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/*- * Copyright (c) 2003 John Baldwin <jhb@FreeBSD.org> * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the author nor the names of any co-contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/x86/x86/io_apic.c 216679 2010-12-23 15:17:28Z jhb $"); #include "opt_isa.h" #include <sys/param.h> #include <sys/systm.h> #include <sys/bus.h> #include <sys/kernel.h> #include <sys/lock.h> #include <sys/malloc.h> #include <sys/module.h> #include <sys/mutex.h> #include <sys/sysctl.h> #include <dev/pci/pcireg.h> #include <dev/pci/pcivar.h> #include <vm/vm.h> #include <vm/pmap.h> #include <x86/apicreg.h> #include <machine/frame.h> #include <machine/intr_machdep.h> #include <machine/apicvar.h> #include <machine/resource.h> #include <machine/segments.h> #define IOAPIC_ISA_INTS 16 #define IOAPIC_MEM_REGION 32 #define IOAPIC_REDTBL_LO(i) (IOAPIC_REDTBL + (i) * 2) #define IOAPIC_REDTBL_HI(i) (IOAPIC_REDTBL_LO(i) + 1) #define IRQ_EXTINT (NUM_IO_INTS + 1) #define IRQ_NMI (NUM_IO_INTS + 2) #define IRQ_SMI (NUM_IO_INTS + 3) #define IRQ_DISABLED (NUM_IO_INTS + 4) static MALLOC_DEFINE(M_IOAPIC, "io_apic", "I/O APIC structures"); /* * I/O APIC interrupt source driver. Each pin is assigned an IRQ cookie * as laid out in the ACPI System Interrupt number model where each I/O * APIC has a contiguous chunk of the System Interrupt address space. * We assume that IRQs 1 - 15 behave like ISA IRQs and that all other * IRQs behave as PCI IRQs by default. We also assume that the pin for * IRQ 0 is actually an ExtINT pin. The apic enumerators override the * configuration of individual pins as indicated by their tables. * * Documentation for the I/O APIC: "82093AA I/O Advanced Programmable * Interrupt Controller (IOAPIC)", May 1996, Intel Corp. * ftp://download.intel.com/design/chipsets/datashts/29056601.pdf */ struct ioapic_intsrc { struct intsrc io_intsrc; u_int io_irq; u_int io_intpin:8; u_int io_vector:8; u_int io_cpu:8; u_int io_activehi:1; u_int io_edgetrigger:1; u_int io_masked:1; int io_bus:4; uint32_t io_lowreg; }; struct ioapic { struct pic io_pic; u_int io_id:8; /* logical ID */ u_int io_apic_id:4; u_int io_intbase:8; /* System Interrupt base */ u_int io_numintr:8; volatile ioapic_t *io_addr; /* XXX: should use bus_space */ vm_paddr_t io_paddr; STAILQ_ENTRY(ioapic) io_next; struct ioapic_intsrc io_pins[0]; }; static u_int ioapic_read(volatile ioapic_t *apic, int reg); static void ioapic_write(volatile ioapic_t *apic, int reg, u_int val); static const char *ioapic_bus_string(int bus_type); static void ioapic_print_irq(struct ioapic_intsrc *intpin); static void ioapic_enable_source(struct intsrc *isrc); static void ioapic_disable_source(struct intsrc *isrc, int eoi); static void ioapic_eoi_source(struct intsrc *isrc); static void ioapic_enable_intr(struct intsrc *isrc); static void ioapic_disable_intr(struct intsrc *isrc); static int ioapic_vector(struct intsrc *isrc); static int ioapic_source_pending(struct intsrc *isrc); static int ioapic_config_intr(struct intsrc *isrc, enum intr_trigger trig, enum intr_polarity pol); static void ioapic_resume(struct pic *pic); static int ioapic_assign_cpu(struct intsrc *isrc, u_int apic_id); static void ioapic_program_intpin(struct