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See the file COPYING in the main directory of this archive * for more details. */ /* * Sets up all exception vectors */ #include <linux/config.h> #include <linux/sched.h> #include <linux/signal.h> #include <linux/kernel.h> #include <linux/mm.h> #include <linux/types.h> #include <linux/a.out.h> #include <linux/user.h> #include <linux/string.h> #include <linux/linkage.h> #include <linux/init.h> #include <asm/setup.h> #include <asm/fpu.h> #include <asm/system.h> #include <asm/uaccess.h> #include <asm/traps.h> #include <asm/pgtable.h> #include <asm/machdep.h> #include <asm/siginfo.h> #ifdef CONFIG_KGDB #include <asm/kgdb.h> #endif /* assembler routines */ asmlinkage void system_call(void); asmlinkage void buserr(void); asmlinkage void trap(void); asmlinkage void inthandler(void); asmlinkage void nmihandler(void); #ifdef CONFIG_M68KFPU_EMU asmlinkage void fpu_emu(void); #endif e_vector vectors[256] = { 0, 0, buserr, trap, trap, trap, trap, trap, trap, trap, trap, trap, trap, trap, trap, trap, trap, trap, trap, trap, trap, trap, trap, trap, inthandler, inthandler, inthandler, inthandler, inthandler, inthandler, inthandler, inthandler, /* TRAP #0-15 */ system_call, trap, trap, trap, trap, trap, trap, trap, trap, trap, trap, trap, trap, trap, trap, trap, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, }; /* nmi handler for the Amiga */ asm(".text\n" __ALIGN_STR "\n" SYMBOL_NAME_STR(nmihandler) ": rte"); void __init base_trap_init(void) { #ifdef CONFIG_SUN3 /* Keep the keyboard interrupt working with PROM for debugging. --m */ e_vector *old_vbr; __asm__ volatile ("movec %%vbr,%1\n\t" "movec %0,%%vbr" : "=&r" (old_vbr) : "r" ((void*)vectors)); vectors[0x1E] = old_vbr[0x1E]; /* Copy int6 vector. */ #else /* setup the exception vector table */ __asm__ volatile ("movec %0,%%vbr" : : "r" ((void*)vectors)); #endif if (CPU_IS_040 && !FPU_IS_EMU) { /* set up FPSP entry points */ asmlinkage void dz_vec(void) asm ("dz"); asmlinkage void inex_vec(void) asm ("inex"); asmlinkage void ovfl_vec(void) asm ("ovfl"); asmlinkage void unfl_vec(void) asm ("unfl"); asmlinkage void snan_vec(void) asm ("snan"); asmlinkage void operr_vec(void) asm ("operr"); asmlinkage void bsun_vec(void) asm ("bsun"); asmlinkage void fline_vec(void) asm ("fline"); asmlinkage void unsupp_vec(void) asm ("unsupp"); vectors[VEC_FPDIVZ] = dz_vec; vectors[VEC_FPIR] = inex_vec; vectors[VEC_FPOVER] = ovfl_vec; vectors[VEC_FPUNDER] = unfl_vec; vectors[VEC_FPNAN] = snan_vec; vectors[VEC_FPOE] = operr_vec; vectors[VEC_FPBRUC] = bsun_vec; vectors[VEC_LINE11] = fline_vec; vectors[VEC_FPUNSUP] = unsupp_vec; } if (CPU_IS_060) { /* set up ISP entry points */ asmlinkage void unimp_vec(void) asm ("_060_isp_unimp"); vectors[VEC_UNIMPII] = unimp_vec; } if (CPU_IS_060 && !FPU_IS_EMU) { /* set up IFPSP entry points */ asmlinkage void snan_vec(void) asm ("_060_fpsp_snan"); asmlinkage void operr_vec(void) asm ("_060_fpsp_operr"); asmlinkage void ovfl_vec(void) asm ("_060_fpsp_ovfl"); asmlinkage void unfl_vec(void) asm ("_060_fpsp_unfl"); asmlinkage void dz_vec(void) asm ("_060_fpsp_dz"); asmlinkage void inex_vec(void) asm ("_060_fpsp_inex"); asmlinkage void fline_vec(void) asm ("_060_fpsp_fline"); asmlinkage void unsupp_vec(void) asm ("_060_fpsp_unsupp"); asmlinkage