cregit-Linux how code gets into the kernel

Release 4.14 arch/metag/kernel/traps.c

/*
 *  Meta exception handling.
 *
 *  Copyright (C) 2005,2006,2007,2008,2009,2012 Imagination Technologies Ltd.
 *
 * This file is subject to the terms and conditions of the GNU General Public
 * License.  See the file COPYING in the main directory of this archive
 * for more details.
 */

#include <linux/export.h>
#include <linux/sched.h>
#include <linux/sched/debug.h>
#include <linux/sched/task.h>
#include <linux/sched/task_stack.h>
#include <linux/signal.h>
#include <linux/kernel.h>
#include <linux/mm.h>
#include <linux/types.h>
#include <linux/init.h>
#include <linux/interrupt.h>
#include <linux/preempt.h>
#include <linux/ptrace.h>
#include <linux/module.h>
#include <linux/kallsyms.h>
#include <linux/kdebug.h>
#include <linux/kexec.h>
#include <linux/unistd.h>
#include <linux/smp.h>
#include <linux/slab.h>
#include <linux/syscalls.h>

#include <asm/bug.h>
#include <asm/core_reg.h>
#include <asm/irqflags.h>
#include <asm/siginfo.h>
#include <asm/traps.h>
#include <asm/hwthread.h>
#include <asm/setup.h>
#include <asm/switch.h>
#include <asm/user_gateway.h>
#include <asm/syscall.h>
#include <asm/syscalls.h>

/* Passing syscall arguments as long long is quicker. */

typedef unsigned int (*LPSYSCALL) (unsigned long long,
				   unsigned long long,
				   unsigned long long);

/*
 * Users of LNKSET should compare the bus error bits obtained from DEFR
 * against TXDEFR_LNKSET_SUCCESS only as the failure code will vary between
 * different cores revisions.
 */

#define TXDEFR_LNKSET_SUCCESS 0x02000000

#define TXDEFR_LNKSET_FAILURE 0x04000000

/*
 * Our global TBI handle.  Initialised from setup.c/setup_arch.
 */
DECLARE_PER_CPU(PTBI, pTBI);

#ifdef CONFIG_SMP
static DEFINE_PER_CPU(unsigned int, trigger_mask);
#else

unsigned int global_trigger_mask;

EXPORT_SYMBOL(global_trigger_mask);
#endif


unsigned long per_cpu__stack_save[NR_CPUS];


static const char * const trap_names[] = {
	[TBIXXF_SIGNUM_IIF] = "Illegal instruction fault",
	[TBIXXF_SIGNUM_PGF] = "Privilege violation",
	[TBIXXF_SIGNUM_DHF] = "Unaligned data access fault",
	[TBIXXF_SIGNUM_IGF] = "Code fetch general read failure",
	[TBIXXF_SIGNUM_DGF] = "Data access general read/write fault",
	[TBIXXF_SIGNUM_IPF] = "Code fetch page fault",
	[TBIXXF_SIGNUM_DPF] = "Data access page fault",
	[TBIXXF_SIGNUM_IHF] = "Instruction breakpoint",
	[TBIXXF_SIGNUM_DWF] = "Read-only data access fault",
};


const char *trap_name(int trapno) { if (trapno >= 0 && trapno < ARRAY_SIZE(trap_names) && trap_names[trapno]) return trap_names[trapno]; return "Unknown fault"; }

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static DEFINE_SPINLOCK(die_lock);
void __noreturn die(const char *str, struct pt_regs *regs, long err, unsigned long addr) { static int die_counter; oops_enter(); spin_lock_irq(&die_lock); console_verbose(); bust_spinlocks(1); pr_err("%s: err %04lx (%s) addr %08lx [#%d]\n", str, err & 0xffff, trap_name(err & 0xffff), addr, ++die_counter); print_modules(); show_regs(regs); pr_err("Process: %s (pid: %d, stack limit = %p)\n", current->comm, task_pid_nr(current), task_stack_page(current) + THREAD_SIZE); bust_spinlocks(0); add_taint(TAINT_DIE, LOCKDEP_NOW_UNRELIABLE); if (kexec_should_crash(current)) crash_kexec(regs); if (in_interrupt()) panic("Fatal exception in interrupt"); if (panic_on_oops) panic("Fatal exception"); spin_unlock_irq(&die_lock); oops_exit(); do_exit(SIGSEGV); }

