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[/] [or1k_old/] [trunk/] [rc203soc/] [sw/] [uClinux/] [arch/] [i386/] [kernel/] [irq.c] - Rev 1782
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/* * linux/arch/i386/kernel/irq.c * * Copyright (C) 1992 Linus Torvalds * * This file contains the code used by various IRQ handling routines: * asking for different IRQ's should be done through these routines * instead of just grabbing them. Thus setups with different IRQ numbers * shouldn't result in any weird surprises, and installing new handlers * should be easier. */ /* * IRQ's are in fact implemented a bit like signal handlers for the kernel. * Naturally it's not a 1:1 relation, but there are similarities. */ #include <linux/ptrace.h> #include <linux/errno.h> #include <linux/kernel_stat.h> #include <linux/signal.h> #include <linux/sched.h> #include <linux/ioport.h> #include <linux/interrupt.h> #include <linux/timex.h> #include <linux/malloc.h> #include <linux/random.h> #include <asm/system.h> #include <asm/io.h> #include <asm/irq.h> #include <asm/bitops.h> #include <asm/smp.h> #define CR0_NE 32 static unsigned char cache_21 = 0xff; static unsigned char cache_A1 = 0xff; #ifdef __SMP_PROF__ static unsigned int int_count[NR_CPUS][NR_IRQS] = {{0},}; #endif static inline void mask_irq(unsigned int irq_nr) { unsigned char mask; mask = 1 << (irq_nr & 7); if (irq_nr < 8) { cache_21 |= mask; outb(cache_21,0x21); } else { cache_A1 |= mask; outb(cache_A1,0xA1); } } static inline void unmask_irq(unsigned int irq_nr) { unsigned char mask; mask = ~(1 << (irq_nr & 7)); if (irq_nr < 8) { cache_21 &= mask; outb(cache_21,0x21); } else { cache_A1 &= mask; outb(cache_A1,0xA1); } } void disable_irq(unsigned int irq_nr) { unsigned long flags; save_flags(flags); cli(); mask_irq(irq_nr); restore_flags(flags); } void enable_irq(unsigned int irq_nr) { unsigned long flags; save_flags(flags); cli(); unmask_irq(irq_nr); restore_flags(flags); } /* * This builds up the IRQ handler stubs using some ugly macros in irq.h * * These macros create the low-level assembly IRQ routines that do all * the operations that are needed to keep the AT interrupt-controller * happy. They are also written to be fast - and to disable interrupts * as little as humanly possible. * * NOTE! These macros expand to three different handlers for each line: one * complete handler that does all the fancy stuff (including signal handling), * and one fast handler that is meant for simple IRQ's that want to be * atomic. The specific handler is chosen depending on the SA_INTERRUPT * flag when installing a handler. Finally, one "bad interrupt" handler, that * is used when no handler is present. * * The timer interrupt is handled specially to insure that the jiffies * variable is updated at all times. Specifically, the timer interrupt is * just like the complete handlers except that it is invoked with interrupts * disabled and should never re-enable them. If other interrupts were * allowed to be processed while the timer interrupt is active, then the * other interrupts would have to avoid using the jiffies variable for delay * and interval timing operations to avoid hanging the system. */ BUILD_TIMER_IRQ(FIRST,0,0x01) BUILD_IRQ(FIRST,1,0x02) BUILD_IRQ(FIRST,2,0x04) BUILD_IRQ(FIRST,3,0x08) BUILD_IRQ(FIRST,4,0x10) BUILD_IRQ(FIRST,5,0x20) BUILD_IRQ(FIRST,6,0x40) BUILD_IRQ(FIRST,7,0x80) BUILD_IRQ(SECOND,8,0x01) BUILD_IRQ(SECOND,9,0x02) BUILD_IRQ(SECOND,10,0x04) BUILD_IRQ(SECOND,11,0x08) BUILD_IRQ(SECOND,12,0x10) #ifdef __SMP__ BUILD_MSGIRQ(SECOND,13,0x20) #else BUILD_IRQ(SECOND,13,0x20) #endif