void effadd_vec(void) asm ("_060_fpsp_effadd"); vectors[VEC_FPNAN] = snan_vec; vectors[VEC_FPOE] = operr_vec; vectors[VEC_FPOVER] = ovfl_vec; vectors[VEC_FPUNDER] = unfl_vec; vectors[VEC_FPDIVZ] = dz_vec; vectors[VEC_FPIR] = inex_vec; vectors[VEC_LINE11] = fline_vec; vectors[VEC_FPUNSUP] = unsupp_vec; vectors[VEC_UNIMPEA] = effadd_vec; } } void __init trap_init (void) { int i; for (i = 48; i < 64; i++) if (!vectors[i]) vectors[i] = trap; for (i = 64; i < 256; i++) vectors[i] = inthandler; #ifdef CONFIG_M68KFPU_EMU if (FPU_IS_EMU) vectors[VEC_LINE11] = fpu_emu; #endif /* if running on an amiga, make the NMI interrupt do nothing */ if (MACH_IS_AMIGA) { vectors[VEC_INT7] = nmihandler; } #ifdef CONFIG_SUN3 /* Moved from setup_arch() */ base_trap_init(); #endif } static inline void console_verbose(void) { extern int console_loglevel; console_loglevel = 15; } static char *vec_names[] = { "RESET SP", "RESET PC", "BUS ERROR", "ADDRESS ERROR", "ILLEGAL INSTRUCTION", "ZERO DIVIDE", "CHK", "TRAPcc", "PRIVILEGE VIOLATION", "TRACE", "LINE 1010", "LINE 1111", "UNASSIGNED RESERVED 12", "COPROCESSOR PROTOCOL VIOLATION", "FORMAT ERROR", "UNINITIALIZED INTERRUPT", "UNASSIGNED RESERVED 16", "UNASSIGNED RESERVED 17", "UNASSIGNED RESERVED 18", "UNASSIGNED RESERVED 19", "UNASSIGNED RESERVED 20", "UNASSIGNED RESERVED 21", "UNASSIGNED RESERVED 22", "UNASSIGNED RESERVED 23", "SPURIOUS INTERRUPT", "LEVEL 1 INT", "LEVEL 2 INT", "LEVEL 3 INT", "LEVEL 4 INT", "LEVEL 5 INT", "LEVEL 6 INT", "LEVEL 7 INT", "SYSCALL", "TRAP #1", "TRAP #2", "TRAP #3", "TRAP #4", "TRAP #5", "TRAP #6", "TRAP #7", "TRAP #8", "TRAP #9", "TRAP #10", "TRAP #11", "TRAP #12", "TRAP #13", "TRAP #14", "TRAP #15", "FPCP BSUN", "FPCP INEXACT", "FPCP DIV BY 0", "FPCP UNDERFLOW", "FPCP OPERAND ERROR", "FPCP OVERFLOW", "FPCP SNAN", "FPCP UNSUPPORTED OPERATION", "MMU CONFIGURATION ERROR" }; #ifndef CONFIG_SUN3 static char *space_names[] = { "Space 0", "User Data", "User Program", "Space 3", "Space 4", "Super Data", "Super Program", "CPU" }; #else static char *space_names[] = { "Space 0", "User Data", "User Program", "Control", "Space 4", "Super Data", "Super Program", "CPU" }; #endif void die_if_kernel(char *,struct pt_regs *,int); asmlinkage int do_page_fault(struct pt_regs *regs, unsigned long address, unsigned long error_code); asmlinkage void trap_c(struct frame *fp); #if defined (CONFIG_M68060) static inline void access_error060 (struct frame *fp) { unsigned long fslw = fp->un.fmt4.pc; /* is really FSLW for access error */ #ifdef DEBUG printk("fslw=%#lx, fa=%#lx\n", fslw, fp->un.fmt4.effaddr); #endif if (fslw & MMU060_BPE) { /* branch prediction error -> clear branch cache */ __asm__ __volatile__ ("movec %/cacr,%/d0\n\t" "orl #0x00400000,%/d0\n\t" "movec %/d0,%/cacr" : : : "d0" ); /* return if there's no other error */ if ((!(fslw & MMU060_ERR_BITS)) && !(fslw & MMU060_SEE)) return; } if (fslw & (MMU060_DESC_ERR | MMU060_WP | MMU060_SP)) { unsigned long errorcode; unsigned long addr = fp->un.fmt4.effaddr; errorcode = ((fslw & MMU060_WP) ? 1 : 0) | ((fslw & MMU060_W) ? 