28 |
* SUCH DAMAGE. |
* SUCH DAMAGE. |
29 |
* |
* |
30 |
* |
* |
31 |
* $Id: cpu.h,v 1.75 2006/06/16 18:31:26 debug Exp $ |
* $Id: cpu.h,v 1.100 2006/10/25 09:24:06 debug Exp $ |
32 |
* |
* |
33 |
* CPU-related definitions. |
* CPU-related definitions. |
34 |
*/ |
*/ |
54 |
* instruction can "nullify" (skip) the delay-slot. If the end-of-page |
* instruction can "nullify" (skip) the delay-slot. If the end-of-page |
55 |
* slot is skipped, then we end up one step after that. That's where the |
* slot is skipped, then we end up one step after that. That's where the |
56 |
* end_of_page2 slot is. :) |
* end_of_page2 slot is. :) |
57 |
|
* |
58 |
|
* next_ofs points to the next page in a chain of possible pages. |
59 |
|
* (several pages can be in the same chain, but only one matches the |
60 |
|
* specific physaddr.) |
61 |
|
* |
62 |
|
* translations is a tiny bitmap indicating which parts of the page have |
63 |
|
* actual translations. Bit 0 corresponds to the lowest 1/32th of the page, |
64 |
|
* bit 1 to the second-lowest 1/32th, and so on. |
65 |
*/ |
*/ |
66 |
#define DYNTRANS_MISC_DECLARATIONS(arch,ARCH,addrtype) struct \ |
#define DYNTRANS_MISC_DECLARATIONS(arch,ARCH,addrtype) struct \ |
67 |
arch ## _instr_call { \ |
arch ## _instr_call { \ |
73 |
struct arch ## _tc_physpage { \ |
struct arch ## _tc_physpage { \ |
74 |
struct arch ## _instr_call ics[ARCH ## _IC_ENTRIES_PER_PAGE+2];\ |
struct arch ## _instr_call ics[ARCH ## _IC_ENTRIES_PER_PAGE+2];\ |
75 |
uint32_t next_ofs; /* (0 for end of chain) */ \ |
uint32_t next_ofs; /* (0 for end of chain) */ \ |
76 |
int flags; \ |
uint32_t translations; \ |
77 |
addrtype physaddr; \ |
addrtype physaddr; \ |
78 |
}; \ |
}; \ |
79 |
\ |
\ |
83 |
addrtype vaddr_page; \ |
addrtype vaddr_page; \ |
84 |
addrtype paddr_page; \ |
addrtype paddr_page; \ |
85 |
unsigned char *host_page; \ |
unsigned char *host_page; \ |
|
int64_t timestamp; \ |
|
86 |
}; |
}; |
87 |
|
|
88 |
#define DYNTRANS_MISC64_DECLARATIONS(arch,ARCH,tlbindextype) \ |
#define DYNTRANS_MISC64_DECLARATIONS(arch,ARCH,tlbindextype) \ |
121 |
#define DYNTRANS_ITC(arch) struct arch ## _tc_physpage *cur_physpage; \ |
#define DYNTRANS_ITC(arch) struct arch ## _tc_physpage *cur_physpage; \ |
122 |
struct arch ## _instr_call *cur_ic_page; \ |
struct arch ## _instr_call *cur_ic_page; \ |
123 |
struct arch ## _instr_call *next_ic; \ |
struct arch ## _instr_call *next_ic; \ |
124 |
|
struct arch ## _tc_physpage *physpage_template;\ |
125 |
void (*combination_check)(struct cpu *, \ |
void (*combination_check)(struct cpu *, \ |
126 |
struct arch ## _instr_call *, int low_addr); |
struct arch ## _instr_call *, int low_addr); |
127 |
|
|
155 |
* |
* |
156 |
* phys_page points to translation cache physpages. |
* phys_page points to translation cache physpages. |
157 |
* |
* |
|
* phystranslation is a bitmap which tells us whether a physical page has |
|
|
* a code translation. |
|
|
* |
|
158 |
* vaddr_to_tlbindex is a virtual address to tlb index hint table. |
* vaddr_to_tlbindex is a virtual address to tlb index hint table. |
159 |
* The values in this array are the tlb index plus 1, so a value of, say, |
* The values in this array are the tlb index plus 1, so a value of, say, |