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#ifdef CONFIG_METAG_DSP /* * The ECH encoding specifies the size of a DSPRAM as, * * "slots" / 4 * * A "slot" is the size of two DSPRAM bank entries; an entry from * DSPRAM bank A and an entry from DSPRAM bank B. One DSPRAM bank * entry is 4 bytes. */ #define SLOT_SZ 8
static inline unsigned int decode_dspram_size(unsigned int size) { unsigned int _sz = size & 0x7f; return _sz * SLOT_SZ * 4; }

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static void dspram_save(struct meta_ext_context *dsp_ctx, unsigned int ramA_sz, unsigned int ramB_sz) { unsigned int ram_sz[2]; int i; ram_sz[0] = ramA_sz; ram_sz[1] = ramB_sz; for (i = 0; i < 2; i++) { if (ram_sz[i] != 0) { unsigned int sz; if (i == 0) sz = decode_dspram_size(ram_sz[i] >> 8); else sz = decode_dspram_size(ram_sz[i]); if (dsp_ctx->ram[i] == NULL) { dsp_ctx->ram[i] = kmalloc(sz, GFP_KERNEL); if (dsp_ctx->ram[i] == NULL) panic("couldn't save DSP context"); } else { if (ram_sz[i] > dsp_ctx->ram_sz[i]) { kfree(dsp_ctx->ram[i]); dsp_ctx->ram[i] = kmalloc(sz, GFP_KERNEL); if (dsp_ctx->ram[i] == NULL) panic("couldn't save DSP context"); } } if (i == 0) __TBIDspramSaveA(ram_sz[i], dsp_ctx->ram[i]); else __TBIDspramSaveB(ram_sz[i], dsp_ctx->ram[i]); dsp_ctx->ram_sz[i] = ram_sz[i]; } } }

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#endif /* CONFIG_METAG_DSP */ /* * Allow interrupts to be nested and save any "extended" register * context state, e.g. DSP regs and RAMs. */
static void nest_interrupts(TBIRES State, unsigned long mask) { #ifdef CONFIG_METAG_DSP struct meta_ext_context *dsp_ctx; unsigned int D0_8; /* * D0.8 may contain an ECH encoding. The upper 16 bits * tell us what DSP resources the current process is * using. OR the bits into the SaveMask so that * __TBINestInts() knows what resources to save as * part of this context. * * Don't save the context if we're nesting interrupts in the * kernel because the kernel doesn't use DSP hardware. */ D0_8 = __core_reg_get(D0.8); if (D0_8 && (State.Sig.SaveMask & TBICTX_PRIV_BIT)) { State.Sig.SaveMask |= (D0_8 >> 16); dsp_ctx = current->thread.dsp_context; if (dsp_ctx == NULL) { dsp_ctx = kzalloc(sizeof(*dsp_ctx), GFP_KERNEL); if (dsp_ctx == NULL) panic("couldn't save DSP context: ENOMEM"); current->thread.dsp_context = dsp_ctx; } current->thread.user_flags |= (D0_8 & 0xffff0000); __TBINestInts(State, &dsp_ctx->regs, mask); dspram_save(dsp_ctx, D0_8 & 0x7f00, D0_8 & 0x007f); } else __TBINestInts(State, NULL, mask); #else __TBINestInts(State, NULL, mask); #endif }

