/* irq-routing.c: IRQ routing * * Copyright (C) 2004 Red Hat, Inc. All Rights Reserved. * Written by David Howells (dhowells@redhat.com) * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version * 2 of the License, or (at your option) any later version. */ #include #include #include #include #include #include #include #include #include struct irq_level frv_irq_levels[16] = { [0 ... 15] = { .lock = SPIN_LOCK_UNLOCKED, } }; struct irq_group *irq_groups[NR_IRQ_GROUPS]; extern struct irq_group frv_cpu_irqs; void __init frv_irq_route(struct irq_source *source, int irqlevel) { source->level = &frv_irq_levels[irqlevel]; source->next = frv_irq_levels[irqlevel].sources; frv_irq_levels[irqlevel].sources = source; } void __init frv_irq_route_external(struct irq_source *source, int irq) { int irqlevel = 0; switch (irq) { case IRQ_CPU_EXTERNAL0: irqlevel = IRQ_XIRQ0_LEVEL; break; case IRQ_CPU_EXTERNAL1: irqlevel = IRQ_XIRQ1_LEVEL; break; case IRQ_CPU_EXTERNAL2: irqlevel = IRQ_XIRQ2_LEVEL; break; case IRQ_CPU_EXTERNAL3: irqlevel = IRQ_XIRQ3_LEVEL; break; case IRQ_CPU_EXTERNAL4: irqlevel = IRQ_XIRQ4_LEVEL; break; case IRQ_CPU_EXTERNAL5: irqlevel = IRQ_XIRQ5_LEVEL; break; case IRQ_CPU_EXTERNAL6: irqlevel = IRQ_XIRQ6_LEVEL; break; case IRQ_CPU_EXTERNAL7: irqlevel = IRQ_XIRQ7_LEVEL; break; default: BUG(); } source->level = &frv_irq_levels[irqlevel]; source->next = frv_irq_levels[irqlevel].sources; frv_irq_levels[irqlevel].sources = source; } void __init frv_irq_set_group(struct irq_group *group) { irq_groups[group->first_irq >> NR_IRQ_LOG2_ACTIONS_PER_GROUP] = group; } void distribute_irqs(struct irq_group *group, unsigned long irqmask) { struct irqaction *action; int irq; while (irqmask) { asm("scan %1,gr0,%0" : "=r"(irq) : "r"(irqmask)); if (irq < 0 || irq > 31) asm volatile("break"); irq = 31 - irq; irqmask &= ~(1 << irq); action = group->actions[irq]; irq += group->first_irq; if (action) { int status = 0; // if (!(action->flags & SA_INTERRUPT)) // local_irq_enable(); do { status |= action->flags; action->handler(irq, action->dev_id, __frame); action = action->next; } while (action); if (status & SA_SAMPLE_RANDOM) add_interrupt_randomness(irq); local_irq_disable(); } } } /*****************************************************************************/ /* * CPU UART interrupts */ static void frv_cpuuart_doirq(struct irq_source *source) { // uint8_t iir = readb(source->muxdata + UART_IIR * 8); // if ((iir & 0x0f) != UART_IIR_NO_INT) distribute_irqs(&frv_cpu_irqs, source->irqmask); } struct irq_source frv_cpuuart[2] = { #define __CPUUART(X, A) \ [X] = { \ .muxname = "uart", \ .muxdata = (volatile void __iomem *) A, \ .irqmask = 1 << IRQ_CPU_UART##X, \ .doirq = frv_cpuuart_doirq, \ } __CPUUART(0, UART0_BASE), __CPUUART(1, UART1_BASE), }; /*****************************************************************************/ /* * CPU DMA interrupts */ static void frv_cpudma_doirq(struct irq_source *source) { uint32_t cstr = readl(source->muxdata + DMAC_CSTRx); if (cstr & DMAC_CSTRx_INT) distribute_irqs(&frv_cpu_irqs, source->irqmask); } struct irq_source frv_cpudma[8] = { #define __CPUDMA(X, A) \ [X] = { \ .muxname = "dma", \ .muxdata = (volatile void __iomem *) A, \ .irqmask = 1 << IRQ_CPU_DMA##X, \ .doirq = frv_cpudma_doirq, \ } __CPUDMA(0, 0xfe000900), __CPUDMA(1, 0xfe000980), __CPUDMA(2, 0xfe000a00), __CPUDMA(3, 0xfe000a80), __CPUDMA(4, 0xfe001000), __CPUDMA(5, 0xfe001080), __CPUDMA(6, 0xfe001100), __CPUDMA(7, 0xfe001180), }; /*****************************************************************************/ /* * CPU timer interrupts - can't tell whether they've generated an interrupt or not */ static void frv_cputimer_doirq(struct irq_source *source) { distribute_irqs(&frv_cpu_irqs, source->irqmask); } struct irq_source frv_cputimer[3] = { #define __CPUTIMER(X) \ [X] = { \ .muxname = "timer", \ .muxdata = 0, \ .irqmask = 1 << IRQ_CPU_TIMER##X, \ .doirq = frv_cputimer_doirq, \ } __CPUTIMER(0), __CPUTIMER(1), __CPUTIMER(2), }; /*****************************************************************************/ /* * external CPU interrupts - can't tell directly whether they've generated an interrupt or not */ static void frv_cpuexternal_doirq(struct irq_source *source) { distribute_irqs(&frv_cpu_irqs, source->irqmask); } struct irq_source frv_cpuexternal[8] = { #define __CPUEXTERNAL(X) \ [X] = { \ .muxname = "ext", \ .muxdata = 0, \ .irqmask = 1 << IRQ_CPU_EXTERNAL##X, \ .doirq = frv_cpuexternal_doirq, \ } __CPUEXTERNAL(0), __CPUEXTERNAL(1), __CPUEXTERNAL(2), __CPUEXTERNAL(3), __CPUEXTERNAL(4), __CPUEXTERNAL(5), __CPUEXTERNAL(6), __CPUEXTERNAL(7), }; #define set_IRR(N,A,B,C,D) __set_IRR(N, (A << 28) | (B << 24) | (C << 20) | (D << 16)) struct irq_group frv_cpu_irqs = { .sources = { [IRQ_CPU_UART0] = &frv_cpuuart[0], [IRQ_CPU_UART1] = &frv_cpuuart[1], [IRQ_CPU_TIMER0] = &frv_cputimer[0], [IRQ_CPU_TIMER1] = &frv_cputimer[1], [IRQ_CPU_TIMER2] = &frv_cputimer[2], [IRQ_CPU_DMA0] = &frv_cpudma[0], [IRQ_CPU_DMA1] = &frv_cpudma[1], [IRQ_CPU_DMA2] = &frv_cpudma[2], [IRQ_CPU_DMA3] = &frv_cpudma[3], [IRQ_CPU_DMA4] = &frv_cpudma[4], [IRQ_CPU_DMA5] = &frv_cpudma[5], [IRQ_CPU_DMA6] = &frv_cpudma[6], [IRQ_CPU_DMA7] = &frv_cpudma[7], [IRQ_CPU_EXTERNAL0] = &frv_cpuexternal[0], [IRQ_CPU_EXTERNAL1] = &frv_cpuexternal[1], [IRQ_CPU_EXTERNAL2] = &frv_cpuexternal[2], [IRQ_CPU_EXTERNAL3] = &frv_cpuexternal[3], [IRQ_CPU_EXTERNAL4] = &frv_cpuexternal[4], [IRQ_CPU_EXTERNAL5] = &frv_cpuexternal[5], [IRQ_CPU_EXTERNAL6] = &frv_cpuexternal[6], [IRQ_CPU_EXTERNAL7] = &frv_cpuexternal[7], }, }; /*****************************************************************************/ /* * route the CPU's interrupt sources */ void __init route_cpu_irqs(void) { frv_irq_set_group(&frv_cpu_irqs); __set_IITMR(0, 0x003f0000); /* DMA0-3, TIMER0-2 IRQ detect levels */ __set_IITMR(1, 0x20000000); /* ERR0-1, UART0-1, DMA4-7 IRQ detect levels */ /* route UART and error interrupts */ frv_irq_route(&frv_cpuuart[0], IRQ_UART0_LEVEL); frv_irq_route(&frv_cpuuart[1], IRQ_UART1_LEVEL); set_IRR(6, IRQ_GDBSTUB_LEVEL, IRQ_GDBSTUB_LEVEL, IRQ_UART1_LEVEL, IRQ_UART0_LEVEL); /* route DMA channel interrupts */ frv_irq_route(&frv_cpudma[0], IRQ_DMA0_LEVEL); frv_irq_route(&frv_cpudma[1], IRQ_DMA1_LEVEL); frv_irq_route(&frv_cpudma[2], IRQ_DMA2_LEVEL); frv_irq_route(&frv_cpudma[3], IRQ_DMA3_LEVEL); frv_irq_route(&frv_cpudma[4], IRQ_DMA4_LEVEL); frv_irq_route(&frv_cpudma[5], IRQ_DMA5_LEVEL); frv_irq_route(&frv_cpudma[6], IRQ_DMA6_LEVEL); frv_irq_route(&frv_cpudma[7], IRQ_DMA7_LEVEL); set_IRR(4, IRQ_DMA3_LEVEL, IRQ_DMA2_LEVEL, IRQ_DMA1_LEVEL, IRQ_DMA0_LEVEL); set_IRR(7, IRQ_DMA7_LEVEL, IRQ_DMA6_LEVEL, IRQ_DMA5_LEVEL, IRQ_DMA4_LEVEL); /* route timer interrupts */ frv_irq_route(&frv_cputimer[0], IRQ_TIMER0_LEVEL); frv_irq_route(&frv_cputimer[1], IRQ_TIMER1_LEVEL); frv_irq_route(&frv_cputimer[2], IRQ_TIMER2_LEVEL); set_IRR(5, 0, IRQ_TIMER2_LEVEL, IRQ_TIMER1_LEVEL, IRQ_TIMER0_LEVEL); /* route external interrupts */ frv_irq_route(&frv_cpuexternal[0], IRQ_XIRQ0_LEVEL); frv_irq_route(&frv_cpuexternal[1], IRQ_XIRQ1_LEVEL); frv_irq_route(&frv_cpuexternal[2], IRQ_XIRQ2_LEVEL); frv_irq_route(&frv_cpuexternal[3], IRQ_XIRQ3_LEVEL); frv_irq_route(&frv_cpuexternal[4], IRQ_XIRQ4_LEVEL); frv_irq_route(&frv_cpuexternal[5], IRQ_XIRQ5_LEVEL); frv_irq_route(&frv_cpuexternal[6], IRQ_XIRQ6_LEVEL); frv_irq_route(&frv_cpuexternal[7], IRQ_XIRQ7_LEVEL); set_IRR(2, IRQ_XIRQ7_LEVEL, IRQ_XIRQ6_LEVEL, IRQ_XIRQ5_LEVEL, IRQ_XIRQ4_LEVEL); set_IRR(3, IRQ_XIRQ3_LEVEL, IRQ_XIRQ2_LEVEL, IRQ_XIRQ1_LEVEL, IRQ_XIRQ0_LEVEL); #if defined(CONFIG_MB93091_VDK) __set_TM1(0x55550000); /* XIRQ7-0 all active low */ #elif defined(CONFIG_MB93093_PDK) __set_TM1(0x15550000); /* XIRQ7 active high, 6-0 all active low */ #else #error dont know external IRQ trigger levels for this setup #endif } /* end route_cpu_irqs() */