441 lines
12 KiB
C
441 lines
12 KiB
C
/*
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* Copyright (c) 1997-1998, 2000-2002, 2004, 2006-2008, 2011-2015 Wind River
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* Systems, Inc.
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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 Intel IO APIC/xAPIC driver
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*
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* This module is a driver for the IO APIC/xAPIC (Advanced Programmable
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* Interrupt Controller) for P6 (PentiumPro, II, III) family processors
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* and P7 (Pentium4) family processors. The IO APIC/xAPIC is included
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* in the Intel's system chip set, such as ICH2. Software intervention
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* may be required to enable the IO APIC/xAPIC in some chip sets.
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* The 8259A interrupt controller is intended for use in a uni-processor
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* system, IO APIC can be used in either a uni-processor or multi-processor
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* system. The IO APIC handles interrupts very differently than the 8259A.
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* Briefly, these differences are:
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* - Method of Interrupt Transmission. The IO APIC transmits interrupts
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* through a 3-wire bus and interrupts are handled without the need for
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* the processor to run an interrupt acknowledge cycle.
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* - Interrupt Priority. The priority of interrupts in the IO APIC is
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* independent of the interrupt number. For example, interrupt 10 can
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* be given a higher priority than interrupt 3.
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* - More Interrupts. The IO APIC supports a total of 24 interrupts.
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*
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* The IO APIC unit consists of a set of interrupt input signals, a 24-entry
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* by 64-bit Interrupt Redirection Table, programmable registers, and a message
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* unit for sending and receiving APIC messages over the APIC bus or the
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* Front-Side (system) bus. IO devices inject interrupts into the system by
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* asserting one of the interrupt lines to the IO APIC. The IO APIC selects the
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* corresponding entry in the Redirection Table and uses the information in that
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* entry to format an interrupt request message. Each entry in the Redirection
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* Table can be individually programmed to indicate edge/level sensitive interrupt
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* signals, the interrupt vector and priority, the destination processor, and how
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* the processor is selected (statically and dynamically). The information in
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* the table is used to transmit a message to other APIC units (via the APIC bus
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* or the Front-Side (system) bus). IO APIC is used in the Symmetric IO Mode.
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* The base address of IO APIC is determined in loapic_init() and stored in the
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* global variable ioApicBase and ioApicData.
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* The lower 32 bit value of the redirection table entries for IRQ 0
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* to 15 are edge triggered positive high, and for IRQ 16 to 23 are level
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* triggered positive low.
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*
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* This implementation doesn't support multiple IO APICs.
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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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#include <kernel.h>
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#include <arch/cpu.h>
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#include "board.h"
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#include <toolchain.h>
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#include <sections.h>
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#include <init.h>
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#include <string.h>
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#include <drivers/ioapic.h> /* public API declarations */
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#include <drivers/loapic.h> /* public API declarations and registers */
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#include "ioapic_priv.h"
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#define BITS_PER_IRQ 3
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#define IOAPIC_BITFIELD_HI_LO 0
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#define IOAPIC_BITFIELD_LVL_EDGE 1
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#define IOAPIC_BITFIELD_ENBL_DSBL 2
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#define BIT_POS_FOR_IRQ_OPTION(irq, option) ((irq) * BITS_PER_IRQ + (option))
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#define SUSPEND_BITS_REQD (ROUND_UP((CONFIG_IOAPIC_NUM_RTES * BITS_PER_IRQ), 32))
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#ifdef CONFIG_DEVICE_POWER_MANAGEMENT
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#include <power.h>
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u32_t ioapic_suspend_buf[SUSPEND_BITS_REQD / 32] = {0};
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static u32_t ioapic_device_power_state = DEVICE_PM_ACTIVE_STATE;
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#endif
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static u32_t __IoApicGet(s32_t offset);
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static void __IoApicSet(s32_t offset, u32_t value);
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static void ioApicRedSetHi(unsigned int irq, u32_t upper32);
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static void ioApicRedSetLo(unsigned int irq, u32_t lower32);
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static u32_t ioApicRedGetLo(unsigned int irq);
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static void _IoApicRedUpdateLo(unsigned int irq, u32_t value,
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u32_t mask);
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/*
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* The functions irq_enable() and irq_disable() are implemented in the
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* interrupt controller driver due to the IRQ virtualization imposed by
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* the x86 architecture.