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void head_end(TBIRES State, unsigned long mask) { unsigned int savemask = (unsigned short)State.Sig.SaveMask; unsigned int ctx_savemask = (unsigned short)State.Sig.pCtx->SaveMask; if (savemask & TBICTX_PRIV_BIT) { ctx_savemask |= TBICTX_PRIV_BIT; current->thread.user_flags = savemask; } /* Always undo the sleep bit */ ctx_savemask &= ~TBICTX_WAIT_BIT; /* Always save the catch buffer and RD pipe if they are dirty */ savemask |= TBICTX_XCBF_BIT; /* Only save the catch and RD if we have not already done so. * Note - the RD bits are in the pCtx only, and not in the * State.SaveMask. */ if ((savemask & TBICTX_CBUF_BIT) || (ctx_savemask & TBICTX_CBRP_BIT)) { /* Have we already saved the buffers though? * - See TestTrack 5071 */ if (ctx_savemask & TBICTX_XCBF_BIT) { /* Strip off the bits so the call to __TBINestInts * won't save the buffers again. */ savemask &= ~TBICTX_CBUF_BIT; ctx_savemask &= ~TBICTX_CBRP_BIT; } } #ifdef CONFIG_METAG_META21 { unsigned int depth, txdefr; /* * Save TXDEFR state. * * The process may have been interrupted after a LNKSET, but * before it could read the DEFR state, so we mustn't lose that * state or it could end up retrying an atomic operation that * succeeded. * * All interrupts are disabled at this point so we * don't need to perform any locking. We must do this * dance before we use LNKGET or LNKSET. */ BUG_ON(current->thread.int_depth > HARDIRQ_BITS); depth = current->thread.int_depth++; txdefr = __core_reg_get(TXDEFR); txdefr &= TXDEFR_BUS_STATE_BITS; if (txdefr & TXDEFR_LNKSET_SUCCESS) current->thread.txdefr_failure &= ~(1 << depth); else current->thread.txdefr_failure |= (1 << depth); } #endif State.Sig.SaveMask = savemask; State.Sig.pCtx->SaveMask = ctx_savemask; nest_interrupts(State, mask); #ifdef CONFIG_METAG_POISON_CATCH_BUFFERS /* Poison the catch registers. This shows up any mistakes we have * made in their handling MUCH quicker. */ __core_reg_set(TXCATCH0, 0x87650021); __core_reg_set(TXCATCH1, 0x87654322); __core_reg_set(TXCATCH2, 0x87654323); __core_reg_set(TXCATCH3, 0x87654324); #endif /* CONFIG_METAG_POISON_CATCH_BUFFERS */ }

