#include <stdio.h>
#include <string.h>
-#include "runtime.h"
#include "sbcl.h"
+#include "runtime.h"
#include "globals.h"
#include "validate.h"
#include "os.h"
#include "interrupt.h"
#include "interr.h"
#include "breakpoint.h"
-#include "monitor.h"
extern char call_into_lisp_LRA[], call_into_lisp_end[];
* page size is. */
if (mmap((os_vm_address_t) call_into_lisp_LRA_page,os_vm_page_size,
- OS_VM_PROT_ALL,MAP_PRIVATE|MAP_ANONYMOUS|MAP_FIXED,-1,0)
- == (os_vm_address_t) -1)
- perror("mmap");
-
+ OS_VM_PROT_ALL,MAP_PRIVATE|MAP_ANONYMOUS|MAP_FIXED,-1,0)
+ == (os_vm_address_t) -1)
+ perror("mmap");
+
/* call_into_lisp_LRA is a collection of trampolines written in asm -
* see alpha-assem.S. We copy it to call_into_lisp_LRA_page where
- * VOPs and things can find it. (I don't know why they can't find it
+ * VOPs and things can find it. (I don't know why they can't find it
* where it was to start with.) */
bcopy(call_into_lisp_LRA,(void *)call_into_lisp_LRA_page,os_vm_page_size);
os_flush_icache((os_vm_address_t)call_into_lisp_LRA_page,
- os_vm_page_size);
+ os_vm_page_size);
return;
}
-os_vm_address_t
+os_vm_address_t
arch_get_bad_addr (int sig, siginfo_t *code, os_context_t *context)
{
unsigned int badinst;
/* Instructions are 32 bit quantities. */
unsigned int *pc ;
/* fprintf(stderr,"arch_get_bad_addr %d %p %p\n",
- sig, code, context); */
+ sig, code, context); */
pc= (unsigned int *)(*os_context_pc_addr(context));
if (((unsigned long)pc) & 3) {
- return NULL; /* In what case would pc be unaligned?? */
+ return NULL; /* In what case would pc be unaligned?? */
}
if ( (pc < READ_ONLY_SPACE_START ||
- pc >= READ_ONLY_SPACE_START+READ_ONLY_SPACE_SIZE) &&
- (pc < current_dynamic_space ||
- pc >= current_dynamic_space + DYNAMIC_SPACE_SIZE))
- return NULL;
+ pc >= READ_ONLY_SPACE_START+READ_ONLY_SPACE_SIZE) &&
+ (pc < current_dynamic_space ||
+ pc >= current_dynamic_space + dynamic_space_size))
+ return NULL;
return context->uc_mcontext.sc_traparg_a0;
}
/* This may be complete rubbish, as (at least for traps) pc points
* _after_ the instruction that caused us to be here anyway.
*/
- ((char*)*os_context_pc_addr(context)) +=4; }
+ char **pcptr;
+ pcptr = (char **) os_context_pc_addr(context);
+ *pcptr += 4;
+}
unsigned char *
arch_internal_error_arguments(os_context_t *context)
boolean
arch_pseudo_atomic_atomic(os_context_t *context)
{
- return ((*os_context_register_addr(context,reg_ALLOC)) & 1);
+ /* FIXME: this foreign_function_call_active test is dubious at
+ * best. If a foreign call is made in a pseudo atomic section
+ * (?) or more likely a pseudo atomic section is in a foreign
+ * call then an interrupt is executed immediately. Maybe it
+ * has to do with C code not maintaining pseudo atomic
+ * properly. MG - 2005-08-10
+ *
+ * The foreign_function_call_active used to live at each call-site
+ * to arch_pseudo_atomic_atomic, but this seems clearer.