2 : 0); #ifdef DEBUG printk("errorcode = %d\n", errorcode ); #endif if (fslw & MMU060_MA) addr = PAGE_ALIGN(addr); do_page_fault(&fp->ptregs, addr, errorcode); } else if (fslw & (MMU060_SEE)){ /* Software Emulation Error. Probably an instruction * using an unsupported addressing mode */ send_sig (SIGSEGV, current, 1); } else { printk("pc=%#lx, fa=%#lx\n", fp->ptregs.pc, fp->un.fmt4.effaddr); printk( "68060 access error, fslw=%lx\n", fslw ); trap_c( fp ); } } #endif /* CONFIG_M68060 */ #if defined (CONFIG_M68040) static inline unsigned long probe040 (int iswrite, int fc, unsigned long addr) { unsigned long mmusr; mm_segment_t fs = get_fs(); set_fs (MAKE_MM_SEG(fc)); if (iswrite) /* write */ asm volatile (".chip 68040\n\t" "ptestw (%1)\n\t" "movec %%mmusr,%0\n\t" ".chip 68k" : "=r" (mmusr) : "a" (addr)); else asm volatile (".chip 68040\n\t" "ptestr (%1)\n\t" "movec %%mmusr,%0\n\t" ".chip 68k" : "=r" (mmusr) : "a" (addr)); set_fs (fs); return mmusr; } static inline void do_040writeback (unsigned short ssw, unsigned short wbs, unsigned long wba, unsigned long wbd, struct frame *fp) { mm_segment_t fs = get_fs (); unsigned long mmusr; unsigned long errorcode; /* * No special handling for the second writeback anymore. * It misinterpreted the misaligned status sometimes. * This way an extra page-fault may be caused (Martin Apel). */ mmusr = probe040 (1, wbs & WBTM_040, wba); errorcode = (mmusr & MMU_R_040) ? 3 : 2; if (do_page_fault (&fp->ptregs, wba, errorcode)) /* just return if we can't perform the writeback */ return; set_fs (MAKE_MM_SEG(wbs & WBTM_040)); switch (wbs & WBSIZ_040) { case BA_SIZE_BYTE: put_user (wbd & 0xff, (char *)wba); break; case BA_SIZE_WORD: put_user (wbd & 0xffff, (short *)wba); break; case BA_SIZE_LONG: put_user (wbd, (int *)wba); break; } set_fs (fs); } static inline void access_error040 (struct frame *fp) { unsigned short ssw = fp->un.fmt7.ssw; unsigned long mmusr; #ifdef DEBUG printk("ssw=%#x, fa=%#lx\n", ssw, fp->un.fmt7.faddr); printk("wb1s=%#x, wb2s=%#x, wb3s=%#x\n", fp->un.fmt7.wb1s, fp->un.fmt7.wb2s, fp->un.fmt7.wb3s); printk ("wb2a=%lx, wb3a=%lx, wb2d=%lx, wb3d=%lx\n", fp->un.fmt7.wb2a, fp->un.fmt7.wb3a, fp->un.fmt7.wb2d, fp->un.fmt7.wb3d); #endif if (ssw & ATC_040) { unsigned long addr = fp->un.fmt7.faddr; unsigned long errorcode; /* * The MMU status has to be determined AFTER the address * has been corrected if there was a misaligned access (MA). */ if (ssw & MA_040) addr = PAGE_ALIGN (addr); /* MMU error, get the MMUSR info for this access */ mmusr = probe040 (!(ssw & RW_040), ssw & TM_040, addr); #ifdef DEBUG printk("mmusr = %lx\n", mmusr); #endif errorcode = ((mmusr & MMU_R_040) ? 1 : 0) | ((ssw & RW_040) ? 0 : 2); #ifdef CONFIG_FTRACE { unsigned long flags; save_flags(flags); cli(); do_ftrace(0xfa000000 | errorcode); do_ftrace(mmusr); restore_flags(flags); } #endif do_page_fault (&fp->ptregs, addr, errorcode); } else { printk ("68040 access error, ssw=%x\n", ssw); trap_c (fp); } #if 0 if (fp->un.fmt7.wb1s & WBV_040) printk("access_error040: cannot handle 1st writeback. oops.