BUILD_IRQ(SECOND,14,0x40) BUILD_IRQ(SECOND,15,0x80) #ifdef __SMP__ BUILD_RESCHEDIRQ(16) #endif /* * Pointers to the low-level handlers: first the general ones, then the * fast ones, then the bad ones. */ static void (*interrupt[17])(void) = { IRQ0_interrupt, IRQ1_interrupt, IRQ2_interrupt, IRQ3_interrupt, IRQ4_interrupt, IRQ5_interrupt, IRQ6_interrupt, IRQ7_interrupt, IRQ8_interrupt, IRQ9_interrupt, IRQ10_interrupt, IRQ11_interrupt, IRQ12_interrupt, IRQ13_interrupt, IRQ14_interrupt, IRQ15_interrupt #ifdef __SMP__ ,IRQ16_interrupt #endif }; static void (*fast_interrupt[16])(void) = { fast_IRQ0_interrupt, fast_IRQ1_interrupt, fast_IRQ2_interrupt, fast_IRQ3_interrupt, fast_IRQ4_interrupt, fast_IRQ5_interrupt, fast_IRQ6_interrupt, fast_IRQ7_interrupt, fast_IRQ8_interrupt, fast_IRQ9_interrupt, fast_IRQ10_interrupt, fast_IRQ11_interrupt, fast_IRQ12_interrupt, fast_IRQ13_interrupt, fast_IRQ14_interrupt, fast_IRQ15_interrupt }; static void (*bad_interrupt[16])(void) = { bad_IRQ0_interrupt, bad_IRQ1_interrupt, bad_IRQ2_interrupt, bad_IRQ3_interrupt, bad_IRQ4_interrupt, bad_IRQ5_interrupt, bad_IRQ6_interrupt, bad_IRQ7_interrupt, bad_IRQ8_interrupt, bad_IRQ9_interrupt, bad_IRQ10_interrupt, bad_IRQ11_interrupt, bad_IRQ12_interrupt, bad_IRQ13_interrupt, bad_IRQ14_interrupt, bad_IRQ15_interrupt }; /* * Initial irq handlers. */ static void no_action(int cpl, void *dev_id, struct pt_regs *regs) { } #ifdef __SMP__ /* * On SMP boards, irq13 is used for interprocessor interrupts (IPI's). */ static struct irqaction irq13 = { smp_message_irq, SA_INTERRUPT, 0, "IPI", NULL, NULL }; #else /* * Note that on a 486, we don't want to do a SIGFPE on a irq13 * as the irq is unreliable, and exception 16 works correctly * (ie as explained in the intel literature). On a 386, you * can't use exception 16 due to bad IBM design, so we have to * rely on the less exact irq13. * * Careful.. Not only is IRQ13 unreliable, but it is also * leads to races. IBM designers who came up with it should * be shot. */ static void math_error_irq(int cpl, void *dev_id, struct pt_regs *regs) { outb(0,0xF0); if (ignore_irq13 || !hard_math) return; math_error(); } static struct irqaction irq13 = { math_error_irq, 0, 0, "math error", NULL, NULL }; #endif /* * IRQ2 is cascade interrupt to second interrupt controller */ static struct irqaction irq2 = { no_action, 0, 0, "cascade", NULL, NULL}; static struct irqaction *irq_action[16] = { NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL }; int get_irq_list(char *buf) { int i, len = 0; struct irqaction * action; for (i = 0 ; i < 16 ; i++) { action = irq_action[i]; if (!action) continue; len += sprintf(buf+len, "%2d: %10u %c %s", i, kstat.interrupts[i], (action->flags & SA_INTERRUPT) ? '+' : ' ', action->name); for (action=action->next; action; action = action->next) { len += sprintf(buf+len, ",%s %s", (action->flags & SA_INTERRUPT) ? " +" : "", action->name); } len += sprintf(buf+len, "\n"); } /* * Linus - should you add NMI counts here ????? */ #ifdef __SMP_PROF__ len+=sprintf(buf+len, "IPI: %8lu received\n", ipi_count); #endif return len; } #ifdef __SMP_PROF__ int get_smp_prof_list(char *buf) { int i,j, len = 0; struct irqaction * action; unsigned long sum_spins = 0; unsigned long sum_spins_syscall = 0; unsigned long sum_spins_sys_idle = 0; unsigned long sum_smp_idle_count = 0; for (i=0;i<smp_num_cpus;i++) { int cpunum = cpu_logical_map[i]; sum_spins+=smp_spins[cpunum]; sum_spins_syscall+=smp_spins_syscall[cpunum]; sum_spins_sys_idle+=smp_spins_sys_idle[cpunum]; sum_smp_idle_count+=smp_idle_count[cpunum]; } len += sprintf(buf+len,"CPUS: %10i \n", smp_num_cpus); len += sprintf(buf+len," SUM "); for (i=0;i<smp_num_cpus;i++) len += sprintf(buf+len," P%1d ",cpu_logical_map[i]); len += sprintf(buf+len,"\n"); for (i = 0 ; i < NR_IRQS ; i++) { action = *(i + irq_action); if (!action || !action->handler) continue; len += sprintf(buf+len, "%3d: %10d ", i, kstat.interrupts[i]); for (j=0;j<smp_num_cpus;j++) len+=sprintf(buf+len, "%10d ", int_count[cpu_logical_map[j]][i]); len += sprintf(buf+len, "%c %s", (action->flags & SA_INTERRUPT) ? '+' : ' ', action->name); for (action=action->next; action; action = action->next) { len += sprintf(buf+len, ",%s %s", (action->flags & SA_INTERRUPT) ? " +" : "", action->name); } len += sprintf(buf+len, "\n"); } len+=sprintf(buf+len, "LCK: %10lu", sum_spins); for (i=0;i<smp_num_cpus;i++) len+=sprintf(buf+len," %10lu",smp_spins[cpu_logical_map[i]]); len +=sprintf(buf+len," spins from int\n"); len+=sprintf(buf+len, "LCK: %10lu", sum_spins_syscall); for (i=0;i<smp_num_cpus;i++) len+=sprintf(buf+len," %10lu",smp_spins_syscall[cpu_logical_map[i]]); len +=sprintf(buf+len," spins from syscall\n"); len+=sprintf(buf+len, "LCK: %10lu", sum_spins_sys_idle); for (i=0;i<smp_num_cpus;i++) len+=sprintf(buf+len," %10lu",smp_spins_sys_idle[cpu_logical_map[i]]); len +=sprintf(buf+len," spins from sysidle\n"); len+=sprintf(buf+len,"IDLE %10lu",sum_smp_idle_count); for (i=0;i<smp_num_cpus;i++) len+=sprintf(buf+len," %10lu",smp_idle_count[cpu_logical_map[i]]); len +=sprintf(buf+len," idle ticks\n"); len+=sprintf(buf+len, "IPI: %10lu received\n", ipi_count); return len; } #endif /* * do_IRQ handles IRQ's that have been installed without the * SA_INTERRUPT flag: it uses the full signal-handling return * and runs with other interrupts enabled. All relatively slow * IRQ's should use this format: notably the keyboard/timer * routines. */ asmlinkage void do_IRQ(int irq, struct pt_regs * regs) { struct irqaction * action = *(irq + irq_action); int do_random = 0; int c,intm,mask; #ifdef IRQ_DEBUG static int count; if (smp_processor_id() != 0 && count++ < 1000) printk("IRQ %d: done by CPU %d\n",irq,smp_processor_id()); #endif if (irq >= 8) { c = cache_A1; intm = inb(0xA1); mask = 1 << (irq - 8); } else { c = cache_21; intm = inb(0x21); mask = 1 << irq; } if (!(c & mask) || !(intm & mask)) { #ifdef IRQ_DEBUG printk("IRQ %d (proc %d):cache_x1=0x%x,INT mask=0x%x\n", irq, smp_processor_id(),c,intm); #endif /* better to return because the interrupt may be asserted again, the bad thing is that we may loose some interrupts */ return; } #ifdef __SMP__ if(smp_threads_ready && active_kernel_processor!=smp_processor_id()) panic("IRQ %d: active processor set wrongly(%d not %d).\n", irq, active_kernel_processor, smp_processor_id()); #endif kstat.interrupts[irq]++; #ifdef __SMP_PROF__ int_count[smp_processor_id()][irq]++; #endif while (action) { do_random |= action->flags; action->handler(irq, action->dev_id, regs); action = action->next; } if (do_random & SA_SAMPLE_RANDOM) add_interrupt_randomness(irq); } /* * do_fast_IRQ handles IRQ's that don't need the fancy interrupt return * stuff - the handler is also running with interrupts disabled unless * it explicitly enables them later. */ asmlinkage void do_fast_IRQ(int irq) { struct irqaction * action = *(irq + irq_action); int do_random = 0; #ifdef __SMP__ /* IRQ 13 is allowed - that's a flush tlb */ if(smp_threads_ready && active_kernel_processor!=smp_processor_id() && irq!=13) panic("fast_IRQ %d: active processor set wrongly(%d not %d).