/* * arch/mips/ddb5074/irq.c -- NEC DDB Vrc-5074 interrupt routines * * Copyright (C) 2000 Geert Uytterhoeven * Sony Software Development Center Europe (SDCE), Brussels */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include static struct irqaction irq_cascade = { no_action, 0, CPU_MASK_NONE, "cascade", NULL, NULL }; #define M1543_PNP_CONFIG 0x03f0 /* PnP Config Port */ #define M1543_PNP_INDEX 0x03f0 /* PnP Index Port */ #define M1543_PNP_DATA 0x03f1 /* PnP Data Port */ #define M1543_PNP_ALT_CONFIG 0x0370 /* Alternative PnP Config Port */ #define M1543_PNP_ALT_INDEX 0x0370 /* Alternative PnP Index Port */ #define M1543_PNP_ALT_DATA 0x0371 /* Alternative PnP Data Port */ #define M1543_INT1_MASTER_CTRL 0x0020 /* INT_1 (master) Control Register */ #define M1543_INT1_MASTER_MASK 0x0021 /* INT_1 (master) Mask Register */ #define M1543_INT1_SLAVE_CTRL 0x00a0 /* INT_1 (slave) Control Register */ #define M1543_INT1_SLAVE_MASK 0x00a1 /* INT_1 (slave) Mask Register */ #define M1543_INT1_MASTER_ELCR 0x04d0 /* INT_1 (master) Edge/Level Control */ #define M1543_INT1_SLAVE_ELCR 0x04d1 /* INT_1 (slave) Edge/Level Control */ static void m1543_irq_setup(void) { /* * The ALI M1543 has 13 interrupt inputs, IRQ1..IRQ13. Not all * the possible IO sources in the M1543 are in use by us. We will * use the following mapping: * * IRQ1 - keyboard (default set by M1543) * IRQ3 - reserved for UART B (default set by M1543) (note that * the schematics for the DDB Vrc-5074 board seem to * indicate that IRQ3 is connected to the DS1386 * watchdog timer interrupt output so we might have * a conflict) * IRQ4 - reserved for UART A (default set by M1543) * IRQ5 - parallel (default set by M1543) * IRQ8 - DS1386 time of day (RTC) interrupt * IRQ12 - mouse */ /* * Assing mouse interrupt to IRQ12 */ /* Enter configuration mode */ outb(0x51, M1543_PNP_CONFIG); outb(0x23, M1543_PNP_CONFIG); /* Select logical device 7 (Keyboard) */ outb(0x07, M1543_PNP_INDEX); outb(0x07, M1543_PNP_DATA); /* Select IRQ12 */ outb(0x72, M1543_PNP_INDEX); outb(0x0c, M1543_PNP_DATA); outb(0x30, M1543_PNP_INDEX); printk("device 7, 0x30: %02x\n",inb(M1543_PNP_DATA)); outb(0x70, M1543_PNP_INDEX); printk("device 7, 0x70: %02x\n",inb(M1543_PNP_DATA)); /* Leave configration mode */ outb(0xbb, M1543_PNP_CONFIG); } static void ddb_local0_irqdispatch(struct pt_regs *regs) { u32 mask; int nile4_irq; mask = nile4_get_irq_stat(0); /* Handle the timer interrupt first */ #if 0 if (mask & (1 << NILE4_INT_GPT)) { do_IRQ(nile4_to_irq(NILE4_INT_GPT), regs); mask &= ~(1 << NILE4_INT_GPT); } #endif for (nile4_irq = 0; mask; nile4_irq++, mask >>= 1) if (mask & 1) { if (nile4_irq == NILE4_INT_INTE) { int i8259_irq; nile4_clear_irq(NILE4_INT_INTE); i8259_irq = nile4_i8259_iack(); do_IRQ(i8259_irq, regs); } else do_IRQ(nile4_to_irq(nile4_irq), regs); } } static void ddb_local1_irqdispatch(void) { printk("ddb_local1_irqdispatch called\n"); } static void ddb_buserror_irq(void) { printk("ddb_buserror_irq called\n"); } static void ddb_8254timer_irq(void) { printk("ddb_8254timer_irq called\n"); } asmlinkage void plat_irq_dispatch(struct pt_regs *regs) { unsigned int pending = read_c0_cause() & read_c0_status(); if (pending & CAUSEF_IP2) ddb_local0_irqdispatch(regs); else if (pending & CAUSEF_IP3) ddb_local1_irqdispatch(); else if (pending & CAUSEF_IP6) ddb_buserror_irq(); else if (pending & (CAUSEF_IP4 | CAUSEF_IP5)) ddb_8254timer_irq(); } void __init arch_init_irq(void) { /* setup cascade interrupts */ setup_irq(NILE4_IRQ_BASE + NILE4_INT_INTE, &irq_cascade); setup_irq(CPU_IRQ_BASE + CPU_NILE4_CASCADE, &irq_cascade); nile4_irq_setup(NILE4_IRQ_BASE); m1543_irq_setup(); init_i8259_irqs(); printk("CPU_IRQ_BASE: %d\n",CPU_IRQ_BASE); mips_cpu_irq_init(CPU_IRQ_BASE); printk("enabling 8259 cascade\n"); ddb5074_led_hex(0); /* Enable the interrupt cascade */ nile4_enable_irq(NILE4_IRQ_BASE+IRQ_I8259_CASCADE); }