160 |
* 3 means tlb index 2. A value of 0 would mean a tlb index of -1, which |
* 3 means tlb index 2. A value of 0 would mean a tlb index of -1, which |
166 |
unsigned char *host_store[N_VPH32_ENTRIES]; \ |
unsigned char *host_store[N_VPH32_ENTRIES]; \ |
167 |
paddrtype phys_addr[N_VPH32_ENTRIES]; \ |
paddrtype phys_addr[N_VPH32_ENTRIES]; \ |
168 |
struct arch ## _tc_physpage *phys_page[N_VPH32_ENTRIES]; \ |
struct arch ## _tc_physpage *phys_page[N_VPH32_ENTRIES]; \ |
|
uint32_t phystranslation[N_VPH32_ENTRIES/32]; \ |
|
169 |
tlbindextype vaddr_to_tlbindex[N_VPH32_ENTRIES]; |
tlbindextype vaddr_to_tlbindex[N_VPH32_ENTRIES]; |
170 |
|
|
171 |
/* |
/* |
194 |
#include "cpu_alpha.h" |
#include "cpu_alpha.h" |
195 |
#include "cpu_arm.h" |
#include "cpu_arm.h" |
196 |
#include "cpu_avr.h" |
#include "cpu_avr.h" |
197 |
|
#include "cpu_avr32.h" |
198 |
#include "cpu_hppa.h" |
#include "cpu_hppa.h" |
199 |
#include "cpu_i960.h" |
#include "cpu_i960.h" |
200 |
#include "cpu_ia64.h" |
#include "cpu_ia64.h" |
201 |
#include "cpu_m68k.h" |
#include "cpu_m68k.h" |
202 |
#include "cpu_mips.h" |
#include "cpu_mips.h" |
203 |
#include "cpu_ppc.h" |
#include "cpu_ppc.h" |
204 |
|
#include "cpu_rca180x.h" |
205 |
#include "cpu_sh.h" |
#include "cpu_sh.h" |
206 |
#include "cpu_sparc.h" |
#include "cpu_sparc.h" |
207 |
|
#include "cpu_transputer.h" |
208 |
#include "cpu_x86.h" |
#include "cpu_x86.h" |
209 |
|
|
210 |
struct cpu; |
struct cpu; |
211 |
struct emul; |
struct emul; |
212 |
struct machine; |
struct machine; |
213 |
struct memory; |
struct memory; |
214 |
|
struct settings; |
215 |
|
|
216 |
|
|
217 |
|
/* |
218 |
|
* cpu_family |
219 |
|
* ---------- |
220 |
|
* |
221 |
|
* This structure consists of various pointers to functions, performing |
222 |
|
* architecture-specific functions. |
223 |
|
* |
224 |
|
* Except for the next and arch fields at the top, all fields in the |
225 |
|
* cpu_family struct are filled in by ecah CPU family's init function. |
226 |
|
*/ |
227 |
struct cpu_family { |
struct cpu_family { |
228 |
struct cpu_family *next; |
struct cpu_family *next; |
229 |
int arch; |
int arch; |
230 |
|
|
231 |
/* These are filled in by each CPU family's init function: */ |
/* Familty name, e.g. "MIPS", "Alpha" etc. */ |
232 |
char *name; |
char *name; |
233 |
|
|
234 |
|
/* Fill in architecture specific parts of a struct cpu. */ |
235 |
int (*cpu_new)(struct cpu *cpu, struct memory *mem, |
int (*cpu_new)(struct cpu *cpu, struct memory *mem, |
236 |
struct machine *machine, |
struct machine *machine, |
237 |
int cpu_id, char *cpu_type_name); |
int cpu_id, char *cpu_type_name); |
238 |
|
|
239 |
|
/* Initialize various translation tables. */ |
240 |
|
void (*init_tables)(struct cpu *cpu); |
241 |
|
|
242 |
|
/* List available CPU types for this architecture. */ |
243 |
void (*list_available_types)(void); |
void (*list_available_types)(void); |
244 |
void (*register_match)(struct machine *m, |
|
245 |
char *name, int writeflag, |
/* Disassemble an instruction. */ |
|
uint64_t *valuep, int *match_register); |
|
246 |
int (*disassemble_instr)(struct cpu *cpu, |
int (*disassemble_instr)(struct cpu *cpu, |
247 |
unsigned char *instr, int running, |
unsigned char *instr, int running, |