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TBIRES tail_end_sys(TBIRES State, int syscall, int *restart) { struct pt_regs *regs = (struct pt_regs *)State.Sig.pCtx; unsigned long flags; local_irq_disable(); if (user_mode(regs)) { flags = current_thread_info()->flags; if (flags & _TIF_WORK_MASK && do_work_pending(regs, flags, syscall)) { *restart = 1; return State; } #ifdef CONFIG_METAG_FPU if (current->thread.fpu_context && current->thread.fpu_context->needs_restore) { __TBICtxFPURestore(State, current->thread.fpu_context); /* * Clearing this bit ensures the FP unit is not made * active again unless it is used. */ State.Sig.SaveMask &= ~TBICTX_FPAC_BIT; current->thread.fpu_context->needs_restore = false; } State.Sig.TrigMask |= TBI_TRIG_BIT(TBID_SIGNUM_DFR); #endif } /* TBI will turn interrupts back on at some point. */ if (!irqs_disabled_flags((unsigned long)State.Sig.TrigMask)) trace_hardirqs_on(); #ifdef CONFIG_METAG_DSP /* * If we previously saved an extended context then restore it * now. Otherwise, clear D0.8 because this process is not * using DSP hardware. */ if (State.Sig.pCtx->SaveMask & TBICTX_XEXT_BIT) { unsigned int D0_8; struct meta_ext_context *dsp_ctx = current->thread.dsp_context; /* Make sure we're going to return to userland. */ BUG_ON(current->thread.int_depth != 1); if (dsp_ctx->ram_sz[0] > 0) __TBIDspramRestoreA(dsp_ctx->ram_sz[0], dsp_ctx->ram[0]); if (dsp_ctx->ram_sz[1] > 0) __TBIDspramRestoreB(dsp_ctx->ram_sz[1], dsp_ctx->ram[1]); State.Sig.SaveMask |= State.Sig.pCtx->SaveMask; __TBICtxRestore(State, current->thread.dsp_context); D0_8 = __core_reg_get(D0.8); D0_8 |= current->thread.user_flags & 0xffff0000; D0_8 |= (dsp_ctx->ram_sz[1] | dsp_ctx->ram_sz[0]) & 0xffff; __core_reg_set(D0.8, D0_8); } else __core_reg_set(D0.8, 0); #endif /* CONFIG_METAG_DSP */ #ifdef CONFIG_METAG_META21 { unsigned int depth, txdefr; /* * If there hasn't been a LNKSET since the last LNKGET then the * link flag will be set, causing the next LNKSET to succeed if * the addresses match. The two LNK operations may not be a pair * (e.g. see atomic_read()), so the LNKSET should fail. * We use a conditional-never LNKSET to clear the link flag * without side effects. */ asm volatile("LNKSETDNV [D0Re0],D0Re0"); depth = --current->thread.int_depth; BUG_ON(user_mode(regs) && depth); txdefr = __core_reg_get(TXDEFR); txdefr &= ~TXDEFR_BUS_STATE_BITS; /* Do we need to restore a failure code into TXDEFR? */ if (current->thread.txdefr_failure & (1 << depth)) txdefr |= (TXDEFR_LNKSET_FAILURE | TXDEFR_BUS_TRIG_BIT); else txdefr |= (TXDEFR_LNKSET_SUCCESS | TXDEFR_BUS_TRIG_BIT); __core_reg_set(TXDEFR, txdefr); } #endif return State; }

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#ifdef CONFIG_SMP /* * If we took an interrupt in the middle of __kuser_get_tls then we need * to rewind the PC to the start of the function in case the process * gets migrated to another thread (SMP only) and it reads the wrong tls * data. */
static inline void _restart_critical_section(TBIRES State) { unsigned long get_tls_start; unsigned long get_tls_end; get_tls_start = (unsigned long)__kuser_get_tls - (unsigned long)&__user_gateway_start; get_tls_start += USER_GATEWAY_PAGE; get_tls_end = (unsigned long)__kuser_get_tls_end - (unsigned long)&__user_gateway_start; get_tls_end += USER_GATEWAY_PAGE; if ((State.Sig.pCtx->CurrPC >= get_tls_start) && (State.Sig.pCtx->CurrPC < get_tls_end)) State.Sig.pCtx->CurrPC = get_tls_start; }

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#else /* * If we took an interrupt in the middle of * __kuser_cmpxchg then we need to rewind the PC to the * start of the function. */
static inline void _restart_critical_section(TBIRES State) { unsigned long cmpxchg_start; unsigned long cmpxchg_end; cmpxchg_start = (unsigned long)__kuser_cmpxchg - (unsigned long)&__user_gateway_start; cmpxchg_start += USER_GATEWAY_PAGE; cmpxchg_end = (unsigned long)__kuser_cmpxchg_end - (unsigned long)&__user_gateway_start; cmpxchg_end += USER_GATEWAY_PAGE; if ((State.Sig.pCtx->CurrPC >= cmpxchg_start) && (State.Sig.pCtx->CurrPC < cmpxchg_end)) State.Sig.pCtx->CurrPC = cmpxchg_start; }

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#endif /* Used by kick_handler() */
void restart_critical_section(TBIRES State) { _restart_critical_section(State); }