\n"); #endif /* * We may have to do a couple of writebacks here. * * MR: we can speed up the thing a little bit and let do_040writeback() * not produce another page fault as wb2 corresponds to the address that * caused the fault. on write faults no second fault is generated, but * on read faults for security reasons (although per definitionem impossible) */ if (fp->un.fmt7.wb2s & WBV_040 && (fp->un.fmt7.wb2s & WBTT_040) != BA_TT_MOVE16) do_040writeback (ssw, fp->un.fmt7.wb2s, fp->un.fmt7.wb2a, fp->un.fmt7.wb2d, fp); if (fp->un.fmt7.wb3s & WBV_040) do_040writeback (ssw, fp->un.fmt7.wb3s, fp->un.fmt7.wb3a, fp->un.fmt7.wb3d, fp); } #endif /* CONFIG_M68040 */ #if defined(CONFIG_SUN3) #include <asm/sun3mmu.h> extern int mmu_emu_handle_fault (unsigned long, int, int); /* sun3 version of bus_error030 */ extern inline void bus_error030 (struct frame *fp) { unsigned char buserr_type = sun3_get_buserr (); unsigned long addr, errorcode; unsigned short ssw = fp->un.fmtb.ssw; #if DEBUG if (ssw & (FC | FB)) printk ("Instruction fault at %#010lx\n", ssw & FC ? fp->ptregs.format == 0xa ? fp->ptregs.pc + 2 : fp->un.fmtb.baddr - 2 : fp->ptregs.format == 0xa ? fp->ptregs.pc + 4 : fp->un.fmtb.baddr); if (ssw & DF) printk ("Data %s fault at %#010lx in %s (pc=%#lx)\n", ssw & RW ? "read" : "write", fp->un.fmtb.daddr, space_names[ssw & DFC], fp->ptregs.pc); #endif /* * Check if this page should be demand-mapped. This needs to go before * the testing for a bad kernel-space access (demand-mapping applies * to kernel accesses too). */ if ((ssw & DF) && (buserr_type & (SUN3_BUSERR_PROTERR | SUN3_BUSERR_INVALID))) { if (mmu_emu_handle_fault (fp->un.fmtb.daddr, ssw & RW, 0)) return; } /* Check for kernel-space pagefault (BAD). */ if (fp->ptregs.sr & PS_S) { /* kernel fault must be a data fault to user space */ if (! ((ssw & DF) && ((ssw & DFC) == USER_DATA))) { // try checking the kernel mappings before surrender if (mmu_emu_handle_fault (fp->un.fmtb.daddr, ssw & RW, 1)) return; /* instruction fault or kernel data fault! */ if (ssw & (FC | FB)) printk ("Instruction fault at %#010lx\n", fp->ptregs.pc); if (ssw & DF) { printk ("Data %s fault at %#010lx in %s (pc=%#lx)\n", ssw & RW ? "read" : "write", fp->un.fmtb.daddr, space_names[ssw & DFC], fp->ptregs.pc); } printk ("BAD KERNEL BUSERR\n"); die_if_kernel("Oops", &fp->ptregs,0); force_sig(SIGKILL, current); return; } } else { /* user fault */ if (!(ssw & (FC | FB)) && !(ssw & DF)) /* not an instruction fault or data fault! BAD */ panic ("USER BUSERR w/o instruction or data fault"); } /* First handle the data fault, if any. */ if (ssw & DF) { addr = fp->un.fmtb.daddr; // errorcode bit 0: 0 -> no page 1 -> protection fault // errorcode bit 1: 0 -> read fault 1 -> write fault // (buserr_type & SUN3_BUSERR_PROTERR) -> protection fault // (buserr_type & SUN3_BUSERR_INVALID) -> invalid page fault if (buserr_type & SUN3_BUSERR_PROTERR) errorcode = 0x01; else if (buserr_type & SUN3_BUSERR_INVALID) errorcode = 0x00; else { printk ("*** unexpected busfault type=%#04x\n", buserr_type); printk ("invalid %s access at %#lx from pc %#lx\n", !(ssw & RW) ? "write" : "read", addr, fp->ptregs.pc); die_if_kernel ("Oops", &fp->ptregs, buserr_type); force_sig (SIGSEGV, current); return; } //todo: wtf is RM bit? --m if (!(ssw & RW) || ssw & RM) errorcode |= 0x02; /* Handle page fault. */ do_page_fault (&fp->ptregs, addr, errorcode); /* Retry the data fault now. */ return; } /* Now handle the instruction fault. */ /* Get the fault address. */ if (fp->ptregs.format == 0xA) addr = fp->ptregs.pc + 4; else addr = fp->un.fmtb.baddr; if (ssw & FC) addr -= 2; if (buserr_type & SUN3_BUSERR_INVALID) { if (!mmu_emu_handle_fault (fp->un.fmtb.daddr, 1, 0)) do_page_fault (&fp->ptregs, addr, 0); } else { #ifdef DEBUG printk ("protection fault on insn access (segv).