenis ARG4_REGNUM = 13,
86b725ae77Skettenis
87b725ae77Skettenis /* Enums with respect to the special registers, some of which may not be
88b725ae77Skettenis applicable to all CRIS versions. */
89b725ae77Skettenis P0_REGNUM = 16,
90b725ae77Skettenis VR_REGNUM = 17,
91b725ae77Skettenis P2_REGNUM = 18,
92b725ae77Skettenis P3_REGNUM = 19,
93b725ae77Skettenis P4_REGNUM = 20,
94b725ae77Skettenis CCR_REGNUM = 21,
95b725ae77Skettenis MOF_REGNUM = 23,
96b725ae77Skettenis P8_REGNUM = 24,
97b725ae77Skettenis IBR_REGNUM = 25,
98b725ae77Skettenis IRP_REGNUM = 26,
99b725ae77Skettenis SRP_REGNUM = 27,
100b725ae77Skettenis BAR_REGNUM = 28,
101b725ae77Skettenis DCCR_REGNUM = 29,
102b725ae77Skettenis BRP_REGNUM = 30,
103b725ae77Skettenis USP_REGNUM = 31
104b725ae77Skettenis };
105b725ae77Skettenis
106b725ae77Skettenis extern const struct cris_spec_reg cris_spec_regs[];
107b725ae77Skettenis
108b725ae77Skettenis /* CRIS version, set via the user command 'set cris-version'. Affects
109b725ae77Skettenis register names and sizes.*/
110*11efff7fSkettenis static unsigned int usr_cmd_cris_version;
111b725ae77Skettenis
112b725ae77Skettenis /* Indicates whether to trust the above variable. */
113b725ae77Skettenis static int usr_cmd_cris_version_valid = 0;
114b725ae77Skettenis
115*11efff7fSkettenis /* Whether to make use of Dwarf-2 CFI (default on). */
116*11efff7fSkettenis static int usr_cmd_cris_dwarf2_cfi = 1;
117b725ae77Skettenis
118b725ae77Skettenis /* CRIS architecture specific information. */
119b725ae77Skettenis struct gdbarch_tdep
120b725ae77Skettenis {
121*11efff7fSkettenis unsigned int cris_version;
122*11efff7fSkettenis int cris_dwarf2_cfi;
123b725ae77Skettenis };
124b725ae77Skettenis
125b725ae77Skettenis /* Functions for accessing target dependent data. */
126b725ae77Skettenis
127b725ae77Skettenis static int
cris_version(void)128b725ae77Skettenis cris_version (void)
129b725ae77Skettenis {
130b725ae77Skettenis return (gdbarch_tdep (current_gdbarch)->cris_version);
131b725ae77Skettenis }
132b725ae77Skettenis
133*11efff7fSkettenis /* Sigtramp identification code copied from i386-linux-tdep.c. */
134*11efff7fSkettenis
135*11efff7fSkettenis #define SIGTRAMP_INSN0 0x9c5f /* movu.w 0xXX, $r9 */
136*11efff7fSkettenis #define SIGTRAMP_OFFSET0 0
137*11efff7fSkettenis #define SIGTRAMP_INSN1 0xe93d /* break 13 */
138*11efff7fSkettenis #define SIGTRAMP_OFFSET1 4
139*11efff7fSkettenis
140*11efff7fSkettenis static const unsigned short sigtramp_code[] =
141b725ae77Skettenis {
142*11efff7fSkettenis SIGTRAMP_INSN0, 0x0077, /* movu.w $0x77, $r9 */
143*11efff7fSkettenis SIGTRAMP_INSN1 /* break 13 */
144*11efff7fSkettenis };
145*11efff7fSkettenis
146*11efff7fSkettenis #define SIGTRAMP_LEN (sizeof sigtramp_code)
147*11efff7fSkettenis
148*11efff7fSkettenis /* Note: same length as normal sigtramp code. */
149*11efff7fSkettenis
150*11efff7fSkettenis static const unsigned short rt_sigtramp_code[] =
151*11efff7fSkettenis {
152*11efff7fSkettenis SIGTRAMP_INSN0, 0x00ad, /* movu.w $0xad, $r9 */
153*11efff7fSkettenis SIGTRAMP_INSN1 /* break 13 */
154*11efff7fSkettenis };
155*11efff7fSkettenis
156*11efff7fSkettenis /* If PC is in a sigtramp routine, return the address of the start of
157*11efff7fSkettenis the routine. Otherwise, return 0. */
158*11efff7fSkettenis
159*11efff7fSkettenis static CORE_ADDR
cris_sigtramp_start(struct frame_info * next_frame)160*11efff7fSkettenis cris_sigtramp_start (struct frame_info *next_frame)
161*11efff7fSkettenis {
162*11efff7fSkettenis CORE_ADDR pc = frame_pc_unwind (next_frame);
163*11efff7fSkettenis unsigned short buf[SIGTRAMP_LEN];
164*11efff7fSkettenis
165*11efff7fSkettenis if (!safe_frame_unwind_memory (next_frame, pc, buf, SIGTRAMP_LEN))
166*11efff7fSkettenis return 0;
167*11efff7fSkettenis
168*11efff7fSkettenis if (buf[0] != SIGTRAMP_INSN0)
169*11efff7fSkettenis {
170*11efff7fSkettenis if (buf[0] != SIGTRAMP_INSN1)
171*11efff7fSkettenis return 0;
172*11efff7fSkettenis
173*11efff7fSkettenis pc -= SIGTRAMP_OFFSET1;
174*11efff7fSkettenis if (!safe_frame_unwind_memory (next_frame, pc, buf, SIGTRAMP_LEN))
175*11efff7fSkettenis return 0;
176*11efff7fSkettenis }
177*11efff7fSkettenis
178*11efff7fSkettenis if (memcmp (buf, sigtramp_code, SIGTRAMP_LEN) != 0)
179*11efff7fSkettenis return 0;
180*11efff7fSkettenis
181*11efff7fSkettenis return pc;
182*11efff7fSkettenis }
183*11efff7fSkettenis
184*11efff7fSkettenis /* If PC is in a RT sigtramp routine, return the address of the start of
185*11efff7fSkettenis the routine. Otherwise, return 0. */
186*11efff7fSkettenis
187*11efff7fSkettenis static CORE_ADDR
cris_rt_sigtramp_start(struct frame_info * next_frame)188*11efff7fSkettenis cris_rt_sigtramp_start (struct frame_info *next_frame)
189*11efff7fSkettenis {
190*11efff7fSkettenis CORE_ADDR pc = frame_pc_unwind (next_frame);
191*11efff7fSkettenis unsigned short buf[SIGTRAMP_LEN];
192*11efff7fSkettenis
193*11efff7fSkettenis if (!safe_frame_unwind_memory (next_frame, pc, buf, SIGTRAMP_LEN))
194*11efff7fSkettenis return 0;
195*11efff7fSkettenis
196*11efff7fSkettenis if (buf[0] != SIGTRAMP_INSN0)
197*11efff7fSkettenis {
198*11efff7fSkettenis if (buf[0] != SIGTRAMP_INSN1)
199*11efff7fSkettenis return 0;
200*11efff7fSkettenis
201*11efff7fSkettenis pc -= SIGTRAMP_OFFSET1;
202*11efff7fSkettenis if (!safe_frame_unwind_memory (next_frame, pc, buf, SIGTRAMP_LEN))
203*11efff7fSkettenis return 0;
204*11efff7fSkettenis }
205*11efff7fSkettenis
206*11efff7fSkettenis if (memcmp (buf, rt_sigtramp_code, SIGTRAMP_LEN) != 0)
207*11efff7fSkettenis return 0;
208*11efff7fSkettenis
209*11efff7fSkettenis return pc;
210*11efff7fSkettenis }
211*11efff7fSkettenis
212*11efff7fSkettenis /* Assuming NEXT_FRAME is a frame following a GNU/Linux sigtramp
213*11efff7fSkettenis routine, return the address of the associated sigcontext structure. */
214*11efff7fSkettenis
215*11efff7fSkettenis static CORE_ADDR
cris_sigcontext_addr(struct frame_info * next_frame)216*11efff7fSkettenis cris_sigcontext_addr (struct frame_info *next_frame)
217*11efff7fSkettenis {
218*11efff7fSkettenis CORE_ADDR pc;
219*11efff7fSkettenis CORE_ADDR sp;
220*11efff7fSkettenis char buf[4];
221*11efff7fSkettenis
222*11efff7fSkettenis frame_unwind_register (next_frame, SP_REGNUM, buf);
223*11efff7fSkettenis sp = extract_unsigned_integer (buf, 4);
224*11efff7fSkettenis
225*11efff7fSkettenis /* Look for normal sigtramp frame first. */
226*11efff7fSkettenis pc = cris_sigtramp_start (next_frame);
227*11efff7fSkettenis if (pc)
228*11efff7fSkettenis {
229*11efff7fSkettenis /* struct signal_frame (arch/cris/kernel/signal.c) contains
230*11efff7fSkettenis struct sigcontext as its first member, meaning the SP points to
231*11efff7fSkettenis it already. */
232*11efff7fSkettenis return sp;
233*11efff7fSkettenis }
234*11efff7fSkettenis
235*11efff7fSkettenis pc = cris_rt_sigtramp_start (next_frame);
236*11efff7fSkettenis if (pc)
237*11efff7fSkettenis {
238*11efff7fSkettenis /* struct rt_signal_frame (arch/cris/kernel/signal.c) contains
239*11efff7fSkettenis a struct ucontext, which in turn contains a struct sigcontext.
240*11efff7fSkettenis Magic digging:
241*11efff7fSkettenis 4 + 4 + 128 to struct ucontext, then
242*11efff7fSkettenis 4 + 4 + 12 to struct sigcontext. */
243*11efff7fSkettenis return (sp + 156);
244*11efff7fSkettenis }
245*11efff7fSkettenis
246*11efff7fSkettenis error ("Couldn't recognize signal trampoline.");
247*11efff7fSkettenis return 0;
248b725ae77Skettenis }
249b725ae77Skettenis
250b725ae77Skettenis struct cris_unwind_cache
251b725ae77Skettenis {
252b725ae77Skettenis /* The previous frame's inner most stack address. Used as this
253b725ae77Skettenis frame ID's stack_addr. */
254b725ae77Skettenis CORE_ADDR prev_sp;
255b725ae77Skettenis /* The frame's base, optionally used by the high-level debug info. */
256b725ae77Skettenis CORE_ADDR base;
257b725ae77Skettenis int size;
258b725ae77Skettenis /* How far the SP and r8 (FP) have been offset from the start of
259b725ae77Skettenis the stack frame (as defined by the previous frame's stack
260b725ae77Skettenis pointer). */
261b725ae77Skettenis LONGEST sp_offset;
262b725ae77Skettenis LONGEST r8_offset;
263b725ae77Skettenis int uses_frame;
264b725ae77Skettenis
265b725ae77Skettenis /* From old frame_extra_info struct. */
266b725ae77Skettenis CORE_ADDR return_pc;
267b725ae77Skettenis int leaf_function;
268b725ae77Skettenis
269b725ae77Skettenis /* Table indicating the location of each and every register. */
270b725ae77Skettenis struct trad_frame_saved_reg *saved_regs;
271b725ae77Skettenis };
272b725ae77Skettenis
273*11efff7fSkettenis static struct cris_unwind_cache *
cris_sigtramp_frame_unwind_cache(struct frame_info * next_frame,void ** this_cache)274*11efff7fSkettenis cris_sigtramp_frame_unwind_cache (struct frame_info *next_frame,
275*11efff7fSkettenis void **this_cache)
276*11efff7fSkettenis {
277*11efff7fSkettenis struct gdbarch_tdep *tdep = gdbarch_tdep (current_gdbarch);
278*11efff7fSkettenis struct cris_unwind_cache *info;
279*11efff7fSkettenis CORE_ADDR pc;
280*11efff7fSkettenis CORE_ADDR sp;
281*11efff7fSkettenis CORE_ADDR addr;
282*11efff7fSkettenis char buf[4];
283*11efff7fSkettenis int i;
284*11efff7fSkettenis
285*11efff7fSkettenis if ((*this_cache))
286*11efff7fSkettenis return (*this_cache);
287*11efff7fSkettenis
288*11efff7fSkettenis info = FRAME_OBSTACK_ZALLOC (struct cris_unwind_cache);
289*11efff7fSkettenis (*this_cache) = info;
290*11efff7fSkettenis info->saved_regs = trad_frame_alloc_saved_regs (next_frame);
291*11efff7fSkettenis
292*11efff7fSkettenis /* Zero all fields. */
293*11efff7fSkettenis info->prev_sp = 0;
294*11efff7fSkettenis info->base = 0;
295*11efff7fSkettenis info->size = 0;
296*11efff7fSkettenis info->sp_offset = 0;
297*11efff7fSkettenis info->r8_offset = 0;
298*11efff7fSkettenis info->uses_frame = 0;
299*11efff7fSkettenis info->return_pc = 0;
300*11efff7fSkettenis info->leaf_function = 0;
301*11efff7fSkettenis
302*11efff7fSkettenis frame_unwind_register (next_frame, SP_REGNUM, buf);
303*11efff7fSkettenis info->base = extract_unsigned_integer (buf, 4);
304*11efff7fSkettenis
305*11efff7fSkettenis addr = cris_sigcontext_addr (next_frame);
306*11efff7fSkettenis
307*11efff7fSkettenis /* Layout of the sigcontext struct:
308*11efff7fSkettenis struct sigcontext {
309*11efff7fSkettenis struct pt_regs regs;
310*11efff7fSkettenis unsigned long oldmask;
311*11efff7fSkettenis unsigned long usp;
312*11efff7fSkettenis }; */
313*11efff7fSkettenis
314*11efff7fSkettenis /* R0 to R13 are stored in reverse order at offset (2 * 4) in
315*11efff7fSkettenis struct pt_regs. */
316*11efff7fSkettenis for (i = 0; i <= 13; i++)
317*11efff7fSkettenis info->saved_regs[i].addr = addr + ((15 - i) * 4);
318*11efff7fSkettenis
319*11efff7fSkettenis info->saved_regs[MOF_REGNUM].addr = addr + (16 * 4);
320*11efff7fSkettenis info->saved_regs[DCCR_REGNUM].addr = addr + (17 * 4);
321*11efff7fSkettenis info->saved_regs[SRP_REGNUM].addr = addr + (18 * 4);
322*11efff7fSkettenis /* Note: IRP is off by 2 at this point. There's no point in correcting it
323*11efff7fSkettenis though since that will mean that the backtrace will show a PC different
324*11efff7fSkettenis from what is shown when stopped. */
325*11efff7fSkettenis info->saved_regs[IRP_REGNUM].addr = addr + (19 * 4);
326*11efff7fSkettenis info->saved_regs[PC_REGNUM] = info->saved_regs[IRP_REGNUM];
327*11efff7fSkettenis info->saved_regs[SP_REGNUM].addr = addr + (24 * 4);
328*11efff7fSkettenis
329*11efff7fSkettenis return info;
330*11efff7fSkettenis }
331*11efff7fSkettenis
332*11efff7fSkettenis static void
cris_sigtramp_frame_this_id(struct frame_info * next_frame,void ** this_cache,struct frame_id * this_id)333*11efff7fSkettenis cris_sigtramp_frame_this_id (struct frame_info *next_frame, void **this_cache,
334*11efff7fSkettenis struct frame_id *this_id)
335*11efff7fSkettenis {
336*11efff7fSkettenis struct cris_unwind_cache *cache =
337*11efff7fSkettenis cris_sigtramp_frame_unwind_cache (next_frame, this_cache);
338*11efff7fSkettenis (*this_id) = frame_id_build (cache->base, frame_pc_unwind (next_frame));
339*11efff7fSkettenis }
340*11efff7fSkettenis
341*11efff7fSkettenis /* Forward declaration. */
342*11efff7fSkettenis
343*11efff7fSkettenis static void cris_frame_prev_register (struct frame_info *next_frame,
344*11efff7fSkettenis void **this_prologue_cache,
345*11efff7fSkettenis int regnum, int *optimizedp,
346*11efff7fSkettenis enum lval_type *lvalp, CORE_ADDR *addrp,
347*11efff7fSkettenis int *realnump, void *bufferp);
348*11efff7fSkettenis static void
cris_sigtramp_frame_prev_register(struct frame_info * next_frame,void ** this_cache,int regnum,int * optimizedp,enum lval_type * lvalp,CORE_ADDR * addrp,int * realnump,void * valuep)349*11efff7fSkettenis cris_sigtramp_frame_prev_register (struct frame_info *next_frame,
350*11efff7fSkettenis void **this_cache,
351*11efff7fSkettenis int regnum, int *optimizedp,
352*11efff7fSkettenis enum lval_type *lvalp, CORE_ADDR *addrp,
353*11efff7fSkettenis int *realnump, void *valuep)
354*11efff7fSkettenis {
355*11efff7fSkettenis /* Make sure we've initialized the cache. */
356*11efff7fSkettenis cris_sigtramp_frame_unwind_cache (next_frame, this_cache);
357*11efff7fSkettenis cris_frame_prev_register (next_frame, this_cache, regnum,
358*11efff7fSkettenis optimizedp, lvalp, addrp, realnump, valuep);
359*11efff7fSkettenis }
360*11efff7fSkettenis
361*11efff7fSkettenis static const struct frame_unwind cris_sigtramp_frame_unwind =
362*11efff7fSkettenis {
363*11efff7fSkettenis SIGTRAMP_FRAME,
364*11efff7fSkettenis cris_sigtramp_frame_this_id,
365*11efff7fSkettenis cris_sigtramp_frame_prev_register
366*11efff7fSkettenis };
367*11efff7fSkettenis
368*11efff7fSkettenis static const struct frame_unwind *
cris_sigtramp_frame_sniffer(struct frame_info * next_frame)369*11efff7fSkettenis cris_sigtramp_frame_sniffer (struct frame_info *next_frame)
370*11efff7fSkettenis {
371*11efff7fSkettenis if (cris_sigtramp_start (next_frame)
372*11efff7fSkettenis || cris_rt_sigtramp_start (next_frame))
373*11efff7fSkettenis return &cris_sigtramp_frame_unwind;
374*11efff7fSkettenis
375*11efff7fSkettenis return NULL;
376*11efff7fSkettenis }
377*11efff7fSkettenis
378b725ae77Skettenis /* The instruction environment needed to find single-step breakpoints. */
379b725ae77Skettenis typedef
380b725ae77Skettenis struct instruction_environment
381b725ae77Skettenis {
382b725ae77Skettenis unsigned long reg[NUM_GENREGS];
383b725ae77Skettenis unsigned long preg[NUM_SPECREGS];
384b725ae77Skettenis unsigned long branch_break_address;
385b725ae77Skettenis unsigned long delay_slot_pc;
386b725ae77Skettenis unsigned long prefix_value;
387b725ae77Skettenis int branch_found;
388b725ae77Skettenis int prefix_found;
389b725ae77Skettenis int invalid;
390b725ae77Skettenis int slot_needed;
391b725ae77Skettenis int delay_slot_pc_active;
392b725ae77Skettenis int xflag_found;
393b725ae77Skettenis int disable_interrupt;
394b725ae77Skettenis } inst_env_type;
395b725ae77Skettenis
396b725ae77Skettenis /* Save old breakpoints in order to restore the state before a single_step.
397b725ae77Skettenis At most, two breakpoints will have to be remembered. */
398b725ae77Skettenis typedef
399b725ae77Skettenis char binsn_quantum[BREAKPOINT_MAX];
400b725ae77Skettenis static binsn_quantum break_mem[2];
401b725ae77Skettenis static CORE_ADDR next_pc = 0;
402b725ae77Skettenis static CORE_ADDR branch_target_address = 0;
403b725ae77Skettenis static unsigned char branch_break_inserted = 0;
404b725ae77Skettenis
405b725ae77Skettenis /* Machine-dependencies in CRIS for opcodes. */
406b725ae77Skettenis
407b725ae77Skettenis /* Instruction sizes. */
408b725ae77Skettenis enum cris_instruction_sizes
409b725ae77Skettenis {
410b725ae77Skettenis INST_BYTE_SIZE = 0,
411b725ae77Skettenis INST_WORD_SIZE = 1,
412b725ae77Skettenis INST_DWORD_SIZE = 2
413b725ae77Skettenis };
414b725ae77Skettenis
415b725ae77Skettenis /* Addressing modes. */
416b725ae77Skettenis enum cris_addressing_modes
417b725ae77Skettenis {
418b725ae77Skettenis REGISTER_MODE = 1,
419b725ae77Skettenis INDIRECT_MODE = 2,
420b725ae77Skettenis AUTOINC_MODE = 3
421b725ae77Skettenis };
422b725ae77Skettenis
423b725ae77Skettenis /* Prefix addressing modes. */
424b725ae77Skettenis enum cris_prefix_addressing_modes
425b725ae77Skettenis {
426b725ae77Skettenis PREFIX_INDEX_MODE = 2,
427b725ae77Skettenis PREFIX_ASSIGN_MODE = 3,
428b725ae77Skettenis
429b725ae77Skettenis /* Handle immediate byte offset addressing mode prefix format. */
430b725ae77Skettenis PREFIX_OFFSET_MODE = 2
431b725ae77Skettenis };
432b725ae77Skettenis
433b725ae77Skettenis /* Masks for opcodes. */
434b725ae77Skettenis enum cris_opcode_masks
435b725ae77Skettenis {
436b725ae77Skettenis BRANCH_SIGNED_SHORT_OFFSET_MASK = 0x1,
437b725ae77Skettenis SIGNED_EXTEND_BIT_MASK = 0x2,
438b725ae77Skettenis SIGNED_BYTE_MASK = 0x80,
439b725ae77Skettenis SIGNED_BYTE_EXTEND_MASK = 0xFFFFFF00,
440b725ae77Skettenis SIGNED_WORD_MASK = 0x8000,
441b725ae77Skettenis SIGNED_WORD_EXTEND_MASK = 0xFFFF0000,
442b725ae77Skettenis SIGNED_DWORD_MASK = 0x80000000,
443b725ae77Skettenis SIGNED_QUICK_VALUE_MASK = 0x20,
444b725ae77Skettenis SIGNED_QUICK_VALUE_EXTEND_MASK = 0xFFFFFFC0
445b725ae77Skettenis };
446b725ae77Skettenis
447b725ae77Skettenis /* Functions for opcodes. The general form of the ETRAX 16-bit instruction:
448b725ae77Skettenis Bit 15 - 12 Operand2
449b725ae77Skettenis 11 - 10 Mode
450b725ae77Skettenis 9 - 6 Opcode
451b725ae77Skettenis 5 - 4 Size
452b725ae77Skettenis 3 - 0 Operand1 */
453b725ae77Skettenis
454b725ae77Skettenis static int
cris_get_operand2(unsigned short insn)455b725ae77Skettenis cris_get_operand2 (unsigned short insn)
456b725ae77Skettenis {
457b725ae77Skettenis return ((insn & 0xF000) >> 12);
458b725ae77Skettenis }
459b725ae77Skettenis
460b725ae77Skettenis static int
cris_get_mode(unsigned short insn)461b725ae77Skettenis cris_get_mode (unsigned short insn)
462b725ae77Skettenis {
463b725ae77Skettenis return ((insn & 0x0C00) >> 10);
464b725ae77Skettenis }
465b725ae77Skettenis
466b725ae77Skettenis static int
cris_get_opcode(unsigned short insn)467b725ae77Skettenis cris_get_opcode (unsigned short insn)
468b725ae77Skettenis {
469b725ae77Skettenis return ((insn & 0x03C0) >> 6);
470b725ae77Skettenis }
471b725ae77Skettenis
472b725ae77Skettenis static int
cris_get_size(unsigned short insn)473b725ae77Skettenis cris_get_size (unsigned short insn)
474b725ae77Skettenis {
475b725ae77Skettenis return ((insn & 0x0030) >> 4);
476b725ae77Skettenis }
477b725ae77Skettenis
478b725ae77Skettenis static int
cris_get_operand1(unsigned short insn)479b725ae77Skettenis cris_get_operand1 (unsigned short insn)
480b725ae77Skettenis {
481b725ae77Skettenis return (insn & 0x000F);
482b725ae77Skettenis }
483b725ae77Skettenis
484b725ae77Skettenis /* Additional functions in order to handle opcodes. */
485b725ae77Skettenis
486b725ae77Skettenis static int
cris_get_quick_value(unsigned short insn)487b725ae77Skettenis cris_get_quick_value (unsigned short insn)
488b725ae77Skettenis {
489b725ae77Skettenis return (insn & 0x003F);
490b725ae77Skettenis }
491b725ae77Skettenis
492b725ae77Skettenis static int
cris_get_bdap_quick_offset(unsigned short insn)493b725ae77Skettenis cris_get_bdap_quick_offset (unsigned short insn)
494b725ae77Skettenis {
495b725ae77Skettenis return (insn & 0x00FF);
496b725ae77Skettenis }
497b725ae77Skettenis
498b725ae77Skettenis static int
cris_get_branch_short_offset(unsigned short insn)499b725ae77Skettenis cris_get_branch_short_offset (unsigned short insn)
500b725ae77Skettenis {
501b725ae77Skettenis return (insn & 0x00FF);
502b725ae77Skettenis }
503b725ae77Skettenis
504b725ae77Skettenis static int
cris_get_asr_shift_steps(unsigned long value)505b725ae77Skettenis cris_get_asr_shift_steps (unsigned long value)
506b725ae77Skettenis {
507b725ae77Skettenis return (value & 0x3F);
508b725ae77Skettenis }
509b725ae77Skettenis
510b725ae77Skettenis static int
cris_get_clear_size(unsigned short insn)511b725ae77Skettenis cris_get_clear_size (unsigned short insn)
512b725ae77Skettenis {
513b725ae77Skettenis return ((insn) & 0xC000);
514b725ae77Skettenis }
515b725ae77Skettenis
516b725ae77Skettenis static int
cris_is_signed_extend_bit_on(unsigned short insn)517b725ae77Skettenis cris_is_signed_extend_bit_on (unsigned short insn)
518b725ae77Skettenis {
519b725ae77Skettenis return (((insn) & 0x20) == 0x20);
520b725ae77Skettenis }
521b725ae77Skettenis
522b725ae77Skettenis static int
cris_is_xflag_bit_on(unsigned short insn)523b725ae77Skettenis cris_is_xflag_bit_on (unsigned short insn)
524b725ae77Skettenis {
525b725ae77Skettenis return (((insn) & 0x1000) == 0x1000);
526b725ae77Skettenis }
527b725ae77Skettenis
528b725ae77Skettenis static void
cris_set_size_to_dword(unsigned short * insn)529b725ae77Skettenis cris_set_size_to_dword (unsigned short *insn)
530b725ae77Skettenis {
531b725ae77Skettenis *insn &= 0xFFCF;
532b725ae77Skettenis *insn |= 0x20;
533b725ae77Skettenis }
534b725ae77Skettenis
535b725ae77Skettenis static signed char
cris_get_signed_offset(unsigned short insn)536b725ae77Skettenis cris_get_signed_offset (unsigned short insn)
537b725ae77Skettenis {
538b725ae77Skettenis return ((signed char) (insn & 0x00FF));
539b725ae77Skettenis }
540b725ae77Skettenis
541b725ae77Skettenis /* Calls an op function given the op-type, working on the insn and the
542b725ae77Skettenis inst_env. */
543b725ae77Skettenis static void cris_gdb_func (enum cris_op_type, unsigned short, inst_env_type *);
544b725ae77Skettenis
545b725ae77Skettenis static struct gdbarch *cris_gdbarch_init (struct gdbarch_info,
546b725ae77Skettenis struct gdbarch_list *);
547b725ae77Skettenis
548b725ae77Skettenis static void cris_dump_tdep (struct gdbarch *, struct ui_file *);
549b725ae77Skettenis
550*11efff7fSkettenis static void set_cris_version (char *ignore_args, int from_tty,
551b725ae77Skettenis struct cmd_list_element *c);
552b725ae77Skettenis
553*11efff7fSkettenis static void set_cris_dwarf2_cfi (char *ignore_args, int from_tty,
554b725ae77Skettenis struct cmd_list_element *c);
555b725ae77Skettenis
556b725ae77Skettenis static CORE_ADDR cris_scan_prologue (CORE_ADDR pc,
557b725ae77Skettenis struct frame_info *next_frame,
558b725ae77Skettenis struct cris_unwind_cache *info);
559b725ae77Skettenis
560b725ae77Skettenis static CORE_ADDR cris_unwind_pc (struct gdbarch *gdbarch,
561b725ae77Skettenis struct frame_info *next_frame);
562b725ae77Skettenis
563b725ae77Skettenis static CORE_ADDR cris_unwind_sp (struct gdbarch *gdbarch,
564b725ae77Skettenis struct frame_info *next_frame);
565b725ae77Skettenis
566b725ae77Skettenis /* When arguments must be pushed onto the stack, they go on in reverse
567*11efff7fSkettenis order. The below implements a FILO (stack) to do this.