+ * --NS 2007-05-15 */
+ return (!foreign_function_call_active)
+ && ((*os_context_register_addr(context,reg_ALLOC)) & 1);
}
void arch_set_pseudo_atomic_interrupted(os_context_t *context)
{
/* On coming out of an atomic section, we subtract 1 from
* reg_Alloc, then try to store something at that address. So,
- * to signal that it was interrupted and a signal should be handled,
+ * to signal that it was interrupted and a signal should be handled,
* we set bit 63 of reg_ALLOC here so that the end-of-atomic code
* will raise SIGSEGV (no ram mapped there). We catch the signal
- * (see the appropriate *-os.c) and call interrupt_handle_pending()
+ * (see the appropriate *-os.c) and call interrupt_handle_pending()
* for the saved signal instead */
*os_context_register_addr(context,reg_ALLOC) |= (1L<<63);
}
-unsigned long arch_install_breakpoint(void *pc)
+void arch_clear_pseudo_atomic_interrupted(os_context_t *context)
+{
+ *os_context_register_addr(context, reg_ALLOC) &= ~(1L<<63);
+}
+
+unsigned int arch_install_breakpoint(void *pc)
{
unsigned int *ptr = (unsigned int *)pc;
- unsigned long result = (unsigned long) *ptr;
+ unsigned int result = *ptr;
*ptr = BREAKPOINT_INST;
-
- os_flush_icache((os_vm_address_t)ptr, sizeof(unsigned long));
-
+
+ os_flush_icache((os_vm_address_t)ptr, sizeof(unsigned int));
+
return result;
}
-void arch_remove_breakpoint(void *pc, unsigned long orig_inst)
+void arch_remove_breakpoint(void *pc, unsigned int orig_inst)
{
- /* was (unsigned int) but gcc complains. Changed to mirror
- * install_breakpoint() above */
- unsigned long *ptr=(unsigned long *)pc;
+ unsigned int *ptr = (unsigned int *)pc;
*ptr = orig_inst;
- os_flush_icache((os_vm_address_t)pc, sizeof(unsigned long));
+ os_flush_icache((os_vm_address_t)pc, sizeof(unsigned int));
}
static unsigned int *skipped_break_addr, displaced_after_inst,
/* This returns a PC value. Lisp code is all in the 32-bit-addressable
* space, so we should be ok with an unsigned int. */
unsigned int
-emulate_branch(os_context_t *context,unsigned long orig_inst)
+emulate_branch(os_context_t *context, unsigned int orig_inst)
{
int op = orig_inst >> 26;
int reg_a = (orig_inst >> 21) & 0x1f;
int reg_b = (orig_inst >> 16) & 0x1f;
int disp =
- (orig_inst&(1<<20)) ?
- orig_inst | (-1 << 21) :
- orig_inst&0x1fffff;
+ (orig_inst&(1<<20)) ?
+ orig_inst | (-1 << 21) :
+ orig_inst&0x1fffff;
int next_pc = *os_context_pc_addr(context);
- int branch = 0; /* was NULL; */
+ int branch = 0; /* was NULL; */
switch(op) {
case 0x1a: /* jmp, jsr, jsr_coroutine, ret */
- *os_context_register_addr(context,reg_a) =
- *os_context_pc_addr(context);
- *os_context_pc_addr(context) =
- *os_context_register_addr(context,reg_b)& ~3;
- break;
+ *os_context_register_addr(context,reg_a) =
+ *os_context_pc_addr(context);
+ *os_context_pc_addr(context) =
+ *os_context_register_addr(context,reg_b)& ~3;
+ break;
case 0x30: /* br */
- *os_context_register_addr(context,reg_a)=*os_context_pc_addr(context);
- branch = 1;
- break;
+ *os_context_register_addr(context,reg_a)=*os_context_pc_addr(context);
+ branch = 1;
+ break;
case 0x31: /* fbeq */
- if (*(os_context_float_register_addr(context,reg_a))==0) branch = 1;
- break;
+ if (*(os_context_float_register_addr(context,reg_a))==0) branch = 1;
+ break;
case 0x32: /* fblt */
- if (*os_context_float_register_addr(context,reg_a)<0) branch = 1;
- break;
+ if (*os_context_float_register_addr(context,reg_a)<0) branch = 1;
+ break;
case 0x33: /* fble */
- if (*os_context_float_register_addr(context,reg_a)<=0) branch = 1;
- break;
+ if (*os_context_float_register_addr(context,reg_a)<=0) branch = 1;
+ break;
case 0x34: /* bsr */
- *os_context_register_addr(context,reg_a)=*os_context_pc_addr(context);
- branch = 1;
- break;
+ *os_context_register_addr(context,reg_a)=*os_context_pc_addr(context);
+ branch = 1;
+ break;
case 0x35: /* fbne */
- if (*os_context_register_addr(context,reg_a)!=0) branch = 1;
- break;
+ if (*os_context_register_addr(context,reg_a)!=0) branch = 1;
+ break;
case 0x36: /* fbge */
- if (*os_context_float_register_addr(context,reg_a)>=0) branch = 1;
- break;
+ if (*os_context_float_register_addr(context,reg_a)>=0) branch = 1;
+ break;
case 0x37: /* fbgt */
- if (*os_context_float_register_addr(context,reg_a)>0) branch = 1;
- break;
+ if (*os_context_float_register_addr(context,reg_a)>0) branch = 1;
