1b725ae77Skettenis /* Target-dependent code for Motorola 68HC11 & 68HC12
2b725ae77Skettenis
3b725ae77Skettenis Copyright 1999, 2000, 2001, 2002, 2003, 2004 Free Software
4b725ae77Skettenis Foundation, Inc.
5b725ae77Skettenis
6b725ae77Skettenis Contributed by Stephane Carrez, stcarrez@nerim.fr
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
25b725ae77Skettenis #include "defs.h"
26b725ae77Skettenis #include "frame.h"
27b725ae77Skettenis #include "frame-unwind.h"
28b725ae77Skettenis #include "frame-base.h"
29b725ae77Skettenis #include "dwarf2-frame.h"
30b725ae77Skettenis #include "trad-frame.h"
31b725ae77Skettenis #include "symtab.h"
32b725ae77Skettenis #include "gdbtypes.h"
33b725ae77Skettenis #include "gdbcmd.h"
34b725ae77Skettenis #include "gdbcore.h"
35b725ae77Skettenis #include "gdb_string.h"
36b725ae77Skettenis #include "value.h"
37b725ae77Skettenis #include "inferior.h"
38b725ae77Skettenis #include "dis-asm.h"
39b725ae77Skettenis #include "symfile.h"
40b725ae77Skettenis #include "objfiles.h"
41b725ae77Skettenis #include "arch-utils.h"
42b725ae77Skettenis #include "regcache.h"
43b725ae77Skettenis #include "reggroups.h"
44b725ae77Skettenis
45b725ae77Skettenis #include "target.h"
46b725ae77Skettenis #include "opcode/m68hc11.h"
47b725ae77Skettenis #include "elf/m68hc11.h"
48b725ae77Skettenis #include "elf-bfd.h"
49b725ae77Skettenis
50b725ae77Skettenis /* Macros for setting and testing a bit in a minimal symbol.
51b725ae77Skettenis For 68HC11/68HC12 we have two flags that tell which return
52b725ae77Skettenis type the function is using. This is used for prologue and frame
53b725ae77Skettenis analysis to compute correct stack frame layout.
54b725ae77Skettenis
55b725ae77Skettenis The MSB of the minimal symbol's "info" field is used for this purpose.
56b725ae77Skettenis
57b725ae77Skettenis MSYMBOL_SET_RTC Actually sets the "RTC" bit.
58b725ae77Skettenis MSYMBOL_SET_RTI Actually sets the "RTI" bit.
59b725ae77Skettenis MSYMBOL_IS_RTC Tests the "RTC" bit in a minimal symbol.
60b725ae77Skettenis MSYMBOL_IS_RTI Tests the "RTC" bit in a minimal symbol. */
61b725ae77Skettenis
62b725ae77Skettenis #define MSYMBOL_SET_RTC(msym) \
63b725ae77Skettenis MSYMBOL_INFO (msym) = (char *) (((long) MSYMBOL_INFO (msym)) \
64b725ae77Skettenis | 0x80000000)
65b725ae77Skettenis
66b725ae77Skettenis #define MSYMBOL_SET_RTI(msym) \
67b725ae77Skettenis MSYMBOL_INFO (msym) = (char *) (((long) MSYMBOL_INFO (msym)) \
68b725ae77Skettenis | 0x40000000)
69b725ae77Skettenis
70b725ae77Skettenis #define MSYMBOL_IS_RTC(msym) \
71b725ae77Skettenis (((long) MSYMBOL_INFO (msym) & 0x80000000) != 0)
72b725ae77Skettenis
73b725ae77Skettenis #define MSYMBOL_IS_RTI(msym) \
74b725ae77Skettenis (((long) MSYMBOL_INFO (msym) & 0x40000000) != 0)
75b725ae77Skettenis
76b725ae77Skettenis enum insn_return_kind {
77b725ae77Skettenis RETURN_RTS,
78b725ae77Skettenis RETURN_RTC,
79b725ae77Skettenis RETURN_RTI
80b725ae77Skettenis };
81b725ae77Skettenis
82b725ae77Skettenis
83b725ae77Skettenis /* Register numbers of various important registers.
84b725ae77Skettenis Note that some of these values are "real" register numbers,
85b725ae77Skettenis and correspond to the general registers of the machine,
86b725ae77Skettenis and some are "phony" register numbers which are too large
87b725ae77Skettenis to be actual register numbers as far as the user is concerned
88b725ae77Skettenis but do serve to get the desired values when passed to read_register. */
89b725ae77Skettenis
90b725ae77Skettenis #define HARD_X_REGNUM 0
91b725ae77Skettenis #define HARD_D_REGNUM 1
92b725ae77Skettenis #define HARD_Y_REGNUM 2
93b725ae77Skettenis #define HARD_SP_REGNUM 3
94b725ae77Skettenis #define HARD_PC_REGNUM 4
95b725ae77Skettenis
96b725ae77Skettenis #define HARD_A_REGNUM 5
97b725ae77Skettenis #define HARD_B_REGNUM 6
98b725ae77Skettenis #define HARD_CCR_REGNUM 7
99b725ae77Skettenis
100b725ae77Skettenis /* 68HC12 page number register.
101b725ae77Skettenis Note: to keep a compatibility with gcc register naming, we must
102b725ae77Skettenis not have to rename FP and other soft registers. The page register
103b725ae77Skettenis is a real hard register and must therefore be counted by NUM_REGS.
104b725ae77Skettenis For this it has the same number as Z register (which is not used). */
105b725ae77Skettenis #define HARD_PAGE_REGNUM 8
106b725ae77Skettenis #define M68HC11_LAST_HARD_REG (HARD_PAGE_REGNUM)
107b725ae77Skettenis
108b725ae77Skettenis /* Z is replaced by X or Y by gcc during machine reorg.
109b725ae77Skettenis ??? There is no way to get it and even know whether
110b725ae77Skettenis it's in X or Y or in ZS. */
111b725ae77Skettenis #define SOFT_Z_REGNUM 8
112b725ae77Skettenis
113b725ae77Skettenis /* Soft registers. These registers are special. There are treated
114b725ae77Skettenis like normal hard registers by gcc and gdb (ie, within dwarf2 info).
115b725ae77Skettenis They are physically located in memory. */
116b725ae77Skettenis #define SOFT_FP_REGNUM 9
117b725ae77Skettenis #define SOFT_TMP_REGNUM 10
118b725ae77Skettenis #define SOFT_ZS_REGNUM 11
119b725ae77Skettenis #define SOFT_XY_REGNUM 12
120b725ae77Skettenis #define SOFT_UNUSED_REGNUM 13
121b725ae77Skettenis #define SOFT_D1_REGNUM 14
122b725ae77Skettenis #define SOFT_D32_REGNUM (SOFT_D1_REGNUM+31)
123b725ae77Skettenis #define M68HC11_MAX_SOFT_REGS 32
124b725ae77Skettenis
125b725ae77Skettenis #define M68HC11_NUM_REGS (8)
126b725ae77Skettenis #define M68HC11_NUM_PSEUDO_REGS (M68HC11_MAX_SOFT_REGS+5)
127b725ae77Skettenis #define M68HC11_ALL_REGS (M68HC11_NUM_REGS+M68HC11_NUM_PSEUDO_REGS)
128b725ae77Skettenis
129b725ae77Skettenis #define M68HC11_REG_SIZE (2)
130b725ae77Skettenis
131b725ae77Skettenis #define M68HC12_NUM_REGS (9)
132b725ae77Skettenis #define M68HC12_NUM_PSEUDO_REGS ((M68HC11_MAX_SOFT_REGS+5)+1-1)
133b725ae77Skettenis #define M68HC12_HARD_PC_REGNUM (SOFT_D32_REGNUM+1)
134b725ae77Skettenis
135b725ae77Skettenis struct insn_sequence;
136b725ae77Skettenis struct gdbarch_tdep
137b725ae77Skettenis {
138b725ae77Skettenis /* Stack pointer correction value. For 68hc11, the stack pointer points
139b725ae77Skettenis to the next push location. An offset of 1 must be applied to obtain
140b725ae77Skettenis the address where the last value is saved. For 68hc12, the stack
141b725ae77Skettenis pointer points to the last value pushed. No offset is necessary. */
142b725ae77Skettenis int stack_correction;
143b725ae77Skettenis
144b725ae77Skettenis /* Description of instructions in the prologue. */
145b725ae77Skettenis struct insn_sequence *prologue;
146b725ae77Skettenis
147b725ae77Skettenis /* True if the page memory bank register is available
148b725ae77Skettenis and must be used. */
149b725ae77Skettenis int use_page_register;
150b725ae77Skettenis
151b725ae77Skettenis /* ELF flags for ABI. */
152b725ae77Skettenis int elf_flags;
153b725ae77Skettenis };
154b725ae77Skettenis
155b725ae77Skettenis #define M6811_TDEP gdbarch_tdep (current_gdbarch)
156b725ae77Skettenis #define STACK_CORRECTION (M6811_TDEP->stack_correction)
157b725ae77Skettenis #define USE_PAGE_REGISTER (M6811_TDEP->use_page_register)
158b725ae77Skettenis
159b725ae77Skettenis struct m68hc11_unwind_cache
160b725ae77Skettenis {
161b725ae77Skettenis /* The previous frame's inner most stack address. Used as this
162b725ae77Skettenis frame ID's stack_addr. */
163b725ae77Skettenis CORE_ADDR prev_sp;
164b725ae77Skettenis /* The frame's base, optionally used by the high-level debug info. */
165b725ae77Skettenis CORE_ADDR base;
166b725ae77Skettenis CORE_ADDR pc;
167b725ae77Skettenis int size;
168b725ae77Skettenis int prologue_type;
169b725ae77Skettenis CORE_ADDR return_pc;
170b725ae77Skettenis CORE_ADDR sp_offset;
171b725ae77Skettenis int frameless;
172b725ae77Skettenis enum insn_return_kind return_kind;
173b725ae77Skettenis
174b725ae77Skettenis /* Table indicating the location of each and every register. */
175b725ae77Skettenis struct trad_frame_saved_reg *saved_regs;
176b725ae77Skettenis };
177b725ae77Skettenis
178b725ae77Skettenis /* Table of registers for 68HC11. This includes the hard registers
179b725ae77Skettenis and the soft registers used by GCC. */
180b725ae77Skettenis static char *
181b725ae77Skettenis m68hc11_register_names[] =
182b725ae77Skettenis {
183b725ae77Skettenis "x", "d", "y", "sp", "pc", "a", "b",
184b725ae77Skettenis "ccr", "page", "frame","tmp", "zs", "xy", 0,
185b725ae77Skettenis "d1", "d2", "d3", "d4", "d5", "d6", "d7",
186b725ae77Skettenis "d8", "d9", "d10", "d11", "d12", "d13", "d14",
187b725ae77Skettenis "d15", "d16", "d17", "d18", "d19", "d20", "d21",
188b725ae77Skettenis "d22", "d23", "d24", "d25", "d26", "d27", "d28",
189b725ae77Skettenis "d29", "d30", "d31", "d32"
190b725ae77Skettenis };
191b725ae77Skettenis
192b725ae77Skettenis struct m68hc11_soft_reg
193b725ae77Skettenis {
194b725ae77Skettenis const char *name;
195b725ae77Skettenis CORE_ADDR addr;
196b725ae77Skettenis };
197b725ae77Skettenis
198b725ae77Skettenis static struct m68hc11_soft_reg soft_regs[M68HC11_ALL_REGS];
199b725ae77Skettenis
200b725ae77Skettenis #define M68HC11_FP_ADDR soft_regs[SOFT_FP_REGNUM].addr
201b725ae77Skettenis
202b725ae77Skettenis static int soft_min_addr;
203b725ae77Skettenis static int soft_max_addr;
204b725ae77Skettenis static int soft_reg_initialized = 0;
205b725ae77Skettenis
206b725ae77Skettenis /* Look in the symbol table for the address of a pseudo register