\n"); #endif force_sig (SIGSEGV, current); } } #else #if defined(CPU_M68020_OR_M68030) static inline void bus_error030 (struct frame *fp) { volatile unsigned short temp; unsigned short mmusr; unsigned long addr, errorcode; unsigned short ssw = fp->un.fmtb.ssw; int user_space_fault = 1; #if DEBUG unsigned long desc; #endif #if DEBUG printk ("pid = %x ", current->pid); printk ("SSW=%#06x ", ssw); if (ssw & (FC | FB)) printk ("Instruction fault at %#010lx\n", ssw & FC ? fp->ptregs.format == 0xa ? fp->ptregs.pc + 2 : fp->un.fmtb.baddr - 2 : fp->ptregs.format == 0xa ? fp->ptregs.pc + 4 : fp->un.fmtb.baddr); if (ssw & DF) printk ("Data %s fault at %#010lx in %s (pc=%#lx)\n", ssw & RW ? "read" : "write", fp->un.fmtb.daddr, space_names[ssw & DFC], fp->ptregs.pc); #endif if (fp->ptregs.sr & PS_S) { /* kernel fault must be a data fault to user space */ if (! ((ssw & DF) && ((ssw & DFC) == USER_DATA))) { /* instruction fault or kernel data fault! */ if (ssw & (FC | FB)) printk ("Instruction fault at %#010lx\n", fp->ptregs.pc); if (ssw & DF) { printk ("Data %s fault at %#010lx in %s (pc=%#lx)\n", ssw & RW ? "read" : "write", fp->un.fmtb.daddr, space_names[ssw & DFC], fp->ptregs.pc); } printk ("BAD KERNEL BUSERR\n"); die_if_kernel("Oops",&fp->ptregs,0); force_sig(SIGKILL, current); return; } } else { /* user fault */ if (!(ssw & (FC | FB)) && !(ssw & DF)) /* not an instruction fault or data fault! BAD */ panic ("USER BUSERR w/o instruction or data fault"); user_space_fault = 1; #if DEBUG printk("User space bus-error\n"); #endif } /* ++andreas: If a data fault and an instruction fault happen at the same time map in both pages. */ /* First handle the data fault, if any. */ if (ssw & DF) { addr = fp->un.fmtb.daddr; mmusr = MMU_I; if (user_space_fault) { #if DEBUG asm volatile ("ptestr #1,%2@,#7,%0\n\t" "pmove %/psr,%1@" : "=a&" (desc) : "a" (&temp), "a" (addr)); #else asm volatile ("ptestr #1,%1@,#7\n\t" "pmove %/psr,%0@" : : "a" (&temp), "a" (addr)); #endif mmusr = temp; } #if DEBUG printk ("mmusr is %#x for addr %#lx in task %p\n", mmusr, addr, current); printk ("descriptor address is %#lx, contents %#lx\n", mm_ptov(desc), *(unsigned long *)mm_ptov(desc)); #endif errorcode = (mmusr & MMU_I) ? 0 : 1; if (!(ssw & RW) || (ssw & RM)) errorcode |= 2; if (mmusr & (MMU_I | MMU_WP)) { /* Don't try to do anything further if an exception was handled. */ if (do_page_fault (&fp->ptregs, addr, errorcode) < 0) return; } else if (mmusr & (MMU_B|MMU_L|MMU_S)) { printk ("invalid %s access at %#lx from pc %#lx\n", !(ssw & RW) ? "write" : "read", addr, fp->ptregs.pc); die_if_kernel("Oops",&fp->ptregs,mmusr); force_sig(SIGSEGV, current); return; } else { #if 0 static volatile long tlong; #endif printk ("weird %s access at %#lx from pc %#lx (ssw is %#x)\n", !(ssw & RW) ? "write" : "read", addr, fp->ptregs.pc, ssw); asm volatile ("ptestr #1,%1@,#0\n\t" "pmove %/psr,%0@" : /* no outputs */ : "a" (&temp), "a" (addr)); mmusr = temp; printk ("level 0 mmusr is %#x\n", mmusr); #if 0 asm volatile ("pmove %/tt0,%0@" : /* no outputs */ : "a" (&tlong)); printk ("tt0 is %#lx, ", tlong); asm volatile ("pmove %/tt1,%0@" : /* no outputs */ : "a" (&tlong)); printk ("tt1 is %#lx\n", tlong); #endif #if DEBUG printk("Unknown SIGSEGV - 1\n"); #endif die_if_kernel("Oops",&fp->ptregs,mmusr); force_sig(SIGSEGV, current); return; } /* setup an ATC entry for the access about to be retried */ if (!