248 |
uint64_t dumpaddr); |
uint64_t dumpaddr); |
249 |
|
|
250 |
|
/* Dump CPU registers in readable format. */ |
251 |
void (*register_dump)(struct cpu *cpu, |
void (*register_dump)(struct cpu *cpu, |
252 |
int gprs, int coprocs); |
int gprs, int coprocs); |
253 |
int (*run)(struct emul *emul, |
|
254 |
struct machine *machine); |
/* Dump generic CPU info in readable format. */ |
255 |
void (*dumpinfo)(struct cpu *cpu); |
void (*dumpinfo)(struct cpu *cpu); |
256 |
|
|
257 |
|
/* Dump TLB data for CPU id x. */ |
258 |
void (*tlbdump)(struct machine *m, int x, |
void (*tlbdump)(struct machine *m, int x, |
259 |
int rawflag); |
int rawflag); |
260 |
|
|
261 |
|
/* Assert an interrupt. */ |
262 |
int (*interrupt)(struct cpu *cpu, uint64_t irq_nr); |
int (*interrupt)(struct cpu *cpu, uint64_t irq_nr); |
263 |
|
|
264 |
|
/* De-assert an interrupt. */ |
265 |
int (*interrupt_ack)(struct cpu *cpu, |
int (*interrupt_ack)(struct cpu *cpu, |
266 |
uint64_t irq_nr); |
uint64_t irq_nr); |
267 |
|
|
268 |
|
/* Print architecture-specific function call arguments. |
269 |
|
(This is called for each function call, if running with -t.) */ |
270 |
void (*functioncall_trace)(struct cpu *, |
void (*functioncall_trace)(struct cpu *, |
271 |
uint64_t f, int n_args); |
uint64_t f, int n_args); |
272 |
|
|
273 |
|
/* GDB command handler. */ |
274 |
char *(*gdb_stub)(struct cpu *, char *cmd); |
char *(*gdb_stub)(struct cpu *, char *cmd); |
275 |
}; |
}; |
276 |
|
|
282 |
* into the cache, for possible translation cache structs for physical pages. |
* into the cache, for possible translation cache structs for physical pages. |
283 |
*/ |
*/ |
284 |
|
|
|
/* Physpage flags: */ |
|
|
#define TRANSLATIONS 1 |
|
|
#define COMBINATIONS 2 |
|
|
|
|
285 |
/* Meaning of delay_slot: */ |
/* Meaning of delay_slot: */ |
286 |
#define NOT_DELAYED 0 |
#define NOT_DELAYED 0 |
287 |
#define DELAYED 1 |
#define DELAYED 1 |
288 |
#define TO_BE_DELAYED 2 |
#define TO_BE_DELAYED 2 |
289 |
#define EXCEPTION_IN_DELAY_SLOT 0x100 |
#define EXCEPTION_IN_DELAY_SLOT 8 |
290 |
|
|
291 |
#define N_SAFE_DYNTRANS_LIMIT_SHIFT 14 |
#define N_SAFE_DYNTRANS_LIMIT_SHIFT 14 |
292 |
#define N_SAFE_DYNTRANS_LIMIT ((1 << (N_SAFE_DYNTRANS_LIMIT_SHIFT - 1)) - 1) |
#define N_SAFE_DYNTRANS_LIMIT ((1 << (N_SAFE_DYNTRANS_LIMIT_SHIFT - 1)) - 1) |
293 |
|
|
294 |
#define DYNTRANS_CACHE_SIZE (16*1048576) |
#define DYNTRANS_CACHE_SIZE (32*1048576) |
295 |
#define DYNTRANS_CACHE_MARGIN 300000 |
#define DYNTRANS_CACHE_MARGIN 200000 |
296 |
|
|
297 |
#define N_BASE_TABLE_ENTRIES 32768 |
#define N_BASE_TABLE_ENTRIES 32768 |
298 |
#define PAGENR_TO_TABLE_INDEX(a) ((a) & (N_BASE_TABLE_ENTRIES-1)) |
#define PAGENR_TO_TABLE_INDEX(a) ((a) & (N_BASE_TABLE_ENTRIES-1)) |
306 |
/* Pointer back to the machine this CPU is in: */ |
/* Pointer back to the machine this CPU is in: */ |
307 |
struct machine *machine; |
struct machine *machine; |
308 |
|
|
309 |
|
/* Settings: */ |
310 |
|
struct settings *settings; |
311 |
|
|
312 |
|
/* CPU-specific name, e.g. "R2000", "21164PC", etc. */ |
313 |
|
char *name; |
314 |
|
|
315 |
|
/* EMUL_LITTLE_ENDIAN or EMUL_BIG_ENDIAN. */ |
316 |
int byte_order; |
int byte_order; |
317 |
int running; |
|
318 |
int dead; |
