226 lines
5.7 KiB
C
226 lines
5.7 KiB
C
/*
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* Copyright (c) 2015 Intel Corporation
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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/**
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* @file
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* @brief Quark D2000 Interrupt Controller (MVIC)
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*
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* This module is based on the standard Local APIC and IO APIC source modules.
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* This modules combines these modules into one source module that exports the
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* same APIs defined by the Local APIC and IO APIC header modules. These
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* routine have been adapted for the Quark D2000 Interrupt Controller which has
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* a cutdown implementation of the Local APIC & IO APIC register sets.
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*
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* The MVIC (Quark D2000 Interrupt Controller) is configured by default
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* to support 32 external interrupt lines.
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* Unlike the traditional IA LAPIC/IOAPIC, the interrupt vectors in MVIC are fixed
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* and not programmable.
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* The larger the vector number, the higher the priority of the interrupt.
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* Higher priority interrupts preempt lower priority interrupts.
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* Lower priority interrupts do not preempt higher priority interrupts.
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* The MVIC holds the lower priority interrupts pending until the interrupt
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* service routine for the higher priority interrupt writes to the End of
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* Interrupt (EOI) register.
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* After an EOI write, the MVIC asserts the next highest pending interrupt.
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*
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* INCLUDE FILES: ioapic.h loapic.h
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*
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*/
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/* includes */
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#include <kernel.h>
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#include <arch/cpu.h>
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#include <misc/__assert.h>
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#include <misc/util.h>
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#include <init.h>
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#include <arch/x86/irq_controller.h>
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#include <inttypes.h>
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static inline u32_t compute_ioregsel(unsigned int irq)
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{
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unsigned int low_nibble;
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unsigned int high_nibble;
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__ASSERT(irq < MVIC_NUM_RTES, "invalid irq line %d", irq);
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low_nibble = ((irq & MVIC_LOW_NIBBLE_MASK) << 0x1);
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high_nibble = ((irq & MVIC_HIGH_NIBBLE_MASK) << 0x2);
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return low_nibble | high_nibble;
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}
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/**
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*
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* @brief write to 32 bit MVIC IO APIC register
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*
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* @param irq INTIN number
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* @param value value to be written
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*
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* @returns N/A
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*/
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static void _mvic_rte_set(unsigned int irq, u32_t value)
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{
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int key; /* interrupt lock level */
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u32_t regsel;
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__ASSERT(!(value & ~MVIC_IOWIN_SUPPORTED_BITS_MASK),
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"invalid IRQ flags %" PRIx32 " for irq %d", value, irq);
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regsel = compute_ioregsel(irq);
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/* lock interrupts to ensure indirect addressing works "atomically" */
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key = irq_lock();
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sys_write32(regsel, MVIC_IOREGSEL);
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sys_write32(value, MVIC_IOWIN);
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irq_unlock(key);
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}
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/**
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*
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* @brief modify interrupt line register.
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*
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* @param irq INTIN number
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* @param value value to be written
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* @param mask of bits to be modified
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*
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* @returns N/A
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*/
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static void _mvic_rte_update(unsigned int irq, u32_t value, u32_t mask)
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{
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int key;
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u32_t regsel, old_value, updated_value;
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__ASSERT(!(value & ~MVIC_IOWIN_SUPPORTED_BITS_MASK),
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"invalid IRQ flags %" PRIx32 " for irq %d", value, irq);
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regsel = compute_ioregsel(irq);
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key = irq_lock();
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sys_write32(regsel, MVIC_IOREGSEL);
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old_value = sys_read32(MVIC_IOWIN);
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updated_value = (old_value & ~mask) | (value & mask);
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sys_write32(updated_value, MVIC_IOWIN);
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irq_unlock(key);
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}
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/**
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*
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* @brief initialize the MVIC IO APIC and local APIC register sets.
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*
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* This routine initializes the Quark D2000 Interrupt Controller (MVIC).
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* This routine replaces the standard Local APIC / IO APIC init routines.
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*
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* @returns: N/A
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*/
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static int _mvic_init(struct device *unused)
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{
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ARG_UNUSED(unused);
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int i;
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/* By default mask all interrupt lines */
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for (i = 0; i < MVIC_NUM_RTES; i++) {
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_mvic_rte_set(i, MVIC_IOWIN_MASK);
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}
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/* reset the task priority and timer initial count registers */
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sys_write32(0, MVIC_TPR);
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sys_write32(0, MVIC_ICR);
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/* Initialize and mask the timer interrupt.
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* Bits 0-3 program the interrupt line number we will use
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* for the timer interrupt.
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*/
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__ASSERT(CONFIG_MVIC_TIMER_IRQ < 16,
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"Bad irq line %d chosen for timer irq", CONFIG_MVIC_TIMER_IRQ);
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sys_write32(MVIC_LVTTIMER_MASK | CONFIG_MVIC_TIMER_IRQ, MVIC_LVTTIMER);
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/* discard a pending interrupt if any */
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sys_write32(0, MVIC_EOI);
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return 0;
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}
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SYS_INIT(_mvic_init, PRE_KERNEL_1, CONFIG_KERNEL_INIT_PRIORITY_DEFAULT);
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void _arch_irq_enable(unsigned int irq)
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{
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if (irq == CONFIG_MVIC_TIMER_IRQ) {
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sys_write32(sys_read32(MVIC_LVTTIMER) & ~MVIC_LVTTIMER_MASK,
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MVIC_LVTTIMER);
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} else {
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_mvic_rte_update(irq, 0, MVIC_IOWIN_MASK);
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}
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}
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void _arch_irq_disable(unsigned int irq)
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{
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if (irq == CONFIG_MVIC_TIMER_IRQ) {
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sys_write32(sys_read32(MVIC_LVTTIMER) | MVIC_LVTTIMER_MASK,
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MVIC_LVTTIMER);
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} else {
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_mvic_rte_update(irq, MVIC_IOWIN_MASK, MVIC_IOWIN_MASK);
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}
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}
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void __irq_controller_irq_config(unsigned int vector, unsigned int irq,
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u32_t flags)
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{
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ARG_UNUSED(vector);
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/* Vector argument always ignored. There are no triggering options
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* for the timer, so nothing to do at all for that case. Other I/O
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* interrupts need their triggering set
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*/
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if (irq != CONFIG_MVIC_TIMER_IRQ) {
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_mvic_rte_set(irq, MVIC_IOWIN_MASK | flags);
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} else {
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__ASSERT(flags == 0,
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"Timer interrupt cannot have triggering flags set");
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}
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}
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/**
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* @brief Find the currently executing interrupt vector, if any
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*
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* This routine finds the vector of the interrupt that is being processed.
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* The ISR (In-Service Register) register contain the vectors of the interrupts
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* in service. And the higher vector is the identification of the interrupt
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* being currently processed.
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*
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* MVIC ISR registers' offsets:
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* --------------------
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* | Offset | bits |
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* --------------------
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* | 0110H | 32:63 |
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* --------------------
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*
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* @return The vector of the interrupt that is currently being processed, or
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* -1 if this can't be determined
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*/
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int __irq_controller_isr_vector_get(void)
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{
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/* In-service register value */
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int isr;
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isr = sys_read32(MVIC_ISR);
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if (unlikely(!isr)) {
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return -1;
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}
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return 32 + (find_msb_set(isr) - 1);
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}
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