(ssw & RW)) asm volatile ("ploadw %1,%0@" : /* no outputs */ : "a" (addr), "d" (ssw)); else asm volatile ("ploadr %1,%0@" : /* no outputs */ : "a" (addr), "d" (ssw)); } /* Now handle the instruction fault. */ if (!(ssw & (FC|FB))) return; /* get the fault address */ if (fp->ptregs.format == 10) addr = fp->ptregs.pc + 4; else addr = fp->un.fmtb.baddr; if (ssw & FC) addr -= 2; if ((ssw & DF) && ((addr ^ fp->un.fmtb.daddr) & PAGE_MASK) == 0) /* Insn fault on same page as data fault. But we should still create the ATC entry. */ goto create_atc_entry; mmusr = MMU_I; if (user_space_fault) { #if DEBUG asm volatile ("ptestr #1,%2@,#7,%0\n\t" "pmove %/psr,%1@" : "=a&" (desc) : "a" (&temp), "a" (addr)); #else asm volatile ("ptestr #1,%1@,#7\n\t" "pmove %/psr,%0@" : : "a" (&temp), "a" (addr)); #endif mmusr = temp; } #ifdef DEBUG printk ("mmusr is %#x for addr %#lx in task %p\n", mmusr, addr, current); printk ("descriptor address is %#lx, contents %#lx\n", mm_ptov(desc), *(unsigned long *)mm_ptov(desc)); #endif if (mmusr & MMU_I) do_page_fault (&fp->ptregs, addr, 0); else if (mmusr & (MMU_B|MMU_L|MMU_S)) { printk ("invalid insn access at %#lx from pc %#lx\n", addr, fp->ptregs.pc); #if DEBUG printk("Unknown SIGSEGV - 2\n"); #endif die_if_kernel("Oops",&fp->ptregs,mmusr); force_sig(SIGSEGV, current); return; } create_atc_entry: /* setup an ATC entry for the access about to be retried */ asm volatile ("ploadr #2,%0@" : /* no outputs */ : "a" (addr)); } #endif /* CPU_M68020_OR_M68030 */ #endif /* !CONFIG_SUN3 */ asmlinkage void buserr_c(struct frame *fp) { /* Only set esp0 if coming from user mode */ if (user_mode(&fp->ptregs)) current->thread.esp0 = (unsigned long) fp; #if DEBUG printk ("*** Bus Error *** Format is %x\n", fp->ptregs.format); #endif switch (fp->ptregs.format) { #if defined (CONFIG_M68060) case 4: /* 68060 access error */ access_error060 (fp); break; #endif #if defined (CONFIG_M68040) case 0x7: /* 68040 access error */ access_error040 (fp); break; #endif #if defined (CPU_M68020_OR_M68030) case 0xa: case 0xb: bus_error030 (fp); break; #endif default: die_if_kernel("bad frame format",&fp->ptregs,0); #if DEBUG printk("Unknown SIGSEGV - 4\n"); #endif force_sig(SIGSEGV, current); } } int kstack_depth_to_print = 48; /* MODULE_RANGE is a guess of how much space is likely to be vmalloced. */ #define MODULE_RANGE (8*1024*1024) static void dump_stack(struct frame *fp) { #ifdef CONFIG_KGDB /* This will never return to here, if kgdb has been initialized. And if * it returns from there, then to where the error happened... */ enter_kgdb( &fp->ptregs ); #else unsigned long *stack, *endstack, addr, module_start, module_end; extern char _start, _etext; int i; addr = (unsigned long)&fp->un; printk("Frame format=%X ", fp->ptregs.format); switch (fp->ptregs.format) { case 0x2: printk("instr addr=%08lx\n", fp->un.fmt2.iaddr); addr += sizeof(fp->un.fmt2); break; case 0x3: printk("eff addr=%08lx\n", fp->un.fmt3.effaddr); addr += sizeof(fp->un.fmt3); break; case 0x4: printk((CPU_IS_060 ? "fault addr=%08lx fslw=%08lx\n" : "eff addr=%08lx pc=%08lx\n"), fp->un.fmt4.effaddr, fp->un.fmt4.pc); addr += sizeof(fp->un.fmt4); break; case 