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TBIRES trigger_handler(TBIRES State, int SigNum, int Triggers, int Inst, PTBI pTBI) { head_end(State, ~INTS_OFF_MASK); /* If we interrupted user code handle any critical sections. */ if (State.Sig.SaveMask & TBICTX_PRIV_BIT) _restart_critical_section(State); trace_hardirqs_off(); do_IRQ(SigNum, (struct pt_regs *)State.Sig.pCtx); return tail_end(State); }

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static unsigned int load_fault(PTBICTXEXTCB0 pbuf) { return pbuf->CBFlags & TXCATCH0_READ_BIT; }

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static unsigned long fault_address(PTBICTXEXTCB0 pbuf) { return pbuf->CBAddr; }

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static void unhandled_fault(struct pt_regs *regs, unsigned long addr, int signo, int code, int trapno) { if (user_mode(regs)) { siginfo_t info; if (show_unhandled_signals && unhandled_signal(current, signo) && printk_ratelimit()) { pr_info("pid %d unhandled fault: pc 0x%08x, addr 0x%08lx, trap %d (%s)\n", current->pid, regs->ctx.CurrPC, addr, trapno, trap_name(trapno)); print_vma_addr(" in ", regs->ctx.CurrPC); print_vma_addr(" rtp in ", regs->ctx.DX[4].U1); printk("\n"); show_regs(regs); } info.si_signo = signo; info.si_errno = 0; info.si_code = code; info.si_addr = (__force void __user *)addr; info.si_trapno = trapno; force_sig_info(signo, &info, current); } else { die("Oops", regs, trapno, addr); } }

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static int handle_data_fault(PTBICTXEXTCB0 pcbuf, struct pt_regs *regs, unsigned int data_address, int trapno) { int ret; ret = do_page_fault(regs, data_address, !load_fault(pcbuf), trapno); return ret; }

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static unsigned long get_inst_fault_address(struct pt_regs *regs) { return regs->ctx.CurrPC; }

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TBIRES fault_handler(TBIRES State, int SigNum, int Triggers, int Inst, PTBI pTBI) { struct pt_regs *regs = (struct pt_regs *)State.Sig.pCtx; PTBICTXEXTCB0 pcbuf = (PTBICTXEXTCB0)&regs->extcb0; unsigned long data_address; head_end(State, ~INTS_OFF_MASK); /* Hardware breakpoint or data watch */ if ((SigNum == TBIXXF_SIGNUM_IHF) || ((SigNum == TBIXXF_SIGNUM_DHF) && (pcbuf[0].CBFlags & (TXCATCH0_WATCH1_BIT | TXCATCH0_WATCH0_BIT)))) { State = __TBIUnExpXXX(State, SigNum, Triggers, Inst, pTBI); return tail_end(State); } local_irq_enable(); data_address = fault_address(pcbuf); switch (SigNum) { case TBIXXF_SIGNUM_IGF: /* 1st-level entry invalid (instruction fetch) */ case TBIXXF_SIGNUM_IPF: { /* 2nd-level entry invalid (instruction fetch) */ unsigned long addr = get_inst_fault_address(regs); do_page_fault(regs, addr, 0, SigNum); break; } case TBIXXF_SIGNUM_DGF: /* 1st-level entry invalid (data access) */ case TBIXXF_SIGNUM_DPF: /* 2nd-level entry invalid (data access) */ case TBIXXF_SIGNUM_DWF: /* Write to read only page */ handle_data_fault(pcbuf, regs, data_address, SigNum); break; case TBIXXF_SIGNUM_IIF: /* Illegal instruction */ unhandled_fault(regs, regs->ctx.CurrPC, SIGILL, ILL_ILLOPC, SigNum); break; case TBIXXF_SIGNUM_DHF: /* Unaligned access */ unhandled_fault(regs, data_address, SIGBUS, BUS_ADRALN, SigNum); break; case TBIXXF_SIGNUM_PGF: /* Privilege violation */ unhandled_fault(regs, data_address, SIGSEGV, SEGV_ACCERR, SigNum); break; default: BUG(); break; } return tail_end(State); }