+ break;
case 0x38: /* blbc */
- if ((*os_context_register_addr(context,reg_a)&1) == 0) branch = 1;
- break;
+ if ((*os_context_register_addr(context,reg_a)&1) == 0) branch = 1;
+ break;
case 0x39: /* beq */
- if (*os_context_register_addr(context,reg_a)==0) branch = 1;
- break;
+ if (*os_context_register_addr(context,reg_a)==0) branch = 1;
+ break;
case 0x3a: /* blt */
- if (*os_context_register_addr(context,reg_a)<0) branch = 1;
- break;
+ if (*os_context_register_addr(context,reg_a)<0) branch = 1;
+ break;
case 0x3b: /* ble */
- if (*os_context_register_addr(context,reg_a)<=0) branch = 1;
- break;
+ if (*os_context_register_addr(context,reg_a)<=0) branch = 1;
+ break;
case 0x3c: /* blbs */
- if ((*os_context_register_addr(context,reg_a)&1)!=0) branch = 1;
- break;
+ if ((*os_context_register_addr(context,reg_a)&1)!=0) branch = 1;
+ break;
case 0x3d: /* bne */
- if (*os_context_register_addr(context,reg_a)!=0) branch = 1;
- break;
+ if (*os_context_register_addr(context,reg_a)!=0) branch = 1;
+ break;
case 0x3e: /* bge */
- if (*os_context_register_addr(context,reg_a)>=0) branch = 1;
- break;
+ if (*os_context_register_addr(context,reg_a)>=0) branch = 1;
+ break;
case 0x3f: /* bgt */
- if (*os_context_register_addr(context,reg_a)>0) branch = 1;
- break;
+ if (*os_context_register_addr(context,reg_a)>0) branch = 1;
+ break;
}
if (branch)
- next_pc += disp*4;
+ next_pc += disp*4;
return next_pc;
}
/* Perform the instruction that we overwrote with a breakpoint. As we
* don't have a single-step facility, this means we have to:
* - put the instruction back
- * - put a second breakpoint at the following instruction,
+ * - put a second breakpoint at the following instruction,
* set after_breakpoint and continue execution.
*
* When the second breakpoint is hit (very shortly thereafter, we hope)
- * sigtrap_handler gets called again, but follows the AfterBreakpoint
- * arm, which
- * - puts a bpt back in the first breakpoint place (running across a
+ * sigtrap_handler gets called again, but follows the AfterBreakpoint
+ * arm, which
+ * - puts a bpt back in the first breakpoint place (running across a
* breakpoint shouldn't cause it to be uninstalled)
* - replaces the second bpt with the instruction it was meant to be
- * - carries on
+ * - carries on
*
* Clear?
*/
/* Put the original instruction back. */
*pc = orig_inst;
- os_flush_icache((os_vm_address_t)pc, sizeof(unsigned long));
+ os_flush_icache((os_vm_address_t)pc, sizeof(unsigned int));
skipped_break_addr = pc;
- /* Figure out where we will end up after running the displaced
+ /* Figure out where we will end up after running the displaced
* instruction */
if (op == 0x1a || (op&0xf) == 0x30) /* a branch */
- /* The cast to long is just to shut gcc up. */
- next_pc = (unsigned int *)((long)emulate_branch(context,orig_inst));
+ /* The cast to long is just to shut gcc up. */
+ next_pc = (unsigned int *)((long)emulate_branch(context,orig_inst));
else
- next_pc = pc+1;
-
+ next_pc = pc+1;
+
/* Set the after breakpoint. */
displaced_after_inst = *next_pc;
*next_pc = BREAKPOINT_INST;
after_breakpoint=1;
- os_flush_icache((os_vm_address_t)next_pc, sizeof(unsigned long));
+ os_flush_icache((os_vm_address_t)next_pc, sizeof(unsigned int));
+}
+
+void
+arch_handle_breakpoint(os_context_t *context)
+{
+ *os_context_pc_addr(context) -=4;
+ handle_breakpoint(context);
+}
+
+void
+arch_handle_fun_end_breakpoint(os_context_t *context)
+{
+ *os_context_pc_addr(context) -=4;
+ *os_context_pc_addr(context) =
+ (int)handle_fun_end_breakpoint(context);
+}
+
+void
+arch_handle_single_step_trap(os_context_t *context, int trap)
+{
+ unsigned int code = *((u32 *) (*os_context_pc_addr(context)));
+ int register_offset = code >> 5 & 0x1f;
+ handle_single_step_trap(context, trap, register_offset);
+ arch_skip_instruction(context);
}
static void
{
unsigned int code;
-#ifdef LISP_FEATURE_LINUX
- os_restore_fp_control(context);
-#endif
-
- /* Don't disallow recursive breakpoint traps. Otherwise, we can't */
- /* use debugger breakpoints anywhere in here. */
- sigset_t *mask=(os_context_sigmask_addr(context));
- sigsetmask(mask);
-
/* this is different from how CMUCL does it. CMUCL used "call_pal
* PAL_gentrap", which doesn't do anything on Linux (unless NL0
* contains certain specific values). We use "bugchk" instead.