0x7: printk("eff addr=%08lx ssw=%04x faddr=%08lx\n", fp->un.fmt7.effaddr, fp->un.fmt7.ssw, fp->un.fmt7.faddr); printk("wb 1 stat/addr/data: %04x %08lx %08lx\n", fp->un.fmt7.wb1s, fp->un.fmt7.wb1a, fp->un.fmt7.wb1dpd0); printk("wb 2 stat/addr/data: %04x %08lx %08lx\n", fp->un.fmt7.wb2s, fp->un.fmt7.wb2a, fp->un.fmt7.wb2d); printk("wb 3 stat/addr/data: %04x %08lx %08lx\n", fp->un.fmt7.wb3s, fp->un.fmt7.wb3a, fp->un.fmt7.wb3d); printk("push data: %08lx %08lx %08lx %08lx\n", fp->un.fmt7.wb1dpd0, fp->un.fmt7.pd1, fp->un.fmt7.pd2, fp->un.fmt7.pd3); addr += sizeof(fp->un.fmt7); break; case 0x9: printk("instr addr=%08lx\n", fp->un.fmt9.iaddr); addr += sizeof(fp->un.fmt9); break; case 0xa: printk("ssw=%04x isc=%04x isb=%04x daddr=%08lx dobuf=%08lx\n", fp->un.fmta.ssw, fp->un.fmta.isc, fp->un.fmta.isb, fp->un.fmta.daddr, fp->un.fmta.dobuf); addr += sizeof(fp->un.fmta); break; case 0xb: printk("ssw=%04x isc=%04x isb=%04x daddr=%08lx dobuf=%08lx\n", fp->un.fmtb.ssw, fp->un.fmtb.isc, fp->un.fmtb.isb, fp->un.fmtb.daddr, fp->un.fmtb.dobuf); printk("baddr=%08lx dibuf=%08lx ver=%x\n", fp->un.fmtb.baddr, fp->un.fmtb.dibuf, fp->un.fmtb.ver); addr += sizeof(fp->un.fmtb); break; default: printk("\n"); } stack = (unsigned long *)addr; endstack = (unsigned long *)PAGE_ALIGN(addr); printk("Stack from %08lx:", (unsigned long)stack); for (i = 0; i < kstack_depth_to_print; i++) { if (stack + 1 > endstack) break; if (i % 8 == 0) printk("\n "); printk(" %08lx", *stack++); } printk ("\nCall Trace:"); stack = (unsigned long *) addr; i = 0; module_start = VMALLOC_START; module_end = module_start + MODULE_RANGE; while (stack + 1 <= endstack) { addr = *stack++; /* * If the address is either in the text segment of the * kernel, or in the region which contains vmalloc'ed * memory, it *may* be the address of a calling * routine; if so, print it so that someone tracing * down the cause of the crash will be able to figure * out the call path that was taken. */ if (((addr >= (unsigned long) &_start) && (addr <= (unsigned long) &_etext)) || ((addr >= module_start) && (addr <= module_end))) { if (i % 4 == 0) printk("\n "); printk(" [<%08lx>]", addr); i++; } } printk("\nCode: "); for (i = 0; i < 10; i++) printk("%04x ", 0xffff & ((short *) fp->ptregs.pc)[i]); printk ("\n"); #endif } void bad_super_trap (struct frame *fp) { #ifdef CONFIG_KGDB /* Save the register dump if we'll enter kgdb anyways */ if (!kgdb_initialized) { #endif console_verbose(); if (fp->ptregs.vector < 4*sizeof(vec_names)/sizeof(vec_names[0])) printk ("*** %s *** FORMAT=%X\n", vec_names[(fp->ptregs.vector) >> 2], fp->ptregs.format); else printk ("*** Exception %d *** FORMAT=%X\n", (fp->ptregs.vector) >> 2, fp->ptregs.format); if (fp->ptregs.vector >> 2 == VEC_ADDRERR && CPU_IS_020_OR_030) { unsigned short ssw = fp->un.fmtb.ssw; printk ("SSW=%#06x ", ssw); if (ssw & RC) printk ("Pipe stage C instruction fault at %#010lx\n", (fp->ptregs.format) == 0xA ? fp->ptregs.pc + 2 : fp->un.fmtb.baddr - 2); if (ssw & RB) printk ("Pipe stage B instruction fault at %#010lx\n", (fp->ptregs.format) == 0xA ? fp->ptregs.pc + 4 : fp->un.fmtb.baddr); if (ssw & DF) printk ("Data %s fault at %#010lx in %s (pc=%#lx)\n", ssw & RW ? "read" : "write", fp->un.fmtb.daddr, space_names[ssw & DFC], fp->ptregs.pc); } printk ("Current