207b725ae77Skettenis in memory. If we don't find it, pretend the register is not used
208b725ae77Skettenis and not available. */
209b725ae77Skettenis static void
m68hc11_get_register_info(struct m68hc11_soft_reg * reg,const char * name)210b725ae77Skettenis m68hc11_get_register_info (struct m68hc11_soft_reg *reg, const char *name)
211b725ae77Skettenis {
212b725ae77Skettenis struct minimal_symbol *msymbol;
213b725ae77Skettenis
214b725ae77Skettenis msymbol = lookup_minimal_symbol (name, NULL, NULL);
215b725ae77Skettenis if (msymbol)
216b725ae77Skettenis {
217b725ae77Skettenis reg->addr = SYMBOL_VALUE_ADDRESS (msymbol);
218b725ae77Skettenis reg->name = xstrdup (name);
219b725ae77Skettenis
220b725ae77Skettenis /* Keep track of the address range for soft registers. */
221b725ae77Skettenis if (reg->addr < (CORE_ADDR) soft_min_addr)
222b725ae77Skettenis soft_min_addr = reg->addr;
223b725ae77Skettenis if (reg->addr > (CORE_ADDR) soft_max_addr)
224b725ae77Skettenis soft_max_addr = reg->addr;
225b725ae77Skettenis }
226b725ae77Skettenis else
227b725ae77Skettenis {
228b725ae77Skettenis reg->name = 0;
229b725ae77Skettenis reg->addr = 0;
230b725ae77Skettenis }
231b725ae77Skettenis }
232b725ae77Skettenis
233b725ae77Skettenis /* Initialize the table of soft register addresses according
234b725ae77Skettenis to the symbol table. */
235b725ae77Skettenis static void
m68hc11_initialize_register_info(void)236b725ae77Skettenis m68hc11_initialize_register_info (void)
237b725ae77Skettenis {
238b725ae77Skettenis int i;
239b725ae77Skettenis
240b725ae77Skettenis if (soft_reg_initialized)
241b725ae77Skettenis return;
242b725ae77Skettenis
243b725ae77Skettenis soft_min_addr = INT_MAX;
244b725ae77Skettenis soft_max_addr = 0;
245b725ae77Skettenis for (i = 0; i < M68HC11_ALL_REGS; i++)
246b725ae77Skettenis {
247b725ae77Skettenis soft_regs[i].name = 0;
248b725ae77Skettenis }
249b725ae77Skettenis
250b725ae77Skettenis m68hc11_get_register_info (&soft_regs[SOFT_FP_REGNUM], "_.frame");
251b725ae77Skettenis m68hc11_get_register_info (&soft_regs[SOFT_TMP_REGNUM], "_.tmp");
252b725ae77Skettenis m68hc11_get_register_info (&soft_regs[SOFT_ZS_REGNUM], "_.z");
253b725ae77Skettenis soft_regs[SOFT_Z_REGNUM] = soft_regs[SOFT_ZS_REGNUM];
254b725ae77Skettenis m68hc11_get_register_info (&soft_regs[SOFT_XY_REGNUM], "_.xy");
255b725ae77Skettenis
256b725ae77Skettenis for (i = SOFT_D1_REGNUM; i < M68HC11_MAX_SOFT_REGS; i++)
257b725ae77Skettenis {
258b725ae77Skettenis char buf[10];
259b725ae77Skettenis
260b725ae77Skettenis sprintf (buf, "_.d%d", i - SOFT_D1_REGNUM + 1);
261b725ae77Skettenis m68hc11_get_register_info (&soft_regs[i], buf);
262b725ae77Skettenis }
263b725ae77Skettenis
264b725ae77Skettenis if (soft_regs[SOFT_FP_REGNUM].name == 0)
265b725ae77Skettenis {
266b725ae77Skettenis warning ("No frame soft register found in the symbol table.\n");
267b725ae77Skettenis warning ("Stack backtrace will not work.\n");
268b725ae77Skettenis }
269b725ae77Skettenis soft_reg_initialized = 1;
270b725ae77Skettenis }
271b725ae77Skettenis
272b725ae77Skettenis /* Given an address in memory, return the soft register number if
273b725ae77Skettenis that address corresponds to a soft register. Returns -1 if not. */
274b725ae77Skettenis static int
m68hc11_which_soft_register(CORE_ADDR addr)275b725ae77Skettenis m68hc11_which_soft_register (CORE_ADDR addr)
276b725ae77Skettenis {
277b725ae77Skettenis int i;
278b725ae77Skettenis
279b725ae77Skettenis if (addr < soft_min_addr || addr > soft_max_addr)
280b725ae77Skettenis return -1;
281b725ae77Skettenis
282b725ae77Skettenis for (i = SOFT_FP_REGNUM; i < M68HC11_ALL_REGS; i++)
283b725ae77Skettenis {
284b725ae77Skettenis if (soft_regs[i].name && soft_regs[i].addr == addr)
285b725ae77Skettenis return i;
286b725ae77Skettenis }
287b725ae77Skettenis return -1;
288b725ae77Skettenis }
289b725ae77Skettenis
290b725ae77Skettenis /* Fetch a pseudo register. The 68hc11 soft registers are treated like
291b725ae77Skettenis pseudo registers. They are located in memory. Translate the register
292b725ae77Skettenis fetch into a memory read. */
293b725ae77Skettenis static void
m68hc11_pseudo_register_read(struct gdbarch * gdbarch,struct regcache * regcache,int regno,void * buf)294b725ae77Skettenis m68hc11_pseudo_register_read (struct gdbarch *gdbarch,
295b725ae77Skettenis struct regcache *regcache,
296b725ae77Skettenis int regno, void *buf)
297b725ae77Skettenis {
298b725ae77Skettenis /* The PC is a pseudo reg only for 68HC12 with the memory bank
299b725ae77Skettenis addressing mode. */
300b725ae77Skettenis if (regno == M68HC12_HARD_PC_REGNUM)
301b725ae77Skettenis {
302b725ae77Skettenis ULONGEST pc;
303b725ae77Skettenis const int regsize = TYPE_LENGTH (builtin_type_uint32);
304b725ae77Skettenis
305b725ae77Skettenis regcache_cooked_read_unsigned (regcache, HARD_PC_REGNUM, &pc);
306b725ae77Skettenis if (pc >= 0x8000 && pc < 0xc000)
307b725ae77Skettenis {
308b725ae77Skettenis ULONGEST page;
309b725ae77Skettenis
310b725ae77Skettenis regcache_cooked_read_unsigned (regcache, HARD_PAGE_REGNUM, &page);
311b725ae77Skettenis pc -= 0x8000;
312b725ae77Skettenis pc += (page << 14);
313b725ae77Skettenis pc += 0x1000000;
314b725ae77Skettenis }
315b725ae77Skettenis store_unsigned_integer (buf, regsize, pc);
316b725ae77Skettenis return;
317b725ae77Skettenis }
318b725ae77Skettenis
319b725ae77Skettenis m68hc11_initialize_register_info ();
320b725ae77Skettenis
321b725ae77Skettenis /* Fetch a soft register: translate into a memory read. */
322b725ae77Skettenis if (soft_regs[regno].name)
323b725ae77Skettenis {
324b725ae77Skettenis target_read_memory (soft_regs[regno].addr, buf, 2);
325b725ae77Skettenis }
326b725ae77Skettenis else
327b725ae77Skettenis {
328b725ae77Skettenis memset (buf, 0, 2);
329b725ae77Skettenis }
330b725ae77Skettenis }
331b725ae77Skettenis
332b725ae77Skettenis /* Store a pseudo register. Translate the register store
333b725ae77Skettenis into a memory write. */
334b725ae77Skettenis static void
m68hc11_pseudo_register_write(struct gdbarch * gdbarch,struct regcache * regcache,int regno,const void * buf)335b725ae77Skettenis m68hc11_pseudo_register_write (struct gdbarch *gdbarch,
336b725ae77Skettenis struct regcache *regcache,
337b725ae77Skettenis int regno, const void *buf)
338b725ae77Skettenis {
339b725ae77Skettenis /* The PC is a pseudo reg only for 68HC12 with the memory bank
340b725ae77Skettenis addressing mode. */
341b725ae77Skettenis if (regno == M68HC12_HARD_PC_REGNUM)
342b725ae77Skettenis {
343b725ae77Skettenis const int regsize = TYPE_LENGTH (builtin_type_uint32);
344b725ae77Skettenis char *tmp = alloca (regsize);
345b725ae77Skettenis CORE_ADDR pc;
346b725ae77Skettenis
347b725ae77Skettenis memcpy (tmp, buf, regsize);
348b725ae77Skettenis pc = extract_unsigned_integer (tmp, regsize);
349b725ae77Skettenis if (pc >= 0x1000000)
350b725ae77Skettenis {
351b725ae77Skettenis pc -= 0x1000000;
352b725ae77Skettenis regcache_cooked_write_unsigned (regcache, HARD_PAGE_REGNUM,
353b725ae77Skettenis (pc >> 14) & 0x0ff);
354b725ae77Skettenis pc &= 0x03fff;
355b725ae77Skettenis regcache_cooked_write_unsigned (regcache, HARD_PC_REGNUM,
356b725ae77Skettenis pc + 0x8000);
357b725ae77Skettenis }
358b725ae77Skettenis else
359b725ae77Skettenis regcache_cooked_write_unsigned (regcache, HARD_PC_REGNUM, pc);
360b725ae77Skettenis return;
361b725ae77Skettenis }
362b725ae77Skettenis
363b725ae77Skettenis m68hc11_initialize_register_info ();
364b725ae77Skettenis
365b725ae77Skettenis /* Store a soft register: translate into a memory write. */
366b725ae77Skettenis if (soft_regs[regno].name)
367b725ae77Skettenis {
368b725ae77Skettenis const int regsize = 2;
369b725ae77Skettenis char *tmp = alloca (regsize);
370b725ae77Skettenis memcpy (tmp, buf, regsize);
371b725ae77Skettenis target_write_memory (soft_regs[regno].addr, tmp, regsize);
372b725ae77Skettenis }
373b725ae77Skettenis }
374b725ae77Skettenis
375b725ae77Skettenis static const char *
m68hc11_register_name(int reg_nr)376b725ae77Skettenis m68hc11_register_name (int reg_nr)
377b725ae77Skettenis {
378b725ae77Skettenis if (reg_nr == M68HC12_HARD_PC_REGNUM && USE_PAGE_REGISTER)
379b725ae77Skettenis return "pc";
380b725ae77Skettenis if (reg_nr == HARD_PC_REGNUM && USE_PAGE_REGISTER)
381b725ae77Skettenis return "ppc";
382b725ae77Skettenis
383b725ae77Skettenis if (reg_nr < 0)
384b725ae77Skettenis return NULL;
385b725ae77Skettenis if (reg_nr >= M68HC11_ALL_REGS)
386b725ae77Skettenis return NULL;
387b725ae77Skettenis
388b725ae77Skettenis m68hc11_initialize_register_info ();
389b725ae77Skettenis
390b725ae77Skettenis /* If we don't know the address of a soft register, pretend it
391b725ae77Skettenis does not exist. */
392b725ae77Skettenis if (reg_nr > M68HC11_LAST_HARD_REG && soft_regs[reg_nr].name == 0)
393b725ae77Skettenis return NULL;
394b725ae77Skettenis return m68hc11_register_names[reg_nr];
395b725ae77Skettenis }
396b725ae77Skettenis
397b725ae77Skettenis static const unsigned char *
m68hc11_breakpoint_from_pc(CORE_ADDR * pcptr,int * lenptr)398b725ae77Skettenis m68hc11_breakpoint_from_pc (CORE_ADDR *pcptr, int *lenptr)
399b725ae77Skettenis {
400b725ae77Skettenis static unsigned char breakpoint[] = {0x0};
401b725ae77Skettenis
402b725ae77Skettenis *lenptr = sizeof (breakpoint);
403b725ae77Skettenis return breakpoint;
404b725ae77Skettenis }
405b725ae77Skettenis
406b725ae77Skettenis
407b725ae77Skettenis /* 68HC11 & 68HC12 prologue analysis.