568*11efff7fSkettenis Copied from d10v-tdep.c. */
569b725ae77Skettenis
570b725ae77Skettenis struct stack_item
571b725ae77Skettenis {
572b725ae77Skettenis int len;
573b725ae77Skettenis struct stack_item *prev;
574b725ae77Skettenis void *data;
575b725ae77Skettenis };
576b725ae77Skettenis
577b725ae77Skettenis static struct stack_item *
push_stack_item(struct stack_item * prev,void * contents,int len)578b725ae77Skettenis push_stack_item (struct stack_item *prev, void *contents, int len)
579b725ae77Skettenis {
580b725ae77Skettenis struct stack_item *si;
581b725ae77Skettenis si = xmalloc (sizeof (struct stack_item));
582b725ae77Skettenis si->data = xmalloc (len);
583b725ae77Skettenis si->len = len;
584b725ae77Skettenis si->prev = prev;
585b725ae77Skettenis memcpy (si->data, contents, len);
586b725ae77Skettenis return si;
587b725ae77Skettenis }
588b725ae77Skettenis
589b725ae77Skettenis static struct stack_item *
pop_stack_item(struct stack_item * si)590b725ae77Skettenis pop_stack_item (struct stack_item *si)
591b725ae77Skettenis {
592b725ae77Skettenis struct stack_item *dead = si;
593b725ae77Skettenis si = si->prev;
594b725ae77Skettenis xfree (dead->data);
595b725ae77Skettenis xfree (dead);
596b725ae77Skettenis return si;
597b725ae77Skettenis }
598b725ae77Skettenis
599b725ae77Skettenis /* Put here the code to store, into fi->saved_regs, the addresses of
600b725ae77Skettenis the saved registers of frame described by FRAME_INFO. This
601b725ae77Skettenis includes special registers such as pc and fp saved in special ways
602b725ae77Skettenis in the stack frame. sp is even more special: the address we return
603b725ae77Skettenis for it IS the sp for the next frame. */
604b725ae77Skettenis
605b725ae77Skettenis struct cris_unwind_cache *
cris_frame_unwind_cache(struct frame_info * next_frame,void ** this_prologue_cache)606b725ae77Skettenis cris_frame_unwind_cache (struct frame_info *next_frame,
607b725ae77Skettenis void **this_prologue_cache)
608b725ae77Skettenis {
609b725ae77Skettenis CORE_ADDR pc;
610b725ae77Skettenis struct cris_unwind_cache *info;
611b725ae77Skettenis int i;
612b725ae77Skettenis
613b725ae77Skettenis if ((*this_prologue_cache))
614b725ae77Skettenis return (*this_prologue_cache);
615b725ae77Skettenis
616b725ae77Skettenis info = FRAME_OBSTACK_ZALLOC (struct cris_unwind_cache);
617b725ae77Skettenis (*this_prologue_cache) = info;
618b725ae77Skettenis info->saved_regs = trad_frame_alloc_saved_regs (next_frame);
619b725ae77Skettenis
620b725ae77Skettenis /* Zero all fields. */
621b725ae77Skettenis info->prev_sp = 0;
622b725ae77Skettenis info->base = 0;
623b725ae77Skettenis info->size = 0;
624b725ae77Skettenis info->sp_offset = 0;
625b725ae77Skettenis info->r8_offset = 0;
626b725ae77Skettenis info->uses_frame = 0;
627b725ae77Skettenis info->return_pc = 0;
628b725ae77Skettenis info->leaf_function = 0;
629b725ae77Skettenis
630b725ae77Skettenis /* Prologue analysis does the rest... */
631b725ae77Skettenis cris_scan_prologue (frame_func_unwind (next_frame), next_frame, info);
632b725ae77Skettenis
633b725ae77Skettenis return info;
634b725ae77Skettenis }
635b725ae77Skettenis
636b725ae77Skettenis /* Given a GDB frame, determine the address of the calling function's
637b725ae77Skettenis frame. This will be used to create a new GDB frame struct. */
638b725ae77Skettenis
639b725ae77Skettenis static void
cris_frame_this_id(struct frame_info * next_frame,void ** this_prologue_cache,struct frame_id * this_id)640b725ae77Skettenis cris_frame_this_id (struct frame_info *next_frame,
641b725ae77Skettenis void **this_prologue_cache,
642b725ae77Skettenis struct frame_id *this_id)
643b725ae77Skettenis {
644b725ae77Skettenis struct cris_unwind_cache *info
645b725ae77Skettenis = cris_frame_unwind_cache (next_frame, this_prologue_cache);
646b725ae77Skettenis CORE_ADDR base;
647b725ae77Skettenis CORE_ADDR func;
648b725ae77Skettenis struct frame_id id;
649b725ae77Skettenis
650b725ae77Skettenis /* The FUNC is easy. */
651b725ae77Skettenis func = frame_func_unwind (next_frame);
652b725ae77Skettenis
653b725ae77Skettenis /* Hopefully the prologue analysis either correctly determined the
654b725ae77Skettenis frame's base (which is the SP from the previous frame), or set
655b725ae77Skettenis that base to "NULL". */
656b725ae77Skettenis base = info->prev_sp;
657b725ae77Skettenis if (base == 0)
658b725ae77Skettenis return;
659b725ae77Skettenis
660b725ae77Skettenis id = frame_id_build (base, func);
661b725ae77Skettenis
662b725ae77Skettenis (*this_id) = id;
663b725ae77Skettenis }
664b725ae77Skettenis
665b725ae77Skettenis static void
cris_frame_prev_register(struct frame_info * next_frame,void ** this_prologue_cache,int regnum,int * optimizedp,enum lval_type * lvalp,CORE_ADDR * addrp,int * realnump,void * bufferp)666b725ae77Skettenis cris_frame_prev_register (struct frame_info *next_frame,
667b725ae77Skettenis void **this_prologue_cache,
668b725ae77Skettenis int regnum, int *optimizedp,
669b725ae77Skettenis enum lval_type *lvalp, CORE_ADDR *addrp,
670b725ae77Skettenis int *realnump, void *bufferp)
671b725ae77Skettenis {
672b725ae77Skettenis struct cris_unwind_cache *info
673b725ae77Skettenis = cris_frame_unwind_cache (next_frame, this_prologue_cache);
674*11efff7fSkettenis trad_frame_get_prev_register (next_frame, info->saved_regs, regnum,
675b725ae77Skettenis optimizedp, lvalp, addrp, realnump, bufferp);
676b725ae77Skettenis }
677b725ae77Skettenis
678b725ae77Skettenis /* Assuming NEXT_FRAME->prev is a dummy, return the frame ID of that
679b725ae77Skettenis dummy frame. The frame ID's base needs to match the TOS value
680b725ae77Skettenis saved by save_dummy_frame_tos(), and the PC match the dummy frame's
681b725ae77Skettenis breakpoint. */
682b725ae77Skettenis
683b725ae77Skettenis static struct frame_id
cris_unwind_dummy_id(struct gdbarch * gdbarch,struct frame_info * next_frame)684b725ae77Skettenis cris_unwind_dummy_id (struct gdbarch *gdbarch, struct frame_info *next_frame)
685b725ae77Skettenis {
686b725ae77Skettenis return frame_id_build (cris_unwind_sp (gdbarch, next_frame),
687b725ae77Skettenis frame_pc_unwind (next_frame));
688b725ae77Skettenis }
689b725ae77Skettenis
690b725ae77Skettenis static CORE_ADDR
cris_frame_align(struct gdbarch * gdbarch,CORE_ADDR sp)691b725ae77Skettenis cris_frame_align (struct gdbarch *gdbarch, CORE_ADDR sp)
692b725ae77Skettenis {
693b725ae77Skettenis /* Align to the size of an instruction (so that they can safely be
694b725ae77Skettenis pushed onto the stack). */
695b725ae77Skettenis return sp & ~3;
696b725ae77Skettenis }
697b725ae77Skettenis
698b725ae77Skettenis static CORE_ADDR
cris_push_dummy_code(struct gdbarch * gdbarch,CORE_ADDR sp,CORE_ADDR funaddr,int using_gcc,struct value ** args,int nargs,struct type * value_type,CORE_ADDR * real_pc,CORE_ADDR * bp_addr)699b725ae77Skettenis cris_push_dummy_code (struct gdbarch *gdbarch,
700b725ae77Skettenis CORE_ADDR sp, CORE_ADDR funaddr, int using_gcc,
701b725ae77Skettenis struct value **args, int nargs,
702b725ae77Skettenis struct type *value_type,
703b725ae77Skettenis CORE_ADDR *real_pc, CORE_ADDR *bp_addr)
704b725ae77Skettenis {
705b725ae77Skettenis /* Allocate space sufficient for a breakpoint. */
706b725ae77Skettenis sp = (sp - 4) & ~3;
707b725ae77Skettenis /* Store the address of that breakpoint */
708b725ae77Skettenis *bp_addr = sp;
709b725ae77Skettenis /* CRIS always starts the call at the callee's entry point. */
710b725ae77Skettenis *real_pc = funaddr;
711b725ae77Skettenis return sp;
712b725ae77Skettenis }
713b725ae77Skettenis
714b725ae77Skettenis static CORE_ADDR
cris_push_dummy_call(struct gdbarch * gdbarch,struct value * function,struct regcache * regcache,CORE_ADDR bp_addr,int nargs,struct value ** args,CORE_ADDR sp,int struct_return,CORE_ADDR struct_addr)715*11efff7fSkettenis cris_push_dummy_call (struct gdbarch *gdbarch, struct value *function,
716b725ae77Skettenis struct regcache *regcache, CORE_ADDR bp_addr,
717b725ae77Skettenis int nargs, struct value **args, CORE_ADDR sp,
718b725ae77Skettenis int struct_return, CORE_ADDR struct_addr)
719b725ae77Skettenis {
720b725ae77Skettenis int stack_alloc;
721b725ae77Skettenis int stack_offset;
722b725ae77Skettenis int argreg;
723b725ae77Skettenis int argnum;
724b725ae77Skettenis
725b725ae77Skettenis CORE_ADDR regval;
726b725ae77Skettenis
727b725ae77Skettenis /* The function's arguments and memory allocated by gdb for the arguments to
728b725ae77Skettenis point at reside in separate areas on the stack.
729b725ae77Skettenis Both frame pointers grow toward higher addresses. */
730b725ae77Skettenis CORE_ADDR fp_arg;
731b725ae77Skettenis CORE_ADDR fp_mem;
732b725ae77Skettenis
733b725ae77Skettenis struct stack_item *si = NULL;
734b725ae77Skettenis
735b725ae77Skettenis /* Push the return address. */
736b725ae77Skettenis regcache_cooked_write_unsigned (regcache, SRP_REGNUM, bp_addr);
737b725ae77Skettenis
738b725ae77Skettenis /* Are we returning a value using a structure return or a normal value
739b725ae77Skettenis return? struct_addr is the address of the reserved space for the return
740b725ae77Skettenis structure to be written on the stack. */
741b725ae77Skettenis if (struct_return)
742b725ae77Skettenis {
743b725ae77Skettenis regcache_cooked_write_unsigned (regcache, STR_REGNUM, struct_addr);
744b725ae77Skettenis }
745b725ae77Skettenis
746b725ae77Skettenis /* Now load as many as possible of the first arguments into registers,
747b725ae77Skettenis and push the rest onto the stack. */
748b725ae77Skettenis argreg = ARG1_REGNUM;
749b725ae77Skettenis stack_offset = 0;
750b725ae77Skettenis
751b725ae77Skettenis for (argnum = 0; argnum < nargs; argnum++)
752b725ae77Skettenis {
753b725ae77Skettenis int len;
754b725ae77Skettenis char *val;
755b725ae77Skettenis int reg_demand;
756b725ae77Skettenis int i;
757b725ae77Skettenis
758b725ae77Skettenis len = TYPE_LENGTH (VALUE_TYPE (args[argnum]));
759b725ae77Skettenis val = (char *) VALUE_CONTENTS (args[argnum]);
760b725ae77Skettenis
761b725ae77Skettenis /* How may registers worth of storage do we need for this argument? */
762b725ae77Skettenis reg_demand = (len / 4) + (len % 4 != 0 ? 1 : 0);
763b725ae77Skettenis
764b725ae77Skettenis if (len <= (2 * 4) && (argreg + reg_demand - 1 <= ARG4_REGNUM))
765b725ae77Skettenis {
766b725ae77Skettenis /* Data passed by value. Fits in available register(s). */
767b725ae77Skettenis for (i = 0; i < reg_demand; i++)
768b725ae77Skettenis {
769b725ae77Skettenis regcache_cooked_write_unsigned (regcache, argreg,
770b725ae77Skettenis *(unsigned long *) val);
771b725ae77Skettenis argreg++;
772b725ae77Skettenis val += 4;
773b725ae77Skettenis }
774b725ae77Skettenis }
775b725ae77Skettenis else if (len <= (2 * 4) && argreg <= ARG4_REGNUM)
776b725ae77Skettenis {
777b725ae77Skettenis /* Data passed by value. Does not fit in available register(s).
778b725ae77Skettenis Use the register(s) first, then the stack. */
779b725ae77Skettenis for (i = 0; i < reg_demand; i++)
780b725ae77Skettenis {
781b725ae77Skettenis if (argreg <= ARG4_REGNUM)
782b725ae77Skettenis {
783b725ae77Skettenis regcache_cooked_write_unsigned (regcache, argreg,
784b725ae77Skettenis *(unsigned long *) val);
785b725ae77Skettenis argreg++;
786b725ae77Skettenis val += 4;
787b725ae77Skettenis }
788b725ae77Skettenis else
789b725ae77Skettenis {
790b725ae77Skettenis /* Push item for later so that pushed arguments
791b725ae77Skettenis come in the right order. */
792b725ae77Skettenis si = push_stack_item (si, val, 4);
793b725ae77Skettenis val += 4;
794b725ae77Skettenis }
795b725ae77Skettenis }
796b725ae77Skettenis }
797b725ae77Skettenis else if (len > (2 * 4))
798b725ae77Skettenis {
799b725ae77Skettenis /* FIXME */
800b725ae77Skettenis internal_error (__FILE__, __LINE__, "We don't do this");
801b725ae77Skettenis }
802b725ae77Skettenis else
803b725ae77Skettenis {
804b725ae77Skettenis /* Data passed by value. No available registers. Put it on
805b725ae77Skettenis the stack. */
806b725ae77Skettenis si = push_stack_item (si, val, len);
807b725ae77Skettenis }
808b725ae77Skettenis }
809b725ae77Skettenis
810b725ae77Skettenis while (si)
811b725ae77Skettenis {
812b725ae77Skettenis /* fp_arg must be word-aligned (i.e., don't += len) to match
813b725ae77Skettenis the function prologue. */
814b725ae77Skettenis sp = (sp - si->len) & ~3;
815b725ae77Skettenis write_memory (sp, si->data, si->len);
816b725ae77Skettenis si = pop_stack_item (si);
817b725ae77Skettenis }
818b725ae77Skettenis
819b725ae77Skettenis /* Finally, update the SP register. */
820b725ae77Skettenis regcache_cooked_write_unsigned (regcache, SP_REGNUM, sp);
821b725ae77Skettenis
822b725ae77Skettenis return sp;
823b725ae77Skettenis }
824b725ae77Skettenis
825b725ae77Skettenis static const struct frame_unwind cris_frame_unwind = {
826b725ae77Skettenis NORMAL_FRAME,
827b725ae77Skettenis cris_frame_this_id,
828b725ae77Skettenis cris_frame_prev_register
829b725ae77Skettenis };
830b725ae77Skettenis
831b725ae77Skettenis const struct frame_unwind *
cris_frame_sniffer(struct frame_info * next_frame)832b725ae77Skettenis cris_frame_sniffer (struct frame_info *next_frame)
833b725ae77Skettenis {
834b725ae77Skettenis return &cris_frame_unwind;
835b725ae77Skettenis }
836b725ae77Skettenis
837b725ae77Skettenis static CORE_ADDR
cris_frame_base_address(struct frame_info * next_frame,void ** this_cache)838b725ae77Skettenis cris_frame_base_address (struct frame_info *next_frame, void **this_cache)
839b725ae77Skettenis {
840b725ae77Skettenis struct cris_unwind_cache *info
841b725ae77Skettenis = cris_frame_unwind_cache (next_frame, this_cache);
842b725ae77Skettenis return info->base;
843b725ae77Skettenis }
844b725ae77Skettenis
845b725ae77Skettenis static const struct frame_base cris_frame_base = {
846b725ae77Skettenis &cris_frame_unwind,
847b725ae77Skettenis cris_frame_base_address,
848b725ae77Skettenis cris_frame_base_address,
849b725ae77Skettenis cris_frame_base_address
850b725ae77Skettenis };
851b725ae77Skettenis
852b725ae77Skettenis /* Frames information. The definition of the struct frame_info is
853b725ae77Skettenis
854b725ae77Skettenis CORE_ADDR frame
855b725ae77Skettenis CORE_ADDR pc
856b725ae77Skettenis enum frame_type type;
857b725ae77Skettenis CORE_ADDR return_pc
858b725ae77Skettenis int leaf_function
859b725ae77Skettenis
860b725ae77Skettenis If the compilation option -fno-omit-frame-pointer is present the
861b725ae77Skettenis variable frame will be set to the content of R8 which is the frame
862b725ae77Skettenis pointer register.
863b725ae77Skettenis
864b725ae77Skettenis The variable pc contains the address where execution is performed
865b725ae77Skettenis in the present frame. The innermost frame contains the current content
866b725ae77Skettenis of the register PC. All other frames contain the content of the
867b725ae77Skettenis register PC in the next frame.
868b725ae77Skettenis
869b725ae77Skettenis The variable `type' indicates the frame's type: normal, SIGTRAMP
870b725ae77Skettenis (associated with a signal handler), dummy (associated with a dummy
871b725ae77Skettenis frame).
872b725ae77Skettenis
873b725ae77Skettenis The variable return_pc contains the address where execution should be
874b725ae77Skettenis resumed when the present frame has finished, the return address.
875b725ae77Skettenis
876b725ae77Skettenis The variable leaf_function is 1 if the return address is in the register
877b725ae77Skettenis SRP, and 0 if it is on the stack.
878b725ae77Skettenis
879b725ae77Skettenis Prologue instructions C-code.
880b725ae77Skettenis The prologue may consist of (-fno-omit-frame-pointer)
881b725ae77Skettenis 1) 2)
882b725ae77Skettenis push srp
883b725ae77Skettenis push r8 push r8
884b725ae77Skettenis move.d sp,r8 move.d sp,r8
885b725ae77Skettenis subq X,sp subq X,sp
886b725ae77Skettenis movem rY,[sp] movem rY,[sp]
887b725ae77Skettenis move.S rZ,[r8-U] move.S rZ,[r8-U]
888b725ae77Skettenis
889b725ae77Skettenis where 1 is a non-terminal function, and 2 is a leaf-function.
890b725ae77Skettenis
891b725ae77Skettenis Note that this assumption is extremely brittle, and will break at the
892b725ae77Skettenis slightest change in GCC's prologue.
893b725ae77Skettenis
894b725ae77Skettenis If local variables are declared or register contents are saved on stack
895b725ae77Skettenis the subq-instruction will be present with X as the number of bytes
896b725ae77Skettenis needed for storage. The reshuffle with respect to r8 may be performed
897b725ae77Skettenis with any size S (b, w, d) and any of the general registers Z={0..13}.
898b725ae77Skettenis The offset U should be representable by a signed 8-bit value in all cases.
899b725ae77Skettenis Thus, the prefix word is assumed to be immediate byte offset mode followed
900b725ae77Skettenis by another word containing the instruction.
901b725ae77Skettenis
902b725ae77Skettenis Degenerate cases:
903b725ae77Skettenis 3)
904b725ae77Skettenis push r8
905b725ae77Skettenis move.d sp,r8
906b725ae77Skettenis move.d r8,sp
907b725ae77Skettenis pop r8
908b725ae77Skettenis
909b725ae77Skettenis Prologue instructions C++-code.
910b725ae77Skettenis Case 1) and 2) in the C-code may be followed by
911b725ae77Skettenis
912b725ae77Skettenis move.d r10,rS ; this
913b725ae77Skettenis move.d r11,rT ; P1
914b725ae77Skettenis move.d r12,rU ; P2
915b725ae77Skettenis move.d r13,rV ; P3
916b725ae77Skettenis move.S [r8+U],rZ ; P4
917b725ae77Skettenis
918b725ae77Skettenis if any of the call parameters are stored. The host expects these
919b725ae77Skettenis instructions to be executed in order to get the call parameters right. */
920b725ae77Skettenis
921b725ae77Skettenis /* Examine the prologue of a function. The variable ip is the address of
922b725ae77Skettenis the first instruction of the prologue. The variable limit is the address
923b725ae77Skettenis of the first instruction after the prologue. The variable fi contains the
924b725ae77Skettenis information in struct frame_info. The variable frameless_p controls whether
925b725ae77Skettenis the entire prologue is examined (0) or just enough instructions to
926b725ae77Skettenis determine that it is a prologue (1). */
927b725ae77Skettenis
928b725ae77Skettenis static CORE_ADDR
cris_scan_prologue(CORE_ADDR pc,struct frame_info * next_frame,struct cris_unwind_cache * info)929b725ae77Skettenis cris_scan_prologue (CORE_ADDR pc, struct frame_info *next_frame,
930b725ae77Skettenis struct cris_unwind_cache *info)
931b725ae77Skettenis {
932b725ae77Skettenis /* Present instruction. */
933b725ae77Skettenis unsigned short insn;
934b725ae77Skettenis
935b725ae77Skettenis /* Next instruction, lookahead. */
936b725ae77Skettenis unsigned short insn_next;
937b725ae77Skettenis int regno;
938b725ae77Skettenis
939b725ae77Skettenis /* Is there a push fp? */
940b725ae77Skettenis int have_fp;
941b725ae77Skettenis
942b725ae77Skettenis /* Number of byte on stack used for local variables and movem. */
943b725ae77Skettenis int val;
944b725ae77Skettenis
945b725ae77Skettenis /* Highest register number in a movem. */
946b725ae77Skettenis int regsave;
947b725ae77Skettenis
948b725ae77Skettenis /* move.d r<source_register>,rS */
949b725ae77Skettenis short source_register;
950b725ae77Skettenis
951b725ae77Skettenis /* Scan limit. */
952b725ae77Skettenis int limit;
953b725ae77Skettenis
954b725ae77Skettenis /* This frame is with respect to a leaf until a push srp is found. */
955b725ae77Skettenis if (info)
956b725ae77Skettenis {
957b725ae77Skettenis info->leaf_function = 1;
958b725ae77Skettenis }
959b725ae77Skettenis
960b725ae77Skettenis /* Assume nothing on stack. */
961b725ae77Skettenis val = 0;
962b725ae77Skettenis regsave = -1;
963b725ae77Skettenis
964b725ae77Skettenis /* If we were called without a next_frame, that means we were called
965b725ae77Skettenis from cris_skip_prologue which already tried to find the end of the
966b725ae77Skettenis prologue through the symbol information. 64 instructions past current
967b725ae77Skettenis pc is arbitrarily chosen, but at least it means we'll stop eventually. */
968b725ae77Skettenis limit = next_frame ? frame_pc_unwind (next_frame) : pc + 64;
969b725ae77Skettenis
970b725ae77Skettenis /* Find the prologue instructions. */
971*11efff7fSkettenis while (pc > 0 && pc < limit)
972b725ae77Skettenis {
973b725ae77Skettenis insn = read_memory_unsigned_integer (pc, 2);
974b725ae77Skettenis pc += 2;
975b725ae77Skettenis if (insn == 0xE1FC)
976b725ae77Skettenis {
977b725ae77Skettenis /* push <reg> 32 bit instruction */
978b725ae77Skettenis insn_next = read_memory_unsigned_integer (pc, 2);
979b725ae77Skettenis pc += 2;
980b725ae77Skettenis regno = cris_get_operand2 (insn_next);
981b725ae77Skettenis if (info)
982b725ae77Skettenis {
983b725ae77Skettenis info->sp_offset += 4;
984b725ae77Skettenis }
985b725ae77Skettenis /* This check, meant to recognize srp, used to be regno ==
986b725ae77Skettenis (SRP_REGNUM - NUM_GENREGS), but that covers r11 also. */
987b725ae77Skettenis if (insn_next == 0xBE7E)
988b725ae77Skettenis {
989b725ae77Skettenis if (info)
990b725ae77Skettenis {
991b725ae77Skettenis info->leaf_function = 0;
992b725ae77Skettenis }
993b725ae77Skettenis }
994b725ae77Skettenis else if (insn_next == 0x8FEE)
995b725ae77Skettenis {
996b725ae77Skettenis /* push $r8 */
997b725ae77Skettenis if (info)
998b725ae77Skettenis {
999b725ae77Skettenis info->r8_offset = info->sp_offset;
1000b725ae77Skettenis }
1001b725ae77Skettenis }
1002b725ae77Skettenis }
1003b725ae77Skettenis else if (insn == 0x866E)
1004b725ae77Skettenis {
1005b725ae77Skettenis /* move.d sp,r8 */
1006b725ae77Skettenis if (info)
1007b725ae77Skettenis {
1008b725ae77Skettenis info->uses_frame = 1;
1009b725ae77Skettenis }
1010b725ae77Skettenis continue;
1011b725ae77Skettenis }
1012b725ae77Skettenis else if (cris_get_operand2 (insn) == SP_REGNUM
1013b725ae77Skettenis && cris_get_mode (insn) == 0x0000
1014b725ae77Skettenis && cris_get_opcode (insn) == 0x000A)
1015b725ae77Skettenis {
1016b725ae77Skettenis /* subq <val>,sp */
1017b725ae77Skettenis if (info)
1018b725ae77Skettenis {
1019b725ae77Skettenis info->sp_offset += cris_get_quick_value (insn);
1020b725ae77Skettenis }
1021b725ae77Skettenis }
1022b725ae77Skettenis else if (cris_get_mode (insn) == 0x0002
1023b725ae77Skettenis && cris_get_opcode (insn) == 0x000F
1024b725ae77Skettenis && cris_get_size (insn) == 0x0003
1025b725ae77Skettenis && cris_get_operand1 (insn) == SP_REGNUM)
1026b725ae77Skettenis {
1027b725ae77Skettenis /* movem r<regsave>,[sp] */
1028b725ae77Skettenis regsave = cris_get_operand2 (insn);
1029b725ae77Skettenis }
1030b725ae77Skettenis else if (cris_get_operand2 (insn) == SP_REGNUM
1031b725ae77Skettenis && ((insn & 0x0F00) >> 8) == 0x0001
1032b725ae77Skettenis && (cris_get_signed_offset (insn) < 0))
1033b725ae77Skettenis {
1034b725ae77Skettenis /* Immediate byte offset addressing prefix word with sp as base
1035b725ae77Skettenis register. Used for CRIS v8 i.e. ETRAX 100 and newer if <val>
1036b725ae77Skettenis is between 64 and 128.