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static bool switch_is_syscall(unsigned int inst) { return inst == __METAG_SW_ENCODING(SYS); }

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static bool switch_is_legacy_syscall(unsigned int inst) { return inst == __METAG_SW_ENCODING(SYS_LEGACY); }

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static inline void step_over_switch(struct pt_regs *regs, unsigned int inst) { regs->ctx.CurrPC += 4; }

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static inline int test_syscall_work(void) { return current_thread_info()->flags & _TIF_WORK_SYSCALL_MASK; }

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TBIRES switch1_handler(TBIRES State, int SigNum, int Triggers, int Inst, PTBI pTBI) { struct pt_regs *regs = (struct pt_regs *)State.Sig.pCtx; unsigned int sysnumber; unsigned long long a1_a2, a3_a4, a5_a6; LPSYSCALL syscall_entry; int restart; head_end(State, ~INTS_OFF_MASK); /* * If this is not a syscall SWITCH it could be a breakpoint. */ if (!switch_is_syscall(Inst)) { /* * Alert the user if they're trying to use legacy system * calls. This suggests they need to update their C * library and build against up to date kernel headers. */ if (switch_is_legacy_syscall(Inst)) pr_warn_once("WARNING: A legacy syscall was made. Your userland needs updating.\n"); /* * We don't know how to handle the SWITCH and cannot * safely ignore it, so treat all unknown switches * (including breakpoints) as traps. */ force_sig(SIGTRAP, current); return tail_end(State); } local_irq_enable(); restart_syscall: restart = 0; sysnumber = regs->ctx.DX[0].U1; if (test_syscall_work()) sysnumber = syscall_trace_enter(regs); /* Skip over the SWITCH instruction - or you just get 'stuck' on it! */ step_over_switch(regs, Inst); if (sysnumber >= __NR_syscalls) { pr_debug("unknown syscall number: %d\n", sysnumber); syscall_entry = (LPSYSCALL) sys_ni_syscall; } else { syscall_entry = (LPSYSCALL) sys_call_table[sysnumber]; } /* Use 64bit loads for speed. */ a5_a6 = *(unsigned long long *)&regs->ctx.DX[1]; a3_a4 = *(unsigned long long *)&regs->ctx.DX[2]; a1_a2 = *(unsigned long long *)&regs->ctx.DX[3]; /* here is the actual call to the syscall handler functions */ regs->ctx.DX[0].U0 = syscall_entry(a1_a2, a3_a4, a5_a6); if (test_syscall_work()) syscall_trace_leave(regs); State = tail_end_sys(State, sysnumber, &restart); /* Handlerless restarts shouldn't go via userland */ if (restart) goto restart_syscall; return State; }

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TBIRES switchx_handler(TBIRES State, int SigNum, int Triggers, int Inst, PTBI pTBI) { struct pt_regs *regs = (struct pt_regs *)State.Sig.pCtx; /* * This can be caused by any user process simply executing an unusual * SWITCH instruction. If there's no DA, __TBIUnExpXXX will cause the * thread to stop, so signal a SIGTRAP instead. */ head_end(State, ~INTS_OFF_MASK); if (user_mode(regs)) force_sig(SIGTRAP, current); else State = __TBIUnExpXXX(State, SigNum, Triggers, Inst, pTBI); return tail_end(State); }

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#ifdef CONFIG_METAG_META21
TBIRES fpe_handler(TBIRES State, int SigNum, int Triggers, int Inst, PTBI pTBI) { struct pt_regs *regs = (struct pt_regs *)State.Sig.pCtx; unsigned int error_state = Triggers; siginfo_t info; head_end(State, ~INTS_OFF_MASK); local_irq_enable(); info.si_signo = SIGFPE; if (error_state & TXSTAT_FPE_INVALID_BIT) info.si_code = FPE_FLTINV; else if (error_state & TXSTAT_FPE_DIVBYZERO_BIT) info.si_code = FPE_FLTDIV; else if (error_state & TXSTAT_FPE_OVERFLOW_BIT) info.si_code = FPE_FLTOVF; else if (error_state & TXSTAT_FPE_UNDERFLOW_BIT) info.si_code = FPE_FLTUND; else if (error_state & TXSTAT_FPE_INEXACT_BIT) info.si_code = FPE_FLTRES; else info.si_code = 0; info.si_errno = 0; info.si_addr = (__force void __user *)regs->ctx.CurrPC; force_sig_info(SIGFPE, &info, current); return tail_end(State); }