408b725ae77Skettenis
409b725ae77Skettenis */
410b725ae77Skettenis #define MAX_CODES 12
411b725ae77Skettenis
412b725ae77Skettenis /* 68HC11 opcodes. */
413b725ae77Skettenis #undef M6811_OP_PAGE2
414b725ae77Skettenis #define M6811_OP_PAGE2 (0x18)
415b725ae77Skettenis #define M6811_OP_LDX (0xde)
416b725ae77Skettenis #define M6811_OP_LDX_EXT (0xfe)
417b725ae77Skettenis #define M6811_OP_PSHX (0x3c)
418b725ae77Skettenis #define M6811_OP_STS (0x9f)
419b725ae77Skettenis #define M6811_OP_STS_EXT (0xbf)
420b725ae77Skettenis #define M6811_OP_TSX (0x30)
421b725ae77Skettenis #define M6811_OP_XGDX (0x8f)
422b725ae77Skettenis #define M6811_OP_ADDD (0xc3)
423b725ae77Skettenis #define M6811_OP_TXS (0x35)
424b725ae77Skettenis #define M6811_OP_DES (0x34)
425b725ae77Skettenis
426b725ae77Skettenis /* 68HC12 opcodes. */
427b725ae77Skettenis #define M6812_OP_PAGE2 (0x18)
428b725ae77Skettenis #define M6812_OP_MOVW (0x01)
429b725ae77Skettenis #define M6812_PB_PSHW (0xae)
430b725ae77Skettenis #define M6812_OP_STS (0x5f)
431b725ae77Skettenis #define M6812_OP_STS_EXT (0x7f)
432b725ae77Skettenis #define M6812_OP_LEAS (0x1b)
433b725ae77Skettenis #define M6812_OP_PSHX (0x34)
434b725ae77Skettenis #define M6812_OP_PSHY (0x35)
435b725ae77Skettenis
436b725ae77Skettenis /* Operand extraction. */
437b725ae77Skettenis #define OP_DIRECT (0x100) /* 8-byte direct addressing. */
438b725ae77Skettenis #define OP_IMM_LOW (0x200) /* Low part of 16-bit constant/address. */
439b725ae77Skettenis #define OP_IMM_HIGH (0x300) /* High part of 16-bit constant/address. */
440b725ae77Skettenis #define OP_PBYTE (0x400) /* 68HC12 indexed operand. */
441b725ae77Skettenis
442b725ae77Skettenis /* Identification of the sequence. */
443b725ae77Skettenis enum m6811_seq_type
444b725ae77Skettenis {
445b725ae77Skettenis P_LAST = 0,
446b725ae77Skettenis P_SAVE_REG, /* Save a register on the stack. */
447b725ae77Skettenis P_SET_FRAME, /* Setup the frame pointer. */
448b725ae77Skettenis P_LOCAL_1, /* Allocate 1 byte for locals. */
449b725ae77Skettenis P_LOCAL_2, /* Allocate 2 bytes for locals. */
450b725ae77Skettenis P_LOCAL_N /* Allocate N bytes for locals. */
451b725ae77Skettenis };
452b725ae77Skettenis
453b725ae77Skettenis struct insn_sequence {
454b725ae77Skettenis enum m6811_seq_type type;
455b725ae77Skettenis unsigned length;
456b725ae77Skettenis unsigned short code[MAX_CODES];
457b725ae77Skettenis };
458b725ae77Skettenis
459b725ae77Skettenis /* Sequence of instructions in the 68HC11 function prologue. */
460b725ae77Skettenis static struct insn_sequence m6811_prologue[] = {
461b725ae77Skettenis /* Sequences to save a soft-register. */
462b725ae77Skettenis { P_SAVE_REG, 3, { M6811_OP_LDX, OP_DIRECT,
463b725ae77Skettenis M6811_OP_PSHX } },
464b725ae77Skettenis { P_SAVE_REG, 5, { M6811_OP_PAGE2, M6811_OP_LDX, OP_DIRECT,
465b725ae77Skettenis M6811_OP_PAGE2, M6811_OP_PSHX } },
466b725ae77Skettenis { P_SAVE_REG, 4, { M6811_OP_LDX_EXT, OP_IMM_HIGH, OP_IMM_LOW,
467b725ae77Skettenis M6811_OP_PSHX } },
468b725ae77Skettenis { P_SAVE_REG, 6, { M6811_OP_PAGE2, M6811_OP_LDX_EXT, OP_IMM_HIGH, OP_IMM_LOW,
469b725ae77Skettenis M6811_OP_PAGE2, M6811_OP_PSHX } },
470b725ae77Skettenis
471b725ae77Skettenis /* Sequences to allocate local variables. */
472b725ae77Skettenis { P_LOCAL_N, 7, { M6811_OP_TSX,
473b725ae77Skettenis M6811_OP_XGDX,
474b725ae77Skettenis M6811_OP_ADDD, OP_IMM_HIGH, OP_IMM_LOW,
475b725ae77Skettenis M6811_OP_XGDX,
476b725ae77Skettenis M6811_OP_TXS } },
477b725ae77Skettenis { P_LOCAL_N, 11, { M6811_OP_PAGE2, M6811_OP_TSX,
478b725ae77Skettenis M6811_OP_PAGE2, M6811_OP_XGDX,
479b725ae77Skettenis M6811_OP_ADDD, OP_IMM_HIGH, OP_IMM_LOW,
480b725ae77Skettenis M6811_OP_PAGE2, M6811_OP_XGDX,
481b725ae77Skettenis M6811_OP_PAGE2, M6811_OP_TXS } },
482b725ae77Skettenis { P_LOCAL_1, 1, { M6811_OP_DES } },
483b725ae77Skettenis { P_LOCAL_2, 1, { M6811_OP_PSHX } },
484b725ae77Skettenis { P_LOCAL_2, 2, { M6811_OP_PAGE2, M6811_OP_PSHX } },
485b725ae77Skettenis
486b725ae77Skettenis /* Initialize the frame pointer. */
487b725ae77Skettenis { P_SET_FRAME, 2, { M6811_OP_STS, OP_DIRECT } },
488b725ae77Skettenis { P_SET_FRAME, 3, { M6811_OP_STS_EXT, OP_IMM_HIGH, OP_IMM_LOW } },
489b725ae77Skettenis { P_LAST, 0, { 0 } }
490b725ae77Skettenis };
491b725ae77Skettenis
492b725ae77Skettenis
493b725ae77Skettenis /* Sequence of instructions in the 68HC12 function prologue. */
494b725ae77Skettenis static struct insn_sequence m6812_prologue[] = {
495b725ae77Skettenis { P_SAVE_REG, 5, { M6812_OP_PAGE2, M6812_OP_MOVW, M6812_PB_PSHW,
496b725ae77Skettenis OP_IMM_HIGH, OP_IMM_LOW } },
497b725ae77Skettenis { P_SET_FRAME, 2, { M6812_OP_STS, OP_DIRECT } },
498b725ae77Skettenis { P_SET_FRAME, 3, { M6812_OP_STS_EXT, OP_IMM_HIGH, OP_IMM_LOW } },
499b725ae77Skettenis { P_LOCAL_N, 2, { M6812_OP_LEAS, OP_PBYTE } },
500b725ae77Skettenis { P_LOCAL_2, 1, { M6812_OP_PSHX } },
501b725ae77Skettenis { P_LOCAL_2, 1, { M6812_OP_PSHY } },
502b725ae77Skettenis { P_LAST, 0 }
503b725ae77Skettenis };
504b725ae77Skettenis
505b725ae77Skettenis
506b725ae77Skettenis /* Analyze the sequence of instructions starting at the given address.
507b725ae77Skettenis Returns a pointer to the sequence when it is recognized and
508b725ae77Skettenis the optional value (constant/address) associated with it. */
509b725ae77Skettenis static struct insn_sequence *
m68hc11_analyze_instruction(struct insn_sequence * seq,CORE_ADDR pc,CORE_ADDR * val)510b725ae77Skettenis m68hc11_analyze_instruction (struct insn_sequence *seq, CORE_ADDR pc,
511b725ae77Skettenis CORE_ADDR *val)
512b725ae77Skettenis {
513b725ae77Skettenis unsigned char buffer[MAX_CODES];
514b725ae77Skettenis unsigned bufsize;
515b725ae77Skettenis unsigned j;
516b725ae77Skettenis CORE_ADDR cur_val;
517b725ae77Skettenis short v = 0;
518b725ae77Skettenis
519b725ae77Skettenis bufsize = 0;
520b725ae77Skettenis for (; seq->type != P_LAST; seq++)
521b725ae77Skettenis {
522b725ae77Skettenis cur_val = 0;
523b725ae77Skettenis for (j = 0; j < seq->length; j++)
524b725ae77Skettenis {
525b725ae77Skettenis if (bufsize < j + 1)
526b725ae77Skettenis {
527b725ae77Skettenis buffer[bufsize] = read_memory_unsigned_integer (pc + bufsize,
528b725ae77Skettenis 1);
529b725ae77Skettenis bufsize++;
530b725ae77Skettenis }
531b725ae77Skettenis /* Continue while we match the opcode. */
532b725ae77Skettenis if (seq->code[j] == buffer[j])
533b725ae77Skettenis continue;
534b725ae77Skettenis
535b725ae77Skettenis if ((seq->code[j] & 0xf00) == 0)
536b725ae77Skettenis break;
537b725ae77Skettenis
538b725ae77Skettenis /* Extract a sequence parameter (address or constant). */
539b725ae77Skettenis switch (seq->code[j])
540b725ae77Skettenis {
541b725ae77Skettenis case OP_DIRECT:
542b725ae77Skettenis cur_val = (CORE_ADDR) buffer[j];
543b725ae77Skettenis break;
544b725ae77Skettenis
545b725ae77Skettenis case OP_IMM_HIGH:
546b725ae77Skettenis cur_val = cur_val & 0x0ff;
547b725ae77Skettenis cur_val |= (buffer[j] << 8);
548b725ae77Skettenis break;
549b725ae77Skettenis
550b725ae77Skettenis case OP_IMM_LOW:
551b725ae77Skettenis cur_val &= 0x0ff00;
552b725ae77Skettenis cur_val |= buffer[j];
553b725ae77Skettenis break;
554b725ae77Skettenis
555b725ae77Skettenis case OP_PBYTE:
556b725ae77Skettenis if ((buffer[j] & 0xE0) == 0x80)
557b725ae77Skettenis {
558b725ae77Skettenis v = buffer[j] & 0x1f;
559b725ae77Skettenis if (v & 0x10)
560b725ae77Skettenis v |= 0xfff0;
561b725ae77Skettenis }
562b725ae77Skettenis else if ((buffer[j] & 0xfe) == 0xf0)
563b725ae77Skettenis {
564b725ae77Skettenis v = read_memory_unsigned_integer (pc + j + 1, 1);
565b725ae77Skettenis if (buffer[j] & 1)
566b725ae77Skettenis v |= 0xff00;
567b725ae77Skettenis }
568b725ae77Skettenis else if (buffer[j] == 0xf2)
569b725ae77Skettenis {
570b725ae77Skettenis v = read_memory_unsigned_integer (pc + j + 1, 2);
571b725ae77Skettenis }
572b725ae77Skettenis cur_val = v;
573b725ae77Skettenis break;
574b725ae77Skettenis }
575b725ae77Skettenis }
576b725ae77Skettenis
577b725ae77Skettenis /* We have a full match. */
578b725ae77Skettenis if (j == seq->length)
579b725ae77Skettenis {
580b725ae77Skettenis *val = cur_val;
581b725ae77Skettenis return seq;
582b725ae77Skettenis }
583b725ae77Skettenis }
584b725ae77Skettenis return 0;
585b725ae77Skettenis }
586b725ae77Skettenis
587b725ae77Skettenis /* Return the instruction that the function at the PC is using. */
588b725ae77Skettenis static enum insn_return_kind
m68hc11_get_return_insn(CORE_ADDR pc)589b725ae77Skettenis m68hc11_get_return_insn (CORE_ADDR pc)
590b725ae77Skettenis {
591b725ae77Skettenis struct minimal_symbol *sym;
592b725ae77Skettenis
593b725ae77Skettenis /* A flag indicating that this is a STO_M68HC12_FAR or STO_M68HC12_INTERRUPT
594b725ae77Skettenis function is stored by elfread.c in the high bit of the info field.