1037b725ae77Skettenis movem r<regsave>,[sp=sp-<val>] */
1038b725ae77Skettenis if (info)
1039b725ae77Skettenis {
1040b725ae77Skettenis info->sp_offset += -cris_get_signed_offset (insn);
1041b725ae77Skettenis }
1042b725ae77Skettenis insn_next = read_memory_unsigned_integer (pc, 2);
1043b725ae77Skettenis pc += 2;
1044b725ae77Skettenis if (cris_get_mode (insn_next) == PREFIX_ASSIGN_MODE
1045b725ae77Skettenis && cris_get_opcode (insn_next) == 0x000F
1046b725ae77Skettenis && cris_get_size (insn_next) == 0x0003
1047b725ae77Skettenis && cris_get_operand1 (insn_next) == SP_REGNUM)
1048b725ae77Skettenis {
1049b725ae77Skettenis regsave = cris_get_operand2 (insn_next);
1050b725ae77Skettenis }
1051b725ae77Skettenis else
1052b725ae77Skettenis {
1053b725ae77Skettenis /* The prologue ended before the limit was reached. */
1054b725ae77Skettenis pc -= 4;
1055b725ae77Skettenis break;
1056b725ae77Skettenis }
1057b725ae77Skettenis }
1058b725ae77Skettenis else if (cris_get_mode (insn) == 0x0001
1059b725ae77Skettenis && cris_get_opcode (insn) == 0x0009
1060b725ae77Skettenis && cris_get_size (insn) == 0x0002)
1061b725ae77Skettenis {
1062b725ae77Skettenis /* move.d r<10..13>,r<0..15> */
1063b725ae77Skettenis source_register = cris_get_operand1 (insn);
1064b725ae77Skettenis
1065b725ae77Skettenis /* FIXME? In the glibc solibs, the prologue might contain something
1066b725ae77Skettenis like (this example taken from relocate_doit):
1067b725ae77Skettenis move.d $pc,$r0
1068b725ae77Skettenis sub.d 0xfffef426,$r0
1069b725ae77Skettenis which isn't covered by the source_register check below. Question
1070b725ae77Skettenis is whether to add a check for this combo, or make better use of
1071b725ae77Skettenis the limit variable instead. */
1072b725ae77Skettenis if (source_register < ARG1_REGNUM || source_register > ARG4_REGNUM)
1073b725ae77Skettenis {
1074b725ae77Skettenis /* The prologue ended before the limit was reached. */
1075b725ae77Skettenis pc -= 2;
1076b725ae77Skettenis break;
1077b725ae77Skettenis }
1078b725ae77Skettenis }
1079b725ae77Skettenis else if (cris_get_operand2 (insn) == CRIS_FP_REGNUM
1080b725ae77Skettenis /* The size is a fixed-size. */
1081b725ae77Skettenis && ((insn & 0x0F00) >> 8) == 0x0001
1082b725ae77Skettenis /* A negative offset. */
1083b725ae77Skettenis && (cris_get_signed_offset (insn) < 0))
1084b725ae77Skettenis {
1085b725ae77Skettenis /* move.S rZ,[r8-U] (?) */
1086b725ae77Skettenis insn_next = read_memory_unsigned_integer (pc, 2);
1087b725ae77Skettenis pc += 2;
1088b725ae77Skettenis regno = cris_get_operand2 (insn_next);
1089b725ae77Skettenis if ((regno >= 0 && regno < SP_REGNUM)
1090b725ae77Skettenis && cris_get_mode (insn_next) == PREFIX_OFFSET_MODE
1091b725ae77Skettenis && cris_get_opcode (insn_next) == 0x000F)
1092b725ae77Skettenis {
1093b725ae77Skettenis /* move.S rZ,[r8-U] */
1094b725ae77Skettenis continue;
1095b725ae77Skettenis }
1096b725ae77Skettenis else
1097b725ae77Skettenis {
1098b725ae77Skettenis /* The prologue ended before the limit was reached. */
1099b725ae77Skettenis pc -= 4;
1100b725ae77Skettenis break;
1101b725ae77Skettenis }
1102b725ae77Skettenis }
1103b725ae77Skettenis else if (cris_get_operand2 (insn) == CRIS_FP_REGNUM
1104b725ae77Skettenis /* The size is a fixed-size. */
1105b725ae77Skettenis && ((insn & 0x0F00) >> 8) == 0x0001
1106b725ae77Skettenis /* A positive offset. */
1107b725ae77Skettenis && (cris_get_signed_offset (insn) > 0))
1108b725ae77Skettenis {
1109b725ae77Skettenis /* move.S [r8+U],rZ (?) */
1110b725ae77Skettenis insn_next = read_memory_unsigned_integer (pc, 2);
1111b725ae77Skettenis pc += 2;
1112b725ae77Skettenis regno = cris_get_operand2 (insn_next);
1113b725ae77Skettenis if ((regno >= 0 && regno < SP_REGNUM)
1114b725ae77Skettenis && cris_get_mode (insn_next) == PREFIX_OFFSET_MODE
1115b725ae77Skettenis && cris_get_opcode (insn_next) == 0x0009
1116b725ae77Skettenis && cris_get_operand1 (insn_next) == regno)
1117b725ae77Skettenis {
1118b725ae77Skettenis /* move.S [r8+U],rZ */
1119b725ae77Skettenis continue;
1120b725ae77Skettenis }
1121b725ae77Skettenis else
1122b725ae77Skettenis {
1123b725ae77Skettenis /* The prologue ended before the limit was reached. */
1124b725ae77Skettenis pc -= 4;
1125b725ae77Skettenis break;
1126b725ae77Skettenis }
1127b725ae77Skettenis }
1128b725ae77Skettenis else
1129b725ae77Skettenis {
1130b725ae77Skettenis /* The prologue ended before the limit was reached. */
1131b725ae77Skettenis pc -= 2;
1132b725ae77Skettenis break;
1133b725ae77Skettenis }
1134b725ae77Skettenis }
1135b725ae77Skettenis
1136b725ae77Skettenis /* We only want to know the end of the prologue when next_frame and info
1137b725ae77Skettenis are NULL (called from cris_skip_prologue i.e.). */
1138b725ae77Skettenis if (next_frame == NULL && info == NULL)
1139b725ae77Skettenis {
1140b725ae77Skettenis return pc;
1141b725ae77Skettenis }
1142b725ae77Skettenis
1143b725ae77Skettenis info->size = info->sp_offset;
1144b725ae77Skettenis
1145b725ae77Skettenis /* Compute the previous frame's stack pointer (which is also the
1146b725ae77Skettenis frame's ID's stack address), and this frame's base pointer. */
1147b725ae77Skettenis if (info->uses_frame)
1148b725ae77Skettenis {
1149b725ae77Skettenis ULONGEST this_base;
1150b725ae77Skettenis /* The SP was moved to the FP. This indicates that a new frame
1151b725ae77Skettenis was created. Get THIS frame's FP value by unwinding it from
1152b725ae77Skettenis the next frame. */
1153b725ae77Skettenis frame_unwind_unsigned_register (next_frame, CRIS_FP_REGNUM,
1154b725ae77Skettenis &this_base);
1155b725ae77Skettenis info->base = this_base;
1156b725ae77Skettenis info->saved_regs[CRIS_FP_REGNUM].addr = info->base;
1157b725ae77Skettenis
1158b725ae77Skettenis /* The FP points at the last saved register. Adjust the FP back
1159b725ae77Skettenis to before the first saved register giving the SP. */
1160b725ae77Skettenis info->prev_sp = info->base + info->r8_offset;
1161b725ae77Skettenis }
1162b725ae77Skettenis else
1163b725ae77Skettenis {
1164b725ae77Skettenis ULONGEST this_base;
1165b725ae77Skettenis /* Assume that the FP is this frame's SP but with that pushed
1166b725ae77Skettenis stack space added back. */
1167b725ae77Skettenis frame_unwind_unsigned_register (next_frame, SP_REGNUM, &this_base);
1168b725ae77Skettenis info->base = this_base;
1169b725ae77Skettenis info->prev_sp = info->base + info->size;
1170b725ae77Skettenis }
1171b725ae77Skettenis
1172b725ae77Skettenis /* Calculate the addresses for the saved registers on the stack. */
1173b725ae77Skettenis /* FIXME: The address calculation should really be done on the fly while
1174b725ae77Skettenis we're analyzing the prologue (we only hold one regsave value as it is
1175b725ae77Skettenis now). */
1176b725ae77Skettenis val = info->sp_offset;
1177b725ae77Skettenis
1178b725ae77Skettenis for (regno = regsave; regno >= 0; regno--)
1179b725ae77Skettenis {
1180b725ae77Skettenis info->saved_regs[regno].addr = info->base + info->r8_offset - val;
1181b725ae77Skettenis val -= 4;
1182b725ae77Skettenis }
1183b725ae77Skettenis
1184b725ae77Skettenis /* The previous frame's SP needed to be computed. Save the computed
1185b725ae77Skettenis value. */
1186b725ae77Skettenis trad_frame_set_value (info->saved_regs, SP_REGNUM, info->prev_sp);
1187b725ae77Skettenis
1188b725ae77Skettenis if (!info->leaf_function)
1189b725ae77Skettenis {
1190b725ae77Skettenis /* SRP saved on the stack. But where? */
1191b725ae77Skettenis if (info->r8_offset == 0)
1192b725ae77Skettenis {
1193b725ae77Skettenis /* R8 not pushed yet. */
1194b725ae77Skettenis info->saved_regs[SRP_REGNUM].addr = info->base;
1195b725ae77Skettenis }
1196b725ae77Skettenis else
1197b725ae77Skettenis {
1198b725ae77Skettenis /* R8 pushed, but SP may or may not be moved to R8 yet. */
1199b725ae77Skettenis info->saved_regs[SRP_REGNUM].addr = info->base + 4;
1200b725ae77Skettenis }
1201b725ae77Skettenis }
1202b725ae77Skettenis
1203b725ae77Skettenis /* The PC is found in SRP (the actual register or located on the stack). */
1204b725ae77Skettenis info->saved_regs[PC_REGNUM] = info->saved_regs[SRP_REGNUM];
1205b725ae77Skettenis
1206b725ae77Skettenis return pc;
1207b725ae77Skettenis }
1208b725ae77Skettenis
1209b725ae77Skettenis /* Advance pc beyond any function entry prologue instructions at pc
1210b725ae77Skettenis to reach some "real" code. */
1211b725ae77Skettenis
1212b725ae77Skettenis /* Given a PC value corresponding to the start of a function, return the PC
1213b725ae77Skettenis of the first instruction after the function prologue. */
1214b725ae77Skettenis
1215b725ae77Skettenis static CORE_ADDR
cris_skip_prologue(CORE_ADDR pc)1216b725ae77Skettenis cris_skip_prologue (CORE_ADDR pc)
1217b725ae77Skettenis {
1218b725ae77Skettenis CORE_ADDR func_addr, func_end;
1219b725ae77Skettenis struct symtab_and_line sal;
1220b725ae77Skettenis CORE_ADDR pc_after_prologue;
1221b725ae77Skettenis
1222b725ae77Skettenis /* If we have line debugging information, then the end of the prologue
1223b725ae77Skettenis should the first assembly instruction of the first source line. */
1224b725ae77Skettenis if (find_pc_partial_function (pc, NULL, &func_addr, &func_end))
1225b725ae77Skettenis {
1226b725ae77Skettenis sal = find_pc_line (func_addr, 0);
1227b725ae77Skettenis if (sal.end > 0 && sal.end < func_end)
1228b725ae77Skettenis return sal.end;
1229b725ae77Skettenis }
1230b725ae77Skettenis
1231b725ae77Skettenis pc_after_prologue = cris_scan_prologue (pc, NULL, NULL);
1232b725ae77Skettenis return pc_after_prologue;
1233b725ae77Skettenis }
1234b725ae77Skettenis
1235b725ae77Skettenis static CORE_ADDR
cris_unwind_pc(struct gdbarch * gdbarch,struct frame_info * next_frame)1236b725ae77Skettenis cris_unwind_pc (struct gdbarch *gdbarch, struct frame_info *next_frame)
1237b725ae77Skettenis {
1238b725ae77Skettenis ULONGEST pc;
1239b725ae77Skettenis frame_unwind_unsigned_register (next_frame, PC_REGNUM, &pc);
1240b725ae77Skettenis return pc;
1241b725ae77Skettenis }
1242b725ae77Skettenis
1243b725ae77Skettenis static CORE_ADDR
cris_unwind_sp(struct gdbarch * gdbarch,struct frame_info * next_frame)1244b725ae77Skettenis cris_unwind_sp (struct gdbarch *gdbarch, struct frame_info *next_frame)
1245b725ae77Skettenis {
1246b725ae77Skettenis ULONGEST sp;
1247b725ae77Skettenis frame_unwind_unsigned_register (next_frame, SP_REGNUM, &sp);
1248b725ae77Skettenis return sp;
1249b725ae77Skettenis }
1250b725ae77Skettenis
1251b725ae77Skettenis /* Use the program counter to determine the contents and size of a breakpoint
1252b725ae77Skettenis instruction. It returns a pointer to a string of bytes that encode a
1253b725ae77Skettenis breakpoint instruction, stores the length of the string to *lenptr, and
1254b725ae77Skettenis adjusts pcptr (if necessary) to point to the actual memory location where
1255b725ae77Skettenis the breakpoint should be inserted. */
1256b725ae77Skettenis
1257b725ae77Skettenis static const unsigned char *
cris_breakpoint_from_pc(CORE_ADDR * pcptr,int * lenptr)1258b725ae77Skettenis cris_breakpoint_from_pc (CORE_ADDR *pcptr, int *lenptr)
1259b725ae77Skettenis {
1260b725ae77Skettenis static unsigned char break_insn[] = {0x38, 0xe9};
1261b725ae77Skettenis *lenptr = 2;
1262b725ae77Skettenis
1263b725ae77Skettenis return break_insn;
1264b725ae77Skettenis }
1265b725ae77Skettenis
1266b725ae77Skettenis /* Returns 1 if spec_reg is applicable to the current gdbarch's CRIS version,
1267b725ae77Skettenis 0 otherwise. */
1268b725ae77Skettenis
1269b725ae77Skettenis static int
cris_spec_reg_applicable(struct cris_spec_reg spec_reg)1270b725ae77Skettenis cris_spec_reg_applicable (struct cris_spec_reg spec_reg)
1271b725ae77Skettenis {
1272b725ae77Skettenis int version = cris_version ();
1273b725ae77Skettenis
1274b725ae77Skettenis switch (spec_reg.applicable_version)
1275b725ae77Skettenis {
1276b725ae77Skettenis case cris_ver_version_all:
1277b725ae77Skettenis return 1;
1278b725ae77Skettenis case cris_ver_warning:
1279b725ae77Skettenis /* Indeterminate/obsolete. */
1280b725ae77Skettenis return 0;
1281b725ae77Skettenis case cris_ver_sim:
1282b725ae77Skettenis /* Simulator only. */
1283b725ae77Skettenis return 0;
1284b725ae77Skettenis case cris_ver_v0_3:
1285b725ae77Skettenis return (version >= 0 && version <= 3);
1286b725ae77Skettenis case cris_ver_v3p:
1287b725ae77Skettenis return (version >= 3);
1288b725ae77Skettenis case cris_ver_v8:
1289b725ae77Skettenis return (version == 8 || version == 9);
1290b725ae77Skettenis case cris_ver_v8p:
1291b725ae77Skettenis return (version >= 8);
1292b725ae77Skettenis case cris_ver_v10p:
1293b725ae77Skettenis return (version >= 10);
1294b725ae77Skettenis default:
1295b725ae77Skettenis /* Invalid cris version. */
1296b725ae77Skettenis return 0;
1297b725ae77Skettenis }
1298b725ae77Skettenis }
1299b725ae77Skettenis
1300b725ae77Skettenis /* Returns the register size in unit byte. Returns 0 for an unimplemented
1301b725ae77Skettenis register, -1 for an invalid register. */
1302b725ae77Skettenis
1303b725ae77Skettenis static int
cris_register_size(int regno)1304b725ae77Skettenis cris_register_size (int regno)
1305b725ae77Skettenis {
1306b725ae77Skettenis int i;
1307b725ae77Skettenis int spec_regno;
1308b725ae77Skettenis
1309b725ae77Skettenis if (regno >= 0 && regno < NUM_GENREGS)
1310b725ae77Skettenis {
1311b725ae77Skettenis /* General registers (R0 - R15) are 32 bits. */
1312b725ae77Skettenis return 4;
1313b725ae77Skettenis }
1314b725ae77Skettenis else if (regno >= NUM_GENREGS && regno < NUM_REGS)
1315b725ae77Skettenis {
1316b725ae77Skettenis /* Special register (R16 - R31). cris_spec_regs is zero-based.
1317b725ae77Skettenis Adjust regno accordingly. */
1318b725ae77Skettenis spec_regno = regno - NUM_GENREGS;
1319b725ae77Skettenis
1320b725ae77Skettenis /* The entries in cris_spec_regs are stored in register number order,
1321b725ae77Skettenis which means we can shortcut into the array when searching it. */
1322b725ae77Skettenis for (i = spec_regno; cris_spec_regs[i].name != NULL; i++)
1323b725ae77Skettenis {
1324b725ae77Skettenis if (cris_spec_regs[i].number == spec_regno
1325b725ae77Skettenis && cris_spec_reg_applicable (cris_spec_regs[i]))
1326b725ae77Skettenis /* Go with the first applicable register. */
1327b725ae77Skettenis return cris_spec_regs[i].reg_size;
1328b725ae77Skettenis }
1329b725ae77Skettenis /* Special register not applicable to this CRIS version. */
1330b725ae77Skettenis return 0;
1331b725ae77Skettenis }
1332b725ae77Skettenis else
1333b725ae77Skettenis {
1334b725ae77Skettenis /* Invalid register. */
1335b725ae77Skettenis return -1;
1336b725ae77Skettenis }
1337b725ae77Skettenis }
1338b725ae77Skettenis
1339b725ae77Skettenis /* Nonzero if regno should not be fetched from the target. This is the case
1340b725ae77Skettenis for unimplemented (size 0) and non-existant registers. */
1341b725ae77Skettenis
1342b725ae77Skettenis static int
cris_cannot_fetch_register(int regno)1343b725ae77Skettenis cris_cannot_fetch_register (int regno)
1344b725ae77Skettenis {
1345b725ae77Skettenis return ((regno < 0 || regno >= NUM_REGS)
1346b725ae77Skettenis || (cris_register_size (regno) == 0));
1347b725ae77Skettenis }
1348b725ae77Skettenis
1349b725ae77Skettenis /* Nonzero if regno should not be written to the target, for various
1350b725ae77Skettenis reasons. */
1351b725ae77Skettenis
1352b725ae77Skettenis static int
cris_cannot_store_register(int regno)1353b725ae77Skettenis cris_cannot_store_register (int regno)
1354b725ae77Skettenis {
1355b725ae77Skettenis /* There are three kinds of registers we refuse to write to.
1356b725ae77Skettenis 1. Those that not implemented.
1357b725ae77Skettenis 2. Those that are read-only (depends on the processor mode).
1358b725ae77Skettenis 3. Those registers to which a write has no effect.
1359b725ae77Skettenis */
1360b725ae77Skettenis
1361b725ae77Skettenis if (regno < 0 || regno >= NUM_REGS || cris_register_size (regno) == 0)
1362b725ae77Skettenis /* Not implemented. */
1363b725ae77Skettenis return 1;
1364b725ae77Skettenis
1365b725ae77Skettenis else if (regno == VR_REGNUM)
1366b725ae77Skettenis /* Read-only. */
1367b725ae77Skettenis return 1;
1368b725ae77Skettenis
1369b725ae77Skettenis else if (regno == P0_REGNUM || regno == P4_REGNUM || regno == P8_REGNUM)
1370b725ae77Skettenis /* Writing has no effect. */
1371b725ae77Skettenis return 1;
1372b725ae77Skettenis
1373*11efff7fSkettenis /* IBR, BAR, BRP and IRP are read-only in user mode. Let the debug
1374*11efff7fSkettenis agent decide whether they are writable. */
1375b725ae77Skettenis
1376b725ae77Skettenis return 0;
1377b725ae77Skettenis }
1378b725ae77Skettenis
1379b725ae77Skettenis /* Returns the register offset for the first byte of register regno's space
1380b725ae77Skettenis in the saved register state. Returns -1 for an invalid or unimplemented
1381b725ae77Skettenis register. */
1382b725ae77Skettenis
1383b725ae77Skettenis static int
cris_register_offset(int regno)1384b725ae77Skettenis cris_register_offset (int regno)
1385b725ae77Skettenis {
1386b725ae77Skettenis int i;
1387b725ae77Skettenis int reg_size;
1388b725ae77Skettenis int offset = 0;
1389b725ae77Skettenis
1390b725ae77Skettenis if (regno >= 0 && regno < NUM_REGS)
1391b725ae77Skettenis {
1392b725ae77Skettenis /* FIXME: The offsets should be cached and calculated only once,
1393b725ae77Skettenis when the architecture being debugged has changed. */
1394b725ae77Skettenis for (i = 0; i < regno; i++)
1395b725ae77Skettenis offset += cris_register_size (i);
1396b725ae77Skettenis
1397b725ae77Skettenis return offset;
1398b725ae77Skettenis }
1399b725ae77Skettenis else
1400b725ae77Skettenis {
1401b725ae77Skettenis /* Invalid register. */
1402b725ae77Skettenis return -1;
1403b725ae77Skettenis }
1404b725ae77Skettenis }
1405b725ae77Skettenis
1406b725ae77Skettenis /* Return the GDB type (defined in gdbtypes.c) for the "standard" data type
1407b725ae77Skettenis of data in register regno. */
1408b725ae77Skettenis
1409b725ae77Skettenis static struct type *
cris_register_type(struct gdbarch * gdbarch,int regno)1410*11efff7fSkettenis cris_register_type (struct gdbarch *gdbarch, int regno)
1411b725ae77Skettenis {
1412*11efff7fSkettenis if (regno == PC_REGNUM)
1413*11efff7fSkettenis return builtin_type_void_func_ptr;
1414*11efff7fSkettenis else if (regno == SP_REGNUM || regno == CRIS_FP_REGNUM)
1415*11efff7fSkettenis return builtin_type_void_data_ptr;
1416*11efff7fSkettenis else if ((regno >= 0 && regno < SP_REGNUM)
1417*11efff7fSkettenis || (regno >= MOF_REGNUM && regno <= USP_REGNUM))
1418*11efff7fSkettenis /* Note: R8 taken care of previous clause. */
1419*11efff7fSkettenis return builtin_type_uint32;
1420*11efff7fSkettenis else if (regno >= P4_REGNUM && regno <= CCR_REGNUM)
1421*11efff7fSkettenis return builtin_type_uint16;
1422*11efff7fSkettenis else if (regno >= P0_REGNUM && regno <= VR_REGNUM)
1423*11efff7fSkettenis return builtin_type_uint8;
1424b725ae77Skettenis else
1425*11efff7fSkettenis /* Invalid (unimplemented) register. */
1426*11efff7fSkettenis return builtin_type_int0;
1427b725ae77Skettenis }
1428b725ae77Skettenis
1429b725ae77Skettenis /* Stores a function return value of type type, where valbuf is the address
1430b725ae77Skettenis of the value to be stored. */
1431b725ae77Skettenis
1432b725ae77Skettenis /* In the CRIS ABI, R10 and R11 are used to store return values. */
1433b725ae77Skettenis
1434b725ae77Skettenis static void
cris_store_return_value(struct type * type,struct regcache * regcache,const void * valbuf)1435b725ae77Skettenis cris_store_return_value (struct type *type, struct regcache *regcache,
1436b725ae77Skettenis const void *valbuf)
1437b725ae77Skettenis {
1438b725ae77Skettenis ULONGEST val;
1439b725ae77Skettenis int len = TYPE_LENGTH (type);
1440b725ae77Skettenis
1441b725ae77Skettenis if (len <= 4)
1442b725ae77Skettenis {
1443b725ae77Skettenis /* Put the return value in R10. */
1444b725ae77Skettenis val = extract_unsigned_integer (valbuf, len);
1445b725ae77Skettenis regcache_cooked_write_unsigned (regcache, ARG1_REGNUM, val);
1446b725ae77Skettenis }
1447b725ae77Skettenis else if (len <= 8)
1448b725ae77Skettenis {
1449b725ae77Skettenis /* Put the return value in R10 and R11. */
1450b725ae77Skettenis val = extract_unsigned_integer (valbuf, 4);
1451b725ae77Skettenis regcache_cooked_write_unsigned (regcache, ARG1_REGNUM, val);
1452b725ae77Skettenis val = extract_unsigned_integer ((char *)valbuf + 4, len - 4);
1453b725ae77Skettenis regcache_cooked_write_unsigned (regcache, ARG2_REGNUM, val);
1454b725ae77Skettenis }
1455b725ae77Skettenis else
1456b725ae77Skettenis error ("cris_store_return_value: type length too large.");
1457b725ae77Skettenis }
1458b725ae77Skettenis
1459b725ae77Skettenis /* Return the name of register regno as a string. Return NULL for an invalid or
1460b725ae77Skettenis unimplemented register. */
1461b725ae77Skettenis
1462b725ae77Skettenis static const char *
cris_register_name(int regno)1463b725ae77Skettenis cris_register_name (int regno)
1464b725ae77Skettenis {
1465b725ae77Skettenis static char *cris_genreg_names[] =
1466b725ae77Skettenis { "r0", "r1", "r2", "r3", \
1467b725ae77Skettenis "r4", "r5", "r6", "r7", \
1468b725ae77Skettenis "r8", "r9", "r10", "r11", \
1469b725ae77Skettenis "r12", "r13", "sp", "pc" };
1470b725ae77Skettenis
1471b725ae77Skettenis int i;
1472b725ae77Skettenis int spec_regno;
1473b725ae77Skettenis
1474b725ae77Skettenis if (regno >= 0 && regno < NUM_GENREGS)
1475b725ae77Skettenis {
1476b725ae77Skettenis /* General register. */
1477b725ae77Skettenis return cris_genreg_names[regno];
1478b725ae77Skettenis }
1479b725ae77Skettenis else if (regno >= NUM_GENREGS && regno < NUM_REGS)
1480b725ae77Skettenis {
1481b725ae77Skettenis /* Special register (R16 - R31). cris_spec_regs is zero-based.
1482b725ae77Skettenis Adjust regno accordingly. */
1483b725ae77Skettenis spec_regno = regno - NUM_GENREGS;
1484b725ae77Skettenis
1485b725ae77Skettenis /* The entries in cris_spec_regs are stored in register number order,
1486b725ae77Skettenis which means we can shortcut into the array when searching it. */
1487b725ae77Skettenis for (i = spec_regno; cris_spec_regs[i].name != NULL; i++)
1488b725ae77Skettenis {
1489b725ae77Skettenis if (cris_spec_regs[i].number == spec_regno
1490b725ae77Skettenis && cris_spec_reg_applicable (cris_spec_regs[i]))
1491b725ae77Skettenis /* Go with the first applicable register. */
1492b725ae77Skettenis return cris_spec_regs[i].name;
1493b725ae77Skettenis }
1494b725ae77Skettenis /* Special register not applicable to this CRIS version. */
1495b725ae77Skettenis return NULL;
1496b725ae77Skettenis }
1497b725ae77Skettenis else
1498b725ae77Skettenis {
1499b725ae77Skettenis /* Invalid register. */
1500b725ae77Skettenis return NULL;
1501b725ae77Skettenis }
1502b725ae77Skettenis }
1503b725ae77Skettenis
1504*11efff7fSkettenis /* Convert DWARF register number REG to the appropriate register
1505*11efff7fSkettenis number used by GDB. */
1506*11efff7fSkettenis
1507b725ae77Skettenis static int
cris_dwarf2_reg_to_regnum(int reg)1508*11efff7fSkettenis cris_dwarf2_reg_to_regnum (int reg)
1509b725ae77Skettenis {
1510*11efff7fSkettenis /* We need to re-map a couple of registers (SRP is 16 in Dwarf-2 register
1511*11efff7fSkettenis numbering, MOF is 18).