/* 0-based CPU id, in an emulated SMP system. */ |
|
int bootstrap_cpu_flag; |
|
319 |
int cpu_id; |
int cpu_id; |
|
int is_32bit; /* 0 for 64-bit, 1 for 32-bit */ |
|
|
char *name; |
|
320 |
|
|
321 |
|
/* 0 for emulated 64-bit CPUs, 1 for 32-bit. */ |
322 |
|
int is_32bit; |
323 |
|
|
324 |
|
/* 1 while running, 0 when paused/stopped. */ |
325 |
|
int running; |
326 |
|
|
327 |
|
/* A pointer to the main memory connected to this CPU. */ |
328 |
struct memory *mem; |
struct memory *mem; |
329 |
|
|
330 |
|
int (*run_instr)(struct cpu *cpu); |
331 |
int (*memory_rw)(struct cpu *cpu, |
int (*memory_rw)(struct cpu *cpu, |
332 |
struct memory *mem, uint64_t vaddr, |
struct memory *mem, uint64_t vaddr, |
333 |
unsigned char *data, size_t len, |
unsigned char *data, size_t len, |
334 |
int writeflag, int cache_flags); |
int writeflag, int cache_flags); |
335 |
int (*translate_address)(struct cpu *, uint64_t vaddr, |
int (*translate_v2p)(struct cpu *, uint64_t vaddr, |
336 |
uint64_t *return_addr, int flags); |
uint64_t *return_paddr, int flags); |
337 |
void (*update_translation_table)(struct cpu *, |
void (*update_translation_table)(struct cpu *, |
338 |
uint64_t vaddr_page, unsigned char *host_page, |
uint64_t vaddr_page, unsigned char *host_page, |
339 |
int writeflag, uint64_t paddr_page); |
int writeflag, uint64_t paddr_page); |
345 |
int (*instruction_has_delayslot)(struct cpu *cpu, |
int (*instruction_has_delayslot)(struct cpu *cpu, |
346 |
unsigned char *ib); |
unsigned char *ib); |
347 |
|
|
348 |
|
/* The program counter. (For 32-bit modes, not all bits are used.) */ |
349 |
uint64_t pc; |
uint64_t pc; |
350 |
|
|
351 |
|
/* See comment further up. */ |
352 |
|
int delay_slot; |
353 |
|
|
354 |
|
/* The current depth of function call tracing. */ |
355 |
int trace_tree_depth; |
int trace_tree_depth; |
356 |
|
|
357 |
/* |
/* |
358 |
|
* If is_halted is true when an interrupt trap occurs, the pointer |
359 |
|
* to the next instruction to execute will be the instruction |
360 |
|
* following the halt instruction, not the halt instrucion itself. |
361 |
|
* |
362 |
|
* If has_been_idling is true when printing the number of executed |
363 |
|
* instructions per second, "idling" is printed instead. (The number |
364 |
|
* of instrs per second when idling is meaningless anyway.) |
365 |
|
*/ |
366 |
|
int is_halted; |
367 |
|
int has_been_idling; |
368 |
|
|
369 |
|
/* |
370 |
* Dynamic translation: |
* Dynamic translation: |
371 |
|
* |
372 |
|
* The number of translated instructions is assumed to be 1 per |
373 |
|
* instruction call. For each case where this differs from the |
374 |
|
* truth, n_translated_instrs should be modified. E.g. if 1000 |
375 |
|
* instruction calls are done, and n_translated_instrs is 50, then |
376 |
|
* 1050 emulated instructions were actually executed. |
377 |
|
* |
378 |
|
* Note that it can also be adjusted negatively, that is, the way |
379 |
|
* to "get out" of a dyntrans loop is to set the current instruction |
380 |
|
* call pointer to the "nothing" instruction. This instruction |
381 |
|
* _decreases_ n_translated_instrs. That way, once the dyntrans loop |
382 |
|
* exits, only real instructions will be counted, and not the |
383 |
|