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#endif #ifdef CONFIG_METAG_SUSPEND_MEM struct traps_context { PTBIAPIFN fnSigs[TBID_SIGNUM_MAX + 1]; }; static struct traps_context *metag_traps_context;
int traps_save_context(void) { unsigned long cpu = smp_processor_id(); PTBI _pTBI = per_cpu(pTBI, cpu); struct traps_context *context; context = kzalloc(sizeof(*context), GFP_ATOMIC); if (!context) return -ENOMEM; memcpy(context->fnSigs, (void *)_pTBI->fnSigs, sizeof(context->fnSigs)); metag_traps_context = context; return 0; }

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int traps_restore_context(void) { unsigned long cpu = smp_processor_id(); PTBI _pTBI = per_cpu(pTBI, cpu); struct traps_context *context = metag_traps_context; metag_traps_context = NULL; memcpy((void *)_pTBI->fnSigs, context->fnSigs, sizeof(context->fnSigs)); kfree(context); return 0; }

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#endif #ifdef CONFIG_SMP
static inline unsigned int _get_trigger_mask(void) { unsigned long cpu = smp_processor_id(); return per_cpu(trigger_mask, cpu); }

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unsigned int get_trigger_mask(void) { return _get_trigger_mask(); }

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EXPORT_SYMBOL(get_trigger_mask);
static void set_trigger_mask(unsigned int mask) { unsigned long cpu = smp_processor_id(); per_cpu(trigger_mask, cpu) = mask; }

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void arch_local_irq_enable(void) { preempt_disable(); arch_local_irq_restore(_get_trigger_mask()); preempt_enable_no_resched(); }

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EXPORT_SYMBOL(arch_local_irq_enable); #else
static void set_trigger_mask(unsigned int mask) { global_trigger_mask = mask; }

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#endif
void per_cpu_trap_init(unsigned long cpu) { TBIRES int_context; unsigned int thread = cpu_2_hwthread_id[cpu]; set_trigger_mask(TBI_INTS_INIT(thread) | /* interrupts */ TBI_TRIG_BIT(TBID_SIGNUM_LWK) | /* low level kick */ TBI_TRIG_BIT(TBID_SIGNUM_SW1)); /* non-priv - use current stack */ int_context.Sig.pCtx = NULL; /* Start with interrupts off */ int_context.Sig.TrigMask = INTS_OFF_MASK; int_context.Sig.SaveMask = 0; /* And call __TBIASyncTrigger() */ __TBIASyncTrigger(int_context); }

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void __init trap_init(void) { unsigned long cpu = smp_processor_id(); PTBI _pTBI = per_cpu(pTBI, cpu); _pTBI->fnSigs[TBID_SIGNUM_XXF] = fault_handler; _pTBI->fnSigs[TBID_SIGNUM_SW0] = switchx_handler; _pTBI->fnSigs[TBID_SIGNUM_SW1] = switch1_handler; _pTBI->fnSigs[TBID_SIGNUM_SW2] = switchx_handler; _pTBI->fnSigs[TBID_SIGNUM_SW3] = switchx_handler; _pTBI->fnSigs[TBID_SIGNUM_LWK] = kick_handler; #ifdef CONFIG_METAG_META21 _pTBI->fnSigs[TBID_SIGNUM_DFR] = __TBIHandleDFR; _pTBI->fnSigs[TBID_SIGNUM_FPE] = fpe_handler; #endif per_cpu_trap_init(cpu); }