\n", irq, active_kernel_processor, smp_processor_id()); #endif kstat.interrupts[irq]++; #ifdef __SMP_PROF__ int_count[smp_processor_id()][irq]++; #endif while (action) { do_random |= action->flags; action->handler(irq, action->dev_id, NULL); action = action->next; } if (do_random & SA_SAMPLE_RANDOM) add_interrupt_randomness(irq); } int setup_x86_irq(int irq, struct irqaction * new) { int shared = 0; struct irqaction *old, **p; unsigned long flags; p = irq_action + irq; if ((old = *p) != NULL) { /* Can't share interrupts unless both agree to */ if (!(old->flags & new->flags & SA_SHIRQ)) return -EBUSY; /* Can't share interrupts unless both are same type */ if ((old->flags ^ new->flags) & SA_INTERRUPT) return -EBUSY; /* add new interrupt at end of irq queue */ do { p = &old->next; old = *p; } while (old); shared = 1; } if (new->flags & SA_SAMPLE_RANDOM) rand_initialize_irq(irq); save_flags(flags); cli(); *p = new; if (!shared) { if (new->flags & SA_INTERRUPT) set_intr_gate(0x20+irq,fast_interrupt[irq]); else set_intr_gate(0x20+irq,interrupt[irq]); unmask_irq(irq); } restore_flags(flags); return 0; } int request_irq(unsigned int irq, void (*handler)(int, void *, struct pt_regs *), unsigned long irqflags, const char * devname, void *dev_id) { int retval; struct irqaction * action; if (irq > 15) return -EINVAL; if (!handler) return -EINVAL; action = (struct irqaction *)kmalloc(sizeof(struct irqaction), GFP_KERNEL); if (!action) return -ENOMEM; action->handler = handler; action->flags = irqflags; action->mask = 0; action->name = devname; action->next = NULL; action->dev_id = dev_id; retval = setup_x86_irq(irq, action); if (retval) kfree(action); return retval; } void free_irq(unsigned int irq, void *dev_id) { struct irqaction * action, **p; unsigned long flags; if (irq > 15) { printk("Trying to free IRQ%d\n",irq); return; } for (p = irq + irq_action; (action = *p) != NULL; p = &action->next) { if (action->dev_id != dev_id) continue; /* Found it - now free it */ save_flags(flags); cli(); *p = action->next; if (!irq[irq_action]) { mask_irq(irq); set_intr_gate(0x20+irq,bad_interrupt[irq]); } restore_flags(flags); kfree(action); return; } printk("Trying to free free IRQ%d\n",irq); } unsigned long probe_irq_on (void) { unsigned int i, irqs = 0, irqmask; unsigned long delay; /* first, enable any unassigned irqs */ for (i = 15; i > 0; i--) { if (!irq_action[i]) { enable_irq(i); irqs |= (1 << i); } } /* wait for spurious interrupts to mask themselves out again */ for (delay = jiffies + HZ/10; delay > jiffies; ) /* about 100ms delay */; /* now filter out any obviously spurious interrupts */ irqmask = (((unsigned int)cache_A1)<<8) | (unsigned int)cache_21; return irqs & ~irqmask; } int probe_irq_off (unsigned long irqs) { unsigned int i, irqmask; irqmask = (((unsigned int)cache_A1)<<8) | (unsigned int)cache_21; #ifdef DEBUG printk("probe_irq_off: irqs=0x%04lx irqmask=0x%04x\n", irqs, irqmask); #endif irqs &= irqmask; if (!irqs) return 0; i = ffz(~irqs); if (irqs != (irqs & (1 << i))) i = -i; return i; } void init_IRQ(void) { int i; static unsigned char smptrap=0; if(smptrap) return; smptrap=1; /* set the clock to 100 Hz */ outb_p(0x34,0x43); /* binary, mode 2, LSB/MSB, ch 0 */ outb_p(LATCH & 0xff , 0x40); /* LSB */ outb(LATCH >> 8 , 0x40); /* MSB */ for (i = 0; i < 16 ; i++) set_intr_gate(0x20+i,bad_interrupt[i]); /* This bit is a hack because we don't send timer messages to all processors yet */ /* It has to be here .. it doesn't work if you put it down the bottom - assembler explodes 8) */ #ifdef __SMP__ set_intr_gate(0x20+i, interrupt[i]); /* IRQ '16' - IPI for rescheduling */ #endif request_region(0x20,0x20,"pic1"); request_region(0xa0,0x20,"pic2"); setup_x86_irq(2, &irq2); setup_x86_irq(13, &irq13); }