595b725ae77Skettenis Use this to decide which instruction the function uses to return. */
596b725ae77Skettenis sym = lookup_minimal_symbol_by_pc (pc);
597b725ae77Skettenis if (sym == 0)
598b725ae77Skettenis return RETURN_RTS;
599b725ae77Skettenis
600b725ae77Skettenis if (MSYMBOL_IS_RTC (sym))
601b725ae77Skettenis return RETURN_RTC;
602b725ae77Skettenis else if (MSYMBOL_IS_RTI (sym))
603b725ae77Skettenis return RETURN_RTI;
604b725ae77Skettenis else
605b725ae77Skettenis return RETURN_RTS;
606b725ae77Skettenis }
607b725ae77Skettenis
608b725ae77Skettenis /* Analyze the function prologue to find some information
609b725ae77Skettenis about the function:
610b725ae77Skettenis - the PC of the first line (for m68hc11_skip_prologue)
611b725ae77Skettenis - the offset of the previous frame saved address (from current frame)
612b725ae77Skettenis - the soft registers which are pushed. */
613b725ae77Skettenis static CORE_ADDR
m68hc11_scan_prologue(CORE_ADDR pc,CORE_ADDR current_pc,struct m68hc11_unwind_cache * info)614b725ae77Skettenis m68hc11_scan_prologue (CORE_ADDR pc, CORE_ADDR current_pc,
615b725ae77Skettenis struct m68hc11_unwind_cache *info)
616b725ae77Skettenis {
617b725ae77Skettenis LONGEST save_addr;
618b725ae77Skettenis CORE_ADDR func_end;
619b725ae77Skettenis int size;
620b725ae77Skettenis int found_frame_point;
621b725ae77Skettenis int saved_reg;
622b725ae77Skettenis int done = 0;
623b725ae77Skettenis struct insn_sequence *seq_table;
624b725ae77Skettenis
625b725ae77Skettenis info->size = 0;
626b725ae77Skettenis info->sp_offset = 0;
627b725ae77Skettenis if (pc >= current_pc)
628b725ae77Skettenis return current_pc;
629b725ae77Skettenis
630b725ae77Skettenis size = 0;
631b725ae77Skettenis
632b725ae77Skettenis m68hc11_initialize_register_info ();
633b725ae77Skettenis if (pc == 0)
634b725ae77Skettenis {
635b725ae77Skettenis info->size = 0;
636b725ae77Skettenis return pc;
637b725ae77Skettenis }
638b725ae77Skettenis
639b725ae77Skettenis seq_table = gdbarch_tdep (current_gdbarch)->prologue;
640b725ae77Skettenis
641b725ae77Skettenis /* The 68hc11 stack is as follows:
642b725ae77Skettenis
643b725ae77Skettenis
644b725ae77Skettenis | |
645b725ae77Skettenis +-----------+
646b725ae77Skettenis | |
647b725ae77Skettenis | args |
648b725ae77Skettenis | |
649b725ae77Skettenis +-----------+
650b725ae77Skettenis | PC-return |
651b725ae77Skettenis +-----------+
652b725ae77Skettenis | Old frame |
653b725ae77Skettenis +-----------+
654b725ae77Skettenis | |
655b725ae77Skettenis | Locals |
656b725ae77Skettenis | |
657b725ae77Skettenis +-----------+ <--- current frame
658b725ae77Skettenis | |
659b725ae77Skettenis
660b725ae77Skettenis With most processors (like 68K) the previous frame can be computed
661b725ae77Skettenis easily because it is always at a fixed offset (see link/unlink).
662b725ae77Skettenis That is, locals are accessed with negative offsets, arguments are
663b725ae77Skettenis accessed with positive ones. Since 68hc11 only supports offsets
664b725ae77Skettenis in the range [0..255], the frame is defined at the bottom of
665b725ae77Skettenis locals (see picture).
666b725ae77Skettenis
667b725ae77Skettenis The purpose of the analysis made here is to find out the size
668b725ae77Skettenis of locals in this function. An alternative to this is to use
669b725ae77Skettenis DWARF2 info. This would be better but I don't know how to
670b725ae77Skettenis access dwarf2 debug from this function.
671b725ae77Skettenis
672b725ae77Skettenis Walk from the function entry point to the point where we save
673b725ae77Skettenis the frame. While walking instructions, compute the size of bytes
674b725ae77Skettenis which are pushed. This gives us the index to access the previous
675b725ae77Skettenis frame.
676b725ae77Skettenis
677b725ae77Skettenis We limit the search to 128 bytes so that the algorithm is bounded
678b725ae77Skettenis in case of random and wrong code. We also stop and abort if
679b725ae77Skettenis we find an instruction which is not supposed to appear in the
680b725ae77Skettenis prologue (as generated by gcc 2.95, 2.96).
681b725ae77Skettenis */
682b725ae77Skettenis func_end = pc + 128;
683b725ae77Skettenis found_frame_point = 0;
684b725ae77Skettenis info->size = 0;
685b725ae77Skettenis save_addr = 0;
686b725ae77Skettenis while (!done && pc + 2 < func_end)
687b725ae77Skettenis {
688b725ae77Skettenis struct insn_sequence *seq;
689b725ae77Skettenis CORE_ADDR val;
690b725ae77Skettenis
691b725ae77Skettenis seq = m68hc11_analyze_instruction (seq_table, pc, &val);
692b725ae77Skettenis if (seq == 0)
693b725ae77Skettenis break;
694b725ae77Skettenis
695b725ae77Skettenis /* If we are within the instruction group, we can't advance the
696b725ae77Skettenis pc nor the stack offset. Otherwise the caller's stack computed
697b725ae77Skettenis from the current stack can be wrong. */
698b725ae77Skettenis if (pc + seq->length > current_pc)
699b725ae77Skettenis break;
700b725ae77Skettenis
701b725ae77Skettenis pc = pc + seq->length;
702b725ae77Skettenis if (seq->type == P_SAVE_REG)
703b725ae77Skettenis {
704b725ae77Skettenis if (found_frame_point)
705b725ae77Skettenis {
706b725ae77Skettenis saved_reg = m68hc11_which_soft_register (val);
707b725ae77Skettenis if (saved_reg < 0)
708b725ae77Skettenis break;
709b725ae77Skettenis
710b725ae77Skettenis save_addr -= 2;
711b725ae77Skettenis info->saved_regs[saved_reg].addr = save_addr;
712b725ae77Skettenis }
713b725ae77Skettenis else
714b725ae77Skettenis {
715b725ae77Skettenis size += 2;
716b725ae77Skettenis }
717b725ae77Skettenis }
718b725ae77Skettenis else if (seq->type == P_SET_FRAME)
719b725ae77Skettenis {
720b725ae77Skettenis found_frame_point = 1;
721b725ae77Skettenis info->size = size;
722b725ae77Skettenis }
723b725ae77Skettenis else if (seq->type == P_LOCAL_1)
724b725ae77Skettenis {
725b725ae77Skettenis size += 1;
726b725ae77Skettenis }
727b725ae77Skettenis else if (seq->type == P_LOCAL_2)
728b725ae77Skettenis {
729b725ae77Skettenis size += 2;
730b725ae77Skettenis }
731b725ae77Skettenis else if (seq->type == P_LOCAL_N)
732b725ae77Skettenis {
733b725ae77Skettenis /* Stack pointer is decremented for the allocation. */
734b725ae77Skettenis if (val & 0x8000)
735b725ae77Skettenis size -= (int) (val) | 0xffff0000;
736b725ae77Skettenis else
737b725ae77Skettenis size -= val;
738b725ae77Skettenis }
739b725ae77Skettenis }
740b725ae77Skettenis if (found_frame_point == 0)
741b725ae77Skettenis info->sp_offset = size;
742b725ae77Skettenis else
743b725ae77Skettenis info->sp_offset = -1;
744b725ae77Skettenis return pc;
745b725ae77Skettenis }
746b725ae77Skettenis
747b725ae77Skettenis static CORE_ADDR
m68hc11_skip_prologue(CORE_ADDR pc)748b725ae77Skettenis m68hc11_skip_prologue (CORE_ADDR pc)
749b725ae77Skettenis {
750b725ae77Skettenis CORE_ADDR func_addr, func_end;
751b725ae77Skettenis struct symtab_and_line sal;
752b725ae77Skettenis struct m68hc11_unwind_cache tmp_cache = { 0 };
753b725ae77Skettenis
754b725ae77Skettenis /* If we have line debugging information, then the end of the
755b725ae77Skettenis prologue should be the first assembly instruction of the
756b725ae77Skettenis first source line. */
757b725ae77Skettenis if (find_pc_partial_function (pc, NULL, &func_addr, &func_end))
758b725ae77Skettenis {
759b725ae77Skettenis sal = find_pc_line (func_addr, 0);
760b725ae77Skettenis if (sal.end && sal.end < func_end)
761b725ae77Skettenis return sal.end;
762b725ae77Skettenis }
763b725ae77Skettenis
764b725ae77Skettenis pc = m68hc11_scan_prologue (pc, (CORE_ADDR) -1, &tmp_cache);
765b725ae77Skettenis return pc;
766b725ae77Skettenis }
767b725ae77Skettenis
768b725ae77Skettenis static CORE_ADDR
m68hc11_unwind_pc(struct gdbarch * gdbarch,struct frame_info * next_frame)769b725ae77Skettenis m68hc11_unwind_pc (struct gdbarch *gdbarch, struct frame_info *next_frame)
770b725ae77Skettenis {
771b725ae77Skettenis ULONGEST pc;
772b725ae77Skettenis
773b725ae77Skettenis frame_unwind_unsigned_register (next_frame, gdbarch_pc_regnum (gdbarch),
774b725ae77Skettenis &pc);
775b725ae77Skettenis return pc;
776b725ae77Skettenis }
777b725ae77Skettenis
778b725ae77Skettenis /* Put here the code to store, into fi->saved_regs, the addresses of
779b725ae77Skettenis the saved registers of frame described by FRAME_INFO. This
780b725ae77Skettenis includes special registers such as pc and fp saved in special ways
781b725ae77Skettenis in the stack frame. sp is even more special: the address we return
782b725ae77Skettenis for it IS the sp for the next frame. */
783b725ae77Skettenis
784b725ae77Skettenis struct m68hc11_unwind_cache *
m68hc11_frame_unwind_cache(struct frame_info * next_frame,void ** this_prologue_cache)785b725ae77Skettenis m68hc11_frame_unwind_cache (struct frame_info *next_frame,
786b725ae77Skettenis void **this_prologue_cache)
787b725ae77Skettenis {
788b725ae77Skettenis ULONGEST prev_sp;
789b725ae77Skettenis ULONGEST this_base;
790b725ae77Skettenis struct m68hc11_unwind_cache *info;
791b725ae77Skettenis CORE_ADDR current_pc;
792b725ae77Skettenis int i;
793b725ae77Skettenis
794b725ae77Skettenis if ((*this_prologue_cache))
795b725ae77Skettenis return (*this_prologue_cache);
796b725ae77Skettenis
797b725ae77Skettenis info = FRAME_OBSTACK_ZALLOC (struct m68hc11_unwind_cache);
798b725ae77Skettenis (*this_prologue_cache) = info;
799b725ae77Skettenis info->saved_regs = trad_frame_alloc_saved_regs (next_frame);
