2 * This software is part of the SBCL system. See the README file for
5 * This software is derived from the CMU CL system, which was
6 * written at Carnegie Mellon University and released into the
7 * public domain. The software is in the public domain and is
8 * provided with absolutely no warranty. See the COPYING and CREDITS
9 * files for more information.
24 #include "interrupt.h"
26 #include "breakpoint.h"
30 #include "genesis/static-symbols.h"
31 #include "genesis/symbol.h"
33 #define BREAKPOINT_INST 0xcc /* INT3 */
35 unsigned long fast_random_state = 1;
41 * hacking signal contexts
43 * (This depends both on architecture, which determines what we might
44 * want to get to, and on OS, which determines how we get to it.)
48 context_eflags_addr(os_context_t *context)
51 /* KLUDGE: As of kernel 2.2.14 on Red Hat 6.2, there's code in the
52 * <sys/ucontext.h> file to define symbolic names for offsets into
53 * gregs[], but it's conditional on __USE_GNU and not defined, so
54 * we need to do this nasty absolute index magic number thing
56 return &context->uc_mcontext.gregs[17];
57 #elif defined __FreeBSD__
58 return &context->uc_mcontext.mc_eflags;
59 #elif defined __OpenBSD__
60 return &context->sc_eflags;
66 void arch_skip_instruction(os_context_t *context)
68 /* Assuming we get here via an INT3 xxx instruction, the PC now
69 * points to the interrupt code (a Lisp value) so we just move
70 * past it. Skip the code; after that, if the code is an
71 * error-trap or cerror-trap then skip the data bytes that follow. */
77 /* Get and skip the Lisp interrupt code. */
78 code = *(char*)(*os_context_pc_addr(context))++;
83 /* Lisp error arg vector length */
84 vlen = *(char*)(*os_context_pc_addr(context))++;
85 /* Skip Lisp error arg data bytes. */
87 ++*os_context_pc_addr(context);
91 case trap_Breakpoint: /* not tested */
92 case trap_FunEndBreakpoint: /* not tested */
95 case trap_PendingInterrupt:
97 /* only needed to skip the Code */
101 fprintf(stderr,"[arch_skip_inst invalid code %d\n]\n",code);
106 "/[arch_skip_inst resuming at %x]\n",
107 *os_context_pc_addr(context)));
111 arch_internal_error_arguments(os_context_t *context)
113 return 1 + (unsigned char *)(*os_context_pc_addr(context));
117 arch_pseudo_atomic_atomic(os_context_t *context)
119 return SymbolValue(PSEUDO_ATOMIC_ATOMIC,arch_os_get_current_thread());
123 arch_set_pseudo_atomic_interrupted(os_context_t *context)
125 SetSymbolValue(PSEUDO_ATOMIC_INTERRUPTED, make_fixnum(1),
126 arch_os_get_current_thread());
130 * This stuff seems to get called for TRACE and debug activity.