1512*11efff7fSkettenis Adapted from gcc/config/cris/cris.h. */
1513*11efff7fSkettenis static int cris_dwarf_regmap[] = {
1514*11efff7fSkettenis 0, 1, 2, 3,
1515*11efff7fSkettenis 4, 5, 6, 7,
1516*11efff7fSkettenis 8, 9, 10, 11,
1517*11efff7fSkettenis 12, 13, 14, 15,
1518*11efff7fSkettenis 27, -1, -1, -1,
1519*11efff7fSkettenis -1, -1, -1, 23,
1520*11efff7fSkettenis -1, -1, -1, 27,
1521*11efff7fSkettenis -1, -1, -1, -1
1522*11efff7fSkettenis };
1523*11efff7fSkettenis int regnum = -1;
1524*11efff7fSkettenis
1525*11efff7fSkettenis if (reg >= 0 && reg < ARRAY_SIZE (cris_dwarf_regmap))
1526*11efff7fSkettenis regnum = cris_dwarf_regmap[reg];
1527*11efff7fSkettenis
1528*11efff7fSkettenis if (regnum == -1)
1529*11efff7fSkettenis warning ("Unmapped DWARF Register #%d encountered\n", reg);
1530*11efff7fSkettenis
1531*11efff7fSkettenis return regnum;
1532*11efff7fSkettenis }
1533*11efff7fSkettenis
1534*11efff7fSkettenis /* DWARF-2 frame support. */
1535*11efff7fSkettenis
1536*11efff7fSkettenis static void
cris_dwarf2_frame_init_reg(struct gdbarch * gdbarch,int regnum,struct dwarf2_frame_state_reg * reg)1537*11efff7fSkettenis cris_dwarf2_frame_init_reg (struct gdbarch *gdbarch, int regnum,
1538*11efff7fSkettenis struct dwarf2_frame_state_reg *reg)
1539*11efff7fSkettenis {
1540*11efff7fSkettenis /* The return address column. */
1541*11efff7fSkettenis if (regnum == PC_REGNUM)
1542*11efff7fSkettenis reg->how = DWARF2_FRAME_REG_RA;
1543*11efff7fSkettenis
1544*11efff7fSkettenis /* The call frame address. */
1545*11efff7fSkettenis else if (regnum == SP_REGNUM)
1546*11efff7fSkettenis reg->how = DWARF2_FRAME_REG_CFA;
1547b725ae77Skettenis }
1548b725ae77Skettenis
1549b725ae77Skettenis /* Extract from an array regbuf containing the raw register state a function
1550b725ae77Skettenis return value of type type, and copy that, in virtual format, into
1551b725ae77Skettenis valbuf. */
1552b725ae77Skettenis
1553b725ae77Skettenis /* In the CRIS ABI, R10 and R11 are used to store return values. */
1554b725ae77Skettenis
1555b725ae77Skettenis static void
cris_extract_return_value(struct type * type,struct regcache * regcache,void * valbuf)1556b725ae77Skettenis cris_extract_return_value (struct type *type, struct regcache *regcache,
1557b725ae77Skettenis void *valbuf)
1558b725ae77Skettenis {
1559b725ae77Skettenis ULONGEST val;
1560b725ae77Skettenis int len = TYPE_LENGTH (type);
1561b725ae77Skettenis
1562b725ae77Skettenis if (len <= 4)
1563b725ae77Skettenis {
1564b725ae77Skettenis /* Get the return value from R10. */
1565b725ae77Skettenis regcache_cooked_read_unsigned (regcache, ARG1_REGNUM, &val);
1566b725ae77Skettenis store_unsigned_integer (valbuf, len, val);
1567b725ae77Skettenis }
1568b725ae77Skettenis else if (len <= 8)
1569b725ae77Skettenis {
1570b725ae77Skettenis /* Get the return value from R10 and R11. */
1571b725ae77Skettenis regcache_cooked_read_unsigned (regcache, ARG1_REGNUM, &val);
1572b725ae77Skettenis store_unsigned_integer (valbuf, 4, val);
1573b725ae77Skettenis regcache_cooked_read_unsigned (regcache, ARG2_REGNUM, &val);
1574b725ae77Skettenis store_unsigned_integer ((char *)valbuf + 4, len - 4, val);
1575b725ae77Skettenis }
1576b725ae77Skettenis else
1577b725ae77Skettenis error ("cris_extract_return_value: type length too large");
1578b725ae77Skettenis }
1579b725ae77Skettenis
1580b725ae77Skettenis /* Handle the CRIS return value convention. */
1581b725ae77Skettenis
1582b725ae77Skettenis static enum return_value_convention
cris_return_value(struct gdbarch * gdbarch,struct type * type,struct regcache * regcache,void * readbuf,const void * writebuf)1583b725ae77Skettenis cris_return_value (struct gdbarch *gdbarch, struct type *type,
1584b725ae77Skettenis struct regcache *regcache, void *readbuf,
1585b725ae77Skettenis const void *writebuf)
1586b725ae77Skettenis {
1587b725ae77Skettenis if (TYPE_CODE (type) == TYPE_CODE_STRUCT
1588b725ae77Skettenis || TYPE_CODE (type) == TYPE_CODE_UNION
1589b725ae77Skettenis || TYPE_LENGTH (type) > 8)
1590b725ae77Skettenis /* Structs, unions, and anything larger than 8 bytes (2 registers)
1591b725ae77Skettenis goes on the stack. */
1592b725ae77Skettenis return RETURN_VALUE_STRUCT_CONVENTION;
1593b725ae77Skettenis
1594b725ae77Skettenis if (readbuf)
1595b725ae77Skettenis cris_extract_return_value (type, regcache, readbuf);
1596b725ae77Skettenis if (writebuf)
1597b725ae77Skettenis cris_store_return_value (type, regcache, writebuf);
1598b725ae77Skettenis
1599b725ae77Skettenis return RETURN_VALUE_REGISTER_CONVENTION;
1600b725ae77Skettenis }
1601b725ae77Skettenis
1602b725ae77Skettenis /* Returns 1 if the given type will be passed by pointer rather than
1603b725ae77Skettenis directly. */
1604b725ae77Skettenis
1605b725ae77Skettenis /* In the CRIS ABI, arguments shorter than or equal to 64 bits are passed
1606b725ae77Skettenis by value. */
1607b725ae77Skettenis
1608b725ae77Skettenis static int
cris_reg_struct_has_addr(int gcc_p,struct type * type)1609b725ae77Skettenis cris_reg_struct_has_addr (int gcc_p, struct type *type)
1610b725ae77Skettenis {
1611b725ae77Skettenis return (TYPE_LENGTH (type) > 8);
1612b725ae77Skettenis }
1613b725ae77Skettenis
1614b725ae77Skettenis /* Calculates a value that measures how good inst_args constraints an
1615b725ae77Skettenis instruction. It stems from cris_constraint, found in cris-dis.c. */
1616b725ae77Skettenis
1617b725ae77Skettenis static int
constraint(unsigned int insn,const signed char * inst_args,inst_env_type * inst_env)1618b725ae77Skettenis constraint (unsigned int insn, const signed char *inst_args,
1619b725ae77Skettenis inst_env_type *inst_env)
1620b725ae77Skettenis {
1621b725ae77Skettenis int retval = 0;
1622b725ae77Skettenis int tmp, i;
1623b725ae77Skettenis
1624b725ae77Skettenis const char *s = inst_args;
1625b725ae77Skettenis
1626b725ae77Skettenis for (; *s; s++)
1627b725ae77Skettenis switch (*s)
1628b725ae77Skettenis {
1629b725ae77Skettenis case 'm':
1630b725ae77Skettenis if ((insn & 0x30) == 0x30)
1631b725ae77Skettenis return -1;
1632b725ae77Skettenis break;
1633b725ae77Skettenis
1634b725ae77Skettenis case 'S':
1635b725ae77Skettenis /* A prefix operand. */
1636b725ae77Skettenis if (inst_env->prefix_found)
1637b725ae77Skettenis break;
1638b725ae77Skettenis else
1639b725ae77Skettenis return -1;
1640b725ae77Skettenis
1641b725ae77Skettenis case 'B':
1642b725ae77Skettenis /* A "push" prefix. (This check was REMOVED by san 970921.) Check for
1643b725ae77Skettenis valid "push" size. In case of special register, it may be != 4. */
1644b725ae77Skettenis if (inst_env->prefix_found)
1645b725ae77Skettenis break;
1646b725ae77Skettenis else
1647b725ae77Skettenis return -1;
1648b725ae77Skettenis
1649b725ae77Skettenis case 'D':
1650b725ae77Skettenis retval = (((insn >> 0xC) & 0xF) == (insn & 0xF));
1651b725ae77Skettenis if (!retval)
1652b725ae77Skettenis return -1;
1653b725ae77Skettenis else
1654b725ae77Skettenis retval += 4;
1655b725ae77Skettenis break;
1656b725ae77Skettenis
1657b725ae77Skettenis case 'P':
1658b725ae77Skettenis tmp = (insn >> 0xC) & 0xF;
1659b725ae77Skettenis
1660b725ae77Skettenis for (i = 0; cris_spec_regs[i].name != NULL; i++)
1661b725ae77Skettenis {
1662b725ae77Skettenis /* Since we match four bits, we will give a value of
1663b725ae77Skettenis 4 - 1 = 3 in a match. If there is a corresponding
1664b725ae77Skettenis exact match of a special register in another pattern, it
1665b725ae77Skettenis will get a value of 4, which will be higher. This should
1666b725ae77Skettenis be correct in that an exact pattern would match better that
1667b725ae77Skettenis a general pattern.
1668b725ae77Skettenis Note that there is a reason for not returning zero; the
1669b725ae77Skettenis pattern for "clear" is partly matched in the bit-pattern
1670b725ae77Skettenis (the two lower bits must be zero), while the bit-pattern
1671b725ae77Skettenis for a move from a special register is matched in the
1672b725ae77Skettenis register constraint.
1673b725ae77Skettenis This also means we will will have a race condition if
1674b725ae77Skettenis there is a partly match in three bits in the bit pattern. */
1675b725ae77Skettenis if (tmp == cris_spec_regs[i].number)
1676b725ae77Skettenis {
1677b725ae77Skettenis retval += 3;
1678b725ae77Skettenis break;
1679b725ae77Skettenis }
1680b725ae77Skettenis }
1681b725ae77Skettenis
1682b725ae77Skettenis if (cris_spec_regs[i].name == NULL)
1683b725ae77Skettenis return -1;
1684b725ae77Skettenis break;
1685b725ae77Skettenis }
1686b725ae77Skettenis return retval;
1687b725ae77Skettenis }
1688b725ae77Skettenis
1689b725ae77Skettenis /* Returns the number of bits set in the variable value. */
1690b725ae77Skettenis
1691b725ae77Skettenis static int
number_of_bits(unsigned int value)1692b725ae77Skettenis number_of_bits (unsigned int value)
1693b725ae77Skettenis {
1694b725ae77Skettenis int number_of_bits = 0;
1695b725ae77Skettenis
1696b725ae77Skettenis while (value != 0)
1697b725ae77Skettenis {
1698b725ae77Skettenis number_of_bits += 1;
1699b725ae77Skettenis value &= (value - 1);
1700b725ae77Skettenis }
1701b725ae77Skettenis return number_of_bits;
1702b725ae77Skettenis }
1703b725ae77Skettenis
1704b725ae77Skettenis /* Finds the address that should contain the single step breakpoint(s).
1705b725ae77Skettenis It stems from code in cris-dis.c. */
1706b725ae77Skettenis
1707b725ae77Skettenis static int
find_cris_op(unsigned short insn,inst_env_type * inst_env)1708b725ae77Skettenis find_cris_op (unsigned short insn, inst_env_type *inst_env)
1709b725ae77Skettenis {
1710b725ae77Skettenis int i;
1711b725ae77Skettenis int max_level_of_match = -1;
1712b725ae77Skettenis int max_matched = -1;
1713b725ae77Skettenis int level_of_match;
1714b725ae77Skettenis
1715b725ae77Skettenis for (i = 0; cris_opcodes[i].name != NULL; i++)
1716b725ae77Skettenis {
1717b725ae77Skettenis if (((cris_opcodes[i].match & insn) == cris_opcodes[i].match)
1718b725ae77Skettenis && ((cris_opcodes[i].lose & insn) == 0))
1719b725ae77Skettenis {
1720b725ae77Skettenis level_of_match = constraint (insn, cris_opcodes[i].args, inst_env);
1721b725ae77Skettenis if (level_of_match >= 0)
1722b725ae77Skettenis {
1723b725ae77Skettenis level_of_match +=
1724b725ae77Skettenis number_of_bits (cris_opcodes[i].match | cris_opcodes[i].lose);
1725b725ae77Skettenis if (level_of_match > max_level_of_match)
1726b725ae77Skettenis {
1727b725ae77Skettenis max_matched = i;
1728b725ae77Skettenis max_level_of_match = level_of_match;
1729b725ae77Skettenis if (level_of_match == 16)
1730b725ae77Skettenis {
1731b725ae77Skettenis /* All bits matched, cannot find better. */
1732b725ae77Skettenis break;
1733b725ae77Skettenis }
1734b725ae77Skettenis }
1735b725ae77Skettenis }
1736b725ae77Skettenis }
1737b725ae77Skettenis }
1738b725ae77Skettenis return max_matched;
1739b725ae77Skettenis }
1740b725ae77Skettenis
1741b725ae77Skettenis /* Attempts to find single-step breakpoints. Returns -1 on failure which is
1742b725ae77Skettenis actually an internal error. */
1743b725ae77Skettenis
1744b725ae77Skettenis static int
find_step_target(inst_env_type * inst_env)1745b725ae77Skettenis find_step_target (inst_env_type *inst_env)
1746b725ae77Skettenis {
1747b725ae77Skettenis int i;
1748b725ae77Skettenis int offset;
1749b725ae77Skettenis unsigned short insn;
1750b725ae77Skettenis
1751b725ae77Skettenis /* Create a local register image and set the initial state. */
1752b725ae77Skettenis for (i = 0; i < NUM_GENREGS; i++)
1753b725ae77Skettenis {
1754b725ae77Skettenis inst_env->reg[i] = (unsigned long) read_register (i);
1755b725ae77Skettenis }
1756b725ae77Skettenis offset = NUM_GENREGS;
1757b725ae77Skettenis for (i = 0; i < NUM_SPECREGS; i++)
1758b725ae77Skettenis {
1759b725ae77Skettenis inst_env->preg[i] = (unsigned long) read_register (offset + i);
1760b725ae77Skettenis }
1761b725ae77Skettenis inst_env->branch_found = 0;
1762b725ae77Skettenis inst_env->slot_needed = 0;
1763b725ae77Skettenis inst_env->delay_slot_pc_active = 0;
1764b725ae77Skettenis inst_env->prefix_found = 0;
1765b725ae77Skettenis inst_env->invalid = 0;
1766b725ae77Skettenis inst_env->xflag_found = 0;
1767b725ae77Skettenis inst_env->disable_interrupt = 0;
1768b725ae77Skettenis
1769b725ae77Skettenis /* Look for a step target. */
1770b725ae77Skettenis do
1771b725ae77Skettenis {
1772b725ae77Skettenis /* Read an instruction from the client. */
1773b725ae77Skettenis insn = read_memory_unsigned_integer (inst_env->reg[PC_REGNUM], 2);
1774b725ae77Skettenis
1775b725ae77Skettenis /* If the instruction is not in a delay slot the new content of the
1776b725ae77Skettenis PC is [PC] + 2. If the instruction is in a delay slot it is not
1777b725ae77Skettenis that simple. Since a instruction in a delay slot cannot change
1778b725ae77Skettenis the content of the PC, it does not matter what value PC will have.
1779b725ae77Skettenis Just make sure it is a valid instruction. */
1780b725ae77Skettenis if (!inst_env->delay_slot_pc_active)
1781b725ae77Skettenis {
1782b725ae77Skettenis inst_env->reg[PC_REGNUM] += 2;
1783b725ae77Skettenis }
1784b725ae77Skettenis else
1785b725ae77Skettenis {
1786b725ae77Skettenis inst_env->delay_slot_pc_active = 0;
1787b725ae77Skettenis inst_env->reg[PC_REGNUM] = inst_env->delay_slot_pc;
1788b725ae77Skettenis }
1789b725ae77Skettenis /* Analyse the present instruction. */
1790b725ae77Skettenis i = find_cris_op (insn, inst_env);
1791b725ae77Skettenis if (i == -1)
1792b725ae77Skettenis {
1793b725ae77Skettenis inst_env->invalid = 1;
1794b725ae77Skettenis }
1795b725ae77Skettenis else
1796b725ae77Skettenis {
1797b725ae77Skettenis cris_gdb_func (cris_opcodes[i].op, insn, inst_env);
1798b725ae77Skettenis }
1799b725ae77Skettenis } while (!inst_env->invalid
1800b725ae77Skettenis && (inst_env->prefix_found || inst_env->xflag_found
1801b725ae77Skettenis || inst_env->slot_needed));
1802b725ae77Skettenis return i;
1803b725ae77Skettenis }
1804b725ae77Skettenis
1805b725ae77Skettenis /* There is no hardware single-step support. The function find_step_target
1806b725ae77Skettenis digs through the opcodes in order to find all possible targets.
1807b725ae77Skettenis Either one ordinary target or two targets for branches may be found. */
1808b725ae77Skettenis
1809b725ae77Skettenis static void
cris_software_single_step(enum target_signal ignore,int insert_breakpoints)1810b725ae77Skettenis cris_software_single_step (enum target_signal ignore, int insert_breakpoints)
1811b725ae77Skettenis {
1812b725ae77Skettenis inst_env_type inst_env;
1813b725ae77Skettenis
1814b725ae77Skettenis if (insert_breakpoints)
1815b725ae77Skettenis {
1816b725ae77Skettenis /* Analyse the present instruction environment and insert
1817b725ae77Skettenis breakpoints. */
1818b725ae77Skettenis int status = find_step_target (&inst_env);
1819b725ae77Skettenis if (status == -1)
1820b725ae77Skettenis {
1821b725ae77Skettenis /* Could not find a target. FIXME: Should do something. */
1822*11efff7fSkettenis warning ("cris_software_single_step: unable to find step target");
1823b725ae77Skettenis }
1824b725ae77Skettenis else
1825b725ae77Skettenis {
1826b725ae77Skettenis /* Insert at most two breakpoints. One for the next PC content
1827b725ae77Skettenis and possibly another one for a branch, jump, etc. */
1828b725ae77Skettenis next_pc = (CORE_ADDR) inst_env.reg[PC_REGNUM];
1829b725ae77Skettenis target_insert_breakpoint (next_pc, break_mem[0]);
1830b725ae77Skettenis if (inst_env.branch_found
1831b725ae77Skettenis && (CORE_ADDR) inst_env.branch_break_address != next_pc)
1832b725ae77Skettenis {
1833b725ae77Skettenis branch_target_address =
1834b725ae77Skettenis (CORE_ADDR) inst_env.branch_break_address;
1835b725ae77Skettenis target_insert_breakpoint (branch_target_address, break_mem[1]);
1836b725ae77Skettenis branch_break_inserted = 1;
1837b725ae77Skettenis }
1838b725ae77Skettenis }
1839b725ae77Skettenis }
1840b725ae77Skettenis else
1841b725ae77Skettenis {
1842b725ae77Skettenis /* Remove breakpoints. */
1843b725ae77Skettenis target_remove_breakpoint (next_pc, break_mem[0]);
1844b725ae77Skettenis if (branch_break_inserted)
1845b725ae77Skettenis {
1846b725ae77Skettenis target_remove_breakpoint (branch_target_address, break_mem[1]);
1847b725ae77Skettenis branch_break_inserted = 0;
1848b725ae77Skettenis }
1849b725ae77Skettenis }
1850b725ae77Skettenis }
1851b725ae77Skettenis
1852b725ae77Skettenis /* Calculates the prefix value for quick offset addressing mode. */
1853b725ae77Skettenis
1854b725ae77Skettenis static void
quick_mode_bdap_prefix(unsigned short inst,inst_env_type * inst_env)1855b725ae77Skettenis quick_mode_bdap_prefix (unsigned short inst, inst_env_type *inst_env)
1856b725ae77Skettenis {
1857b725ae77Skettenis /* It's invalid to be in a delay slot. You can't have a prefix to this
1858b725ae77Skettenis instruction (not 100% sure). */
1859b725ae77Skettenis if (inst_env->slot_needed || inst_env->prefix_found)
1860b725ae77Skettenis {
1861b725ae77Skettenis inst_env->invalid = 1;
1862b725ae77Skettenis return;
1863b725ae77Skettenis }
1864b725ae77Skettenis
1865b725ae77Skettenis inst_env->prefix_value = inst_env->reg[cris_get_operand2 (inst)];
1866b725ae77Skettenis inst_env->prefix_value += cris_get_bdap_quick_offset (inst);
1867b725ae77Skettenis
1868b725ae77Skettenis /* A prefix doesn't change the xflag_found. But the rest of the flags
1869b725ae77Skettenis need updating. */
1870b725ae77Skettenis inst_env->slot_needed = 0;
1871b725ae77Skettenis inst_env->prefix_found = 1;
1872b725ae77Skettenis }
1873b725ae77Skettenis
1874b725ae77Skettenis /* Updates the autoincrement register. The size of the increment is derived
1875b725ae77Skettenis from the size of the operation. The PC is always kept aligned on even
1876b725ae77Skettenis word addresses. */
1877b725ae77Skettenis
1878b725ae77Skettenis static void
process_autoincrement(int size,unsigned short inst,inst_env_type * inst_env)1879b725ae77Skettenis process_autoincrement (int size, unsigned short inst, inst_env_type *inst_env)
1880b725ae77Skettenis {
1881b725ae77Skettenis if (size == INST_BYTE_SIZE)
1882b725ae77Skettenis {
1883b725ae77Skettenis inst_env->reg[cris_get_operand1 (inst)] += 1;
1884b725ae77Skettenis
1885b725ae77Skettenis /* The PC must be word aligned, so increase the PC with one
1886b725ae77Skettenis word even if the size is byte. */
1887b725ae77Skettenis if (cris_get_operand1 (inst) == REG_PC)
1888b725ae77Skettenis {
1889b725ae77Skettenis inst_env->reg[REG_PC] += 1;
1890b725ae77Skettenis }
1891b725ae77Skettenis }
1892b725ae77Skettenis else if (size == INST_WORD_SIZE)
1893b725ae77Skettenis {
1894b725ae77Skettenis inst_env->reg[cris_get_operand1 (inst)] += 2;
1895b725ae77Skettenis }
1896b725ae77Skettenis else if (size == INST_DWORD_SIZE)
1897b725ae77Skettenis {
1898b725ae77Skettenis inst_env->reg[cris_get_operand1 (inst)] += 4;
1899b725ae77Skettenis }
1900b725ae77Skettenis else
1901b725ae77Skettenis {
1902b725ae77Skettenis /* Invalid size. */
1903b725ae77Skettenis inst_env->invalid = 1;
1904b725ae77Skettenis }
1905b725ae77Skettenis }
1906b725ae77Skettenis
1907b725ae77Skettenis /* Just a forward declaration. */
1908b725ae77Skettenis
1909b725ae77Skettenis static unsigned long get_data_from_address (unsigned short *inst,
1910b725ae77Skettenis CORE_ADDR address);
1911b725ae77Skettenis
1912b725ae77Skettenis /* Calculates the prefix value for the general case of offset addressing
1913b725ae77Skettenis mode. */
1914b725ae77Skettenis
1915b725ae77Skettenis static void
bdap_prefix(unsigned short inst,inst_env_type * inst_env)1916b725ae77Skettenis bdap_prefix (unsigned short inst, inst_env_type *inst_env)
1917b725ae77Skettenis {
1918b725ae77Skettenis
1919b725ae77Skettenis long offset;
1920b725ae77Skettenis
1921b725ae77Skettenis /* It's invalid to be in a delay slot. */
1922b725ae77Skettenis if (inst_env->slot_needed || inst_env->prefix_found)
1923b725ae77Skettenis {
1924b725ae77Skettenis inst_env->invalid = 1;
1925b725ae77Skettenis return;
1926b725ae77Skettenis }
1927b725ae77Skettenis
1928b725ae77Skettenis /* The calculation of prefix_value used to be after process_autoincrement,
1929b725ae77Skettenis but that fails for an instruction such as jsr [$r0+12] which is encoded
1930b725ae77Skettenis as 5f0d 0c00 30b9 when compiled with -fpic. Since PC is operand1 it
1931b725ae77Skettenis mustn't be incremented until we have read it and what it points at. */
1932b725ae77Skettenis inst_env->prefix_value = inst_env->reg[cris_get_operand2 (inst)];
1933b725ae77Skettenis
1934b725ae77Skettenis /* The offset is an indirection of the contents of the operand1 register. */
1935b725ae77Skettenis inst_env->prefix_value +=
1936b725ae77Skettenis get_data_from_address (&inst, inst_env->reg[cris_get_operand1 (inst)]);
1937b725ae77Skettenis
1938b725ae77Skettenis if (cris_get_mode (inst) == AUTOINC_MODE)
1939b725ae77Skettenis {
1940b725ae77Skettenis process_autoincrement (cris_get_size (inst), inst, inst_env);
1941b725ae77Skettenis }
1942b725ae77Skettenis
1943b725ae77Skettenis /* A prefix doesn't change the xflag_found. But the rest of the flags
1944b725ae77Skettenis need updating. */
1945b725ae77Skettenis inst_env->slot_needed = 0;
1946b725ae77Skettenis inst_env->prefix_found = 1;
1947b725ae77Skettenis }
1948b725ae77Skettenis
1949b725ae77Skettenis /* Calculates the prefix value for the index addressing mode. */
1950b725ae77Skettenis
1951b725ae77Skettenis static void
biap_prefix(unsigned short inst,inst_env_type * inst_env)1952b725ae77Skettenis biap_prefix (unsigned short inst, inst_env_type *inst_env)
1953b725ae77Skettenis {
1954b725ae77Skettenis /* It's invalid to be in a delay slot. I can't see that it's possible to
1955b725ae77Skettenis have a prefix to this instruction. So I will treat this as invalid. */
1956b725ae77Skettenis if (inst_env->slot_needed || inst_env->prefix_found)
1957b725ae77Skettenis {
1958b725ae77Skettenis inst_env->invalid = 1;
1959b725ae77Skettenis return;
1960b725ae77Skettenis }
1961b725ae77Skettenis
1962b725ae77Skettenis inst_env->prefix_value = inst_env->reg[cris_get_operand1 (inst)];
1963b725ae77Skettenis
1964b725ae77Skettenis /* The offset is the operand2 value shifted the size of the instruction
1965b725ae77Skettenis to the left. */
1966b725ae77Skettenis inst_env->prefix_value +=
1967b725ae77Skettenis inst_env->reg[cris_get_operand2 (inst)] << cris_get_size (inst);
1968b725ae77Skettenis
1969b725ae77Skettenis /* If the PC is operand1 (base) the address used is the address after
1970b725ae77Skettenis the main instruction, i.e. address + 2 (the PC is already compensated
1971b725ae77Skettenis for the prefix operation). */
1972b725ae77Skettenis if (cris_get_operand1 (inst) == REG_PC)
1973b725ae77Skettenis {