process id is %d\n", current->pid); #ifdef CONFIG_KGDB } #endif die_if_kernel("BAD KERNEL TRAP", &fp->ptregs, 0); } asmlinkage void trap_c(struct frame *fp) { int sig; siginfo_t info; if (fp->ptregs.sr & PS_S) { if ((fp->ptregs.vector >> 2) == VEC_TRACE) { /* traced a trapping instruction */ current->flags |= PF_DTRACE; } else bad_super_trap(fp); return; } /* send the appropriate signal to the user program */ switch ((fp->ptregs.vector) >> 2) { case VEC_ADDRERR: info.si_code = BUS_ADRALN; sig = SIGBUS; break; case VEC_ILLEGAL: case VEC_LINE10: case VEC_LINE11: info.si_code = ILL_ILLOPC; sig = SIGILL; break; case VEC_PRIV: info.si_code = ILL_PRVOPC; sig = SIGILL; break; case VEC_COPROC: info.si_code = ILL_COPROC; sig = SIGILL; break; case VEC_TRAP1: case VEC_TRAP2: case VEC_TRAP3: case VEC_TRAP4: case VEC_TRAP5: case VEC_TRAP6: case VEC_TRAP7: case VEC_TRAP8: case VEC_TRAP9: case VEC_TRAP10: case VEC_TRAP11: case VEC_TRAP12: case VEC_TRAP13: case VEC_TRAP14: info.si_code = ILL_ILLTRP; sig = SIGILL; break; case VEC_FPBRUC: case VEC_FPOE: case VEC_FPNAN: info.si_code = FPE_FLTINV; sig = SIGFPE; break; case VEC_FPIR: info.si_code = FPE_FLTRES; sig = SIGFPE; break; case VEC_FPDIVZ: info.si_code = FPE_FLTDIV; sig = SIGFPE; break; case VEC_FPUNDER: info.si_code = FPE_FLTUND; sig = SIGFPE; break; case VEC_FPOVER: info.si_code = FPE_FLTOVF; sig = SIGFPE; break; case VEC_ZERODIV: info.si_code = FPE_INTDIV; sig = SIGFPE; break; case VEC_CHK: case VEC_TRAP: info.si_code = FPE_INTOVF; sig = SIGFPE; break; case VEC_TRACE: /* ptrace single step */ info.si_code = TRAP_TRACE; sig = SIGTRAP; break; case VEC_TRAP15: /* breakpoint */ info.si_code = TRAP_BRKPT; sig = SIGTRAP; break; default: info.si_code = ILL_ILLOPC; sig = SIGILL; break; } info.si_signo = sig; info.si_errno = 0; switch (fp->ptregs.format) { default: info.si_addr = (void *) fp->ptregs.pc; break; case 2: info.si_addr = (void *) fp->un.fmt2.iaddr; break; case 7: info.si_addr = (void *) fp->un.fmt7.effaddr; break; case 9: info.si_addr = (void *) fp->un.fmt9.iaddr; break; case 10: info.si_addr = (void *) fp->un.fmta.daddr; break; case 11: info.si_addr = (void *) fp->un.fmtb.daddr; break; } force_sig_info (sig, &info, current); } void die_if_kernel (char *str, struct pt_regs *fp, int nr) { if (!(fp->sr & PS_S)) return; #ifdef CONFIG_KGDB /* Save the register dump if we'll enter kgdb anyways */ if (!kgdb_initialized) { #endif console_verbose(); printk("%s: %08x\n",str,nr); printk("PC: [<%08lx>]\nSR: %04x SP: %p a2: %08lx\n", fp->pc, fp->sr, fp, fp->a2); printk("d0: %08lx d1: %08lx d2: %08lx d3: %08lx\n", fp->d0, fp->d1, fp->d2, fp->d3); printk("d4: %08lx d5: %08lx a0: %08lx a1: %08lx\n", fp->d4, fp->d5, fp->a0, fp->a1); printk("Process %s (pid: %d, stackpage=%08lx)\n", current->comm, current->pid, PAGE_SIZE+(unsigned long)current); #ifdef CONFIG_KGDB } #endif dump_stack((struct frame *)fp); do_exit(SIGSEGV); } /* * This function is called if an error occur while accessing * user-space from the fpsp040 code. */ asmlinkage void fpsp040_die(void) { do_exit(SIGSEGV); } #ifdef CONFIG_M68KFPU_EMU asmlinkage void fpemu_signal(int signal, int code, void *addr) { siginfo_t info; info.si_signo = signal; info.si_errno = 0; info.si_code = code; info.si_addr = addr; force_sig_info(signal, &info, current); } #endif |