* "nothing" instructions. |
384 |
*/ |
*/ |
|
int running_translated; |
|
385 |
int n_translated_instrs; |
int n_translated_instrs; |
386 |
unsigned char *translation_cache; |
unsigned char *translation_cache; |
387 |
size_t translation_cache_cur_ofs; |
size_t translation_cache_cur_ofs; |
388 |
|
|
|
uint64_t delay_jmpaddr; /* only used if delay_slot > 0 */ |
|
|
int delay_slot; |
|
|
|
|
389 |
/* |
/* |
390 |
* CPU-family dependent: |
* CPU-family dependent: |
391 |
|
* |
392 |
|
* These contain everything ranging from registers, memory management, |
393 |
|
* status words, etc. |
394 |
*/ |
*/ |
395 |
union { |
union { |
396 |
struct alpha_cpu alpha; |
struct alpha_cpu alpha; |
397 |
struct arm_cpu arm; |
struct arm_cpu arm; |
398 |
struct avr_cpu avr; |
struct avr_cpu avr; |
399 |
struct hppa_cpu hppa; |
struct avr32_cpu avr32; |
400 |
struct i960_cpu i960; |
struct hppa_cpu hppa; |
401 |
struct ia64_cpu ia64; |
struct i960_cpu i960; |
402 |
struct m68k_cpu m68k; |
struct ia64_cpu ia64; |
403 |
struct mips_cpu mips; |
struct m68k_cpu m68k; |
404 |
struct ppc_cpu ppc; |
struct mips_cpu mips; |
405 |
struct sh_cpu sh; |
struct ppc_cpu ppc; |
406 |
struct sparc_cpu sparc; |
struct rca180x_cpu rca180x; |
407 |
struct x86_cpu x86; |
struct sh_cpu sh; |
408 |
|
struct sparc_cpu sparc; |
409 |
|
struct transputer_cpu transputer; |
410 |
|
struct x86_cpu x86; |
411 |
} cd; |
} cd; |
412 |
}; |
}; |
413 |
|
|
415 |
/* cpu.c: */ |
/* cpu.c: */ |
416 |
struct cpu *cpu_new(struct memory *mem, struct machine *machine, |
struct cpu *cpu_new(struct memory *mem, struct machine *machine, |
417 |
int cpu_id, char *cpu_type_name); |
int cpu_id, char *cpu_type_name); |
418 |
|
void cpu_destroy(struct cpu *cpu); |
419 |
|
|
420 |
void cpu_tlbdump(struct machine *m, int x, int rawflag); |
void cpu_tlbdump(struct machine *m, int x, int rawflag); |
|
void cpu_register_match(struct machine *m, char *name, |
|
|
int writeflag, uint64_t *valuep, int *match_register); |
|
421 |
void cpu_register_dump(struct machine *m, struct cpu *cpu, |
void cpu_register_dump(struct machine *m, struct cpu *cpu, |
422 |
int gprs, int coprocs); |
int gprs, int coprocs); |
423 |
int cpu_disassemble_instr(struct machine *m, struct cpu *cpu, |
int cpu_disassemble_instr(struct machine *m, struct cpu *cpu, |
424 |
unsigned char *instr, int running, uint64_t addr); |
unsigned char *instr, int running, uint64_t addr); |
425 |
char *cpu_gdb_stub(struct cpu *cpu, char *cmd); |
char *cpu_gdb_stub(struct cpu *cpu, char *cmd); |
426 |
|
|
427 |
int cpu_interrupt(struct cpu *cpu, uint64_t irq_nr); |
int cpu_interrupt(struct cpu *cpu, uint64_t irq_nr); |
428 |
int cpu_interrupt_ack(struct cpu *cpu, uint64_t irq_nr); |
int cpu_interrupt_ack(struct cpu *cpu, uint64_t irq_nr); |
429 |
void cpu_functioncall_trace(struct cpu *cpu, uint64_t f); |
void cpu_functioncall_trace(struct cpu *cpu, uint64_t f); |
430 |
void cpu_functioncall_trace_return(struct cpu *cpu); |
void cpu_functioncall_trace_return(struct cpu *cpu); |
431 |
|
|
432 |
void cpu_create_or_reset_tc(struct cpu *cpu); |
void cpu_create_or_reset_tc(struct cpu *cpu); |
433 |
|
|
434 |
void cpu_run_init(struct machine *machine); |
void cpu_run_init(struct machine *machine); |
|