1974b725ae77Skettenis inst_env->prefix_value += 2;
1975b725ae77Skettenis }
1976b725ae77Skettenis
1977b725ae77Skettenis /* A prefix doesn't change the xflag_found. But the rest of the flags
1978b725ae77Skettenis need updating. */
1979b725ae77Skettenis inst_env->slot_needed = 0;
1980b725ae77Skettenis inst_env->xflag_found = 0;
1981b725ae77Skettenis inst_env->prefix_found = 1;
1982b725ae77Skettenis }
1983b725ae77Skettenis
1984b725ae77Skettenis /* Calculates the prefix value for the double indirect addressing mode. */
1985b725ae77Skettenis
1986b725ae77Skettenis static void
dip_prefix(unsigned short inst,inst_env_type * inst_env)1987b725ae77Skettenis dip_prefix (unsigned short inst, inst_env_type *inst_env)
1988b725ae77Skettenis {
1989b725ae77Skettenis
1990b725ae77Skettenis CORE_ADDR address;
1991b725ae77Skettenis
1992b725ae77Skettenis /* It's invalid to be in a delay slot. */
1993b725ae77Skettenis if (inst_env->slot_needed || inst_env->prefix_found)
1994b725ae77Skettenis {
1995b725ae77Skettenis inst_env->invalid = 1;
1996b725ae77Skettenis return;
1997b725ae77Skettenis }
1998b725ae77Skettenis
1999b725ae77Skettenis /* The prefix value is one dereference of the contents of the operand1
2000b725ae77Skettenis register. */
2001b725ae77Skettenis address = (CORE_ADDR) inst_env->reg[cris_get_operand1 (inst)];
2002b725ae77Skettenis inst_env->prefix_value = read_memory_unsigned_integer (address, 4);
2003b725ae77Skettenis
2004b725ae77Skettenis /* Check if the mode is autoincrement. */
2005b725ae77Skettenis if (cris_get_mode (inst) == AUTOINC_MODE)
2006b725ae77Skettenis {
2007b725ae77Skettenis inst_env->reg[cris_get_operand1 (inst)] += 4;
2008b725ae77Skettenis }
2009b725ae77Skettenis
2010b725ae77Skettenis /* A prefix doesn't change the xflag_found. But the rest of the flags
2011b725ae77Skettenis need updating. */
2012b725ae77Skettenis inst_env->slot_needed = 0;
2013b725ae77Skettenis inst_env->xflag_found = 0;
2014b725ae77Skettenis inst_env->prefix_found = 1;
2015b725ae77Skettenis }
2016b725ae77Skettenis
2017b725ae77Skettenis /* Finds the destination for a branch with 8-bits offset. */
2018b725ae77Skettenis
2019b725ae77Skettenis static void
eight_bit_offset_branch_op(unsigned short inst,inst_env_type * inst_env)2020b725ae77Skettenis eight_bit_offset_branch_op (unsigned short inst, inst_env_type *inst_env)
2021b725ae77Skettenis {
2022b725ae77Skettenis
2023b725ae77Skettenis short offset;
2024b725ae77Skettenis
2025b725ae77Skettenis /* If we have a prefix or are in a delay slot it's bad. */
2026b725ae77Skettenis if (inst_env->slot_needed || inst_env->prefix_found)
2027b725ae77Skettenis {
2028b725ae77Skettenis inst_env->invalid = 1;
2029b725ae77Skettenis return;
2030b725ae77Skettenis }
2031b725ae77Skettenis
2032b725ae77Skettenis /* We have a branch, find out where the branch will land. */
2033b725ae77Skettenis offset = cris_get_branch_short_offset (inst);
2034b725ae77Skettenis
2035b725ae77Skettenis /* Check if the offset is signed. */
2036b725ae77Skettenis if (offset & BRANCH_SIGNED_SHORT_OFFSET_MASK)
2037b725ae77Skettenis {
2038b725ae77Skettenis offset |= 0xFF00;
2039b725ae77Skettenis }
2040b725ae77Skettenis
2041b725ae77Skettenis /* The offset ends with the sign bit, set it to zero. The address
2042b725ae77Skettenis should always be word aligned. */
2043b725ae77Skettenis offset &= ~BRANCH_SIGNED_SHORT_OFFSET_MASK;
2044b725ae77Skettenis
2045b725ae77Skettenis inst_env->branch_found = 1;
2046b725ae77Skettenis inst_env->branch_break_address = inst_env->reg[REG_PC] + offset;
2047b725ae77Skettenis
2048b725ae77Skettenis inst_env->slot_needed = 1;
2049b725ae77Skettenis inst_env->prefix_found = 0;
2050b725ae77Skettenis inst_env->xflag_found = 0;
2051b725ae77Skettenis inst_env->disable_interrupt = 1;
2052b725ae77Skettenis }
2053b725ae77Skettenis
2054b725ae77Skettenis /* Finds the destination for a branch with 16-bits offset. */
2055b725ae77Skettenis
2056b725ae77Skettenis static void
sixteen_bit_offset_branch_op(unsigned short inst,inst_env_type * inst_env)2057b725ae77Skettenis sixteen_bit_offset_branch_op (unsigned short inst, inst_env_type *inst_env)
2058b725ae77Skettenis {
2059b725ae77Skettenis short offset;
2060b725ae77Skettenis
2061b725ae77Skettenis /* If we have a prefix or is in a delay slot it's bad. */
2062b725ae77Skettenis if (inst_env->slot_needed || inst_env->prefix_found)
2063b725ae77Skettenis {
2064b725ae77Skettenis inst_env->invalid = 1;
2065b725ae77Skettenis return;
2066b725ae77Skettenis }
2067b725ae77Skettenis
2068b725ae77Skettenis /* We have a branch, find out the offset for the branch. */
2069b725ae77Skettenis offset = read_memory_integer (inst_env->reg[REG_PC], 2);
2070b725ae77Skettenis
2071b725ae77Skettenis /* The instruction is one word longer than normal, so add one word
2072b725ae77Skettenis to the PC. */
2073b725ae77Skettenis inst_env->reg[REG_PC] += 2;
2074b725ae77Skettenis
2075b725ae77Skettenis inst_env->branch_found = 1;
2076b725ae77Skettenis inst_env->branch_break_address = inst_env->reg[REG_PC] + offset;
2077b725ae77Skettenis
2078b725ae77Skettenis
2079b725ae77Skettenis inst_env->slot_needed = 1;
2080b725ae77Skettenis inst_env->prefix_found = 0;
2081b725ae77Skettenis inst_env->xflag_found = 0;
2082b725ae77Skettenis inst_env->disable_interrupt = 1;
2083b725ae77Skettenis }
2084b725ae77Skettenis
2085b725ae77Skettenis /* Handles the ABS instruction. */
2086b725ae77Skettenis
2087b725ae77Skettenis static void
abs_op(unsigned short inst,inst_env_type * inst_env)2088b725ae77Skettenis abs_op (unsigned short inst, inst_env_type *inst_env)
2089b725ae77Skettenis {
2090b725ae77Skettenis
2091b725ae77Skettenis long value;
2092b725ae77Skettenis
2093b725ae77Skettenis /* ABS can't have a prefix, so it's bad if it does. */
2094b725ae77Skettenis if (inst_env->prefix_found)
2095b725ae77Skettenis {
2096b725ae77Skettenis inst_env->invalid = 1;
2097b725ae77Skettenis return;
2098b725ae77Skettenis }
2099b725ae77Skettenis
2100b725ae77Skettenis /* Check if the operation affects the PC. */
2101b725ae77Skettenis if (cris_get_operand2 (inst) == REG_PC)
2102b725ae77Skettenis {
2103b725ae77Skettenis
2104b725ae77Skettenis /* It's invalid to change to the PC if we are in a delay slot. */
2105b725ae77Skettenis if (inst_env->slot_needed)
2106b725ae77Skettenis {
2107b725ae77Skettenis inst_env->invalid = 1;
2108b725ae77Skettenis return;
2109b725ae77Skettenis }
2110b725ae77Skettenis
2111b725ae77Skettenis value = (long) inst_env->reg[REG_PC];
2112b725ae77Skettenis
2113b725ae77Skettenis /* The value of abs (SIGNED_DWORD_MASK) is SIGNED_DWORD_MASK. */
2114b725ae77Skettenis if (value != SIGNED_DWORD_MASK)
2115b725ae77Skettenis {
2116b725ae77Skettenis value = -value;
2117b725ae77Skettenis inst_env->reg[REG_PC] = (long) value;
2118b725ae77Skettenis }
2119b725ae77Skettenis }
2120b725ae77Skettenis
2121b725ae77Skettenis inst_env->slot_needed = 0;
2122b725ae77Skettenis inst_env->prefix_found = 0;
2123b725ae77Skettenis inst_env->xflag_found = 0;
2124b725ae77Skettenis inst_env->disable_interrupt = 0;
2125b725ae77Skettenis }
2126b725ae77Skettenis
2127b725ae77Skettenis /* Handles the ADDI instruction. */
2128b725ae77Skettenis
2129b725ae77Skettenis static void
addi_op(unsigned short inst,inst_env_type * inst_env)2130b725ae77Skettenis addi_op (unsigned short inst, inst_env_type *inst_env)
2131b725ae77Skettenis {
2132b725ae77Skettenis /* It's invalid to have the PC as base register. And ADDI can't have
2133b725ae77Skettenis a prefix. */
2134b725ae77Skettenis if (inst_env->prefix_found || (cris_get_operand1 (inst) == REG_PC))
2135b725ae77Skettenis {
2136b725ae77Skettenis inst_env->invalid = 1;
2137b725ae77Skettenis return;
2138b725ae77Skettenis }
2139b725ae77Skettenis
2140b725ae77Skettenis inst_env->slot_needed = 0;
2141b725ae77Skettenis inst_env->prefix_found = 0;
2142b725ae77Skettenis inst_env->xflag_found = 0;
2143b725ae77Skettenis inst_env->disable_interrupt = 0;
2144b725ae77Skettenis }
2145b725ae77Skettenis
2146b725ae77Skettenis /* Handles the ASR instruction. */
2147b725ae77Skettenis
2148b725ae77Skettenis static void
asr_op(unsigned short inst,inst_env_type * inst_env)2149b725ae77Skettenis asr_op (unsigned short inst, inst_env_type *inst_env)
2150b725ae77Skettenis {
2151b725ae77Skettenis int shift_steps;
2152b725ae77Skettenis unsigned long value;
2153b725ae77Skettenis unsigned long signed_extend_mask = 0;
2154b725ae77Skettenis
2155b725ae77Skettenis /* ASR can't have a prefix, so check that it doesn't. */
2156b725ae77Skettenis if (inst_env->prefix_found)
2157b725ae77Skettenis {
2158b725ae77Skettenis inst_env->invalid = 1;
2159b725ae77Skettenis return;
2160b725ae77Skettenis }
2161b725ae77Skettenis
2162b725ae77Skettenis /* Check if the PC is the target register. */
2163b725ae77Skettenis if (cris_get_operand2 (inst) == REG_PC)
2164b725ae77Skettenis {
2165b725ae77Skettenis /* It's invalid to change the PC in a delay slot. */
2166b725ae77Skettenis if (inst_env->slot_needed)
2167b725ae77Skettenis {
2168b725ae77Skettenis inst_env->invalid = 1;
2169b725ae77Skettenis return;
2170b725ae77Skettenis }
2171b725ae77Skettenis /* Get the number of bits to shift. */
2172b725ae77Skettenis shift_steps = cris_get_asr_shift_steps (inst_env->reg[cris_get_operand1 (inst)]);
2173b725ae77Skettenis value = inst_env->reg[REG_PC];
2174b725ae77Skettenis
2175b725ae77Skettenis /* Find out how many bits the operation should apply to. */
2176b725ae77Skettenis if (cris_get_size (inst) == INST_BYTE_SIZE)
2177b725ae77Skettenis {
2178b725ae77Skettenis if (value & SIGNED_BYTE_MASK)
2179b725ae77Skettenis {
2180b725ae77Skettenis signed_extend_mask = 0xFF;
2181b725ae77Skettenis signed_extend_mask = signed_extend_mask >> shift_steps;
2182b725ae77Skettenis signed_extend_mask = ~signed_extend_mask;
2183b725ae77Skettenis }
2184b725ae77Skettenis value = value >> shift_steps;
2185b725ae77Skettenis value |= signed_extend_mask;
2186b725ae77Skettenis value &= 0xFF;
2187b725ae77Skettenis inst_env->reg[REG_PC] &= 0xFFFFFF00;
2188b725ae77Skettenis inst_env->reg[REG_PC] |= value;
2189b725ae77Skettenis }
2190b725ae77Skettenis else if (cris_get_size (inst) == INST_WORD_SIZE)
2191b725ae77Skettenis {
2192b725ae77Skettenis if (value & SIGNED_WORD_MASK)
2193b725ae77Skettenis {
2194b725ae77Skettenis signed_extend_mask = 0xFFFF;
2195b725ae77Skettenis signed_extend_mask = signed_extend_mask >> shift_steps;
2196b725ae77Skettenis signed_extend_mask = ~signed_extend_mask;
2197b725ae77Skettenis }
2198b725ae77Skettenis value = value >> shift_steps;
2199b725ae77Skettenis value |= signed_extend_mask;
2200b725ae77Skettenis value &= 0xFFFF;
2201b725ae77Skettenis inst_env->reg[REG_PC] &= 0xFFFF0000;
2202b725ae77Skettenis inst_env->reg[REG_PC] |= value;
2203b725ae77Skettenis }
2204b725ae77Skettenis else if (cris_get_size (inst) == INST_DWORD_SIZE)
2205b725ae77Skettenis {
2206b725ae77Skettenis if (value & SIGNED_DWORD_MASK)
2207b725ae77Skettenis {
2208b725ae77Skettenis signed_extend_mask = 0xFFFFFFFF;
2209b725ae77Skettenis signed_extend_mask = signed_extend_mask >> shift_steps;
2210b725ae77Skettenis signed_extend_mask = ~signed_extend_mask;
2211b725ae77Skettenis }
2212b725ae77Skettenis value = value >> shift_steps;
2213b725ae77Skettenis value |= signed_extend_mask;
2214b725ae77Skettenis inst_env->reg[REG_PC] = value;
2215b725ae77Skettenis }
2216b725ae77Skettenis }
2217b725ae77Skettenis inst_env->slot_needed = 0;
2218b725ae77Skettenis inst_env->prefix_found = 0;
2219b725ae77Skettenis inst_env->xflag_found = 0;
2220b725ae77Skettenis inst_env->disable_interrupt = 0;
2221b725ae77Skettenis }
2222b725ae77Skettenis
2223b725ae77Skettenis /* Handles the ASRQ instruction. */
2224b725ae77Skettenis
2225b725ae77Skettenis static void
asrq_op(unsigned short inst,inst_env_type * inst_env)2226b725ae77Skettenis asrq_op (unsigned short inst, inst_env_type *inst_env)
2227b725ae77Skettenis {
2228b725ae77Skettenis
2229b725ae77Skettenis int shift_steps;
2230b725ae77Skettenis unsigned long value;
2231b725ae77Skettenis unsigned long signed_extend_mask = 0;
2232b725ae77Skettenis
2233b725ae77Skettenis /* ASRQ can't have a prefix, so check that it doesn't. */
2234b725ae77Skettenis if (inst_env->prefix_found)
2235b725ae77Skettenis {
2236b725ae77Skettenis inst_env->invalid = 1;
2237b725ae77Skettenis return;
2238b725ae77Skettenis }
2239b725ae77Skettenis
2240b725ae77Skettenis /* Check if the PC is the target register. */
2241b725ae77Skettenis if (cris_get_operand2 (inst) == REG_PC)
2242b725ae77Skettenis {
2243b725ae77Skettenis
2244b725ae77Skettenis /* It's invalid to change the PC in a delay slot. */
2245b725ae77Skettenis if (inst_env->slot_needed)
2246b725ae77Skettenis {
2247b725ae77Skettenis inst_env->invalid = 1;
2248b725ae77Skettenis return;
2249b725ae77Skettenis }
2250b725ae77Skettenis /* The shift size is given as a 5 bit quick value, i.e. we don't
2251b725ae77Skettenis want the the sign bit of the quick value. */
2252b725ae77Skettenis shift_steps = cris_get_asr_shift_steps (inst);
2253b725ae77Skettenis value = inst_env->reg[REG_PC];
2254b725ae77Skettenis if (value & SIGNED_DWORD_MASK)
2255b725ae77Skettenis {
2256b725ae77Skettenis signed_extend_mask = 0xFFFFFFFF;
2257b725ae77Skettenis signed_extend_mask = signed_extend_mask >> shift_steps;
2258b725ae77Skettenis signed_extend_mask = ~signed_extend_mask;
2259b725ae77Skettenis }
2260b725ae77Skettenis value = value >> shift_steps;
2261b725ae77Skettenis value |= signed_extend_mask;
2262b725ae77Skettenis inst_env->reg[REG_PC] = value;
2263b725ae77Skettenis }
2264b725ae77Skettenis inst_env->slot_needed = 0;
2265b725ae77Skettenis inst_env->prefix_found = 0;
2266b725ae77Skettenis inst_env->xflag_found = 0;
2267b725ae77Skettenis inst_env->disable_interrupt = 0;
2268b725ae77Skettenis }
2269b725ae77Skettenis
2270b725ae77Skettenis /* Handles the AX, EI and SETF instruction. */
2271b725ae77Skettenis
2272b725ae77Skettenis static void
ax_ei_setf_op(unsigned short inst,inst_env_type * inst_env)2273b725ae77Skettenis ax_ei_setf_op (unsigned short inst, inst_env_type *inst_env)
2274b725ae77Skettenis {
2275b725ae77Skettenis if (inst_env->prefix_found)
2276b725ae77Skettenis {
2277b725ae77Skettenis inst_env->invalid = 1;
2278b725ae77Skettenis return;
2279b725ae77Skettenis }
2280b725ae77Skettenis /* Check if the instruction is setting the X flag. */
2281b725ae77Skettenis if (cris_is_xflag_bit_on (inst))
2282b725ae77Skettenis {
2283b725ae77Skettenis inst_env->xflag_found = 1;
2284b725ae77Skettenis }
2285b725ae77Skettenis else
2286b725ae77Skettenis {
2287b725ae77Skettenis inst_env->xflag_found = 0;
2288b725ae77Skettenis }
2289b725ae77Skettenis inst_env->slot_needed = 0;
2290b725ae77Skettenis inst_env->prefix_found = 0;
2291b725ae77Skettenis inst_env->disable_interrupt = 1;
2292b725ae77Skettenis }
2293b725ae77Skettenis
2294b725ae77Skettenis /* Checks if the instruction is in assign mode. If so, it updates the assign
2295b725ae77Skettenis register. Note that check_assign assumes that the caller has checked that
2296b725ae77Skettenis there is a prefix to this instruction. The mode check depends on this. */
2297b725ae77Skettenis
2298b725ae77Skettenis static void
check_assign(unsigned short inst,inst_env_type * inst_env)2299b725ae77Skettenis check_assign (unsigned short inst, inst_env_type *inst_env)
2300b725ae77Skettenis {
2301b725ae77Skettenis /* Check if it's an assign addressing mode. */
2302b725ae77Skettenis if (cris_get_mode (inst) == PREFIX_ASSIGN_MODE)
2303b725ae77Skettenis {
2304b725ae77Skettenis /* Assign the prefix value to operand 1. */
2305b725ae77Skettenis inst_env->reg[cris_get_operand1 (inst)] = inst_env->prefix_value;
2306b725ae77Skettenis }
2307b725ae77Skettenis }
2308b725ae77Skettenis
2309b725ae77Skettenis /* Handles the 2-operand BOUND instruction. */
2310b725ae77Skettenis
2311b725ae77Skettenis static void
two_operand_bound_op(unsigned short inst,inst_env_type * inst_env)2312b725ae77Skettenis two_operand_bound_op (unsigned short inst, inst_env_type *inst_env)
2313b725ae77Skettenis {
2314b725ae77Skettenis /* It's invalid to have the PC as the index operand. */
2315b725ae77Skettenis if (cris_get_operand2 (inst) == REG_PC)
2316b725ae77Skettenis {
2317b725ae77Skettenis inst_env->invalid = 1;
2318b725ae77Skettenis return;
2319b725ae77Skettenis }
2320b725ae77Skettenis /* Check if we have a prefix. */
2321b725ae77Skettenis if (inst_env->prefix_found)
2322b725ae77Skettenis {
2323b725ae77Skettenis check_assign (inst, inst_env);
2324b725ae77Skettenis }
2325b725ae77Skettenis /* Check if this is an autoincrement mode. */
2326b725ae77Skettenis else if (cris_get_mode (inst) == AUTOINC_MODE)
2327b725ae77Skettenis {
2328b725ae77Skettenis /* It's invalid to change the PC in a delay slot. */
2329b725ae77Skettenis if (inst_env->slot_needed)
2330b725ae77Skettenis {
2331b725ae77Skettenis inst_env->invalid = 1;
2332b725ae77Skettenis return;
2333b725ae77Skettenis }
2334b725ae77Skettenis process_autoincrement (cris_get_size (inst), inst, inst_env);
2335b725ae77Skettenis }
2336b725ae77Skettenis inst_env->slot_needed = 0;
2337b725ae77Skettenis inst_env->prefix_found = 0;
2338b725ae77Skettenis inst_env->xflag_found = 0;
2339b725ae77Skettenis inst_env->disable_interrupt = 0;
2340b725ae77Skettenis }
2341b725ae77Skettenis
2342b725ae77Skettenis /* Handles the 3-operand BOUND instruction. */
2343b725ae77Skettenis
2344b725ae77Skettenis static void
three_operand_bound_op(unsigned short inst,inst_env_type * inst_env)2345b725ae77Skettenis three_operand_bound_op (unsigned short inst, inst_env_type *inst_env)
2346b725ae77Skettenis {
2347b725ae77Skettenis /* It's an error if we haven't got a prefix. And it's also an error
2348b725ae77Skettenis if the PC is the destination register. */
2349b725ae77Skettenis if ((!inst_env->prefix_found) || (cris_get_operand1 (inst) == REG_PC))
2350b725ae77Skettenis {
2351b725ae77Skettenis inst_env->invalid = 1;
2352b725ae77Skettenis return;
2353b725ae77Skettenis }
2354b725ae77Skettenis inst_env->slot_needed = 0;
2355b725ae77Skettenis inst_env->prefix_found = 0;
2356b725ae77Skettenis inst_env->xflag_found = 0;
2357b725ae77Skettenis inst_env->disable_interrupt = 0;
2358b725ae77Skettenis }
2359b725ae77Skettenis
2360b725ae77Skettenis /* Clears the status flags in inst_env. */
2361b725ae77Skettenis
2362b725ae77Skettenis static void
btst_nop_op(unsigned short inst,inst_env_type * inst_env)2363b725ae77Skettenis btst_nop_op (unsigned short inst, inst_env_type *inst_env)
2364b725ae77Skettenis {
2365b725ae77Skettenis /* It's an error if we have got a prefix. */
2366b725ae77Skettenis if (inst_env->prefix_found)
2367b725ae77Skettenis {
2368b725ae77Skettenis inst_env->invalid = 1;
2369b725ae77Skettenis return;
2370b725ae77Skettenis }
2371b725ae77Skettenis
2372b725ae77Skettenis inst_env->slot_needed = 0;
2373b725ae77Skettenis inst_env->prefix_found = 0;
2374b725ae77Skettenis inst_env->xflag_found = 0;
2375b725ae77Skettenis inst_env->disable_interrupt = 0;
2376b725ae77Skettenis }
2377b725ae77Skettenis
2378b725ae77Skettenis /* Clears the status flags in inst_env. */
2379b725ae77Skettenis
2380b725ae77Skettenis static void
clearf_di_op(unsigned short inst,inst_env_type * inst_env)2381b725ae77Skettenis clearf_di_op (unsigned short inst, inst_env_type *inst_env)
2382b725ae77Skettenis {
2383b725ae77Skettenis /* It's an error if we have got a prefix. */
2384b725ae77Skettenis if (inst_env->prefix_found)
2385b725ae77Skettenis {
2386b725ae77Skettenis inst_env->invalid = 1;
2387b725ae77Skettenis return;
2388b725ae77Skettenis }
2389b725ae77Skettenis
2390b725ae77Skettenis inst_env->slot_needed = 0;
2391b725ae77Skettenis inst_env->prefix_found = 0;
2392b725ae77Skettenis inst_env->xflag_found = 0;
2393b725ae77Skettenis inst_env->disable_interrupt = 1;
2394b725ae77Skettenis }
2395b725ae77Skettenis
2396b725ae77Skettenis /* Handles the CLEAR instruction if it's in register mode. */
2397b725ae77Skettenis
2398b725ae77Skettenis static void
reg_mode_clear_op(unsigned short inst,inst_env_type * inst_env)2399b725ae77Skettenis reg_mode_clear_op (unsigned short inst, inst_env_type *inst_env)
2400b725ae77Skettenis {
2401b725ae77Skettenis /* Check if the target is the PC. */
2402b725ae77Skettenis if (cris_get_operand2 (inst) == REG_PC)
2403b725ae77Skettenis {
2404b725ae77Skettenis /* The instruction will clear the instruction's size bits. */
2405b725ae77Skettenis int clear_size = cris_get_clear_size (inst);
2406b725ae77Skettenis if (clear_size == INST_BYTE_SIZE)
2407b725ae77Skettenis {
2408b725ae77Skettenis inst_env->delay_slot_pc = inst_env->reg[REG_PC] & 0xFFFFFF00;
2409b725ae77Skettenis }
2410b725ae77Skettenis if (clear_size == INST_WORD_SIZE)
2411b725ae77Skettenis {
2412b725ae77Skettenis inst_env->delay_slot_pc = inst_env->reg[REG_PC] & 0xFFFF0000;
2413b725ae77Skettenis }
2414b725ae77Skettenis if (clear_size == INST_DWORD_SIZE)
2415b725ae77Skettenis {
2416b725ae77Skettenis inst_env->delay_slot_pc = 0x0;
2417b725ae77Skettenis }
2418b725ae77Skettenis /* The jump will be delayed with one delay slot. So we need a delay
2419b725ae77Skettenis slot. */
2420b725ae77Skettenis inst_env->slot_needed = 1;
2421b725ae77Skettenis inst_env->delay_slot_pc_active = 1;
2422b725ae77Skettenis }
2423b725ae77Skettenis else
2424b725ae77Skettenis {
2425b725ae77Skettenis /* The PC will not change => no delay slot. */
2426b725ae77Skettenis inst_env->slot_needed = 0;
2427b725ae77Skettenis }
2428b725ae77Skettenis inst_env->prefix_found = 0;
2429b725ae77Skettenis inst_env->xflag_found = 0;
2430b725ae77Skettenis inst_env->disable_interrupt = 0;
2431b725ae77Skettenis }
2432b725ae77Skettenis
2433b725ae77Skettenis /* Handles the TEST instruction if it's in register mode. */
2434b725ae77Skettenis
2435b725ae77Skettenis static void
reg_mode_test_op(unsigned short inst,inst_env_type * inst_env)2436b725ae77Skettenis reg_mode_test_op (unsigned short inst, inst_env_type *inst_env)
2437b725ae77Skettenis {
2438b725ae77Skettenis /* It's an error if we have got a prefix. */
2439b725ae77Skettenis if (inst_env->prefix_found)
2440b725ae77Skettenis {
2441b725ae77Skettenis inst_env->invalid = 1;
2442b725ae77Skettenis return;
2443b725ae77Skettenis }
2444b725ae77Skettenis inst_env->slot_needed = 0;
2445b725ae77Skettenis inst_env->prefix_found = 0;
2446b725ae77Skettenis inst_env->xflag_found = 0;
2447b725ae77Skettenis inst_env->disable_interrupt = 0;
2448b725ae77Skettenis
2449b725ae77Skettenis }
2450b725ae77Skettenis
2451b725ae77Skettenis /* Handles the CLEAR and TEST instruction if the instruction isn't
2452b725ae77Skettenis in register mode. */
2453b725ae77Skettenis
2454b725ae77Skettenis static void
none_reg_mode_clear_test_op(unsigned short inst,inst_env_type * inst_env)2455b725ae77Skettenis none_reg_mode_clear_test_op (unsigned short inst, inst_env_type *inst_env)