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*/
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/**
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*
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* @brief Initialize the IO APIC or xAPIC
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*
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* This routine initializes the IO APIC or xAPIC.
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*
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* @return N/A
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*/
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int _ioapic_init(struct device *unused)
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{
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ARG_UNUSED(unused);
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#ifdef CONFIG_IOAPIC_MASK_RTE
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s32_t ix; /* redirection table index */
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u32_t rteValue; /* value to copy into redirection table entry */
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/*
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* The platform must set the Kconfig option IOAPIC_NUM_RTES to indicate
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* the number of redirection table entries supported by the IOAPIC.
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*
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* Note: The number of actual IRQs supported by the IOAPIC can be
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* determined at runtime by computing:
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*
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* ((__IoApicGet(IOAPIC_VERS) & IOAPIC_MRE_MASK) >> 16) + 1
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*/
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rteValue = IOAPIC_EDGE | IOAPIC_HIGH | IOAPIC_FIXED | IOAPIC_INT_MASK |
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IOAPIC_PHYSICAL | 0 /* dummy vector */;
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for (ix = 0; ix < CONFIG_IOAPIC_NUM_RTES; ix++) {
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ioApicRedSetHi(ix, 0);
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ioApicRedSetLo(ix, rteValue);
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}
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#endif
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return 0;
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}
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/**
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*
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* @brief Enable a specified APIC interrupt input line
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*
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* This routine enables a specified APIC interrupt input line.
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* @param irq IRQ number to enable
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*
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* @return N/A
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*/
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void _ioapic_irq_enable(unsigned int irq)
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{
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_IoApicRedUpdateLo(irq, 0, IOAPIC_INT_MASK);
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}
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/**
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*
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* @brief Disable a specified APIC interrupt input line
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*
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* This routine disables a specified APIC interrupt input line.
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* @param irq IRQ number to disable
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*
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* @return N/A
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*/
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void _ioapic_irq_disable(unsigned int irq)
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{
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_IoApicRedUpdateLo(irq, IOAPIC_INT_MASK, IOAPIC_INT_MASK);
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}
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#ifdef CONFIG_DEVICE_POWER_MANAGEMENT
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void store_flags(unsigned int irq, u32_t flags)
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{
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/* Currently only the following three flags are modified */
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if (flags & IOAPIC_LOW) {
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sys_bitfield_set_bit((mem_addr_t) ioapic_suspend_buf,
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BIT_POS_FOR_IRQ_OPTION(irq, IOAPIC_BITFIELD_HI_LO));
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}
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if (flags & IOAPIC_LEVEL) {
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sys_bitfield_set_bit((mem_addr_t) ioapic_suspend_buf,
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BIT_POS_FOR_IRQ_OPTION(irq, IOAPIC_BITFIELD_LVL_EDGE));
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}
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if (flags & IOAPIC_INT_MASK) {
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sys_bitfield_set_bit((mem_addr_t) ioapic_suspend_buf,
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BIT_POS_FOR_IRQ_OPTION(irq, IOAPIC_BITFIELD_ENBL_DSBL));
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}
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}
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u32_t restore_flags(unsigned int irq)
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{
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u32_t flags = 0;
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if (sys_bitfield_test_bit((mem_addr_t) ioapic_suspend_buf,
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BIT_POS_FOR_IRQ_OPTION(irq, IOAPIC_BITFIELD_HI_LO))) {
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flags |= IOAPIC_LOW;
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}
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if (sys_bitfield_test_bit((mem_addr_t) ioapic_suspend_buf,
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BIT_POS_FOR_IRQ_OPTION(irq, IOAPIC_BITFIELD_LVL_EDGE))) {
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flags |= IOAPIC_LEVEL;
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}
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if (sys_bitfield_test_bit((mem_addr_t) ioapic_suspend_buf,
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BIT_POS_FOR_IRQ_OPTION(irq, IOAPIC_BITFIELD_ENBL_DSBL))) {
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flags |= IOAPIC_INT_MASK;
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}
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return flags;
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}
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int ioapic_suspend(struct device *port)
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{
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int irq;
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u32_t rte_lo;
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ARG_UNUSED(port);
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memset(ioapic_suspend_buf, 0, (SUSPEND_BITS_REQD >> 3));
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for (irq = 0; irq < CONFIG_IOAPIC_NUM_RTES; irq++) {
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/*
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* The following check is to figure out the registered
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* IRQ lines, so as to limit ourselves to saving the
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* flags for them only.