* breakpoint or a "system service" */
if ((*(unsigned int*)(*os_context_pc_addr(context)-4))==BREAKPOINT_INST) {
- if (after_breakpoint) {
- /* see comments above arch_do_displaced_inst. This is where
- * we reinsert the breakpoint that we removed earlier */
-
- *os_context_pc_addr(context) -=4;
- *skipped_break_addr = BREAKPOINT_INST;
- os_flush_icache((os_vm_address_t)skipped_break_addr,
- sizeof(unsigned long));
- skipped_break_addr = NULL;
- *(unsigned int *)*os_context_pc_addr(context) =
- displaced_after_inst;
- os_flush_icache((os_vm_address_t)*os_context_pc_addr(context), sizeof(unsigned long));
- *os_context_sigmask_addr(context)= orig_sigmask;
- after_breakpoint=0; /* false */
- return;
- } else
- code = trap_Breakpoint;
+ if (after_breakpoint) {
+ /* see comments above arch_do_displaced_inst. This is where
+ * we reinsert the breakpoint that we removed earlier */
+
+ *os_context_pc_addr(context) -=4;
+ *skipped_break_addr = BREAKPOINT_INST;
+ os_flush_icache((os_vm_address_t)skipped_break_addr,
+ sizeof(unsigned int));
+ skipped_break_addr = NULL;
+ *(unsigned int *)*os_context_pc_addr(context) =
+ displaced_after_inst;
+ os_flush_icache((os_vm_address_t)*os_context_pc_addr(context), sizeof(unsigned int));
+ *os_context_sigmask_addr(context)= orig_sigmask;
+ after_breakpoint=0; /* false */
+ return;
+ } else
+ code = trap_Breakpoint;
} else
- /* a "system service" */
+ /* a "system service" */
code=*((u32 *)(*os_context_pc_addr(context)));
-
- switch (code) {
- case trap_PendingInterrupt:
- arch_skip_instruction(context);
- interrupt_handle_pending(context);
- break;
-
- case trap_Halt:
- fake_foreign_function_call(context);
- lose("%%primitive halt called; the party is over.\n");
-
- case trap_Error:
- case trap_Cerror:
- interrupt_internal_error(signal, siginfo, context, code==trap_Cerror);
- break;
-
- case trap_Breakpoint: /* call lisp-level handler */
- *os_context_pc_addr(context) -=4;
- handle_breakpoint(signal, siginfo, context);
- break;
-
- case trap_FunEndBreakpoint:
- *os_context_pc_addr(context) -=4;
- *os_context_pc_addr(context) =
- (int)handle_fun_end_breakpoint(signal, siginfo, context);
- break;
-
- default:
- fprintf(stderr, "unidentified breakpoint/trap %d\n",code);
- interrupt_handle_now(signal, siginfo, context);
- break;
- }
+ handle_trap(context, code);
}
unsigned long
{
undoably_install_low_level_interrupt_handler(SIGTRAP, sigtrap_handler);
}
-
-extern lispobj call_into_lisp(lispobj fun, lispobj *args, int nargs);
-
-lispobj funcall0(lispobj function)
-{
- lispobj *args = current_control_stack_pointer;
-
- return call_into_lisp(function, args, 0);
-}
-
-lispobj funcall1(lispobj function, lispobj arg0)
-{
- lispobj *args = current_control_stack_pointer;
-
- current_control_stack_pointer += 1;
- args[0] = arg0;
-
- return call_into_lisp(function, args, 1);
-}
-
-lispobj funcall2(lispobj function, lispobj arg0, lispobj arg1)
-{
- lispobj *args = current_control_stack_pointer;
-
- current_control_stack_pointer += 2;
- args[0] = arg0;
- args[1] = arg1;
-
- return call_into_lisp(function, args, 2);
-}
-
-lispobj funcall3(lispobj function, lispobj arg0, lispobj arg1, lispobj arg2)
-{
- lispobj *args = current_control_stack_pointer;
-
- current_control_stack_pointer += 3;
- args[0] = arg0;
- args[1] = arg1;
- args[2] = arg2;
-
- return call_into_lisp(function, args, 3);
-}
-