int cpu_run(struct emul *emul, struct machine *machine); |
|
435 |
void cpu_run_deinit(struct machine *machine); |
void cpu_run_deinit(struct machine *machine); |
436 |
|
|
437 |
void cpu_dumpinfo(struct machine *m, struct cpu *cpu); |
void cpu_dumpinfo(struct machine *m, struct cpu *cpu); |
438 |
void cpu_list_available_types(void); |
void cpu_list_available_types(void); |
439 |
void cpu_show_cycles(struct machine *machine, int forced); |
void cpu_show_cycles(struct machine *machine, int forced); |
440 |
|
|
441 |
struct cpu_family *cpu_family_ptr_by_number(int arch); |
struct cpu_family *cpu_family_ptr_by_number(int arch); |
442 |
void cpu_init(void); |
void cpu_init(void); |
443 |
|
|
448 |
#define INVALIDATE_VADDR 8 |
#define INVALIDATE_VADDR 8 |
449 |
#define INVALIDATE_VADDR_UPPER4 16 /* useful for PPC emulation */ |
#define INVALIDATE_VADDR_UPPER4 16 /* useful for PPC emulation */ |
450 |
|
|
451 |
#define TLB_CODE 0x02 |
|
452 |
|
/* Note: 64-bit processors running in 32-bit mode use a 32-bit |
453 |
|
display format, even though the underlying data is 64-bits. */ |
454 |
|
#define CPU_SETTINGS_ADD_REGISTER64(name, var) \ |
455 |
|
settings_add(cpu->settings, name, 1, SETTINGS_TYPE_UINT64, \ |
456 |
|
cpu->is_32bit? SETTINGS_FORMAT_HEX32 : SETTINGS_FORMAT_HEX64, \ |
457 |
|
(void *) &(var)); |
458 |
|
#define CPU_SETTINGS_ADD_REGISTER32(name, var) \ |
459 |
|
settings_add(cpu->settings, name, 1, SETTINGS_TYPE_UINT32, \ |
460 |
|
SETTINGS_FORMAT_HEX32, (void *) &(var)); |
461 |
|
#define CPU_SETTINGS_ADD_REGISTER16(name, var) \ |
462 |
|
settings_add(cpu->settings, name, 1, SETTINGS_TYPE_UINT16, \ |
463 |
|
SETTINGS_FORMAT_HEX16, (void *) &(var)); |
464 |
|
#define CPU_SETTINGS_ADD_REGISTER8(name, var) \ |
465 |
|
settings_add(cpu->settings, name, 1, SETTINGS_TYPE_UINT8, \ |
466 |
|
SETTINGS_FORMAT_HEX8, (void *) &(var)); |
467 |
|
|
468 |
|
|
469 |
#define CPU_FAMILY_INIT(n,s) int n ## _cpu_family_init( \ |
#define CPU_FAMILY_INIT(n,s) int n ## _cpu_family_init( \ |
472 |
fp->name = s; \ |
fp->name = s; \ |
473 |
fp->cpu_new = n ## _cpu_new; \ |
fp->cpu_new = n ## _cpu_new; \ |
474 |
fp->list_available_types = n ## _cpu_list_available_types; \ |
fp->list_available_types = n ## _cpu_list_available_types; \ |
|
fp->register_match = n ## _cpu_register_match; \ |
|
475 |
fp->disassemble_instr = n ## _cpu_disassemble_instr; \ |
fp->disassemble_instr = n ## _cpu_disassemble_instr; \ |
476 |
fp->register_dump = n ## _cpu_register_dump; \ |
fp->register_dump = n ## _cpu_register_dump; \ |
|
fp->run = n ## _cpu_run; \ |
|
477 |
fp->dumpinfo = n ## _cpu_dumpinfo; \ |
fp->dumpinfo = n ## _cpu_dumpinfo; \ |
478 |
fp->interrupt = n ## _cpu_interrupt; \ |
fp->interrupt = n ## _cpu_interrupt; \ |
479 |
fp->interrupt_ack = n ## _cpu_interrupt_ack; \ |
fp->interrupt_ack = n ## _cpu_interrupt_ack; \ |
480 |
fp->functioncall_trace = n ## _cpu_functioncall_trace; \ |
fp->functioncall_trace = n ## _cpu_functioncall_trace; \ |
481 |
fp->gdb_stub = n ## _cpu_gdb_stub; \ |
fp->gdb_stub = n ## _cpu_gdb_stub; \ |
482 |
fp->tlbdump = n ## _cpu_tlbdump; \ |
fp->tlbdump = n ## _cpu_tlbdump; \ |
483 |
|
fp->init_tables = n ## _cpu_init_tables; \ |
484 |
return 1; \ |
return 1; \ |
485 |
} |
} |
486 |
|
|