134 arch_install_breakpoint(void *pc)
136 unsigned int result = *(unsigned int*)pc;
138 *(char*)pc = BREAKPOINT_INST; /* x86 INT3 */
139 *((char*)pc+1) = trap_Breakpoint; /* Lisp trap code */
145 arch_remove_breakpoint(void *pc, unsigned int orig_inst)
147 *((char *)pc) = orig_inst & 0xff;
148 *((char *)pc + 1) = (orig_inst & 0xff00) >> 8;
151 /* When single stepping, single_stepping holds the original instruction
153 unsigned int *single_stepping = NULL;
154 #ifdef CANNOT_GET_TO_SINGLE_STEP_FLAG
155 unsigned long single_step_save1;
156 unsigned long single_step_save2;
157 unsigned long single_step_save3;
161 arch_do_displaced_inst(os_context_t *context, unsigned int orig_inst)
163 unsigned int *pc = (unsigned int*)(*os_context_pc_addr(context));
165 /* Put the original instruction back. */
166 *((char *)pc) = orig_inst & 0xff;
167 *((char *)pc + 1) = (orig_inst & 0xff00) >> 8;
169 #ifdef CANNOT_GET_TO_SINGLE_STEP_FLAG
170 /* Install helper instructions for the single step:
171 * pushf; or [esp],0x100; popf. */
172 single_step_save1 = *(pc-3);
173 single_step_save2 = *(pc-2);
174 single_step_save3 = *(pc-1);
175 *(pc-3) = 0x9c909090;
176 *(pc-2) = 0x00240c81;
177 *(pc-1) = 0x9d000001;
179 *context_eflags_addr(context) |= 0x100;
182 single_stepping = pc;
184 #ifdef CANNOT_GET_TO_SINGLE_STEP_FLAG
185 *os_context_pc_addr(context) = (char *)pc - 9;
190 sigtrap_handler(int signal, siginfo_t *info, void *void_context)
192 int code = info->si_code;
193 os_context_t *context = (os_context_t*)void_context;
196 if (single_stepping && (signal==SIGTRAP))
198 /* fprintf(stderr,"* single step trap %x\n", single_stepping); */
200 #ifdef CANNOT_GET_TO_SINGLE_STEP_FLAG
201 /* Un-install single step helper instructions. */
202 *(single_stepping-3) = single_step_save1;
203 *(single_stepping-2) = single_step_save2;
204 *(single_stepping-1) = single_step_save3;
206 *context_eflags_addr(context) ^= 0x100;
208 /* Re-install the breakpoint if possible. */
209 if (*os_context_pc_addr(context) == (int)single_stepping + 1) {
210 fprintf(stderr, "warning: couldn't reinstall breakpoint\n");
212 *((char *)single_stepping) = BREAKPOINT_INST; /* x86 INT3 */
213 *((char *)single_stepping+1) = trap_Breakpoint;
216 single_stepping = NULL;
220 /* This is just for info in case the monitor wants to print an
222 current_control_stack_pointer =
223 (lispobj *)*os_context_sp_addr(context);
225 /* FIXME: CMUCL puts the float control restoration code here.
226 Thus, it seems to me that single-stepping won't restore the
227 float control. Since SBCL currently doesn't support
228 single-stepping (as far as I can tell) this is somewhat moot,
229 but it might be worth either moving this code up or deleting
230 the single-stepping code entirely. -- CSR, 2002-07-15 */
231 #ifdef LISP_FEATURE_LINUX
232 os_restore_fp_control(context);
235 /* On entry %eip points just after the INT3 byte and aims at the
236 * 'kind' value (eg trap_Cerror). For error-trap and Cerror-trap a
237 * number of bytes will follow, the first is the length of the byte
238 * arguments to follow. */
239 trap = *(unsigned char *)(*os_context_pc_addr(context));
242 case trap_PendingInterrupt:
243 FSHOW((stderr, "/<trap pending interrupt>\n"));
244 arch_skip_instruction(context);
245 interrupt_handle_pending(context);
249 /* Note: the old CMU CL code tried to save FPU state
250 * here, and restore it after we do our thing, but there
251 * seems to be no point in doing that, since we're just
252 * going to lose(..) anyway. */
253 fake_foreign_function_call(context);
254 lose("%%PRIMITIVE HALT called; the party is over.");
258 FSHOW((stderr, "<trap error/cerror %d>\n", code));
259 interrupt_internal_error(signal, info, context, code==trap_Cerror);
262 case trap_Breakpoint:
263 --*os_context_pc_addr(context);
264 handle_breakpoint(signal, info, context);
267 case trap_FunEndBreakpoint:
268 --*os_context_pc_addr(context);
269 *os_context_pc_addr(context) =
270 (unsigned long)handle_fun_end_breakpoint(signal, info, context);
274 FSHOW((stderr,"/[C--trap default %d %d %x]\n",
275 signal, code, context));
276 interrupt_handle_now(signal, info, context);
282 sigill_handler(int signal, siginfo_t *siginfo, void *void_context) {
283 os_context_t *context = (os_context_t*)void_context;
284 fake_foreign_function_call(context);
285 monitor_or_something();
289 arch_install_interrupt_handlers()
291 SHOW("entering arch_install_interrupt_handlers()");
293 /* Note: The old CMU CL code here used sigtrap_handler() to handle
294 * SIGILL as well as SIGTRAP. I couldn't see any reason to do
295 * things that way. So, I changed to separate handlers when
296 * debugging a problem on OpenBSD, where SBCL wasn't catching
297 * SIGILL properly, but was instead letting the process be
298 * terminated with an "Illegal instruction" output. If this change
299 * turns out to break something (maybe breakpoint handling on some
300 * OS I haven't tested on?) and we have to go back to the old CMU
301 * CL way, I hope there will at least be a comment to explain
302 * why.. -- WHN 2001-06-07 */
303 undoably_install_low_level_interrupt_handler(SIGILL , sigill_handler);
304 undoably_install_low_level_interrupt_handler(SIGTRAP, sigtrap_handler);
306 SHOW("returning from arch_install_interrupt_handlers()");
309 /* This is implemented in assembly language and called from C: */
311 call_into_lisp(lispobj fun, lispobj *args, int nargs);
313 /* These functions are an interface to the Lisp call-in facility.