2456b725ae77Skettenis {
2457b725ae77Skettenis /* Check if we are in a prefix mode. */
2458b725ae77Skettenis if (inst_env->prefix_found)
2459b725ae77Skettenis {
2460b725ae77Skettenis /* The only way the PC can change is if this instruction is in
2461b725ae77Skettenis assign addressing mode. */
2462b725ae77Skettenis check_assign (inst, inst_env);
2463b725ae77Skettenis }
2464b725ae77Skettenis /* Indirect mode can't change the PC so just check if the mode is
2465b725ae77Skettenis autoincrement. */
2466b725ae77Skettenis else if (cris_get_mode (inst) == AUTOINC_MODE)
2467b725ae77Skettenis {
2468b725ae77Skettenis process_autoincrement (cris_get_size (inst), inst, inst_env);
2469b725ae77Skettenis }
2470b725ae77Skettenis inst_env->slot_needed = 0;
2471b725ae77Skettenis inst_env->prefix_found = 0;
2472b725ae77Skettenis inst_env->xflag_found = 0;
2473b725ae77Skettenis inst_env->disable_interrupt = 0;
2474b725ae77Skettenis }
2475b725ae77Skettenis
2476b725ae77Skettenis /* Checks that the PC isn't the destination register or the instructions has
2477b725ae77Skettenis a prefix. */
2478b725ae77Skettenis
2479b725ae77Skettenis static void
dstep_logshift_mstep_neg_not_op(unsigned short inst,inst_env_type * inst_env)2480b725ae77Skettenis dstep_logshift_mstep_neg_not_op (unsigned short inst, inst_env_type *inst_env)
2481b725ae77Skettenis {
2482b725ae77Skettenis /* It's invalid to have the PC as the destination. The instruction can't
2483b725ae77Skettenis have a prefix. */
2484b725ae77Skettenis if ((cris_get_operand2 (inst) == REG_PC) || inst_env->prefix_found)
2485b725ae77Skettenis {
2486b725ae77Skettenis inst_env->invalid = 1;
2487b725ae77Skettenis return;
2488b725ae77Skettenis }
2489b725ae77Skettenis
2490b725ae77Skettenis inst_env->slot_needed = 0;
2491b725ae77Skettenis inst_env->prefix_found = 0;
2492b725ae77Skettenis inst_env->xflag_found = 0;
2493b725ae77Skettenis inst_env->disable_interrupt = 0;
2494b725ae77Skettenis }
2495b725ae77Skettenis
2496b725ae77Skettenis /* Checks that the instruction doesn't have a prefix. */
2497b725ae77Skettenis
2498b725ae77Skettenis static void
break_op(unsigned short inst,inst_env_type * inst_env)2499b725ae77Skettenis break_op (unsigned short inst, inst_env_type *inst_env)
2500b725ae77Skettenis {
2501b725ae77Skettenis /* The instruction can't have a prefix. */
2502b725ae77Skettenis if (inst_env->prefix_found)
2503b725ae77Skettenis {
2504b725ae77Skettenis inst_env->invalid = 1;
2505b725ae77Skettenis return;
2506b725ae77Skettenis }
2507b725ae77Skettenis
2508b725ae77Skettenis inst_env->slot_needed = 0;
2509b725ae77Skettenis inst_env->prefix_found = 0;
2510b725ae77Skettenis inst_env->xflag_found = 0;
2511b725ae77Skettenis inst_env->disable_interrupt = 1;
2512b725ae77Skettenis }
2513b725ae77Skettenis
2514b725ae77Skettenis /* Checks that the PC isn't the destination register and that the instruction
2515b725ae77Skettenis doesn't have a prefix. */
2516b725ae77Skettenis
2517b725ae77Skettenis static void
scc_op(unsigned short inst,inst_env_type * inst_env)2518b725ae77Skettenis scc_op (unsigned short inst, inst_env_type *inst_env)
2519b725ae77Skettenis {
2520b725ae77Skettenis /* It's invalid to have the PC as the destination. The instruction can't
2521b725ae77Skettenis have a prefix. */
2522b725ae77Skettenis if ((cris_get_operand2 (inst) == REG_PC) || inst_env->prefix_found)
2523b725ae77Skettenis {
2524b725ae77Skettenis inst_env->invalid = 1;
2525b725ae77Skettenis return;
2526b725ae77Skettenis }
2527b725ae77Skettenis
2528b725ae77Skettenis inst_env->slot_needed = 0;
2529b725ae77Skettenis inst_env->prefix_found = 0;
2530b725ae77Skettenis inst_env->xflag_found = 0;
2531b725ae77Skettenis inst_env->disable_interrupt = 1;
2532b725ae77Skettenis }
2533b725ae77Skettenis
2534b725ae77Skettenis /* Handles the register mode JUMP instruction. */
2535b725ae77Skettenis
2536b725ae77Skettenis static void
reg_mode_jump_op(unsigned short inst,inst_env_type * inst_env)2537b725ae77Skettenis reg_mode_jump_op (unsigned short inst, inst_env_type *inst_env)
2538b725ae77Skettenis {
2539b725ae77Skettenis /* It's invalid to do a JUMP in a delay slot. The mode is register, so
2540b725ae77Skettenis you can't have a prefix. */
2541b725ae77Skettenis if ((inst_env->slot_needed) || (inst_env->prefix_found))
2542b725ae77Skettenis {
2543b725ae77Skettenis inst_env->invalid = 1;
2544b725ae77Skettenis return;
2545b725ae77Skettenis }
2546b725ae77Skettenis
2547b725ae77Skettenis /* Just change the PC. */
2548b725ae77Skettenis inst_env->reg[REG_PC] = inst_env->reg[cris_get_operand1 (inst)];
2549b725ae77Skettenis inst_env->slot_needed = 0;
2550b725ae77Skettenis inst_env->prefix_found = 0;
2551b725ae77Skettenis inst_env->xflag_found = 0;
2552b725ae77Skettenis inst_env->disable_interrupt = 1;
2553b725ae77Skettenis }
2554b725ae77Skettenis
2555b725ae77Skettenis /* Handles the JUMP instruction for all modes except register. */
2556b725ae77Skettenis
2557b725ae77Skettenis static void
none_reg_mode_jump_op(unsigned short inst,inst_env_type * inst_env)2558b725ae77Skettenis none_reg_mode_jump_op (unsigned short inst, inst_env_type *inst_env)
2559b725ae77Skettenis {
2560b725ae77Skettenis unsigned long newpc;
2561b725ae77Skettenis CORE_ADDR address;
2562b725ae77Skettenis
2563b725ae77Skettenis /* It's invalid to do a JUMP in a delay slot. */
2564b725ae77Skettenis if (inst_env->slot_needed)
2565b725ae77Skettenis {
2566b725ae77Skettenis inst_env->invalid = 1;
2567b725ae77Skettenis }
2568b725ae77Skettenis else
2569b725ae77Skettenis {
2570b725ae77Skettenis /* Check if we have a prefix. */
2571b725ae77Skettenis if (inst_env->prefix_found)
2572b725ae77Skettenis {
2573b725ae77Skettenis check_assign (inst, inst_env);
2574b725ae77Skettenis
2575b725ae77Skettenis /* Get the new value for the the PC. */
2576b725ae77Skettenis newpc =
2577b725ae77Skettenis read_memory_unsigned_integer ((CORE_ADDR) inst_env->prefix_value,
2578b725ae77Skettenis 4);
2579b725ae77Skettenis }
2580b725ae77Skettenis else
2581b725ae77Skettenis {
2582b725ae77Skettenis /* Get the new value for the PC. */
2583b725ae77Skettenis address = (CORE_ADDR) inst_env->reg[cris_get_operand1 (inst)];
2584b725ae77Skettenis newpc = read_memory_unsigned_integer (address, 4);
2585b725ae77Skettenis
2586b725ae77Skettenis /* Check if we should increment a register. */
2587b725ae77Skettenis if (cris_get_mode (inst) == AUTOINC_MODE)
2588b725ae77Skettenis {
2589b725ae77Skettenis inst_env->reg[cris_get_operand1 (inst)] += 4;
2590b725ae77Skettenis }
2591b725ae77Skettenis }
2592b725ae77Skettenis inst_env->reg[REG_PC] = newpc;
2593b725ae77Skettenis }
2594b725ae77Skettenis inst_env->slot_needed = 0;
2595b725ae77Skettenis inst_env->prefix_found = 0;
2596b725ae77Skettenis inst_env->xflag_found = 0;
2597b725ae77Skettenis inst_env->disable_interrupt = 1;
2598b725ae77Skettenis }
2599b725ae77Skettenis
2600b725ae77Skettenis /* Handles moves to special registers (aka P-register) for all modes. */
2601b725ae77Skettenis
2602b725ae77Skettenis static void
move_to_preg_op(unsigned short inst,inst_env_type * inst_env)2603b725ae77Skettenis move_to_preg_op (unsigned short inst, inst_env_type *inst_env)
2604b725ae77Skettenis {
2605b725ae77Skettenis if (inst_env->prefix_found)
2606b725ae77Skettenis {
2607b725ae77Skettenis /* The instruction has a prefix that means we are only interested if
2608b725ae77Skettenis the instruction is in assign mode. */
2609b725ae77Skettenis if (cris_get_mode (inst) == PREFIX_ASSIGN_MODE)
2610b725ae77Skettenis {
2611b725ae77Skettenis /* The prefix handles the problem if we are in a delay slot. */
2612b725ae77Skettenis if (cris_get_operand1 (inst) == REG_PC)
2613b725ae77Skettenis {
2614b725ae77Skettenis /* Just take care of the assign. */
2615b725ae77Skettenis check_assign (inst, inst_env);
2616b725ae77Skettenis }
2617b725ae77Skettenis }
2618b725ae77Skettenis }
2619b725ae77Skettenis else if (cris_get_mode (inst) == AUTOINC_MODE)
2620b725ae77Skettenis {
2621b725ae77Skettenis /* The instruction doesn't have a prefix, the only case left that we
2622b725ae77Skettenis are interested in is the autoincrement mode. */
2623b725ae77Skettenis if (cris_get_operand1 (inst) == REG_PC)
2624b725ae77Skettenis {
2625b725ae77Skettenis /* If the PC is to be incremented it's invalid to be in a
2626b725ae77Skettenis delay slot. */
2627b725ae77Skettenis if (inst_env->slot_needed)
2628b725ae77Skettenis {
2629b725ae77Skettenis inst_env->invalid = 1;
2630b725ae77Skettenis return;
2631b725ae77Skettenis }
2632b725ae77Skettenis
2633b725ae77Skettenis /* The increment depends on the size of the special register. */
2634b725ae77Skettenis if (cris_register_size (cris_get_operand2 (inst)) == 1)
2635b725ae77Skettenis {
2636b725ae77Skettenis process_autoincrement (INST_BYTE_SIZE, inst, inst_env);
2637b725ae77Skettenis }
2638b725ae77Skettenis else if (cris_register_size (cris_get_operand2 (inst)) == 2)
2639b725ae77Skettenis {
2640b725ae77Skettenis process_autoincrement (INST_WORD_SIZE, inst, inst_env);
2641b725ae77Skettenis }
2642b725ae77Skettenis else
2643b725ae77Skettenis {
2644b725ae77Skettenis process_autoincrement (INST_DWORD_SIZE, inst, inst_env);
2645b725ae77Skettenis }
2646b725ae77Skettenis }
2647b725ae77Skettenis }
2648b725ae77Skettenis inst_env->slot_needed = 0;
2649b725ae77Skettenis inst_env->prefix_found = 0;
2650b725ae77Skettenis inst_env->xflag_found = 0;
2651b725ae77Skettenis inst_env->disable_interrupt = 1;
2652b725ae77Skettenis }
2653b725ae77Skettenis
2654b725ae77Skettenis /* Handles moves from special registers (aka P-register) for all modes
2655b725ae77Skettenis except register. */
2656b725ae77Skettenis
2657b725ae77Skettenis static void
none_reg_mode_move_from_preg_op(unsigned short inst,inst_env_type * inst_env)2658b725ae77Skettenis none_reg_mode_move_from_preg_op (unsigned short inst, inst_env_type *inst_env)
2659b725ae77Skettenis {
2660b725ae77Skettenis if (inst_env->prefix_found)
2661b725ae77Skettenis {
2662b725ae77Skettenis /* The instruction has a prefix that means we are only interested if
2663b725ae77Skettenis the instruction is in assign mode. */
2664b725ae77Skettenis if (cris_get_mode (inst) == PREFIX_ASSIGN_MODE)
2665b725ae77Skettenis {
2666b725ae77Skettenis /* The prefix handles the problem if we are in a delay slot. */
2667b725ae77Skettenis if (cris_get_operand1 (inst) == REG_PC)
2668b725ae77Skettenis {
2669b725ae77Skettenis /* Just take care of the assign. */
2670b725ae77Skettenis check_assign (inst, inst_env);
2671b725ae77Skettenis }
2672b725ae77Skettenis }
2673b725ae77Skettenis }
2674b725ae77Skettenis /* The instruction doesn't have a prefix, the only case left that we
2675b725ae77Skettenis are interested in is the autoincrement mode. */
2676b725ae77Skettenis else if (cris_get_mode (inst) == AUTOINC_MODE)
2677b725ae77Skettenis {
2678b725ae77Skettenis if (cris_get_operand1 (inst) == REG_PC)
2679b725ae77Skettenis {
2680b725ae77Skettenis /* If the PC is to be incremented it's invalid to be in a
2681b725ae77Skettenis delay slot. */
2682b725ae77Skettenis if (inst_env->slot_needed)
2683b725ae77Skettenis {
2684b725ae77Skettenis inst_env->invalid = 1;
2685b725ae77Skettenis return;
2686b725ae77Skettenis }
2687b725ae77Skettenis
2688b725ae77Skettenis /* The increment depends on the size of the special register. */
2689b725ae77Skettenis if (cris_register_size (cris_get_operand2 (inst)) == 1)
2690b725ae77Skettenis {
2691b725ae77Skettenis process_autoincrement (INST_BYTE_SIZE, inst, inst_env);
2692b725ae77Skettenis }
2693b725ae77Skettenis else if (cris_register_size (cris_get_operand2 (inst)) == 2)
2694b725ae77Skettenis {
2695b725ae77Skettenis process_autoincrement (INST_WORD_SIZE, inst, inst_env);
2696b725ae77Skettenis }
2697b725ae77Skettenis else
2698b725ae77Skettenis {
2699b725ae77Skettenis process_autoincrement (INST_DWORD_SIZE, inst, inst_env);
2700b725ae77Skettenis }
2701b725ae77Skettenis }
2702b725ae77Skettenis }
2703b725ae77Skettenis inst_env->slot_needed = 0;
2704b725ae77Skettenis inst_env->prefix_found = 0;
2705b725ae77Skettenis inst_env->xflag_found = 0;
2706b725ae77Skettenis inst_env->disable_interrupt = 1;
2707b725ae77Skettenis }
2708b725ae77Skettenis
2709b725ae77Skettenis /* Handles moves from special registers (aka P-register) when the mode
2710b725ae77Skettenis is register. */
2711b725ae77Skettenis
2712b725ae77Skettenis static void
reg_mode_move_from_preg_op(unsigned short inst,inst_env_type * inst_env)2713b725ae77Skettenis reg_mode_move_from_preg_op (unsigned short inst, inst_env_type *inst_env)
2714b725ae77Skettenis {
2715b725ae77Skettenis /* Register mode move from special register can't have a prefix. */
2716b725ae77Skettenis if (inst_env->prefix_found)
2717b725ae77Skettenis {
2718b725ae77Skettenis inst_env->invalid = 1;
2719b725ae77Skettenis return;
2720b725ae77Skettenis }
2721b725ae77Skettenis
2722b725ae77Skettenis if (cris_get_operand1 (inst) == REG_PC)
2723b725ae77Skettenis {
2724b725ae77Skettenis /* It's invalid to change the PC in a delay slot. */
2725b725ae77Skettenis if (inst_env->slot_needed)
2726b725ae77Skettenis {
2727b725ae77Skettenis inst_env->invalid = 1;
2728b725ae77Skettenis return;
2729b725ae77Skettenis }
2730b725ae77Skettenis /* The destination is the PC, the jump will have a delay slot. */
2731b725ae77Skettenis inst_env->delay_slot_pc = inst_env->preg[cris_get_operand2 (inst)];
2732b725ae77Skettenis inst_env->slot_needed = 1;
2733b725ae77Skettenis inst_env->delay_slot_pc_active = 1;
2734b725ae77Skettenis }
2735b725ae77Skettenis else
2736b725ae77Skettenis {
2737b725ae77Skettenis /* If the destination isn't PC, there will be no jump. */
2738b725ae77Skettenis inst_env->slot_needed = 0;
2739b725ae77Skettenis }
2740b725ae77Skettenis inst_env->prefix_found = 0;
2741b725ae77Skettenis inst_env->xflag_found = 0;
2742b725ae77Skettenis inst_env->disable_interrupt = 1;
2743b725ae77Skettenis }
2744b725ae77Skettenis
2745b725ae77Skettenis /* Handles the MOVEM from memory to general register instruction. */
2746b725ae77Skettenis
2747b725ae77Skettenis static void
move_mem_to_reg_movem_op(unsigned short inst,inst_env_type * inst_env)2748b725ae77Skettenis move_mem_to_reg_movem_op (unsigned short inst, inst_env_type *inst_env)
2749b725ae77Skettenis {
2750b725ae77Skettenis if (inst_env->prefix_found)
2751b725ae77Skettenis {
2752b725ae77Skettenis /* The prefix handles the problem if we are in a delay slot. Is the
2753b725ae77Skettenis MOVEM instruction going to change the PC? */
2754b725ae77Skettenis if (cris_get_operand2 (inst) >= REG_PC)
2755b725ae77Skettenis {
2756b725ae77Skettenis inst_env->reg[REG_PC] =
2757b725ae77Skettenis read_memory_unsigned_integer (inst_env->prefix_value, 4);
2758b725ae77Skettenis }
2759b725ae77Skettenis /* The assign value is the value after the increment. Normally, the
2760b725ae77Skettenis assign value is the value before the increment. */
2761b725ae77Skettenis if ((cris_get_operand1 (inst) == REG_PC)
2762b725ae77Skettenis && (cris_get_mode (inst) == PREFIX_ASSIGN_MODE))
2763b725ae77Skettenis {
2764b725ae77Skettenis inst_env->reg[REG_PC] = inst_env->prefix_value;
2765b725ae77Skettenis inst_env->reg[REG_PC] += 4 * (cris_get_operand2 (inst) + 1);
2766b725ae77Skettenis }
2767b725ae77Skettenis }
2768b725ae77Skettenis else
2769b725ae77Skettenis {
2770b725ae77Skettenis /* Is the MOVEM instruction going to change the PC? */
2771b725ae77Skettenis if (cris_get_operand2 (inst) == REG_PC)
2772b725ae77Skettenis {
2773b725ae77Skettenis /* It's invalid to change the PC in a delay slot. */
2774b725ae77Skettenis if (inst_env->slot_needed)
2775b725ae77Skettenis {
2776b725ae77Skettenis inst_env->invalid = 1;
2777b725ae77Skettenis return;
2778b725ae77Skettenis }
2779b725ae77Skettenis inst_env->reg[REG_PC] =
2780b725ae77Skettenis read_memory_unsigned_integer (inst_env->reg[cris_get_operand1 (inst)],
2781b725ae77Skettenis 4);
2782b725ae77Skettenis }
2783b725ae77Skettenis /* The increment is not depending on the size, instead it's depending
2784b725ae77Skettenis on the number of registers loaded from memory. */
2785b725ae77Skettenis if ((cris_get_operand1 (inst) == REG_PC) && (cris_get_mode (inst) == AUTOINC_MODE))
2786b725ae77Skettenis {
2787b725ae77Skettenis /* It's invalid to change the PC in a delay slot. */
2788b725ae77Skettenis if (inst_env->slot_needed)
2789b725ae77Skettenis {
2790b725ae77Skettenis inst_env->invalid = 1;
2791b725ae77Skettenis return;
2792b725ae77Skettenis }
2793b725ae77Skettenis inst_env->reg[REG_PC] += 4 * (cris_get_operand2 (inst) + 1);
2794b725ae77Skettenis }
2795b725ae77Skettenis }
2796b725ae77Skettenis inst_env->slot_needed = 0;
2797b725ae77Skettenis inst_env->prefix_found = 0;
2798b725ae77Skettenis inst_env->xflag_found = 0;
2799b725ae77Skettenis inst_env->disable_interrupt = 0;
2800b725ae77Skettenis }
2801b725ae77Skettenis
2802b725ae77Skettenis /* Handles the MOVEM to memory from general register instruction. */
2803b725ae77Skettenis
2804b725ae77Skettenis static void
move_reg_to_mem_movem_op(unsigned short inst,inst_env_type * inst_env)2805b725ae77Skettenis move_reg_to_mem_movem_op (unsigned short inst, inst_env_type *inst_env)
2806b725ae77Skettenis {
2807b725ae77Skettenis if (inst_env->prefix_found)
2808b725ae77Skettenis {
2809b725ae77Skettenis /* The assign value is the value after the increment. Normally, the
2810b725ae77Skettenis assign value is the value before the increment. */
2811b725ae77Skettenis if ((cris_get_operand1 (inst) == REG_PC) &&
2812b725ae77Skettenis (cris_get_mode (inst) == PREFIX_ASSIGN_MODE))
2813b725ae77Skettenis {
2814b725ae77Skettenis /* The prefix handles the problem if we are in a delay slot. */
2815b725ae77Skettenis inst_env->reg[REG_PC] = inst_env->prefix_value;
2816b725ae77Skettenis inst_env->reg[REG_PC] += 4 * (cris_get_operand2 (inst) + 1);
2817b725ae77Skettenis }
2818b725ae77Skettenis }
2819b725ae77Skettenis else
2820b725ae77Skettenis {
2821b725ae77Skettenis /* The increment is not depending on the size, instead it's depending
2822b725ae77Skettenis on the number of registers loaded to memory. */
2823b725ae77Skettenis if ((cris_get_operand1 (inst) == REG_PC) && (cris_get_mode (inst) == AUTOINC_MODE))
2824b725ae77Skettenis {
2825b725ae77Skettenis /* It's invalid to change the PC in a delay slot. */
2826b725ae77Skettenis if (inst_env->slot_needed)
2827b725ae77Skettenis {
2828b725ae77Skettenis inst_env->invalid = 1;
2829b725ae77Skettenis return;
2830b725ae77Skettenis }
2831b725ae77Skettenis inst_env->reg[REG_PC] += 4 * (cris_get_operand2 (inst) + 1);
2832b725ae77Skettenis }
2833b725ae77Skettenis }
2834b725ae77Skettenis inst_env->slot_needed = 0;
2835b725ae77Skettenis inst_env->prefix_found = 0;
2836b725ae77Skettenis inst_env->xflag_found = 0;
2837b725ae77Skettenis inst_env->disable_interrupt = 0;
2838b725ae77Skettenis }
2839b725ae77Skettenis
2840b725ae77Skettenis /* Handles the intructions that's not yet implemented, by setting
2841b725ae77Skettenis inst_env->invalid to true. */
2842b725ae77Skettenis
2843b725ae77Skettenis static void
not_implemented_op(unsigned short inst,inst_env_type * inst_env)2844b725ae77Skettenis not_implemented_op (unsigned short inst, inst_env_type *inst_env)
2845b725ae77Skettenis {
2846b725ae77Skettenis inst_env->invalid = 1;
2847b725ae77Skettenis }
2848b725ae77Skettenis
2849b725ae77Skettenis /* Handles the XOR instruction. */
2850b725ae77Skettenis
2851b725ae77Skettenis static void
xor_op(unsigned short inst,inst_env_type * inst_env)2852b725ae77Skettenis xor_op (unsigned short inst, inst_env_type *inst_env)
2853b725ae77Skettenis {
2854b725ae77Skettenis /* XOR can't have a prefix. */
2855b725ae77Skettenis if (inst_env->prefix_found)
2856b725ae77Skettenis {
2857b725ae77Skettenis inst_env->invalid = 1;
2858b725ae77Skettenis return;
2859b725ae77Skettenis }
2860b725ae77Skettenis
2861b725ae77Skettenis /* Check if the PC is the target. */
2862b725ae77Skettenis if (cris_get_operand2 (inst) == REG_PC)
2863b725ae77Skettenis {
2864b725ae77Skettenis /* It's invalid to change the PC in a delay slot. */
2865b725ae77Skettenis if (inst_env->slot_needed)
2866b725ae77Skettenis {
2867b725ae77Skettenis inst_env->invalid = 1;
2868b725ae77Skettenis return;
2869b725ae77Skettenis }
2870b725ae77Skettenis inst_env->reg[REG_PC] ^= inst_env->reg[cris_get_operand1 (inst)];
2871b725ae77Skettenis }
2872b725ae77Skettenis inst_env->slot_needed = 0;
2873b725ae77Skettenis inst_env->prefix_found = 0;
2874b725ae77Skettenis inst_env->xflag_found = 0;
2875b725ae77Skettenis inst_env->disable_interrupt = 0;
2876b725ae77Skettenis }
2877b725ae77Skettenis
2878b725ae77Skettenis /* Handles the MULS instruction. */
2879b725ae77Skettenis
2880b725ae77Skettenis static void
muls_op(unsigned short inst,inst_env_type * inst_env)2881b725ae77Skettenis muls_op (unsigned short inst, inst_env_type *inst_env)
2882b725ae77Skettenis {
2883b725ae77Skettenis /* MULS/U can't have a prefix. */
2884b725ae77Skettenis if (inst_env->prefix_found)
2885b725ae77Skettenis {
2886b725ae77Skettenis inst_env->invalid = 1;
2887b725ae77Skettenis return;
2888b725ae77Skettenis }
2889b725ae77Skettenis
2890b725ae77Skettenis /* Consider it invalid if the PC is the target. */
2891b725ae77Skettenis if (cris_get_operand2 (inst) == REG_PC)
2892b725ae77Skettenis {
2893b725ae77Skettenis inst_env->invalid = 1;
2894b725ae77Skettenis return;
2895b725ae77Skettenis }
2896b725ae77Skettenis inst_env->slot_needed = 0;
2897b725ae77Skettenis inst_env->prefix_found = 0;
2898b725ae77Skettenis inst_env->xflag_found = 0;
2899b725ae77Skettenis inst_env->disable_interrupt = 0;
2900b725ae77Skettenis }
2901b725ae77Skettenis
2902b725ae77Skettenis /* Handles the MULU instruction. */
2903b725ae77Skettenis
2904b725ae77Skettenis static void
mulu_op(unsigned short inst,inst_env_type * inst_env)2905b725ae77Skettenis mulu_op (unsigned short inst, inst_env_type *inst_env)
2906b725ae77Skettenis {
2907b725ae77Skettenis /* MULS/U can't have a prefix. */
2908b725ae77Skettenis if (inst_env->prefix_found)
2909b725ae77Skettenis {
2910b725ae77Skettenis inst_env->invalid = 1;
2911b725ae77Skettenis return;
2912b725ae77Skettenis }
2913b725ae77Skettenis
2914b725ae77Skettenis /* Consider it invalid if the PC is the target. */
2915b725ae77Skettenis if (cris_get_operand2 (inst) == REG_PC)
2916b725ae77Skettenis {
2917b725ae77Skettenis inst_env->invalid = 1;
2918b725ae77Skettenis return;
2919b725ae77Skettenis }
2920b725ae77Skettenis inst_env->slot_needed = 0;
2921b725ae77Skettenis inst_env->prefix_found = 0;
2922b725ae77Skettenis inst_env->xflag_found = 0;
2923b725ae77Skettenis inst_env->disable_interrupt = 0;
2924b725ae77Skettenis }
2925b725ae77Skettenis
2926b725ae77Skettenis /* Calculate the result of the instruction for ADD, SUB, CMP AND, OR and MOVE.