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void tbi_startup_interrupt(int irq) { unsigned long cpu = smp_processor_id(); PTBI _pTBI = per_cpu(pTBI, cpu); BUG_ON(irq > TBID_SIGNUM_MAX); /* For TR1 and TR2, the thread id is encoded in the irq number */ if (irq >= TBID_SIGNUM_T10 && irq < TBID_SIGNUM_TR3) cpu = hwthread_id_2_cpu[(irq - TBID_SIGNUM_T10) % 4]; set_trigger_mask(get_trigger_mask() | TBI_TRIG_BIT(irq)); _pTBI->fnSigs[irq] = trigger_handler; }

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void tbi_shutdown_interrupt(int irq) { unsigned long cpu = smp_processor_id(); PTBI _pTBI = per_cpu(pTBI, cpu); BUG_ON(irq > TBID_SIGNUM_MAX); set_trigger_mask(get_trigger_mask() & ~TBI_TRIG_BIT(irq)); _pTBI->fnSigs[irq] = __TBIUnExpXXX; }

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int ret_from_fork(TBIRES arg) { struct task_struct *prev = arg.Switch.pPara; struct task_struct *tsk = current; struct pt_regs *regs = task_pt_regs(tsk); int (*fn)(void *); TBIRES Next; schedule_tail(prev); if (tsk->flags & PF_KTHREAD) { fn = (void *)regs->ctx.DX[4].U1; BUG_ON(!fn); fn((void *)regs->ctx.DX[3].U1); } if (test_syscall_work()) syscall_trace_leave(regs); preempt_disable(); Next.Sig.TrigMask = get_trigger_mask(); Next.Sig.SaveMask = 0; Next.Sig.pCtx = &regs->ctx; set_gateway_tls(current->thread.tls_ptr); preempt_enable_no_resched(); /* And interrupts should come back on when we resume the real usermode * code. Call __TBIASyncResume() */ __TBIASyncResume(tail_end(Next)); /* ASyncResume should NEVER return */ BUG(); return 0; }

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void show_trace(struct task_struct *tsk, unsigned long *sp, struct pt_regs *regs) { unsigned long addr; #ifdef CONFIG_FRAME_POINTER unsigned long fp, fpnew; unsigned long stack; #endif if (regs && user_mode(regs)) return; printk("\nCall trace: "); #ifdef CONFIG_KALLSYMS printk("\n"); #endif if (!tsk) tsk = current; #ifdef CONFIG_FRAME_POINTER if (regs) { print_ip_sym(regs->ctx.CurrPC); fp = regs->ctx.AX[1].U0; } else { fp = __core_reg_get(A0FrP); } /* detect when the frame pointer has been used for other purposes and * doesn't point to the stack (it may point completely elsewhere which * kstack_end may not detect). */ stack = (unsigned long)task_stack_page(tsk); while (fp >= stack && fp + 8 <= stack + THREAD_SIZE) { addr = __raw_readl((unsigned long *)(fp + 4)) - 4; if (kernel_text_address(addr)) print_ip_sym(addr); else break; /* stack grows up, so frame pointers must decrease */ fpnew = __raw_readl((unsigned long *)(fp + 0)); if (fpnew >= fp) break; fp = fpnew; } #else while (!kstack_end(sp)) { addr = (*sp--) - 4; if (kernel_text_address(addr)) print_ip_sym(addr); } #endif printk("\n"); debug_show_held_locks(tsk); }

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void show_stack(struct task_struct *tsk, unsigned long *sp) { if (!tsk) tsk = current; if (tsk == current) sp = (unsigned long *)current_stack_pointer; else sp = (unsigned long *)tsk->thread.kernel_context->AX[0].U0; show_trace(tsk, sp, NULL); }

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James Hogan406399.63%440.00%
Ingo Molnar90.22%330.00%
Markos Chandras40.10%220.00%
Linus Torvalds20.05%110.00%
Total4078100.00%10100.00%
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