314 * Since this is C we can know nothing about the calling environment.
315 * The control stack might be the C stack if called from the monitor
316 * or the Lisp stack if called as a result of an interrupt or maybe
317 * even a separate stack. The args are most likely on that stack but
318 * could be in registers depending on what the compiler likes. So we
319 * copy the args into a portable vector and let the assembly language
320 * call-in function figure it out. */
323 funcall0(lispobj function)
325 lispobj *args = NULL;
327 FSHOW((stderr, "/entering funcall0(0x%lx)\n", (long)function));
328 return call_into_lisp(function, args, 0);
331 funcall1(lispobj function, lispobj arg0)
335 return call_into_lisp(function, args, 1);
338 funcall2(lispobj function, lispobj arg0, lispobj arg1)
343 return call_into_lisp(function, args, 2);
346 funcall3(lispobj function, lispobj arg0, lispobj arg1, lispobj arg2)
352 return call_into_lisp(function, args, 3);
356 #ifdef LISP_FEATURE_LINKAGE_TABLE
357 /* FIXME: It might be cleaner to generate these from the lisp side of
362 arch_write_linkage_table_jmp(char * reloc, void * fun)
364 unsigned long addr = (unsigned long) fun;
367 *reloc++ = 0xFF; /* Opcode for near jump to absolute reg/mem64. */
368 *reloc++ = 0x25; /* ModRM #b00 100 101, i.e. RIP-relative. */
369 *reloc++ = 0x00; /* 32-bit displacement field = 0 */
370 *reloc++ = 0x00; /* ... */
371 *reloc++ = 0x00; /* ... */
372 *reloc++ = 0x00; /* ... */
374 for (i = 0; i < 8; i++) {
375 *reloc++ = addr & 0xff;
379 /* write a nop for good measure. */
384 arch_write_linkage_table_ref(void * reloc, void * data)
386 *(unsigned long *)reloc = (unsigned long)data;
391 /* These setup and check *both* the sse2 and x87 FPUs. While lisp code
392 only uses the sse2 FPU, other code (such as libc) may use the x87 FPU.
400 /* return the x87 exception flags ored in with the sse2
401 * control+status flags */
402 asm ("fnstsw %0" : "=m" (temp));
405 asm ("stmxcsr %0" : "=m" (temp));
407 /* flip exception mask bits */
408 return result ^ (0x3F << 7);
414 unsigned short unused1;
416 unsigned short unused2;
417 unsigned int other_regs[5];
421 arch_set_fp_modes(unsigned int mxcsr)
426 /* turn trap enable bits into exception mask */
430 asm ("fnstenv %0" : "=m" (f_env));
431 /* set control word: always long double precision
432 * get traps and rounding from mxcsr word */
433 f_env.cw = 0x300 | ((mxcsr >> 7) & 0x3F) | (((mxcsr >> 13) & 0x3) << 10);
434 /* set status word: only override exception flags, from mxcsr */
436 f_env.sw |= (mxcsr & 0x3F);
438 asm ("fldenv %0" : : "m" (f_env));
440 /* now, simply, load up the mxcsr register */
442 asm ("ldmxcsr %0" : : "m" (temp));