800b725ae77Skettenis
801b725ae77Skettenis info->pc = frame_func_unwind (next_frame);
802b725ae77Skettenis
803b725ae77Skettenis info->size = 0;
804b725ae77Skettenis info->return_kind = m68hc11_get_return_insn (info->pc);
805b725ae77Skettenis
806b725ae77Skettenis /* The SP was moved to the FP. This indicates that a new frame
807b725ae77Skettenis was created. Get THIS frame's FP value by unwinding it from
808b725ae77Skettenis the next frame. */
809b725ae77Skettenis frame_unwind_unsigned_register (next_frame, SOFT_FP_REGNUM, &this_base);
810b725ae77Skettenis if (this_base == 0)
811b725ae77Skettenis {
812b725ae77Skettenis info->base = 0;
813b725ae77Skettenis return info;
814b725ae77Skettenis }
815b725ae77Skettenis
816b725ae77Skettenis current_pc = frame_pc_unwind (next_frame);
817b725ae77Skettenis if (info->pc != 0)
818b725ae77Skettenis m68hc11_scan_prologue (info->pc, current_pc, info);
819b725ae77Skettenis
820b725ae77Skettenis info->saved_regs[HARD_PC_REGNUM].addr = info->size;
821b725ae77Skettenis
822b725ae77Skettenis if (info->sp_offset != (CORE_ADDR) -1)
823b725ae77Skettenis {
824b725ae77Skettenis info->saved_regs[HARD_PC_REGNUM].addr = info->sp_offset;
825b725ae77Skettenis frame_unwind_unsigned_register (next_frame, HARD_SP_REGNUM, &this_base);
826b725ae77Skettenis prev_sp = this_base + info->sp_offset + 2;
827b725ae77Skettenis this_base += STACK_CORRECTION;
828b725ae77Skettenis }
829b725ae77Skettenis else
830b725ae77Skettenis {
831b725ae77Skettenis /* The FP points at the last saved register. Adjust the FP back
832b725ae77Skettenis to before the first saved register giving the SP. */
833b725ae77Skettenis prev_sp = this_base + info->size + 2;
834b725ae77Skettenis
835b725ae77Skettenis this_base += STACK_CORRECTION;
836b725ae77Skettenis if (soft_regs[SOFT_FP_REGNUM].name)
837b725ae77Skettenis info->saved_regs[SOFT_FP_REGNUM].addr = info->size - 2;
838b725ae77Skettenis }
839b725ae77Skettenis
840b725ae77Skettenis if (info->return_kind == RETURN_RTC)
841b725ae77Skettenis {
842b725ae77Skettenis prev_sp += 1;
843b725ae77Skettenis info->saved_regs[HARD_PAGE_REGNUM].addr = info->size;
844b725ae77Skettenis info->saved_regs[HARD_PC_REGNUM].addr = info->size + 1;
845b725ae77Skettenis }
846b725ae77Skettenis else if (info->return_kind == RETURN_RTI)
847b725ae77Skettenis {
848b725ae77Skettenis prev_sp += 7;
849b725ae77Skettenis info->saved_regs[HARD_CCR_REGNUM].addr = info->size;
850b725ae77Skettenis info->saved_regs[HARD_D_REGNUM].addr = info->size + 1;
851b725ae77Skettenis info->saved_regs[HARD_X_REGNUM].addr = info->size + 3;
852b725ae77Skettenis info->saved_regs[HARD_Y_REGNUM].addr = info->size + 5;
853b725ae77Skettenis info->saved_regs[HARD_PC_REGNUM].addr = info->size + 7;
854b725ae77Skettenis }
855b725ae77Skettenis
856b725ae77Skettenis /* Add 1 here to adjust for the post-decrement nature of the push
857b725ae77Skettenis instruction.*/
858b725ae77Skettenis info->prev_sp = prev_sp;
859b725ae77Skettenis
860b725ae77Skettenis info->base = this_base;
861b725ae77Skettenis
862b725ae77Skettenis /* Adjust all the saved registers so that they contain addresses and not
863b725ae77Skettenis offsets. */
864b725ae77Skettenis for (i = 0; i < NUM_REGS + NUM_PSEUDO_REGS - 1; i++)
865b725ae77Skettenis if (trad_frame_addr_p (info->saved_regs, i))
866b725ae77Skettenis {
867b725ae77Skettenis info->saved_regs[i].addr += this_base;
868b725ae77Skettenis }
869b725ae77Skettenis
870b725ae77Skettenis /* The previous frame's SP needed to be computed. Save the computed
871b725ae77Skettenis value. */
872b725ae77Skettenis trad_frame_set_value (info->saved_regs, HARD_SP_REGNUM, info->prev_sp);
873b725ae77Skettenis
874b725ae77Skettenis return info;
875b725ae77Skettenis }
876b725ae77Skettenis
877b725ae77Skettenis /* Given a GDB frame, determine the address of the calling function's
878b725ae77Skettenis frame. This will be used to create a new GDB frame struct. */
879b725ae77Skettenis
880b725ae77Skettenis static void
m68hc11_frame_this_id(struct frame_info * next_frame,void ** this_prologue_cache,struct frame_id * this_id)881b725ae77Skettenis m68hc11_frame_this_id (struct frame_info *next_frame,
882b725ae77Skettenis void **this_prologue_cache,
883b725ae77Skettenis struct frame_id *this_id)
884b725ae77Skettenis {
885b725ae77Skettenis struct m68hc11_unwind_cache *info
886b725ae77Skettenis = m68hc11_frame_unwind_cache (next_frame, this_prologue_cache);
887b725ae77Skettenis CORE_ADDR base;
888b725ae77Skettenis CORE_ADDR func;
889b725ae77Skettenis struct frame_id id;
890b725ae77Skettenis
891b725ae77Skettenis /* The FUNC is easy. */
892b725ae77Skettenis func = frame_func_unwind (next_frame);
893b725ae77Skettenis
894b725ae77Skettenis /* Hopefully the prologue analysis either correctly determined the
895b725ae77Skettenis frame's base (which is the SP from the previous frame), or set
896b725ae77Skettenis that base to "NULL". */
897b725ae77Skettenis base = info->prev_sp;
898b725ae77Skettenis if (base == 0)
899b725ae77Skettenis return;
900b725ae77Skettenis
901b725ae77Skettenis id = frame_id_build (base, func);
902b725ae77Skettenis (*this_id) = id;
903b725ae77Skettenis }
904b725ae77Skettenis
905b725ae77Skettenis static void
m68hc11_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)906b725ae77Skettenis m68hc11_frame_prev_register (struct frame_info *next_frame,
907b725ae77Skettenis void **this_prologue_cache,
908b725ae77Skettenis int regnum, int *optimizedp,
909b725ae77Skettenis enum lval_type *lvalp, CORE_ADDR *addrp,
910b725ae77Skettenis int *realnump, void *bufferp)
911b725ae77Skettenis {
912b725ae77Skettenis struct m68hc11_unwind_cache *info
913b725ae77Skettenis = m68hc11_frame_unwind_cache (next_frame, this_prologue_cache);
914b725ae77Skettenis
915*11efff7fSkettenis trad_frame_get_prev_register (next_frame, info->saved_regs, regnum,
916b725ae77Skettenis optimizedp, lvalp, addrp, realnump, bufferp);
917b725ae77Skettenis
918b725ae77Skettenis if (regnum == HARD_PC_REGNUM)
919b725ae77Skettenis {
920b725ae77Skettenis /* Take into account the 68HC12 specific call (PC + page). */
921b725ae77Skettenis if (info->return_kind == RETURN_RTC
922b725ae77Skettenis && *addrp >= 0x08000 && *addrp < 0x0c000
923b725ae77Skettenis && USE_PAGE_REGISTER)
924b725ae77Skettenis {
925b725ae77Skettenis int page_optimized;
926b725ae77Skettenis
927b725ae77Skettenis CORE_ADDR page;
928b725ae77Skettenis
929*11efff7fSkettenis trad_frame_get_prev_register (next_frame, info->saved_regs,
930b725ae77Skettenis HARD_PAGE_REGNUM, &page_optimized,
931b725ae77Skettenis 0, &page, 0, 0);
932b725ae77Skettenis *addrp -= 0x08000;
933b725ae77Skettenis *addrp += ((page & 0x0ff) << 14);
934b725ae77Skettenis *addrp += 0x1000000;
935b725ae77Skettenis }
936b725ae77Skettenis }
937b725ae77Skettenis }
938b725ae77Skettenis
939b725ae77Skettenis static const struct frame_unwind m68hc11_frame_unwind = {
940b725ae77Skettenis NORMAL_FRAME,
941b725ae77Skettenis m68hc11_frame_this_id,
942b725ae77Skettenis m68hc11_frame_prev_register
943b725ae77Skettenis };
944b725ae77Skettenis
945b725ae77Skettenis const struct frame_unwind *
m68hc11_frame_sniffer(struct frame_info * next_frame)946b725ae77Skettenis m68hc11_frame_sniffer (struct frame_info *next_frame)
947b725ae77Skettenis {
948b725ae77Skettenis return &m68hc11_frame_unwind;
949b725ae77Skettenis }
950b725ae77Skettenis
951b725ae77Skettenis static CORE_ADDR
m68hc11_frame_base_address(struct frame_info * next_frame,void ** this_cache)952b725ae77Skettenis m68hc11_frame_base_address (struct frame_info *next_frame, void **this_cache)
953b725ae77Skettenis {
954b725ae77Skettenis struct m68hc11_unwind_cache *info
955b725ae77Skettenis = m68hc11_frame_unwind_cache (next_frame, this_cache);
956b725ae77Skettenis
957b725ae77Skettenis return info->base;
958b725ae77Skettenis }
959b725ae77Skettenis
960b725ae77Skettenis static CORE_ADDR
m68hc11_frame_args_address(struct frame_info * next_frame,void ** this_cache)961b725ae77Skettenis m68hc11_frame_args_address (struct frame_info *next_frame, void **this_cache)
962b725ae77Skettenis {
963b725ae77Skettenis CORE_ADDR addr;
964b725ae77Skettenis struct m68hc11_unwind_cache *info
965b725ae77Skettenis = m68hc11_frame_unwind_cache (next_frame, this_cache);
966b725ae77Skettenis
967b725ae77Skettenis addr = info->base + info->size;
968b725ae77Skettenis if (info->return_kind == RETURN_RTC)
969b725ae77Skettenis addr += 1;
970b725ae77Skettenis else if (info->return_kind == RETURN_RTI)
971b725ae77Skettenis addr += 7;
972b725ae77Skettenis
973b725ae77Skettenis return addr;
974b725ae77Skettenis }
975b725ae77Skettenis
976b725ae77Skettenis static const struct frame_base m68hc11_frame_base = {
977b725ae77Skettenis &m68hc11_frame_unwind,
978b725ae77Skettenis m68hc11_frame_base_address,
979b725ae77Skettenis m68hc11_frame_base_address,
980b725ae77Skettenis m68hc11_frame_args_address
981b725ae77Skettenis };
982b725ae77Skettenis
983b725ae77Skettenis static CORE_ADDR
m68hc11_unwind_sp(struct gdbarch * gdbarch,struct frame_info * next_frame)984b725ae77Skettenis m68hc11_unwind_sp (struct gdbarch *gdbarch, struct frame_info *next_frame)
985b725ae77Skettenis {
986b725ae77Skettenis ULONGEST sp;
987b725ae77Skettenis frame_unwind_unsigned_register (next_frame, HARD_SP_REGNUM, &sp);
988b725ae77Skettenis return sp;
989b725ae77Skettenis }
990b725ae77Skettenis
991b725ae77Skettenis /* Assuming NEXT_FRAME->prev is a dummy, return the frame ID of that