2927b725ae77Skettenis The MOVE instruction is the move from source to register. */
2928b725ae77Skettenis
2929b725ae77Skettenis static void
add_sub_cmp_and_or_move_action(unsigned short inst,inst_env_type * inst_env,unsigned long source1,unsigned long source2)2930b725ae77Skettenis add_sub_cmp_and_or_move_action (unsigned short inst, inst_env_type *inst_env,
2931b725ae77Skettenis unsigned long source1, unsigned long source2)
2932b725ae77Skettenis {
2933b725ae77Skettenis unsigned long pc_mask;
2934b725ae77Skettenis unsigned long operation_mask;
2935b725ae77Skettenis
2936b725ae77Skettenis /* Find out how many bits the operation should apply to. */
2937b725ae77Skettenis if (cris_get_size (inst) == INST_BYTE_SIZE)
2938b725ae77Skettenis {
2939b725ae77Skettenis pc_mask = 0xFFFFFF00;
2940b725ae77Skettenis operation_mask = 0xFF;
2941b725ae77Skettenis }
2942b725ae77Skettenis else if (cris_get_size (inst) == INST_WORD_SIZE)
2943b725ae77Skettenis {
2944b725ae77Skettenis pc_mask = 0xFFFF0000;
2945b725ae77Skettenis operation_mask = 0xFFFF;
2946b725ae77Skettenis }
2947b725ae77Skettenis else if (cris_get_size (inst) == INST_DWORD_SIZE)
2948b725ae77Skettenis {
2949b725ae77Skettenis pc_mask = 0x0;
2950b725ae77Skettenis operation_mask = 0xFFFFFFFF;
2951b725ae77Skettenis }
2952b725ae77Skettenis else
2953b725ae77Skettenis {
2954b725ae77Skettenis /* The size is out of range. */
2955b725ae77Skettenis inst_env->invalid = 1;
2956b725ae77Skettenis return;
2957b725ae77Skettenis }
2958b725ae77Skettenis
2959b725ae77Skettenis /* The instruction just works on uw_operation_mask bits. */
2960b725ae77Skettenis source2 &= operation_mask;
2961b725ae77Skettenis source1 &= operation_mask;
2962b725ae77Skettenis
2963b725ae77Skettenis /* Now calculate the result. The opcode's 3 first bits separates
2964b725ae77Skettenis the different actions. */
2965b725ae77Skettenis switch (cris_get_opcode (inst) & 7)
2966b725ae77Skettenis {
2967b725ae77Skettenis case 0: /* add */
2968b725ae77Skettenis source1 += source2;
2969b725ae77Skettenis break;
2970b725ae77Skettenis
2971b725ae77Skettenis case 1: /* move */
2972b725ae77Skettenis source1 = source2;
2973b725ae77Skettenis break;
2974b725ae77Skettenis
2975b725ae77Skettenis case 2: /* subtract */
2976b725ae77Skettenis source1 -= source2;
2977b725ae77Skettenis break;
2978b725ae77Skettenis
2979b725ae77Skettenis case 3: /* compare */
2980b725ae77Skettenis break;
2981b725ae77Skettenis
2982b725ae77Skettenis case 4: /* and */
2983b725ae77Skettenis source1 &= source2;
2984b725ae77Skettenis break;
2985b725ae77Skettenis
2986b725ae77Skettenis case 5: /* or */
2987b725ae77Skettenis source1 |= source2;
2988b725ae77Skettenis break;
2989b725ae77Skettenis
2990b725ae77Skettenis default:
2991b725ae77Skettenis inst_env->invalid = 1;
2992b725ae77Skettenis return;
2993b725ae77Skettenis
2994b725ae77Skettenis break;
2995b725ae77Skettenis }
2996b725ae77Skettenis
2997b725ae77Skettenis /* Make sure that the result doesn't contain more than the instruction
2998b725ae77Skettenis size bits. */
2999b725ae77Skettenis source2 &= operation_mask;
3000b725ae77Skettenis
3001b725ae77Skettenis /* Calculate the new breakpoint address. */
3002b725ae77Skettenis inst_env->reg[REG_PC] &= pc_mask;
3003b725ae77Skettenis inst_env->reg[REG_PC] |= source1;
3004b725ae77Skettenis
3005b725ae77Skettenis }
3006b725ae77Skettenis
3007b725ae77Skettenis /* Extends the value from either byte or word size to a dword. If the mode
3008b725ae77Skettenis is zero extend then the value is extended with zero. If instead the mode
3009b725ae77Skettenis is signed extend the sign bit of the value is taken into consideration. */
3010b725ae77Skettenis
3011b725ae77Skettenis static unsigned long
do_sign_or_zero_extend(unsigned long value,unsigned short * inst)3012b725ae77Skettenis do_sign_or_zero_extend (unsigned long value, unsigned short *inst)
3013b725ae77Skettenis {
3014b725ae77Skettenis /* The size can be either byte or word, check which one it is.
3015b725ae77Skettenis Don't check the highest bit, it's indicating if it's a zero
3016b725ae77Skettenis or sign extend. */
3017b725ae77Skettenis if (cris_get_size (*inst) & INST_WORD_SIZE)
3018b725ae77Skettenis {
3019b725ae77Skettenis /* Word size. */
3020b725ae77Skettenis value &= 0xFFFF;
3021b725ae77Skettenis
3022b725ae77Skettenis /* Check if the instruction is signed extend. If so, check if value has
3023b725ae77Skettenis the sign bit on. */
3024b725ae77Skettenis if (cris_is_signed_extend_bit_on (*inst) && (value & SIGNED_WORD_MASK))
3025b725ae77Skettenis {
3026b725ae77Skettenis value |= SIGNED_WORD_EXTEND_MASK;
3027b725ae77Skettenis }
3028b725ae77Skettenis }
3029b725ae77Skettenis else
3030b725ae77Skettenis {
3031b725ae77Skettenis /* Byte size. */
3032b725ae77Skettenis value &= 0xFF;
3033b725ae77Skettenis
3034b725ae77Skettenis /* Check if the instruction is signed extend. If so, check if value has
3035b725ae77Skettenis the sign bit on. */
3036b725ae77Skettenis if (cris_is_signed_extend_bit_on (*inst) && (value & SIGNED_BYTE_MASK))
3037b725ae77Skettenis {
3038b725ae77Skettenis value |= SIGNED_BYTE_EXTEND_MASK;
3039b725ae77Skettenis }
3040b725ae77Skettenis }
3041b725ae77Skettenis /* The size should now be dword. */
3042b725ae77Skettenis cris_set_size_to_dword (inst);
3043b725ae77Skettenis return value;
3044b725ae77Skettenis }
3045b725ae77Skettenis
3046b725ae77Skettenis /* Handles the register mode for the ADD, SUB, CMP, AND, OR and MOVE
3047b725ae77Skettenis instruction. The MOVE instruction is the move from source to register. */
3048b725ae77Skettenis
3049b725ae77Skettenis static void
reg_mode_add_sub_cmp_and_or_move_op(unsigned short inst,inst_env_type * inst_env)3050b725ae77Skettenis reg_mode_add_sub_cmp_and_or_move_op (unsigned short inst,
3051b725ae77Skettenis inst_env_type *inst_env)
3052b725ae77Skettenis {
3053b725ae77Skettenis unsigned long operand1;
3054b725ae77Skettenis unsigned long operand2;
3055b725ae77Skettenis
3056b725ae77Skettenis /* It's invalid to have a prefix to the instruction. This is a register
3057b725ae77Skettenis mode instruction and can't have a prefix. */
3058b725ae77Skettenis if (inst_env->prefix_found)
3059b725ae77Skettenis {
3060b725ae77Skettenis inst_env->invalid = 1;
3061b725ae77Skettenis return;
3062b725ae77Skettenis }
3063b725ae77Skettenis /* Check if the instruction has PC as its target. */
3064b725ae77Skettenis if (cris_get_operand2 (inst) == REG_PC)
3065b725ae77Skettenis {
3066b725ae77Skettenis if (inst_env->slot_needed)
3067b725ae77Skettenis {
3068b725ae77Skettenis inst_env->invalid = 1;
3069b725ae77Skettenis return;
3070b725ae77Skettenis }
3071b725ae77Skettenis /* The instruction has the PC as its target register. */
3072b725ae77Skettenis operand1 = inst_env->reg[cris_get_operand1 (inst)];
3073b725ae77Skettenis operand2 = inst_env->reg[REG_PC];
3074b725ae77Skettenis
3075b725ae77Skettenis /* Check if it's a extend, signed or zero instruction. */
3076b725ae77Skettenis if (cris_get_opcode (inst) < 4)
3077b725ae77Skettenis {
3078b725ae77Skettenis operand1 = do_sign_or_zero_extend (operand1, &inst);
3079b725ae77Skettenis }
3080b725ae77Skettenis /* Calculate the PC value after the instruction, i.e. where the
3081b725ae77Skettenis breakpoint should be. The order of the udw_operands is vital. */
3082b725ae77Skettenis add_sub_cmp_and_or_move_action (inst, inst_env, operand2, operand1);
3083b725ae77Skettenis }
3084b725ae77Skettenis inst_env->slot_needed = 0;
3085b725ae77Skettenis inst_env->prefix_found = 0;
3086b725ae77Skettenis inst_env->xflag_found = 0;
3087b725ae77Skettenis inst_env->disable_interrupt = 0;
3088b725ae77Skettenis }
3089b725ae77Skettenis
3090b725ae77Skettenis /* Returns the data contained at address. The size of the data is derived from
3091b725ae77Skettenis the size of the operation. If the instruction is a zero or signed
3092b725ae77Skettenis extend instruction, the size field is changed in instruction. */
3093b725ae77Skettenis
3094b725ae77Skettenis static unsigned long
get_data_from_address(unsigned short * inst,CORE_ADDR address)3095b725ae77Skettenis get_data_from_address (unsigned short *inst, CORE_ADDR address)
3096b725ae77Skettenis {
3097b725ae77Skettenis int size = cris_get_size (*inst);
3098b725ae77Skettenis unsigned long value;
3099b725ae77Skettenis
3100b725ae77Skettenis /* If it's an extend instruction we don't want the signed extend bit,
3101b725ae77Skettenis because it influences the size. */
3102b725ae77Skettenis if (cris_get_opcode (*inst) < 4)
3103b725ae77Skettenis {
3104b725ae77Skettenis size &= ~SIGNED_EXTEND_BIT_MASK;
3105b725ae77Skettenis }
3106b725ae77Skettenis /* Is there a need for checking the size? Size should contain the number of
3107b725ae77Skettenis bytes to read. */
3108b725ae77Skettenis size = 1 << size;
3109b725ae77Skettenis value = read_memory_unsigned_integer (address, size);
3110b725ae77Skettenis
3111b725ae77Skettenis /* Check if it's an extend, signed or zero instruction. */
3112b725ae77Skettenis if (cris_get_opcode (*inst) < 4)
3113b725ae77Skettenis {
3114b725ae77Skettenis value = do_sign_or_zero_extend (value, inst);
3115b725ae77Skettenis }
3116b725ae77Skettenis return value;
3117b725ae77Skettenis }
3118b725ae77Skettenis
3119b725ae77Skettenis /* Handles the assign addresing mode for the ADD, SUB, CMP, AND, OR and MOVE
3120b725ae77Skettenis instructions. The MOVE instruction is the move from source to register. */
3121b725ae77Skettenis
3122b725ae77Skettenis static void
handle_prefix_assign_mode_for_aritm_op(unsigned short inst,inst_env_type * inst_env)3123b725ae77Skettenis handle_prefix_assign_mode_for_aritm_op (unsigned short inst,
3124b725ae77Skettenis inst_env_type *inst_env)
3125b725ae77Skettenis {
3126b725ae77Skettenis unsigned long operand2;
3127b725ae77Skettenis unsigned long operand3;
3128b725ae77Skettenis
3129b725ae77Skettenis check_assign (inst, inst_env);
3130b725ae77Skettenis if (cris_get_operand2 (inst) == REG_PC)
3131b725ae77Skettenis {
3132b725ae77Skettenis operand2 = inst_env->reg[REG_PC];
3133b725ae77Skettenis
3134b725ae77Skettenis /* Get the value of the third operand. */
3135b725ae77Skettenis operand3 = get_data_from_address (&inst, inst_env->prefix_value);
3136b725ae77Skettenis
3137b725ae77Skettenis /* Calculate the PC value after the instruction, i.e. where the
3138b725ae77Skettenis breakpoint should be. The order of the udw_operands is vital. */
3139b725ae77Skettenis add_sub_cmp_and_or_move_action (inst, inst_env, operand2, operand3);
3140b725ae77Skettenis }
3141b725ae77Skettenis inst_env->slot_needed = 0;
3142b725ae77Skettenis inst_env->prefix_found = 0;
3143b725ae77Skettenis inst_env->xflag_found = 0;
3144b725ae77Skettenis inst_env->disable_interrupt = 0;
3145b725ae77Skettenis }
3146b725ae77Skettenis
3147b725ae77Skettenis /* Handles the three-operand addressing mode for the ADD, SUB, CMP, AND and
3148b725ae77Skettenis OR instructions. Note that for this to work as expected, the calling
3149b725ae77Skettenis function must have made sure that there is a prefix to this instruction. */
3150b725ae77Skettenis
3151b725ae77Skettenis static void
three_operand_add_sub_cmp_and_or_op(unsigned short inst,inst_env_type * inst_env)3152b725ae77Skettenis three_operand_add_sub_cmp_and_or_op (unsigned short inst,
3153b725ae77Skettenis inst_env_type *inst_env)
3154b725ae77Skettenis {
3155b725ae77Skettenis unsigned long operand2;
3156b725ae77Skettenis unsigned long operand3;
3157b725ae77Skettenis
3158b725ae77Skettenis if (cris_get_operand1 (inst) == REG_PC)
3159b725ae77Skettenis {
3160b725ae77Skettenis /* The PC will be changed by the instruction. */
3161b725ae77Skettenis operand2 = inst_env->reg[cris_get_operand2 (inst)];
3162b725ae77Skettenis
3163b725ae77Skettenis /* Get the value of the third operand. */
3164b725ae77Skettenis operand3 = get_data_from_address (&inst, inst_env->prefix_value);
3165b725ae77Skettenis
3166b725ae77Skettenis /* Calculate the PC value after the instruction, i.e. where the
3167b725ae77Skettenis breakpoint should be. */
3168b725ae77Skettenis add_sub_cmp_and_or_move_action (inst, inst_env, operand2, operand3);
3169b725ae77Skettenis }
3170b725ae77Skettenis inst_env->slot_needed = 0;
3171b725ae77Skettenis inst_env->prefix_found = 0;
3172b725ae77Skettenis inst_env->xflag_found = 0;
3173b725ae77Skettenis inst_env->disable_interrupt = 0;
3174b725ae77Skettenis }
3175b725ae77Skettenis
3176b725ae77Skettenis /* Handles the index addresing mode for the ADD, SUB, CMP, AND, OR and MOVE
3177b725ae77Skettenis instructions. The MOVE instruction is the move from source to register. */
3178b725ae77Skettenis
3179b725ae77Skettenis static void
handle_prefix_index_mode_for_aritm_op(unsigned short inst,inst_env_type * inst_env)3180b725ae77Skettenis handle_prefix_index_mode_for_aritm_op (unsigned short inst,
3181b725ae77Skettenis inst_env_type *inst_env)
3182b725ae77Skettenis {
3183b725ae77Skettenis if (cris_get_operand1 (inst) != cris_get_operand2 (inst))
3184b725ae77Skettenis {
3185b725ae77Skettenis /* If the instruction is MOVE it's invalid. If the instruction is ADD,
3186b725ae77Skettenis SUB, AND or OR something weird is going on (if everything works these
3187b725ae77Skettenis instructions should end up in the three operand version). */
3188b725ae77Skettenis inst_env->invalid = 1;
3189b725ae77Skettenis return;
3190b725ae77Skettenis }
3191b725ae77Skettenis else
3192b725ae77Skettenis {
3193b725ae77Skettenis /* three_operand_add_sub_cmp_and_or does the same as we should do here
3194b725ae77Skettenis so use it. */
3195b725ae77Skettenis three_operand_add_sub_cmp_and_or_op (inst, inst_env);
3196b725ae77Skettenis }
3197b725ae77Skettenis inst_env->slot_needed = 0;
3198b725ae77Skettenis inst_env->prefix_found = 0;
3199b725ae77Skettenis inst_env->xflag_found = 0;
3200b725ae77Skettenis inst_env->disable_interrupt = 0;
3201b725ae77Skettenis }
3202b725ae77Skettenis
3203b725ae77Skettenis /* Handles the autoincrement and indirect addresing mode for the ADD, SUB,
3204b725ae77Skettenis CMP, AND OR and MOVE instruction. The MOVE instruction is the move from
3205b725ae77Skettenis source to register. */
3206b725ae77Skettenis
3207b725ae77Skettenis static void
handle_inc_and_index_mode_for_aritm_op(unsigned short inst,inst_env_type * inst_env)3208b725ae77Skettenis handle_inc_and_index_mode_for_aritm_op (unsigned short inst,
3209b725ae77Skettenis inst_env_type *inst_env)
3210b725ae77Skettenis {
3211b725ae77Skettenis unsigned long operand1;
3212b725ae77Skettenis unsigned long operand2;
3213b725ae77Skettenis unsigned long operand3;
3214b725ae77Skettenis int size;
3215b725ae77Skettenis
3216b725ae77Skettenis /* The instruction is either an indirect or autoincrement addressing mode.
3217b725ae77Skettenis Check if the destination register is the PC. */
3218b725ae77Skettenis if (cris_get_operand2 (inst) == REG_PC)
3219b725ae77Skettenis {
3220b725ae77Skettenis /* Must be done here, get_data_from_address may change the size
3221b725ae77Skettenis field. */
3222b725ae77Skettenis size = cris_get_size (inst);
3223b725ae77Skettenis operand2 = inst_env->reg[REG_PC];
3224b725ae77Skettenis
3225b725ae77Skettenis /* Get the value of the third operand, i.e. the indirect operand. */
3226b725ae77Skettenis operand1 = inst_env->reg[cris_get_operand1 (inst)];
3227b725ae77Skettenis operand3 = get_data_from_address (&inst, operand1);
3228b725ae77Skettenis
3229b725ae77Skettenis /* Calculate the PC value after the instruction, i.e. where the
3230b725ae77Skettenis breakpoint should be. The order of the udw_operands is vital. */
3231b725ae77Skettenis add_sub_cmp_and_or_move_action (inst, inst_env, operand2, operand3);
3232b725ae77Skettenis }
3233b725ae77Skettenis /* If this is an autoincrement addressing mode, check if the increment
3234b725ae77Skettenis changes the PC. */
3235b725ae77Skettenis if ((cris_get_operand1 (inst) == REG_PC) && (cris_get_mode (inst) == AUTOINC_MODE))
3236b725ae77Skettenis {
3237b725ae77Skettenis /* Get the size field. */
3238b725ae77Skettenis size = cris_get_size (inst);
3239b725ae77Skettenis
3240b725ae77Skettenis /* If it's an extend instruction we don't want the signed extend bit,
3241b725ae77Skettenis because it influences the size. */
3242b725ae77Skettenis if (cris_get_opcode (inst) < 4)
3243b725ae77Skettenis {
3244b725ae77Skettenis size &= ~SIGNED_EXTEND_BIT_MASK;
3245b725ae77Skettenis }
3246b725ae77Skettenis process_autoincrement (size, inst, inst_env);
3247b725ae77Skettenis }
3248b725ae77Skettenis inst_env->slot_needed = 0;
3249b725ae77Skettenis inst_env->prefix_found = 0;
3250b725ae77Skettenis inst_env->xflag_found = 0;
3251b725ae77Skettenis inst_env->disable_interrupt = 0;
3252b725ae77Skettenis }
3253b725ae77Skettenis
3254b725ae77Skettenis /* Handles the two-operand addressing mode, all modes except register, for
3255b725ae77Skettenis the ADD, SUB CMP, AND and OR instruction. */
3256b725ae77Skettenis
3257b725ae77Skettenis static void
none_reg_mode_add_sub_cmp_and_or_move_op(unsigned short inst,inst_env_type * inst_env)3258b725ae77Skettenis none_reg_mode_add_sub_cmp_and_or_move_op (unsigned short inst,
3259b725ae77Skettenis inst_env_type *inst_env)
3260b725ae77Skettenis {
3261b725ae77Skettenis if (inst_env->prefix_found)
3262b725ae77Skettenis {
3263b725ae77Skettenis if (cris_get_mode (inst) == PREFIX_INDEX_MODE)
3264b725ae77Skettenis {
3265b725ae77Skettenis handle_prefix_index_mode_for_aritm_op (inst, inst_env);
3266b725ae77Skettenis }
3267b725ae77Skettenis else if (cris_get_mode (inst) == PREFIX_ASSIGN_MODE)
3268b725ae77Skettenis {
3269b725ae77Skettenis handle_prefix_assign_mode_for_aritm_op (inst, inst_env);
3270b725ae77Skettenis }
3271b725ae77Skettenis else
3272b725ae77Skettenis {
3273b725ae77Skettenis /* The mode is invalid for a prefixed base instruction. */
3274b725ae77Skettenis inst_env->invalid = 1;
3275b725ae77Skettenis return;
3276b725ae77Skettenis }
3277b725ae77Skettenis }
3278b725ae77Skettenis else
3279b725ae77Skettenis {
3280b725ae77Skettenis handle_inc_and_index_mode_for_aritm_op (inst, inst_env);
3281b725ae77Skettenis }
3282b725ae77Skettenis }
3283b725ae77Skettenis
3284b725ae77Skettenis /* Handles the quick addressing mode for the ADD and SUB instruction. */
3285b725ae77Skettenis
3286b725ae77Skettenis static void
quick_mode_add_sub_op(unsigned short inst,inst_env_type * inst_env)3287b725ae77Skettenis quick_mode_add_sub_op (unsigned short inst, inst_env_type *inst_env)
3288b725ae77Skettenis {
3289b725ae77Skettenis unsigned long operand1;
3290b725ae77Skettenis unsigned long operand2;
3291b725ae77Skettenis
3292b725ae77Skettenis /* It's a bad idea to be in a prefix instruction now. This is a quick mode
3293b725ae77Skettenis instruction and can't have a prefix. */
3294b725ae77Skettenis if (inst_env->prefix_found)
3295b725ae77Skettenis {
3296b725ae77Skettenis inst_env->invalid = 1;
3297b725ae77Skettenis return;
3298b725ae77Skettenis }
3299b725ae77Skettenis
3300b725ae77Skettenis /* Check if the instruction has PC as its target. */
3301b725ae77Skettenis if (cris_get_operand2 (inst) == REG_PC)
3302b725ae77Skettenis {
3303b725ae77Skettenis if (inst_env->slot_needed)
3304b725ae77Skettenis {
3305b725ae77Skettenis inst_env->invalid = 1;
3306b725ae77Skettenis return;
3307b725ae77Skettenis }
3308b725ae77Skettenis operand1 = cris_get_quick_value (inst);
3309b725ae77Skettenis operand2 = inst_env->reg[REG_PC];
3310b725ae77Skettenis
3311b725ae77Skettenis /* The size should now be dword. */
3312b725ae77Skettenis cris_set_size_to_dword (&inst);
3313b725ae77Skettenis
3314b725ae77Skettenis /* Calculate the PC value after the instruction, i.e. where the
3315b725ae77Skettenis breakpoint should be. */
3316b725ae77Skettenis add_sub_cmp_and_or_move_action (inst, inst_env, operand2, operand1);
3317b725ae77Skettenis }
3318b725ae77Skettenis inst_env->slot_needed = 0;
3319b725ae77Skettenis inst_env->prefix_found = 0;
3320b725ae77Skettenis inst_env->xflag_found = 0;
3321b725ae77Skettenis inst_env->disable_interrupt = 0;
3322b725ae77Skettenis }
3323b725ae77Skettenis
3324b725ae77Skettenis /* Handles the quick addressing mode for the CMP, AND and OR instruction. */
3325b725ae77Skettenis
3326b725ae77Skettenis static void
quick_mode_and_cmp_move_or_op(unsigned short inst,inst_env_type * inst_env)3327b725ae77Skettenis quick_mode_and_cmp_move_or_op (unsigned short inst, inst_env_type *inst_env)
3328b725ae77Skettenis {
3329b725ae77Skettenis unsigned long operand1;
3330b725ae77Skettenis unsigned long operand2;
3331b725ae77Skettenis
3332b725ae77Skettenis /* It's a bad idea to be in a prefix instruction now. This is a quick mode
3333b725ae77Skettenis instruction and can't have a prefix. */
3334b725ae77Skettenis if (inst_env->prefix_found)
3335b725ae77Skettenis {
3336b725ae77Skettenis inst_env->invalid = 1;
3337b725ae77Skettenis return;
3338b725ae77Skettenis }
3339b725ae77Skettenis /* Check if the instruction has PC as its target. */
3340b725ae77Skettenis if (cris_get_operand2 (inst) == REG_PC)
3341b725ae77Skettenis {
3342b725ae77Skettenis if (inst_env->slot_needed)
3343b725ae77Skettenis {
3344b725ae77Skettenis inst_env->invalid = 1;
3345b725ae77Skettenis return;
3346b725ae77Skettenis }
3347b725ae77Skettenis /* The instruction has the PC as its target register. */
3348b725ae77Skettenis operand1 = cris_get_quick_value (inst);
3349b725ae77Skettenis operand2 = inst_env->reg[REG_PC];
3350b725ae77Skettenis
3351b725ae77Skettenis /* The quick value is signed, so check if we must do a signed extend. */
3352b725ae77Skettenis if (operand1 & SIGNED_QUICK_VALUE_MASK)
3353b725ae77Skettenis {
3354b725ae77Skettenis /* sign extend */
3355b725ae77Skettenis operand1 |= SIGNED_QUICK_VALUE_EXTEND_MASK;
3356b725ae77Skettenis }
3357b725ae77Skettenis /* The size should now be dword. */
3358b725ae77Skettenis cris_set_size_to_dword (&inst);
3359b725ae77Skettenis
3360b725ae77Skettenis /* Calculate the PC value after the instruction, i.e. where the
3361b725ae77Skettenis breakpoint should be. */
3362b725ae77Skettenis add_sub_cmp_and_or_move_action (inst, inst_env, operand2, operand1);
3363b725ae77Skettenis }
3364b725ae77Skettenis inst_env->slot_needed = 0;
3365b725ae77Skettenis inst_env->prefix_found = 0;
3366b725ae77Skettenis inst_env->xflag_found = 0;
3367b725ae77Skettenis inst_env->disable_interrupt = 0;
3368b725ae77Skettenis }
3369b725ae77Skettenis
3370b725ae77Skettenis /* Translate op_type to a function and call it. */
3371b725ae77Skettenis
3372b725ae77Skettenis static void
cris_gdb_func(enum cris_op_type op_type,unsigned short inst,inst_env_type * inst_env)3373b725ae77Skettenis cris_gdb_func (enum cris_op_type op_type, unsigned short inst,
3374b725ae77Skettenis inst_env_type *inst_env)
3375b725ae77Skettenis {
3376b725ae77Skettenis switch (op_type)
3377b725ae77Skettenis {
3378b725ae77Skettenis case cris_not_implemented_op:
3379b725ae77Skettenis not_implemented_op (inst, inst_env);
3380b725ae77Skettenis break;
3381b725ae77Skettenis
3382b725ae77Skettenis case cris_abs_op:
3383b725ae77Skettenis abs_op (inst, inst_env);
3384b725ae77Skettenis break;
3385b725ae77Skettenis
3386b725ae77Skettenis case cris_addi_op:
3387b725ae77Skettenis addi_op (inst, inst_env);
3388b725ae77Skettenis break;
3389b725ae77Skettenis
3390b725ae77Skettenis case cris_asr_op:
3391b725ae77Skettenis asr_op (inst, inst_env);
3392b725ae77Skettenis break;