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*/
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if (_irq_to_interrupt_vector[irq]) {
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rte_lo = ioApicRedGetLo(irq);
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store_flags(irq, rte_lo);
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}
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}
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ioapic_device_power_state = DEVICE_PM_SUSPEND_STATE;
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return 0;
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}
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int ioapic_resume_from_suspend(struct device *port)
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{
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int irq;
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u32_t flags;
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u32_t rteValue;
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ARG_UNUSED(port);
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for (irq = 0; irq < CONFIG_IOAPIC_NUM_RTES; irq++) {
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if (_irq_to_interrupt_vector[irq]) {
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/* Get the saved flags */
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flags = restore_flags(irq);
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/* Appending the flags that are never modified */
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flags = flags | IOAPIC_FIXED | IOAPIC_PHYSICAL;
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rteValue = (_irq_to_interrupt_vector[irq] &
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IOAPIC_VEC_MASK) | flags;
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} else {
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/* Initialize the other RTEs to sane values */
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rteValue = IOAPIC_EDGE | IOAPIC_HIGH |
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IOAPIC_FIXED | IOAPIC_INT_MASK |
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IOAPIC_PHYSICAL | 0 ; /* dummy vector*/
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}
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ioApicRedSetHi(irq, 0);
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ioApicRedSetLo(irq, rteValue);
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}
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ioapic_device_power_state = DEVICE_PM_ACTIVE_STATE;
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return 0;
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}
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/*
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* Implements the driver control management functionality
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* the *context may include IN data or/and OUT data
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*/
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static int ioapic_device_ctrl(struct device *device, u32_t ctrl_command,
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void *context)
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{
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if (ctrl_command == DEVICE_PM_SET_POWER_STATE) {
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if (*((u32_t *)context) == DEVICE_PM_SUSPEND_STATE) {
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return ioapic_suspend(device);
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} else if (*((u32_t *)context) == DEVICE_PM_ACTIVE_STATE) {
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return ioapic_resume_from_suspend(device);
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}
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} else if (ctrl_command == DEVICE_PM_GET_POWER_STATE) {
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*((u32_t *)context) = ioapic_device_power_state;
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return 0;
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}
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return 0;
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}
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#endif /*CONFIG_DEVICE_POWER_MANAGEMENT*/
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/**
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*
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* @brief Programs the interrupt redirection table
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*
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* This routine sets up the redirection table entry for the specified IRQ
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* @param irq Virtualized IRQ
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* @param vector Vector number
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* @param flags Interrupt flags
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*
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* @return N/A
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*/
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void _ioapic_irq_set(unsigned int irq, unsigned int vector, u32_t flags)
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{
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u32_t rteValue; /* value to copy into redirection table entry */
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rteValue = IOAPIC_FIXED | IOAPIC_INT_MASK | IOAPIC_PHYSICAL |
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(vector & IOAPIC_VEC_MASK) | flags;
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ioApicRedSetHi(irq, 0);
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ioApicRedSetLo(irq, rteValue);
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}
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/**
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*
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* @brief Program interrupt vector for specified irq
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*
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* The routine writes the interrupt vector in the Interrupt Redirection
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* Table for specified irq number
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*
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* @param irq Interrupt number
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* @param vector Vector number
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* @return N/A
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*/
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void _ioapic_int_vec_set(unsigned int irq, unsigned int vector)
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{
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_IoApicRedUpdateLo(irq, vector, IOAPIC_VEC_MASK);
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}
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/**
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*
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* @brief Read a 32 bit IO APIC register
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*
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* This routine reads the specified IO APIC register using indirect addressing.