992b725ae77Skettenis dummy frame. The frame ID's base needs to match the TOS value
993b725ae77Skettenis saved by save_dummy_frame_tos(), and the PC match the dummy frame's
994b725ae77Skettenis breakpoint. */
995b725ae77Skettenis
996b725ae77Skettenis static struct frame_id
m68hc11_unwind_dummy_id(struct gdbarch * gdbarch,struct frame_info * next_frame)997b725ae77Skettenis m68hc11_unwind_dummy_id (struct gdbarch *gdbarch, struct frame_info *next_frame)
998b725ae77Skettenis {
999b725ae77Skettenis ULONGEST tos;
1000b725ae77Skettenis CORE_ADDR pc = frame_pc_unwind (next_frame);
1001b725ae77Skettenis
1002b725ae77Skettenis frame_unwind_unsigned_register (next_frame, SOFT_FP_REGNUM, &tos);
1003b725ae77Skettenis tos += 2;
1004b725ae77Skettenis return frame_id_build (tos, pc);
1005b725ae77Skettenis }
1006b725ae77Skettenis
1007b725ae77Skettenis
1008b725ae77Skettenis /* Get and print the register from the given frame. */
1009b725ae77Skettenis static void
m68hc11_print_register(struct gdbarch * gdbarch,struct ui_file * file,struct frame_info * frame,int regno)1010b725ae77Skettenis m68hc11_print_register (struct gdbarch *gdbarch, struct ui_file *file,
1011b725ae77Skettenis struct frame_info *frame, int regno)
1012b725ae77Skettenis {
1013b725ae77Skettenis LONGEST rval;
1014b725ae77Skettenis
1015b725ae77Skettenis if (regno == HARD_PC_REGNUM || regno == HARD_SP_REGNUM
1016b725ae77Skettenis || regno == SOFT_FP_REGNUM || regno == M68HC12_HARD_PC_REGNUM)
1017b725ae77Skettenis rval = get_frame_register_unsigned (frame, regno);
1018b725ae77Skettenis else
1019b725ae77Skettenis rval = get_frame_register_signed (frame, regno);
1020b725ae77Skettenis
1021b725ae77Skettenis if (regno == HARD_A_REGNUM || regno == HARD_B_REGNUM
1022b725ae77Skettenis || regno == HARD_CCR_REGNUM || regno == HARD_PAGE_REGNUM)
1023b725ae77Skettenis {
1024b725ae77Skettenis fprintf_filtered (file, "0x%02x ", (unsigned char) rval);
1025b725ae77Skettenis if (regno != HARD_CCR_REGNUM)
1026b725ae77Skettenis print_longest (file, 'd', 1, rval);
1027b725ae77Skettenis }
1028b725ae77Skettenis else
1029b725ae77Skettenis {
1030b725ae77Skettenis if (regno == HARD_PC_REGNUM && gdbarch_tdep (gdbarch)->use_page_register)
1031b725ae77Skettenis {
1032b725ae77Skettenis ULONGEST page;
1033b725ae77Skettenis
1034b725ae77Skettenis page = get_frame_register_unsigned (frame, HARD_PAGE_REGNUM);
1035b725ae77Skettenis fprintf_filtered (file, "0x%02x:%04x ", (unsigned) page,
1036b725ae77Skettenis (unsigned) rval);
1037b725ae77Skettenis }
1038b725ae77Skettenis else
1039b725ae77Skettenis {
1040b725ae77Skettenis fprintf_filtered (file, "0x%04x ", (unsigned) rval);
1041b725ae77Skettenis if (regno != HARD_PC_REGNUM && regno != HARD_SP_REGNUM
1042b725ae77Skettenis && regno != SOFT_FP_REGNUM && regno != M68HC12_HARD_PC_REGNUM)
1043b725ae77Skettenis print_longest (file, 'd', 1, rval);
1044b725ae77Skettenis }
1045b725ae77Skettenis }
1046b725ae77Skettenis
1047b725ae77Skettenis if (regno == HARD_CCR_REGNUM)
1048b725ae77Skettenis {
1049b725ae77Skettenis /* CCR register */
1050b725ae77Skettenis int C, Z, N, V;
1051b725ae77Skettenis unsigned char l = rval & 0xff;
1052b725ae77Skettenis
1053b725ae77Skettenis fprintf_filtered (file, "%c%c%c%c%c%c%c%c ",
1054b725ae77Skettenis l & M6811_S_BIT ? 'S' : '-',
1055b725ae77Skettenis l & M6811_X_BIT ? 'X' : '-',
1056b725ae77Skettenis l & M6811_H_BIT ? 'H' : '-',
1057b725ae77Skettenis l & M6811_I_BIT ? 'I' : '-',
1058b725ae77Skettenis l & M6811_N_BIT ? 'N' : '-',
1059b725ae77Skettenis l & M6811_Z_BIT ? 'Z' : '-',
1060b725ae77Skettenis l & M6811_V_BIT ? 'V' : '-',
1061b725ae77Skettenis l & M6811_C_BIT ? 'C' : '-');
1062b725ae77Skettenis N = (l & M6811_N_BIT) != 0;
1063b725ae77Skettenis Z = (l & M6811_Z_BIT) != 0;
1064b725ae77Skettenis V = (l & M6811_V_BIT) != 0;
1065b725ae77Skettenis C = (l & M6811_C_BIT) != 0;
1066b725ae77Skettenis
1067b725ae77Skettenis /* Print flags following the h8300 */
1068b725ae77Skettenis if ((C | Z) == 0)
1069b725ae77Skettenis fprintf_filtered (file, "u> ");
1070b725ae77Skettenis else if ((C | Z) == 1)
1071b725ae77Skettenis fprintf_filtered (file, "u<= ");
1072b725ae77Skettenis else if (C == 0)
1073b725ae77Skettenis fprintf_filtered (file, "u< ");
1074b725ae77Skettenis
1075b725ae77Skettenis if (Z == 0)
1076b725ae77Skettenis fprintf_filtered (file, "!= ");
1077b725ae77Skettenis else
1078b725ae77Skettenis fprintf_filtered (file, "== ");
1079b725ae77Skettenis
1080b725ae77Skettenis if ((N ^ V) == 0)
1081b725ae77Skettenis fprintf_filtered (file, ">= ");
1082b725ae77Skettenis else
1083b725ae77Skettenis fprintf_filtered (file, "< ");
1084b725ae77Skettenis
1085b725ae77Skettenis if ((Z | (N ^ V)) == 0)
1086b725ae77Skettenis fprintf_filtered (file, "> ");
1087b725ae77Skettenis else
1088b725ae77Skettenis fprintf_filtered (file, "<= ");
1089b725ae77Skettenis }
1090b725ae77Skettenis }
1091b725ae77Skettenis
1092b725ae77Skettenis /* Same as 'info reg' but prints the registers in a different way. */
1093b725ae77Skettenis static void
m68hc11_print_registers_info(struct gdbarch * gdbarch,struct ui_file * file,struct frame_info * frame,int regno,int cpregs)1094b725ae77Skettenis m68hc11_print_registers_info (struct gdbarch *gdbarch, struct ui_file *file,
1095b725ae77Skettenis struct frame_info *frame, int regno, int cpregs)
1096b725ae77Skettenis {
1097b725ae77Skettenis if (regno >= 0)
1098b725ae77Skettenis {
1099b725ae77Skettenis const char *name = gdbarch_register_name (gdbarch, regno);
1100b725ae77Skettenis
1101b725ae77Skettenis if (!name || !*name)
1102b725ae77Skettenis return;
1103b725ae77Skettenis
1104b725ae77Skettenis fprintf_filtered (file, "%-10s ", name);
1105b725ae77Skettenis m68hc11_print_register (gdbarch, file, frame, regno);
1106b725ae77Skettenis fprintf_filtered (file, "\n");
1107b725ae77Skettenis }
1108b725ae77Skettenis else
1109b725ae77Skettenis {
1110b725ae77Skettenis int i, nr;
1111b725ae77Skettenis
1112b725ae77Skettenis fprintf_filtered (file, "PC=");
1113b725ae77Skettenis m68hc11_print_register (gdbarch, file, frame, HARD_PC_REGNUM);
1114b725ae77Skettenis
1115b725ae77Skettenis fprintf_filtered (file, " SP=");
1116b725ae77Skettenis m68hc11_print_register (gdbarch, file, frame, HARD_SP_REGNUM);
1117b725ae77Skettenis
1118b725ae77Skettenis fprintf_filtered (file, " FP=");
1119b725ae77Skettenis m68hc11_print_register (gdbarch, file, frame, SOFT_FP_REGNUM);
1120b725ae77Skettenis
1121b725ae77Skettenis fprintf_filtered (file, "\nCCR=");
1122b725ae77Skettenis m68hc11_print_register (gdbarch, file, frame, HARD_CCR_REGNUM);
1123b725ae77Skettenis
1124b725ae77Skettenis fprintf_filtered (file, "\nD=");
1125b725ae77Skettenis m68hc11_print_register (gdbarch, file, frame, HARD_D_REGNUM);
1126b725ae77Skettenis
1127b725ae77Skettenis fprintf_filtered (file, " X=");
1128b725ae77Skettenis m68hc11_print_register (gdbarch, file, frame, HARD_X_REGNUM);
1129b725ae77Skettenis
1130b725ae77Skettenis fprintf_filtered (file, " Y=");
1131b725ae77Skettenis m68hc11_print_register (gdbarch, file, frame, HARD_Y_REGNUM);
1132b725ae77Skettenis
1133b725ae77Skettenis if (gdbarch_tdep (gdbarch)->use_page_register)
1134b725ae77Skettenis {
1135b725ae77Skettenis fprintf_filtered (file, "\nPage=");
1136b725ae77Skettenis m68hc11_print_register (gdbarch, file, frame, HARD_PAGE_REGNUM);
1137b725ae77Skettenis }
1138b725ae77Skettenis fprintf_filtered (file, "\n");
1139b725ae77Skettenis
1140b725ae77Skettenis nr = 0;
1141b725ae77Skettenis for (i = SOFT_D1_REGNUM; i < M68HC11_ALL_REGS; i++)
1142b725ae77Skettenis {
1143b725ae77Skettenis /* Skip registers which are not defined in the symbol table. */
1144b725ae77Skettenis if (soft_regs[i].name == 0)
1145b725ae77Skettenis continue;
1146b725ae77Skettenis
1147b725ae77Skettenis fprintf_filtered (file, "D%d=", i - SOFT_D1_REGNUM + 1);
1148b725ae77Skettenis m68hc11_print_register (gdbarch, file, frame, i);
1149b725ae77Skettenis nr++;
1150b725ae77Skettenis if ((nr % 8) == 7)
1151b725ae77Skettenis fprintf_filtered (file, "\n");
1152b725ae77Skettenis else
1153b725ae77Skettenis fprintf_filtered (file, " ");
1154b725ae77Skettenis }
1155b725ae77Skettenis if (nr && (nr % 8) != 7)
1156b725ae77Skettenis fprintf_filtered (file, "\n");
1157b725ae77Skettenis }
1158b725ae77Skettenis }
1159b725ae77Skettenis
1160b725ae77Skettenis /* Same as 'info reg' but prints the registers in a different way. */
1161b725ae77Skettenis static void
show_regs(char * args,int from_tty)1162b725ae77Skettenis show_regs (char *args, int from_tty)
1163b725ae77Skettenis {
1164b725ae77Skettenis m68hc11_print_registers_info (current_gdbarch, gdb_stdout,
1165b725ae77Skettenis get_current_frame (), -1, 1);
1166b725ae77Skettenis }
1167b725ae77Skettenis
1168b725ae77Skettenis static CORE_ADDR
m68hc11_stack_align(CORE_ADDR addr)1169b725ae77Skettenis m68hc11_stack_align (CORE_ADDR addr)
1170b725ae77Skettenis {
1171b725ae77Skettenis return ((addr + 1) & -2);
1172b725ae77Skettenis }
1173b725ae77Skettenis
1174b725ae77Skettenis static CORE_ADDR
m68hc11_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)1175*11efff7fSkettenis m68hc11_push_dummy_call (struct gdbarch *gdbarch, struct value *function,
1176b725ae77Skettenis struct regcache *regcache, CORE_ADDR bp_addr,
1177b725ae77Skettenis int nargs, struct value **args, CORE_ADDR sp,
1178b725ae77Skettenis int struct_return, CORE_ADDR struct_addr)