3393b725ae77Skettenis
3394b725ae77Skettenis case cris_asrq_op:
3395b725ae77Skettenis asrq_op (inst, inst_env);
3396b725ae77Skettenis break;
3397b725ae77Skettenis
3398b725ae77Skettenis case cris_ax_ei_setf_op:
3399b725ae77Skettenis ax_ei_setf_op (inst, inst_env);
3400b725ae77Skettenis break;
3401b725ae77Skettenis
3402b725ae77Skettenis case cris_bdap_prefix:
3403b725ae77Skettenis bdap_prefix (inst, inst_env);
3404b725ae77Skettenis break;
3405b725ae77Skettenis
3406b725ae77Skettenis case cris_biap_prefix:
3407b725ae77Skettenis biap_prefix (inst, inst_env);
3408b725ae77Skettenis break;
3409b725ae77Skettenis
3410b725ae77Skettenis case cris_break_op:
3411b725ae77Skettenis break_op (inst, inst_env);
3412b725ae77Skettenis break;
3413b725ae77Skettenis
3414b725ae77Skettenis case cris_btst_nop_op:
3415b725ae77Skettenis btst_nop_op (inst, inst_env);
3416b725ae77Skettenis break;
3417b725ae77Skettenis
3418b725ae77Skettenis case cris_clearf_di_op:
3419b725ae77Skettenis clearf_di_op (inst, inst_env);
3420b725ae77Skettenis break;
3421b725ae77Skettenis
3422b725ae77Skettenis case cris_dip_prefix:
3423b725ae77Skettenis dip_prefix (inst, inst_env);
3424b725ae77Skettenis break;
3425b725ae77Skettenis
3426b725ae77Skettenis case cris_dstep_logshift_mstep_neg_not_op:
3427b725ae77Skettenis dstep_logshift_mstep_neg_not_op (inst, inst_env);
3428b725ae77Skettenis break;
3429b725ae77Skettenis
3430b725ae77Skettenis case cris_eight_bit_offset_branch_op:
3431b725ae77Skettenis eight_bit_offset_branch_op (inst, inst_env);
3432b725ae77Skettenis break;
3433b725ae77Skettenis
3434b725ae77Skettenis case cris_move_mem_to_reg_movem_op:
3435b725ae77Skettenis move_mem_to_reg_movem_op (inst, inst_env);
3436b725ae77Skettenis break;
3437b725ae77Skettenis
3438b725ae77Skettenis case cris_move_reg_to_mem_movem_op:
3439b725ae77Skettenis move_reg_to_mem_movem_op (inst, inst_env);
3440b725ae77Skettenis break;
3441b725ae77Skettenis
3442b725ae77Skettenis case cris_move_to_preg_op:
3443b725ae77Skettenis move_to_preg_op (inst, inst_env);
3444b725ae77Skettenis break;
3445b725ae77Skettenis
3446b725ae77Skettenis case cris_muls_op:
3447b725ae77Skettenis muls_op (inst, inst_env);
3448b725ae77Skettenis break;
3449b725ae77Skettenis
3450b725ae77Skettenis case cris_mulu_op:
3451b725ae77Skettenis mulu_op (inst, inst_env);
3452b725ae77Skettenis break;
3453b725ae77Skettenis
3454b725ae77Skettenis case cris_none_reg_mode_add_sub_cmp_and_or_move_op:
3455b725ae77Skettenis none_reg_mode_add_sub_cmp_and_or_move_op (inst, inst_env);
3456b725ae77Skettenis break;
3457b725ae77Skettenis
3458b725ae77Skettenis case cris_none_reg_mode_clear_test_op:
3459b725ae77Skettenis none_reg_mode_clear_test_op (inst, inst_env);
3460b725ae77Skettenis break;
3461b725ae77Skettenis
3462b725ae77Skettenis case cris_none_reg_mode_jump_op:
3463b725ae77Skettenis none_reg_mode_jump_op (inst, inst_env);
3464b725ae77Skettenis break;
3465b725ae77Skettenis
3466b725ae77Skettenis case cris_none_reg_mode_move_from_preg_op:
3467b725ae77Skettenis none_reg_mode_move_from_preg_op (inst, inst_env);
3468b725ae77Skettenis break;
3469b725ae77Skettenis
3470b725ae77Skettenis case cris_quick_mode_add_sub_op:
3471b725ae77Skettenis quick_mode_add_sub_op (inst, inst_env);
3472b725ae77Skettenis break;
3473b725ae77Skettenis
3474b725ae77Skettenis case cris_quick_mode_and_cmp_move_or_op:
3475b725ae77Skettenis quick_mode_and_cmp_move_or_op (inst, inst_env);
3476b725ae77Skettenis break;
3477b725ae77Skettenis
3478b725ae77Skettenis case cris_quick_mode_bdap_prefix:
3479b725ae77Skettenis quick_mode_bdap_prefix (inst, inst_env);
3480b725ae77Skettenis break;
3481b725ae77Skettenis
3482b725ae77Skettenis case cris_reg_mode_add_sub_cmp_and_or_move_op:
3483b725ae77Skettenis reg_mode_add_sub_cmp_and_or_move_op (inst, inst_env);
3484b725ae77Skettenis break;
3485b725ae77Skettenis
3486b725ae77Skettenis case cris_reg_mode_clear_op:
3487b725ae77Skettenis reg_mode_clear_op (inst, inst_env);
3488b725ae77Skettenis break;
3489b725ae77Skettenis
3490b725ae77Skettenis case cris_reg_mode_jump_op:
3491b725ae77Skettenis reg_mode_jump_op (inst, inst_env);
3492b725ae77Skettenis break;
3493b725ae77Skettenis
3494b725ae77Skettenis case cris_reg_mode_move_from_preg_op:
3495b725ae77Skettenis reg_mode_move_from_preg_op (inst, inst_env);
3496b725ae77Skettenis break;
3497b725ae77Skettenis
3498b725ae77Skettenis case cris_reg_mode_test_op:
3499b725ae77Skettenis reg_mode_test_op (inst, inst_env);
3500b725ae77Skettenis break;
3501b725ae77Skettenis
3502b725ae77Skettenis case cris_scc_op:
3503b725ae77Skettenis scc_op (inst, inst_env);
3504b725ae77Skettenis break;
3505b725ae77Skettenis
3506b725ae77Skettenis case cris_sixteen_bit_offset_branch_op:
3507b725ae77Skettenis sixteen_bit_offset_branch_op (inst, inst_env);
3508b725ae77Skettenis break;
3509b725ae77Skettenis
3510b725ae77Skettenis case cris_three_operand_add_sub_cmp_and_or_op:
3511b725ae77Skettenis three_operand_add_sub_cmp_and_or_op (inst, inst_env);
3512b725ae77Skettenis break;
3513b725ae77Skettenis
3514b725ae77Skettenis case cris_three_operand_bound_op:
3515b725ae77Skettenis three_operand_bound_op (inst, inst_env);
3516b725ae77Skettenis break;
3517b725ae77Skettenis
3518b725ae77Skettenis case cris_two_operand_bound_op:
3519b725ae77Skettenis two_operand_bound_op (inst, inst_env);
3520b725ae77Skettenis break;
3521b725ae77Skettenis
3522b725ae77Skettenis case cris_xor_op:
3523b725ae77Skettenis xor_op (inst, inst_env);
3524b725ae77Skettenis break;
3525b725ae77Skettenis }
3526b725ae77Skettenis }
3527b725ae77Skettenis
3528b725ae77Skettenis /* This wrapper is to avoid cris_get_assembler being called before
3529b725ae77Skettenis exec_bfd has been set. */
3530b725ae77Skettenis
3531b725ae77Skettenis static int
cris_delayed_get_disassembler(bfd_vma addr,struct disassemble_info * info)3532b725ae77Skettenis cris_delayed_get_disassembler (bfd_vma addr, struct disassemble_info *info)
3533b725ae77Skettenis {
3534b725ae77Skettenis int (*print_insn) (bfd_vma addr, struct disassemble_info *info);
3535b725ae77Skettenis /* FIXME: cagney/2003-08-27: It should be possible to select a CRIS
3536b725ae77Skettenis disassembler, even when there is no BFD. Does something like
3537b725ae77Skettenis "gdb; target remote; disassmeble *0x123" work? */
3538b725ae77Skettenis gdb_assert (exec_bfd != NULL);
3539b725ae77Skettenis print_insn = cris_get_disassembler (exec_bfd);
3540b725ae77Skettenis gdb_assert (print_insn != NULL);
3541b725ae77Skettenis return print_insn (addr, info);
3542b725ae77Skettenis }
3543b725ae77Skettenis
3544b725ae77Skettenis /* Copied from <asm/elf.h>. */
3545b725ae77Skettenis typedef unsigned long elf_greg_t;
3546b725ae77Skettenis
3547b725ae77Skettenis /* Same as user_regs_struct struct in <asm/user.h>. */
3548b725ae77Skettenis typedef elf_greg_t elf_gregset_t[35];
3549b725ae77Skettenis
3550b725ae77Skettenis /* Unpack an elf_gregset_t into GDB's register cache. */
3551b725ae77Skettenis
3552b725ae77Skettenis static void
supply_gregset(elf_gregset_t * gregsetp)3553b725ae77Skettenis supply_gregset (elf_gregset_t *gregsetp)
3554b725ae77Skettenis {
3555b725ae77Skettenis int i;
3556b725ae77Skettenis elf_greg_t *regp = *gregsetp;
3557b725ae77Skettenis static char zerobuf[4] = {0};
3558b725ae77Skettenis
3559b725ae77Skettenis /* The kernel dumps all 32 registers as unsigned longs, but supply_register
3560b725ae77Skettenis knows about the actual size of each register so that's no problem. */
3561b725ae77Skettenis for (i = 0; i < NUM_GENREGS + NUM_SPECREGS; i++)
3562b725ae77Skettenis {
3563*11efff7fSkettenis regcache_raw_supply (current_regcache, i, (char *)®p[i]);
3564b725ae77Skettenis }
3565b725ae77Skettenis }
3566b725ae77Skettenis
3567b725ae77Skettenis /* Use a local version of this function to get the correct types for
3568b725ae77Skettenis regsets, until multi-arch core support is ready. */
3569b725ae77Skettenis
3570b725ae77Skettenis static void
fetch_core_registers(char * core_reg_sect,unsigned core_reg_size,int which,CORE_ADDR reg_addr)3571b725ae77Skettenis fetch_core_registers (char *core_reg_sect, unsigned core_reg_size,
3572b725ae77Skettenis int which, CORE_ADDR reg_addr)
3573b725ae77Skettenis {
3574b725ae77Skettenis elf_gregset_t gregset;
3575b725ae77Skettenis
3576b725ae77Skettenis switch (which)
3577b725ae77Skettenis {
3578b725ae77Skettenis case 0:
3579b725ae77Skettenis if (core_reg_size != sizeof (gregset))
3580b725ae77Skettenis {
3581b725ae77Skettenis warning ("wrong size gregset struct in core file");
3582b725ae77Skettenis }
3583b725ae77Skettenis else
3584b725ae77Skettenis {
3585b725ae77Skettenis memcpy (&gregset, core_reg_sect, sizeof (gregset));
3586b725ae77Skettenis supply_gregset (&gregset);
3587b725ae77Skettenis }
3588b725ae77Skettenis
3589b725ae77Skettenis default:
3590b725ae77Skettenis /* We've covered all the kinds of registers we know about here,
3591b725ae77Skettenis so this must be something we wouldn't know what to do with
3592b725ae77Skettenis anyway. Just ignore it. */
3593b725ae77Skettenis break;
3594b725ae77Skettenis }
3595b725ae77Skettenis }
3596b725ae77Skettenis
3597b725ae77Skettenis static struct core_fns cris_elf_core_fns =
3598b725ae77Skettenis {
3599b725ae77Skettenis bfd_target_elf_flavour, /* core_flavour */
3600b725ae77Skettenis default_check_format, /* check_format */
3601b725ae77Skettenis default_core_sniffer, /* core_sniffer */
3602b725ae77Skettenis fetch_core_registers, /* core_read_registers */
3603b725ae77Skettenis NULL /* next */
3604b725ae77Skettenis };
3605b725ae77Skettenis
3606b725ae77Skettenis /* Fetch (and possibly build) an appropriate link_map_offsets
3607b725ae77Skettenis structure for native GNU/Linux CRIS targets using the struct
3608b725ae77Skettenis offsets defined in link.h (but without actual reference to that
3609b725ae77Skettenis file).
3610b725ae77Skettenis
3611b725ae77Skettenis This makes it possible to access GNU/Linux CRIS shared libraries
3612b725ae77Skettenis from a GDB that was not built on an GNU/Linux CRIS host (for cross
3613b725ae77Skettenis debugging).
3614b725ae77Skettenis
3615b725ae77Skettenis See gdb/solib-svr4.h for an explanation of these fields. */
3616b725ae77Skettenis
3617b725ae77Skettenis static struct link_map_offsets *
cris_linux_svr4_fetch_link_map_offsets(void)3618b725ae77Skettenis cris_linux_svr4_fetch_link_map_offsets (void)
3619b725ae77Skettenis {
3620b725ae77Skettenis static struct link_map_offsets lmo;
3621b725ae77Skettenis static struct link_map_offsets *lmp = NULL;
3622b725ae77Skettenis
3623b725ae77Skettenis if (lmp == NULL)
3624b725ae77Skettenis {
3625b725ae77Skettenis lmp = &lmo;
3626b725ae77Skettenis
3627b725ae77Skettenis lmo.r_debug_size = 8; /* The actual size is 20 bytes, but
3628b725ae77Skettenis this is all we need. */
3629b725ae77Skettenis lmo.r_map_offset = 4;
3630b725ae77Skettenis lmo.r_map_size = 4;
3631b725ae77Skettenis
3632b725ae77Skettenis lmo.link_map_size = 20;
3633b725ae77Skettenis
3634b725ae77Skettenis lmo.l_addr_offset = 0;
3635b725ae77Skettenis lmo.l_addr_size = 4;
3636b725ae77Skettenis
3637b725ae77Skettenis lmo.l_name_offset = 4;
3638b725ae77Skettenis lmo.l_name_size = 4;
3639b725ae77Skettenis
3640b725ae77Skettenis lmo.l_next_offset = 12;
3641b725ae77Skettenis lmo.l_next_size = 4;
3642b725ae77Skettenis
3643b725ae77Skettenis lmo.l_prev_offset = 16;
3644b725ae77Skettenis lmo.l_prev_size = 4;
3645b725ae77Skettenis }
3646b725ae77Skettenis
3647b725ae77Skettenis return lmp;
3648b725ae77Skettenis }
3649b725ae77Skettenis
3650b725ae77Skettenis extern initialize_file_ftype _initialize_cris_tdep; /* -Wmissing-prototypes */
3651b725ae77Skettenis
3652b725ae77Skettenis void
_initialize_cris_tdep(void)3653b725ae77Skettenis _initialize_cris_tdep (void)
3654b725ae77Skettenis {
3655*11efff7fSkettenis static struct cmd_list_element *cris_set_cmdlist;
3656*11efff7fSkettenis static struct cmd_list_element *cris_show_cmdlist;
3657*11efff7fSkettenis
3658b725ae77Skettenis struct cmd_list_element *c;
3659b725ae77Skettenis
3660b725ae77Skettenis gdbarch_register (bfd_arch_cris, cris_gdbarch_init, cris_dump_tdep);
3661b725ae77Skettenis
3662b725ae77Skettenis /* CRIS-specific user-commands. */
3663*11efff7fSkettenis add_setshow_uinteger_cmd ("cris-version", class_support,
3664*11efff7fSkettenis &usr_cmd_cris_version,
3665*11efff7fSkettenis "Set the current CRIS version.",
3666*11efff7fSkettenis "Show the current CRIS version.",
3667*11efff7fSkettenis "Set if autodetection fails.",
3668*11efff7fSkettenis "Current CRIS version is %s.",
3669*11efff7fSkettenis set_cris_version, NULL,
3670*11efff7fSkettenis &setlist, &showlist);
3671b725ae77Skettenis
3672*11efff7fSkettenis add_setshow_boolean_cmd ("cris-dwarf2-cfi", class_support,
3673*11efff7fSkettenis &usr_cmd_cris_dwarf2_cfi,
3674*11efff7fSkettenis "Set the usage of Dwarf-2 CFI for CRIS.",
3675*11efff7fSkettenis "Show the usage of Dwarf-2 CFI for CRIS.",
3676*11efff7fSkettenis "Set to \"off\" if using gcc-cris < R59.",
3677*11efff7fSkettenis "Usage of Dwarf-2 CFI for CRIS is %d.",
3678*11efff7fSkettenis set_cris_dwarf2_cfi, NULL,
3679*11efff7fSkettenis &setlist, &showlist);
3680b725ae77Skettenis
3681*11efff7fSkettenis deprecated_add_core_fns (&cris_elf_core_fns);
3682b725ae77Skettenis }
3683b725ae77Skettenis
3684b725ae77Skettenis /* Prints out all target specific values. */
3685b725ae77Skettenis
3686b725ae77Skettenis static void
cris_dump_tdep(struct gdbarch * gdbarch,struct ui_file * file)3687b725ae77Skettenis cris_dump_tdep (struct gdbarch *gdbarch, struct ui_file *file)
3688b725ae77Skettenis {
3689b725ae77Skettenis struct gdbarch_tdep *tdep = gdbarch_tdep (current_gdbarch);
3690b725ae77Skettenis if (tdep != NULL)
3691b725ae77Skettenis {
3692b725ae77Skettenis fprintf_unfiltered (file, "cris_dump_tdep: tdep->cris_version = %i\n",
3693b725ae77Skettenis tdep->cris_version);
3694*11efff7fSkettenis fprintf_unfiltered (file, "cris_dump_tdep: tdep->cris_dwarf2_cfi = %i\n",
3695*11efff7fSkettenis tdep->cris_dwarf2_cfi);
3696b725ae77Skettenis }
3697b725ae77Skettenis }
3698b725ae77Skettenis
3699b725ae77Skettenis static void
set_cris_version(char * ignore_args,int from_tty,struct cmd_list_element * c)3700*11efff7fSkettenis set_cris_version (char *ignore_args, int from_tty,
3701b725ae77Skettenis struct cmd_list_element *c)
3702b725ae77Skettenis {
3703b725ae77Skettenis struct gdbarch_info info;
3704b725ae77Skettenis
3705b725ae77Skettenis usr_cmd_cris_version_valid = 1;
3706b725ae77Skettenis
3707b725ae77Skettenis /* Update the current architecture, if needed. */
3708b725ae77Skettenis gdbarch_info_init (&info);
3709b725ae77Skettenis if (!gdbarch_update_p (info))
3710*11efff7fSkettenis internal_error (__FILE__, __LINE__,
3711*11efff7fSkettenis "cris_gdbarch_update: failed to update architecture.");
3712b725ae77Skettenis }
3713b725ae77Skettenis
3714b725ae77Skettenis static void
set_cris_dwarf2_cfi(char * ignore_args,int from_tty,struct cmd_list_element * c)3715*11efff7fSkettenis set_cris_dwarf2_cfi (char *ignore_args, int from_tty,
3716b725ae77Skettenis struct cmd_list_element *c)
3717b725ae77Skettenis {
3718b725ae77Skettenis struct gdbarch_info info;
3719b725ae77Skettenis
3720b725ae77Skettenis /* Update the current architecture, if needed. */
3721b725ae77Skettenis gdbarch_info_init (&info);
3722b725ae77Skettenis if (!gdbarch_update_p (info))
3723*11efff7fSkettenis internal_error (__FILE__, __LINE__,
3724*11efff7fSkettenis "cris_gdbarch_update: failed to update architecture.");
3725b725ae77Skettenis }
3726b725ae77Skettenis
3727b725ae77Skettenis static struct gdbarch *
cris_gdbarch_init(struct gdbarch_info info,struct gdbarch_list * arches)3728b725ae77Skettenis cris_gdbarch_init (struct gdbarch_info info, struct gdbarch_list *arches)
3729b725ae77Skettenis {
3730b725ae77Skettenis struct gdbarch *gdbarch;
3731b725ae77Skettenis struct gdbarch_tdep *tdep;
3732b725ae77Skettenis int cris_version;
3733b725ae77Skettenis
3734b725ae77Skettenis if (usr_cmd_cris_version_valid)
3735b725ae77Skettenis {
3736b725ae77Skettenis /* Trust the user's CRIS version setting. */
3737b725ae77Skettenis cris_version = usr_cmd_cris_version;
3738b725ae77Skettenis }
3739b725ae77Skettenis else
3740b725ae77Skettenis {
3741b725ae77Skettenis /* Assume it's CRIS version 10. */
3742b725ae77Skettenis cris_version = 10;
3743b725ae77Skettenis }
3744b725ae77Skettenis
3745b725ae77Skettenis /* Make the current settings visible to the user. */
3746b725ae77Skettenis usr_cmd_cris_version = cris_version;
3747b725ae77Skettenis
3748b725ae77Skettenis /* Find a candidate among the list of pre-declared architectures. Both
3749b725ae77Skettenis CRIS version and ABI must match. */
3750b725ae77Skettenis for (arches = gdbarch_list_lookup_by_info (arches, &info);
3751b725ae77Skettenis arches != NULL;
3752b725ae77Skettenis arches = gdbarch_list_lookup_by_info (arches->next, &info))
3753b725ae77Skettenis {
3754*11efff7fSkettenis if ((gdbarch_tdep (arches->gdbarch)->cris_version
3755*11efff7fSkettenis == usr_cmd_cris_version)
3756*11efff7fSkettenis && (gdbarch_tdep (arches->gdbarch)->cris_dwarf2_cfi
3757*11efff7fSkettenis == usr_cmd_cris_dwarf2_cfi))
3758b725ae77Skettenis return arches->gdbarch;
3759b725ae77Skettenis }
3760b725ae77Skettenis
3761b725ae77Skettenis /* No matching architecture was found. Create a new one. */
3762b725ae77Skettenis tdep = (struct gdbarch_tdep *) xmalloc (sizeof (struct gdbarch_tdep));
3763b725ae77Skettenis gdbarch = gdbarch_alloc (&info, tdep);
3764b725ae77Skettenis
3765*11efff7fSkettenis tdep->cris_version = usr_cmd_cris_version;
3766*11efff7fSkettenis tdep->cris_dwarf2_cfi = usr_cmd_cris_dwarf2_cfi;
3767b725ae77Skettenis
3768b725ae77Skettenis /* INIT shall ensure that the INFO.BYTE_ORDER is non-zero. */
3769b725ae77Skettenis switch (info.byte_order)
3770b725ae77Skettenis {
3771b725ae77Skettenis case BFD_ENDIAN_LITTLE:
3772b725ae77Skettenis /* Ok. */
3773b725ae77Skettenis break;
3774b725ae77Skettenis
3775b725ae77Skettenis case BFD_ENDIAN_BIG:
3776b725ae77Skettenis internal_error (__FILE__, __LINE__, "cris_gdbarch_init: big endian byte order in info");
3777b725ae77Skettenis break;
3778b725ae77Skettenis
3779b725ae77Skettenis default:
3780b725ae77Skettenis internal_error (__FILE__, __LINE__, "cris_gdbarch_init: unknown byte order in info");
3781b725ae77Skettenis }
3782b725ae77Skettenis
3783b725ae77Skettenis set_gdbarch_return_value (gdbarch, cris_return_value);
3784b725ae77Skettenis set_gdbarch_deprecated_reg_struct_has_addr (gdbarch,
3785b725ae77Skettenis cris_reg_struct_has_addr);
3786*11efff7fSkettenis set_gdbarch_deprecated_use_struct_convention (gdbarch, always_use_struct_convention);
3787b725ae77Skettenis
3788b725ae77Skettenis /* There are 32 registers (some of which may not be implemented). */
3789b725ae77Skettenis set_gdbarch_num_regs (gdbarch, 32);
3790b725ae77Skettenis set_gdbarch_sp_regnum (gdbarch, 14);
3791b725ae77Skettenis set_gdbarch_pc_regnum (gdbarch, 15);
3792b725ae77Skettenis set_gdbarch_register_name (gdbarch, cris_register_name);
3793b725ae77Skettenis
3794b725ae77Skettenis set_gdbarch_double_bit (gdbarch, 64);
3795b725ae77Skettenis /* The default definition of a long double is 2 * TARGET_DOUBLE_BIT,
3796b725ae77Skettenis which means we have to set this explicitly. */
3797b725ae77Skettenis set_gdbarch_long_double_bit (gdbarch, 64);
3798b725ae77Skettenis set_gdbarch_cannot_store_register (gdbarch, cris_cannot_store_register);
3799b725ae77Skettenis set_gdbarch_cannot_fetch_register (gdbarch, cris_cannot_fetch_register);
3800b725ae77Skettenis
3801b725ae77Skettenis /* The total amount of space needed to store (in an array called registers)
3802b725ae77Skettenis GDB's copy of the machine's register state. Note: We can not use
3803b725ae77Skettenis cris_register_size at this point, since it relies on current_gdbarch
3804b725ae77Skettenis being set. */
3805b725ae77Skettenis switch (tdep->cris_version)
3806b725ae77Skettenis {
3807b725ae77Skettenis case 0:
3808b725ae77Skettenis case 1:
3809b725ae77Skettenis case 2:
3810b725ae77Skettenis case 3:
3811b725ae77Skettenis case 8:
3812b725ae77Skettenis case 9:
3813*11efff7fSkettenis /* Old versions; not supported. */
3814*11efff7fSkettenis internal_error (__FILE__, __LINE__,
3815*11efff7fSkettenis "cris_gdbarch_init: unsupported CRIS version");
3816b725ae77Skettenis break;
3817b725ae77Skettenis
3818b725ae77Skettenis case 10:
3819b725ae77Skettenis case 11:
3820b725ae77Skettenis /* CRIS v10 and v11, a.k.a. ETRAX 100LX. In addition to ETRAX 100,
3821b725ae77Skettenis P7 (32 bits), and P15 (32 bits) have been implemented. */
3822b725ae77Skettenis break;
3823b725ae77Skettenis
3824b725ae77Skettenis default:
3825b725ae77Skettenis internal_error (__FILE__, __LINE__, "cris_gdbarch_init: unknown CRIS version");
3826b725ae77Skettenis }
3827b725ae77Skettenis
3828*11efff7fSkettenis set_gdbarch_register_type (gdbarch, cris_register_type);
3829b725ae77Skettenis
3830b725ae77Skettenis /* Dummy frame functions. */
3831b725ae77Skettenis set_gdbarch_push_dummy_code (gdbarch, cris_push_dummy_code);
3832b725ae77Skettenis set_gdbarch_push_dummy_call (gdbarch, cris_push_dummy_call);
3833b725ae77Skettenis set_gdbarch_frame_align (gdbarch, cris_frame_align);
3834b725ae77Skettenis
3835b725ae77Skettenis set_gdbarch_software_single_step (gdbarch, cris_software_single_step);
3836b725ae77Skettenis set_gdbarch_skip_prologue (gdbarch, cris_skip_prologue);
3837b725ae77Skettenis
3838b725ae77Skettenis /* The stack grows downward. */
3839b725ae77Skettenis set_gdbarch_inner_than (gdbarch, core_addr_lessthan);
3840b725ae77Skettenis
3841b725ae77Skettenis set_gdbarch_breakpoint_from_pc (gdbarch, cris_breakpoint_from_pc);
3842b725ae77Skettenis
3843b725ae77Skettenis set_gdbarch_unwind_pc (gdbarch, cris_unwind_pc);
3844b725ae77Skettenis set_gdbarch_unwind_sp (gdbarch, cris_unwind_sp);
3845b725ae77Skettenis set_gdbarch_unwind_dummy_id (gdbarch, cris_unwind_dummy_id);
3846b725ae77Skettenis
3847*11efff7fSkettenis if (tdep->cris_dwarf2_cfi == 1)
3848*11efff7fSkettenis {
3849*11efff7fSkettenis /* Hook in the Dwarf-2 frame sniffer. */
3850*11efff7fSkettenis set_gdbarch_dwarf2_reg_to_regnum (gdbarch, cris_dwarf2_reg_to_regnum);
3851*11efff7fSkettenis dwarf2_frame_set_init_reg (gdbarch, cris_dwarf2_frame_init_reg);
3852b725ae77Skettenis frame_unwind_append_sniffer (gdbarch, dwarf2_frame_sniffer);
3853*11efff7fSkettenis }
3854*11efff7fSkettenis
3855*11efff7fSkettenis frame_unwind_append_sniffer (gdbarch, cris_sigtramp_frame_sniffer);
3856*11efff7fSkettenis
3857b725ae77Skettenis frame_unwind_append_sniffer (gdbarch, cris_frame_sniffer);
3858b725ae77Skettenis frame_base_set_default (gdbarch, &cris_frame_base);
3859b725ae77Skettenis
3860b725ae77Skettenis /* Use target_specific function to define link map offsets. */
3861b725ae77Skettenis set_solib_svr4_fetch_link_map_offsets
3862b725ae77Skettenis (gdbarch, cris_linux_svr4_fetch_link_map_offsets);
3863b725ae77Skettenis
3864b725ae77Skettenis /* FIXME: cagney/2003-08-27: It should be possible to select a CRIS
3865b725ae77Skettenis disassembler, even when there is no BFD. Does something like
3866b725ae77Skettenis "gdb; target remote; disassmeble *0x123" work? */
3867b725ae77Skettenis set_gdbarch_print_insn (gdbarch, cris_delayed_get_disassembler);
3868b725ae77Skettenis
3869b725ae77Skettenis return gdbarch;
3870b725ae77Skettenis }
3871