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* @param offset Register offset (8 bits)
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*
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* @return register value
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*/
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static u32_t __IoApicGet(s32_t offset)
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{
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u32_t value; /* value */
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int key; /* interrupt lock level */
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/* lock interrupts to ensure indirect addressing works "atomically" */
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key = irq_lock();
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*((volatile char *)
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(CONFIG_IOAPIC_BASE_ADDRESS + IOAPIC_IND)) = (char)offset;
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value = *((volatile u32_t *)(CONFIG_IOAPIC_BASE_ADDRESS + IOAPIC_DATA));
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irq_unlock(key);
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return value;
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}
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/**
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*
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* @brief Write a 32 bit IO APIC register
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*
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* This routine writes the specified IO APIC register using indirect addressing.
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*
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* @param offset Register offset (8 bits)
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* @param value Value to set the register
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* @return N/A
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*/
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static void __IoApicSet(s32_t offset, u32_t value)
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{
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int key; /* interrupt lock level */
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/* lock interrupts to ensure indirect addressing works "atomically" */
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key = irq_lock();
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*(volatile char *)(CONFIG_IOAPIC_BASE_ADDRESS + IOAPIC_IND) = (char)offset;
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*((volatile u32_t *)(CONFIG_IOAPIC_BASE_ADDRESS + IOAPIC_DATA)) = value;
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irq_unlock(key);
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}
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/**
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*
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* @brief Get low 32 bits of Redirection Table entry
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*
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* This routine reads the low-order 32 bits of a Redirection Table entry.
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*
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* @param irq INTIN number
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* @return 32 low-order bits
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*/
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static u32_t ioApicRedGetLo(unsigned int irq)
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{
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s32_t offset = IOAPIC_REDTBL + (irq << 1); /* register offset */
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return __IoApicGet(offset);
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}
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/**
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*
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* @brief Set low 32 bits of Redirection Table entry
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*
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* This routine writes the low-order 32 bits of a Redirection Table entry.
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*
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* @param irq INTIN number
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* @param lower32 Value to be written
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* @return N/A
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*/
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static void ioApicRedSetLo(unsigned int irq, u32_t lower32)
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{
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s32_t offset = IOAPIC_REDTBL + (irq << 1); /* register offset */
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__IoApicSet(offset, lower32);
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}
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/**
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*
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* @brief Set high 32 bits of Redirection Table entry
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*
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* This routine writes the high-order 32 bits of a Redirection Table entry.
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*
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* @param irq INTIN number
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* @param upper32 Value to be written
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* @return N/A
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*/
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static void ioApicRedSetHi(unsigned int irq, u32_t upper32)
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{
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s32_t offset = IOAPIC_REDTBL + (irq << 1) + 1; /* register offset */
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__IoApicSet(offset, upper32);
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}
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/**
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*
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* @brief Modify low 32 bits of Redirection Table entry
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*
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* This routine modifies selected portions of the low-order 32 bits of a
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* Redirection Table entry, as indicated by the associate bit mask.
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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 Mask of bits to be modified
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* @return N/A
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*/
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static void _IoApicRedUpdateLo(unsigned int irq,
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u32_t value,
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u32_t mask)
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{
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ioApicRedSetLo(irq, (ioApicRedGetLo(irq) & ~mask) | (value & mask));
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}
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#ifdef CONFIG_DEVICE_POWER_MANAGEMENT
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SYS_DEVICE_DEFINE("ioapic", _ioapic_init, ioapic_device_ctrl, PRE_KERNEL_1,
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CONFIG_KERNEL_INIT_PRIORITY_DEFAULT);
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#else
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SYS_INIT(_ioapic_init, PRE_KERNEL_1, CONFIG_KERNEL_INIT_PRIORITY_DEFAULT);
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#endif
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