1179b725ae77Skettenis {
1180b725ae77Skettenis int argnum;
1181b725ae77Skettenis int first_stack_argnum;
1182b725ae77Skettenis struct type *type;
1183b725ae77Skettenis char *val;
1184b725ae77Skettenis int len;
1185b725ae77Skettenis char buf[2];
1186b725ae77Skettenis
1187b725ae77Skettenis first_stack_argnum = 0;
1188b725ae77Skettenis if (struct_return)
1189b725ae77Skettenis {
1190b725ae77Skettenis /* The struct is allocated on the stack and gdb used the stack
1191b725ae77Skettenis pointer for the address of that struct. We must apply the
1192b725ae77Skettenis stack offset on the address. */
1193b725ae77Skettenis regcache_cooked_write_unsigned (regcache, HARD_D_REGNUM,
1194b725ae77Skettenis struct_addr + STACK_CORRECTION);
1195b725ae77Skettenis }
1196b725ae77Skettenis else if (nargs > 0)
1197b725ae77Skettenis {
1198b725ae77Skettenis type = VALUE_TYPE (args[0]);
1199b725ae77Skettenis len = TYPE_LENGTH (type);
1200b725ae77Skettenis
1201b725ae77Skettenis /* First argument is passed in D and X registers. */
1202b725ae77Skettenis if (len <= 4)
1203b725ae77Skettenis {
1204b725ae77Skettenis ULONGEST v;
1205b725ae77Skettenis
1206b725ae77Skettenis v = extract_unsigned_integer (VALUE_CONTENTS (args[0]), len);
1207b725ae77Skettenis first_stack_argnum = 1;
1208b725ae77Skettenis
1209b725ae77Skettenis regcache_cooked_write_unsigned (regcache, HARD_D_REGNUM, v);
1210b725ae77Skettenis if (len > 2)
1211b725ae77Skettenis {
1212b725ae77Skettenis v >>= 16;
1213b725ae77Skettenis regcache_cooked_write_unsigned (regcache, HARD_X_REGNUM, v);
1214b725ae77Skettenis }
1215b725ae77Skettenis }
1216b725ae77Skettenis }
1217b725ae77Skettenis
1218b725ae77Skettenis for (argnum = nargs - 1; argnum >= first_stack_argnum; argnum--)
1219b725ae77Skettenis {
1220b725ae77Skettenis type = VALUE_TYPE (args[argnum]);
1221b725ae77Skettenis len = TYPE_LENGTH (type);
1222b725ae77Skettenis
1223b725ae77Skettenis if (len & 1)
1224b725ae77Skettenis {
1225b725ae77Skettenis static char zero = 0;
1226b725ae77Skettenis
1227b725ae77Skettenis sp--;
1228b725ae77Skettenis write_memory (sp, &zero, 1);
1229b725ae77Skettenis }
1230b725ae77Skettenis val = (char*) VALUE_CONTENTS (args[argnum]);
1231b725ae77Skettenis sp -= len;
1232b725ae77Skettenis write_memory (sp, val, len);
1233b725ae77Skettenis }
1234b725ae77Skettenis
1235b725ae77Skettenis /* Store return address. */
1236b725ae77Skettenis sp -= 2;
1237b725ae77Skettenis store_unsigned_integer (buf, 2, bp_addr);
1238b725ae77Skettenis write_memory (sp, buf, 2);
1239b725ae77Skettenis
1240b725ae77Skettenis /* Finally, update the stack pointer... */
1241b725ae77Skettenis sp -= STACK_CORRECTION;
1242b725ae77Skettenis regcache_cooked_write_unsigned (regcache, HARD_SP_REGNUM, sp);
1243b725ae77Skettenis
1244b725ae77Skettenis /* ...and fake a frame pointer. */
1245b725ae77Skettenis regcache_cooked_write_unsigned (regcache, SOFT_FP_REGNUM, sp);
1246b725ae77Skettenis
1247b725ae77Skettenis /* DWARF2/GCC uses the stack address *before* the function call as a
1248b725ae77Skettenis frame's CFA. */
1249b725ae77Skettenis return sp + 2;
1250b725ae77Skettenis }
1251b725ae77Skettenis
1252b725ae77Skettenis
1253b725ae77Skettenis /* Return the GDB type object for the "standard" data type
1254b725ae77Skettenis of data in register N. */
1255b725ae77Skettenis
1256b725ae77Skettenis static struct type *
m68hc11_register_type(struct gdbarch * gdbarch,int reg_nr)1257b725ae77Skettenis m68hc11_register_type (struct gdbarch *gdbarch, int reg_nr)
1258b725ae77Skettenis {
1259b725ae77Skettenis switch (reg_nr)
1260b725ae77Skettenis {
1261b725ae77Skettenis case HARD_PAGE_REGNUM:
1262b725ae77Skettenis case HARD_A_REGNUM:
1263b725ae77Skettenis case HARD_B_REGNUM:
1264b725ae77Skettenis case HARD_CCR_REGNUM:
1265b725ae77Skettenis return builtin_type_uint8;
1266b725ae77Skettenis
1267b725ae77Skettenis case M68HC12_HARD_PC_REGNUM:
1268b725ae77Skettenis return builtin_type_uint32;
1269b725ae77Skettenis
1270b725ae77Skettenis default:
1271b725ae77Skettenis return builtin_type_uint16;
1272b725ae77Skettenis }
1273b725ae77Skettenis }
1274b725ae77Skettenis
1275b725ae77Skettenis static void
m68hc11_store_return_value(struct type * type,struct regcache * regcache,const void * valbuf)1276b725ae77Skettenis m68hc11_store_return_value (struct type *type, struct regcache *regcache,
1277b725ae77Skettenis const void *valbuf)
1278b725ae77Skettenis {
1279b725ae77Skettenis int len;
1280b725ae77Skettenis
1281b725ae77Skettenis len = TYPE_LENGTH (type);
1282b725ae77Skettenis
1283b725ae77Skettenis /* First argument is passed in D and X registers. */
1284b725ae77Skettenis if (len <= 2)
1285b725ae77Skettenis regcache_raw_write_part (regcache, HARD_D_REGNUM, 2 - len, len, valbuf);
1286b725ae77Skettenis else if (len <= 4)
1287b725ae77Skettenis {
1288b725ae77Skettenis regcache_raw_write_part (regcache, HARD_X_REGNUM, 4 - len,
1289b725ae77Skettenis len - 2, valbuf);
1290b725ae77Skettenis regcache_raw_write (regcache, HARD_D_REGNUM, (char*) valbuf + (len - 2));
1291b725ae77Skettenis }
1292b725ae77Skettenis else
1293b725ae77Skettenis error ("return of value > 4 is not supported.");
1294b725ae77Skettenis }
1295b725ae77Skettenis
1296b725ae77Skettenis
1297b725ae77Skettenis /* Given a return value in `regcache' with a type `type',
1298b725ae77Skettenis extract and copy its value into `valbuf'. */
1299b725ae77Skettenis
1300b725ae77Skettenis static void
m68hc11_extract_return_value(struct type * type,struct regcache * regcache,void * valbuf)1301b725ae77Skettenis m68hc11_extract_return_value (struct type *type, struct regcache *regcache,
1302b725ae77Skettenis void *valbuf)
1303b725ae77Skettenis {
1304b725ae77Skettenis int len = TYPE_LENGTH (type);
1305b725ae77Skettenis char buf[M68HC11_REG_SIZE];
1306b725ae77Skettenis
1307b725ae77Skettenis regcache_raw_read (regcache, HARD_D_REGNUM, buf);
1308b725ae77Skettenis switch (len)
1309b725ae77Skettenis {
1310b725ae77Skettenis case 1:
1311b725ae77Skettenis memcpy (valbuf, buf + 1, 1);
1312b725ae77Skettenis break;
1313b725ae77Skettenis
1314b725ae77Skettenis case 2:
1315b725ae77Skettenis memcpy (valbuf, buf, 2);
1316b725ae77Skettenis break;
1317b725ae77Skettenis
1318b725ae77Skettenis case 3:
1319b725ae77Skettenis memcpy ((char*) valbuf + 1, buf, 2);
1320b725ae77Skettenis regcache_raw_read (regcache, HARD_X_REGNUM, buf);
1321b725ae77Skettenis memcpy (valbuf, buf + 1, 1);
1322b725ae77Skettenis break;
1323b725ae77Skettenis
1324b725ae77Skettenis case 4:
1325b725ae77Skettenis memcpy ((char*) valbuf + 2, buf, 2);
1326b725ae77Skettenis regcache_raw_read (regcache, HARD_X_REGNUM, buf);
1327b725ae77Skettenis memcpy (valbuf, buf, 2);
1328b725ae77Skettenis break;
1329b725ae77Skettenis
1330b725ae77Skettenis default:
1331b725ae77Skettenis error ("bad size for return value");
1332b725ae77Skettenis }
1333b725ae77Skettenis }
1334b725ae77Skettenis
1335*11efff7fSkettenis enum return_value_convention
m68hc11_return_value(struct gdbarch * gdbarch,struct type * valtype,struct regcache * regcache,void * readbuf,const void * writebuf)1336*11efff7fSkettenis m68hc11_return_value (struct gdbarch *gdbarch, struct type *valtype,
1337*11efff7fSkettenis struct regcache *regcache, void *readbuf,
1338*11efff7fSkettenis const void *writebuf)
1339b725ae77Skettenis {
1340*11efff7fSkettenis if (TYPE_CODE (valtype) == TYPE_CODE_STRUCT
1341*11efff7fSkettenis || TYPE_CODE (valtype) == TYPE_CODE_UNION
1342*11efff7fSkettenis || TYPE_CODE (valtype) == TYPE_CODE_ARRAY
1343*11efff7fSkettenis || TYPE_LENGTH (valtype) > 4)
1344*11efff7fSkettenis return RETURN_VALUE_STRUCT_CONVENTION;
1345*11efff7fSkettenis else
1346*11efff7fSkettenis {
1347*11efff7fSkettenis if (readbuf != NULL)
1348*11efff7fSkettenis m68hc11_extract_return_value (valtype, regcache, readbuf);
1349*11efff7fSkettenis if (writebuf != NULL)
1350*11efff7fSkettenis m68hc11_store_return_value (valtype, regcache, writebuf);
1351*11efff7fSkettenis return RETURN_VALUE_REGISTER_CONVENTION;
1352b725ae77Skettenis }
1353b725ae77Skettenis }
1354b725ae77Skettenis
1355b725ae77Skettenis /* Test whether the ELF symbol corresponds to a function using rtc or
1356b725ae77Skettenis rti to return. */
1357b725ae77Skettenis
1358b725ae77Skettenis static void
m68hc11_elf_make_msymbol_special(asymbol * sym,struct minimal_symbol * msym)1359b725ae77Skettenis m68hc11_elf_make_msymbol_special (asymbol *sym, struct minimal_symbol *msym)
1360b725ae77Skettenis {
1361b725ae77Skettenis unsigned char flags;
1362b725ae77Skettenis
1363b725ae77Skettenis flags = ((elf_symbol_type *)sym)->internal_elf_sym.st_other;
1364b725ae77Skettenis if (flags & STO_M68HC12_FAR)
1365b725ae77Skettenis MSYMBOL_SET_RTC (msym);
1366b725ae77Skettenis if (flags & STO_M68HC12_INTERRUPT)
1367b725ae77Skettenis MSYMBOL_SET_RTI (msym);
1368b725ae77Skettenis }
1369b725ae77Skettenis
1370b725ae77Skettenis static int
gdb_print_insn_m68hc11(bfd_vma memaddr,disassemble_info * info)1371b725ae77Skettenis gdb_print_insn_m68hc11 (bfd_vma memaddr, disassemble_info *info)
1372b725ae77Skettenis {
1373b725ae77Skettenis if (TARGET_ARCHITECTURE->arch == bfd_arch_m68hc11)
1374b725ae77Skettenis return print_insn_m68hc11 (memaddr, info);
1375b725ae77Skettenis else
1376b725ae77Skettenis return print_insn_m68hc12 (memaddr, info);
1377b725ae77Skettenis }
1378b725ae77Skettenis
1379b725ae77Skettenis
1380b725ae77Skettenis
1381b725ae77Skettenis /* 68HC11/68HC12 register groups.
1382b725ae77Skettenis Identify real hard registers and soft registers used by gcc. */
1383b725ae77Skettenis
1384b725ae77Skettenis static struct reggroup *m68hc11_soft_reggroup;
1385b725ae77Skettenis static struct reggroup *m68hc11_hard_reggroup;
1386b725ae77Skettenis
1387b725ae77Skettenis static void
m68hc11_init_reggroups(void)1388b725ae77Skettenis m68hc11_init_reggroups (void)
1389b725ae77Skettenis {
1390b725ae77Skettenis m68hc11_hard_reggroup = reggroup_new ("hard", USER_REGGROUP);
1391b725ae77Skettenis m68hc11_soft_reggroup = reggroup_new ("soft", USER_REGGROUP);
1392b725ae77Skettenis }
1393b725ae77Skettenis
1394b725ae77Skettenis static void
m68hc11_add_reggroups(struct gdbarch * gdbarch)1395b725ae77Skettenis m68hc11_add_reggroups (struct gdbarch *gdbarch)
1396b725ae77Skettenis {
1397b725ae77Skettenis reggroup_add (gdbarch, m68hc11_hard_reggroup);
1398b725ae77Skettenis reggroup_add (gdbarch, m68hc11_soft_reggroup);
1399b725ae77Skettenis reggroup_add (gdbarch, general_reggroup);
1400b725ae77Skettenis reggroup_add (gdbarch, float_reggroup);
1401b725ae77Skettenis reggroup_add (gdbarch, all_reggroup);
1402b725ae77Skettenis reggroup_add (gdbarch, save_reggroup);
1403b725ae77Skettenis reggroup_add (gdbarch, restore_reggroup);
1404b725ae77Skettenis reggroup_add (gdbarch, vector_reggroup);
1405b725ae77Skettenis reggroup_add (gdbarch, system_reggroup);
1406b725ae77Skettenis }
1407b725ae77Skettenis
1408b725ae77Skettenis static int
m68hc11_register_reggroup_p(struct gdbarch * gdbarch,int regnum,struct reggroup * group)1409b725ae77Skettenis m68hc11_register_reggroup_p (struct gdbarch *gdbarch, int regnum,
1410b725ae77Skettenis struct reggroup *group)
1411b725ae77Skettenis {
1412b725ae77Skettenis /* We must save the real hard register as well as gcc
1413b725ae77Skettenis soft registers including the frame pointer. */
1414b725ae77Skettenis if (group == save_reggroup || group == restore_reggroup)
1415b725ae77Skettenis {
1416b725ae77Skettenis return (regnum <= gdbarch_num_regs (gdbarch)
1417b725ae77Skettenis || ((regnum == SOFT_FP_REGNUM
1418b725ae77Skettenis || regnum == SOFT_TMP_REGNUM
1419b725ae77Skettenis || regnum == SOFT_ZS_REGNUM
1420b725ae77Skettenis || regnum == SOFT_XY_REGNUM)
1421b725ae77Skettenis && m68hc11_register_name (regnum)));
1422b725ae77Skettenis }
1423b725ae77Skettenis
1424b725ae77Skettenis /* Group to identify gcc soft registers (d1..dN). */
1425b725ae77Skettenis if (group == m68hc11_soft_reggroup)
1426b725ae77Skettenis {
1427b725ae77Skettenis return regnum >= SOFT_D1_REGNUM && m68hc11_register_name (regnum);
1428b725ae77Skettenis }
1429b725ae77Skettenis
1430b725ae77Skettenis if (group == m68hc11_hard_reggroup)
1431b725ae77Skettenis {
1432b725ae77Skettenis return regnum == HARD_PC_REGNUM || regnum == HARD_SP_REGNUM
1433b725ae77Skettenis || regnum == HARD_X_REGNUM || regnum == HARD_D_REGNUM
1434b725ae77Skettenis || regnum == HARD_Y_REGNUM || regnum == HARD_CCR_REGNUM;
1435b725ae77Skettenis }
1436b725ae77Skettenis return default_register_reggroup_p (gdbarch, regnum, group);
1437b725ae77Skettenis }
1438b725ae77Skettenis
1439b725ae77Skettenis static struct gdbarch *
m68hc11_gdbarch_init(struct gdbarch_info info,struct gdbarch_list * arches)1440b725ae77Skettenis m68hc11_gdbarch_init (struct gdbarch_info info,
1441b725ae77Skettenis struct gdbarch_list *arches)
1442b725ae77Skettenis {
1443b725ae77Skettenis struct gdbarch *gdbarch;
1444b725ae77Skettenis struct gdbarch_tdep *tdep;
1445b725ae77Skettenis int elf_flags;
1446b725ae77Skettenis
1447b725ae77Skettenis soft_reg_initialized = 0;
1448b725ae77Skettenis
1449b725ae77Skettenis /* Extract the elf_flags if available. */
1450b725ae77Skettenis if (info.abfd != NULL
1451b725ae77Skettenis && bfd_get_flavour (info.abfd) == bfd_target_elf_flavour)
1452b725ae77Skettenis elf_flags = elf_elfheader (info.abfd)->e_flags;
1453b725ae77Skettenis else
1454b725ae77Skettenis elf_flags = 0;
1455b725ae77Skettenis
1456b725ae77Skettenis /* try to find a pre-existing architecture */
1457b725ae77Skettenis for (arches = gdbarch_list_lookup_by_info (arches, &info);
1458b725ae77Skettenis arches != NULL;
1459b725ae77Skettenis arches = gdbarch_list_lookup_by_info (arches->next, &info))
1460b725ae77Skettenis {
1461b725ae77Skettenis if (gdbarch_tdep (arches->gdbarch)->elf_flags != elf_flags)
1462b725ae77Skettenis continue;
1463b725ae77Skettenis
1464b725ae77Skettenis return arches->gdbarch;
1465b725ae77Skettenis }
1466b725ae77Skettenis
1467b725ae77Skettenis /* Need a new architecture. Fill in a target specific vector. */
1468b725ae77Skettenis tdep = (struct gdbarch_tdep *) xmalloc (sizeof (struct gdbarch_tdep));
1469b725ae77Skettenis gdbarch = gdbarch_alloc (&info, tdep);
1470b725ae77Skettenis tdep->elf_flags = elf_flags;
1471b725ae77Skettenis
1472b725ae77Skettenis switch (info.bfd_arch_info->arch)
1473b725ae77Skettenis {
1474b725ae77Skettenis case bfd_arch_m68hc11:
1475b725ae77Skettenis tdep->stack_correction = 1;
1476b725ae77Skettenis tdep->use_page_register = 0;
1477b725ae77Skettenis tdep->prologue = m6811_prologue;
1478b725ae77Skettenis set_gdbarch_addr_bit (gdbarch, 16);
1479b725ae77Skettenis set_gdbarch_num_pseudo_regs (gdbarch, M68HC11_NUM_PSEUDO_REGS);
1480b725ae77Skettenis set_gdbarch_pc_regnum (gdbarch, HARD_PC_REGNUM);
1481b725ae77Skettenis set_gdbarch_num_regs (gdbarch, M68HC11_NUM_REGS);
1482b725ae77Skettenis break;
1483b725ae77Skettenis
1484b725ae77Skettenis case bfd_arch_m68hc12:
1485b725ae77Skettenis tdep->stack_correction = 0;
1486b725ae77Skettenis tdep->use_page_register = elf_flags & E_M68HC12_BANKS;
1487b725ae77Skettenis tdep->prologue = m6812_prologue;
1488b725ae77Skettenis set_gdbarch_addr_bit (gdbarch, elf_flags & E_M68HC12_BANKS ? 32 : 16);
1489b725ae77Skettenis set_gdbarch_num_pseudo_regs (gdbarch,
1490b725ae77Skettenis elf_flags & E_M68HC12_BANKS
1491b725ae77Skettenis ? M68HC12_NUM_PSEUDO_REGS
1492b725ae77Skettenis : M68HC11_NUM_PSEUDO_REGS);
1493b725ae77Skettenis set_gdbarch_pc_regnum (gdbarch, elf_flags & E_M68HC12_BANKS
1494b725ae77Skettenis ? M68HC12_HARD_PC_REGNUM : HARD_PC_REGNUM);
1495b725ae77Skettenis set_gdbarch_num_regs (gdbarch, elf_flags & E_M68HC12_BANKS
1496b725ae77Skettenis ? M68HC12_NUM_REGS : M68HC11_NUM_REGS);
1497b725ae77Skettenis break;
1498b725ae77Skettenis
1499b725ae77Skettenis default:
1500b725ae77Skettenis break;
1501b725ae77Skettenis }
1502b725ae77Skettenis
1503b725ae77Skettenis /* Initially set everything according to the ABI.
1504b725ae77Skettenis Use 16-bit integers since it will be the case for most
1505b725ae77Skettenis programs. The size of these types should normally be set
1506b725ae77Skettenis according to the dwarf2 debug information. */
1507b725ae77Skettenis set_gdbarch_short_bit (gdbarch, 16);
1508b725ae77Skettenis set_gdbarch_int_bit (gdbarch, elf_flags & E_M68HC11_I32 ? 32 : 16);
1509b725ae77Skettenis set_gdbarch_float_bit (gdbarch, 32);
1510b725ae77Skettenis set_gdbarch_double_bit (gdbarch, elf_flags & E_M68HC11_F64 ? 64 : 32);
1511b725ae77Skettenis set_gdbarch_long_double_bit (gdbarch, 64);
1512b725ae77Skettenis set_gdbarch_long_bit (gdbarch, 32);
1513b725ae77Skettenis set_gdbarch_ptr_bit (gdbarch, 16);
1514b725ae77Skettenis set_gdbarch_long_long_bit (gdbarch, 64);
1515b725ae77Skettenis
1516b725ae77Skettenis /* Characters are unsigned. */
1517b725ae77Skettenis set_gdbarch_char_signed (gdbarch, 0);
1518b725ae77Skettenis
1519b725ae77Skettenis set_gdbarch_unwind_pc (gdbarch, m68hc11_unwind_pc);
1520b725ae77Skettenis set_gdbarch_unwind_sp (gdbarch, m68hc11_unwind_sp);
1521b725ae77Skettenis
1522b725ae77Skettenis /* Set register info. */
1523b725ae77Skettenis set_gdbarch_fp0_regnum (gdbarch, -1);
1524b725ae77Skettenis
1525b725ae77Skettenis set_gdbarch_write_pc (gdbarch, generic_target_write_pc);
1526b725ae77Skettenis
1527b725ae77Skettenis set_gdbarch_sp_regnum (gdbarch, HARD_SP_REGNUM);
1528b725ae77Skettenis set_gdbarch_register_name (gdbarch, m68hc11_register_name);
1529b725ae77Skettenis set_gdbarch_register_type (gdbarch, m68hc11_register_type);
1530b725ae77Skettenis set_gdbarch_pseudo_register_read (gdbarch, m68hc11_pseudo_register_read);
1531b725ae77Skettenis set_gdbarch_pseudo_register_write (gdbarch, m68hc11_pseudo_register_write);
1532b725ae77Skettenis
1533b725ae77Skettenis set_gdbarch_push_dummy_call (gdbarch, m68hc11_push_dummy_call);
1534b725ae77Skettenis
1535*11efff7fSkettenis set_gdbarch_return_value (gdbarch, m68hc11_return_value);
1536b725ae77Skettenis set_gdbarch_skip_prologue (gdbarch, m68hc11_skip_prologue);
1537b725ae77Skettenis set_gdbarch_inner_than (gdbarch, core_addr_lessthan);
1538b725ae77Skettenis set_gdbarch_breakpoint_from_pc (gdbarch, m68hc11_breakpoint_from_pc);
1539b725ae77Skettenis set_gdbarch_deprecated_stack_align (gdbarch, m68hc11_stack_align);
1540b725ae77Skettenis set_gdbarch_print_insn (gdbarch, gdb_print_insn_m68hc11);
1541b725ae77Skettenis
1542b725ae77Skettenis m68hc11_add_reggroups (gdbarch);
1543b725ae77Skettenis set_gdbarch_register_reggroup_p (gdbarch, m68hc11_register_reggroup_p);
1544b725ae77Skettenis set_gdbarch_print_registers_info (gdbarch, m68hc11_print_registers_info);
1545b725ae77Skettenis
1546b725ae77Skettenis /* Hook in the DWARF CFI frame unwinder. */
1547b725ae77Skettenis frame_unwind_append_sniffer (gdbarch, dwarf2_frame_sniffer);
1548b725ae77Skettenis
1549b725ae77Skettenis frame_unwind_append_sniffer (gdbarch, m68hc11_frame_sniffer);
1550b725ae77Skettenis frame_base_set_default (gdbarch, &m68hc11_frame_base);
1551b725ae77Skettenis
1552b725ae77Skettenis /* Methods for saving / extracting a dummy frame's ID. The ID's
1553b725ae77Skettenis stack address must match the SP value returned by
1554b725ae77Skettenis PUSH_DUMMY_CALL, and saved by generic_save_dummy_frame_tos. */
1555b725ae77Skettenis set_gdbarch_unwind_dummy_id (gdbarch, m68hc11_unwind_dummy_id);
1556b725ae77Skettenis
1557b725ae77Skettenis /* Return the unwound PC value. */
1558b725ae77Skettenis set_gdbarch_unwind_pc (gdbarch, m68hc11_unwind_pc);
1559b725ae77Skettenis
1560b725ae77Skettenis /* Minsymbol frobbing. */
1561b725ae77Skettenis set_gdbarch_elf_make_msymbol_special (gdbarch,
1562b725ae77Skettenis m68hc11_elf_make_msymbol_special);
1563b725ae77Skettenis
1564b725ae77Skettenis set_gdbarch_believe_pcc_promotion (gdbarch, 1);
1565b725ae77Skettenis
1566b725ae77Skettenis return gdbarch;
1567b725ae77Skettenis }
1568b725ae77Skettenis
1569b725ae77Skettenis extern initialize_file_ftype _initialize_m68hc11_tdep; /* -Wmissing-prototypes */
1570b725ae77Skettenis
1571b725ae77Skettenis void
_initialize_m68hc11_tdep(void)1572b725ae77Skettenis _initialize_m68hc11_tdep (void)
1573b725ae77Skettenis {
1574b725ae77Skettenis register_gdbarch_init (bfd_arch_m68hc11, m68hc11_gdbarch_init);
1575b725ae77Skettenis register_gdbarch_init (bfd_arch_m68hc12, m68hc11_gdbarch_init);
1576b725ae77Skettenis m68hc11_init_reggroups ();
1577b725ae77Skettenis
1578b725ae77Skettenis deprecate_cmd (add_com ("regs", class_vars, show_regs,
1579b725ae77Skettenis "Print all registers"),
1580b725ae77Skettenis "info registers");
1581b725ae77Skettenis }
1582b725ae77Skettenis
1583