ioapic_intsrc *intpin); static STAILQ_HEAD(,ioapic) ioapic_list = STAILQ_HEAD_INITIALIZER(ioapic_list); struct pic ioapic_template = { ioapic_enable_source, ioapic_disable_source, ioapic_eoi_source, ioapic_enable_intr, ioapic_disable_intr, ioapic_vector, ioapic_source_pending, NULL, ioapic_resume, ioapic_config_intr, ioapic_assign_cpu }; static int next_ioapic_base; static u_int next_id; SYSCTL_NODE(_hw, OID_AUTO, apic, CTLFLAG_RD, 0, "APIC options"); static int enable_extint; SYSCTL_INT(_hw_apic, OID_AUTO, enable_extint, CTLFLAG_RDTUN, &enable_extint, 0, "Enable the ExtINT pin in the first I/O APIC"); TUNABLE_INT("hw.apic.enable_extint", &enable_extint); static __inline void _ioapic_eoi_source(struct intsrc *isrc) { lapic_eoi(); } static u_int ioapic_read(volatile ioapic_t *apic, int reg) { mtx_assert(&icu_lock, MA_OWNED); apic->ioregsel = reg; return (apic->iowin); } static void ioapic_write(volatile ioapic_t *apic, int reg, u_int val) { mtx_assert(&icu_lock, MA_OWNED); apic->ioregsel = reg; apic->iowin = val; } static const char * ioapic_bus_string(int bus_type) { switch (bus_type) { case APIC_BUS_ISA: return ("ISA"); case APIC_BUS_EISA: return ("EISA"); case APIC_BUS_PCI: return ("PCI"); default: return ("unknown"); } } static void ioapic_print_irq(struct ioapic_intsrc *intpin) { switch (intpin->io_irq) { case IRQ_DISABLED: printf("disabled"); break; case IRQ_EXTINT: printf("ExtINT"); break; case IRQ_NMI: printf("NMI"); break; case IRQ_SMI: printf("SMI"); break; default: printf("%s IRQ %u", ioapic_bus_string(intpin->io_bus), intpin->io_irq); } } static void ioapic_enable_source(struct intsrc *isrc) { struct ioapic_intsrc *intpin = (struct ioapic_intsrc *)isrc; struct ioapic *io = (struct ioapic *)isrc->is_pic; uint32_t flags; mtx_lock_spin(&icu_lock); if (intpin->io_masked) { flags = intpin->io_lowreg & ~IOART_INTMASK; ioapic_write(io->io_addr, IOAPIC_REDTBL_LO(intpin->io_intpin), flags); intpin->io_masked = 0; } mtx_unlock_spin(&icu_lock); } static void ioapic_disable_source(struct intsrc *isrc, int eoi) { struct ioapic_intsrc *intpin = (struct ioapic_intsrc *)isrc; struct ioapic *io = (struct ioapic *)isrc->is_pic; uint32_t flags; mtx_lock_spin(&icu_lock); if (!intpin->io_masked && !intpin->io_edgetrigger) { flags = intpin->io_lowreg | IOART_INTMSET; ioapic_write(io->io_addr, IOAPIC_REDTBL_LO(intpin->io_intpin), flags); intpin->io_masked = 1; } if (eoi == PIC_EOI) _ioapic_eoi_source(isrc); mtx_unlock_spin(&icu_lock); } static void ioapic_eoi_source(struct intsrc *isrc) { _ioapic_eoi_source(isrc); } /* * Completely program an intpin based on the data in its interrupt source * structure. */ static void ioapic_program_intpin(struct ioapic_intsrc *intpin) { struct ioapic *io = (struct ioapic *)intpin->io_intsrc.is_pic; uint32_t low, high, value; /* * If a pin is completely invalid or if it is valid but hasn't * been enabled yet, just ensure that the pin is masked. */ mtx_assert(&icu_lock, MA_OWNED); if (intpin->io_irq == IRQ_DISABLED || (intpin->io_irq < NUM_IO_INTS && intpin->io_vector == 0)) { low = ioapic_read(io->io_addr, IOAPIC_REDTBL_LO(intpin->io_intpin)); if ((low & IOART_INTMASK) == IOART_INTMCLR) ioapic_write(io->io_addr, IOAPIC_REDTBL_LO(intpin->io_intpin), low | IOART_INTMSET); return; } /* Set the destination. */ low = IOART_DESTPHY; high = intpin->io_cpu << APIC_ID_SHIFT; /* Program the rest of the low word. */ if (intpin->io_edgetrigger) low |= IOART_TRGREDG; else low |= IOART_TRGRLVL; if (intpin->io_activehi) low |= IOART_INTAHI; else low |= IOART_INTALO; if (intpin->io_masked) low |= IOART_INTMSET; switch (intpin->io_irq) { case IRQ_EXTINT: KASSERT(intpin->io_edgetrigger, ("ExtINT not edge triggered")); low |= IOART_DELEXINT; break; case IRQ_NMI: KASSERT(intpin->io_edgetrigger, ("NMI not edge triggered")); low |= IOART_DELNMI; break; case IRQ_SMI: KASSERT(intpin->io_edgetrigger, ("SMI not edge triggered")); low |= IOART_DELSMI; break; default: KASSERT(intpin->io_vector != 0, ("No vector for IRQ %u", intpin->io_irq)); low |= IOART_DELFIXED | intpin->io_vector; } /* Write the values to the APIC. */ intpin->io_lowreg = low; ioapic_write(io->io_addr, IOAPIC_REDTBL_LO(intpin->io_intpin), low); value = ioapic_read(io->io_addr, IOAPIC_REDTBL_HI(intpin->io_intpin)); value &= ~IOART_DEST; value |= high; ioapic_write(io->io_addr, IOAPIC_REDTBL_HI(intpin->io_intpin), value); } static int ioapic_assign_cpu(struct intsrc *isrc, u_int apic_id) { struct ioapic_intsrc *intpin = (struct ioapic_intsrc *)isrc; struct ioapic *io = (struct ioapic *)isrc->is_pic; u_int old_vector, new_vector; u_int old_id; /* * keep 1st core as the destination for NMI */ if (intpin->io_irq == IRQ_NMI) apic_id = 0; /* * Set us up to free the old irq. */ old_vector = intpin->io_vector; old_id = intpin->io_cpu; if (old_vector && apic_id == old_id) return (0); /* * Allocate an APIC vector for this interrupt pin. Once * we have a vector we program the interrupt pin. */ new_vector = apic_alloc_vector(apic_id, intpin->io_irq); if (new_vector == 0) return (ENOSPC); /* * Mask the old intpin if it is enabled while it is migrated. * * At least some level-triggered interrupts seem to need the * extra DELAY() to avoid being stuck in a non-EOI'd state. */ mtx_lock_spin(&icu_lock); if (!intpin->io_masked && !intpin->io_edgetrigger) { ioapic_write(io->io_addr, IOAPIC_REDTBL_LO(intpin->io_intpin), intpin->io_lowreg | IOART_INTMSET); mtx_unlock_spin(&icu_lock); DELAY(100); mtx_lock_spin(&icu_lock); } intpin->io_cpu = apic_id; intpin->io_vector = new_vector; if (isrc->is_handlers > 0) apic_enable_vector(intpin->io_cpu, intpin->io_vector); if (bootverbose) { printf("ioapic%u: routing intpin %u (", io->io_id, intpin->io_intpin); ioapic_print_irq(intpin); printf(") to lapic %u vector %u\n", intpin->io_cpu, intpin->io_vector); } ioapic_program_intpin(intpin); mtx_unlock_spin(&icu_lock); /* * Free the old vector after the new one is established. This is done * to prevent races where we could miss an interrupt. */ if (old_vector) { if (isrc->is_handlers > 0) apic_disable_vector(old_id, old_vector); apic_free_vector(old_id, old_vector, intpin->io_irq); } return (0); } static void ioapic_enable_intr(struct intsrc *isrc) { struct ioapic_intsrc *intpin = (struct ioapic_intsrc *)isrc; if (intpin->io_vector == 0) if (ioapic_assign_cpu(isrc, intr_next_cpu()) != 0) panic("Couldn't find an APIC vector for IRQ %d", intpin->io_irq); apic_enable_vector(intpin->io_cpu, intpin->io_vector); } static void ioapic_disable_intr(struct intsrc *isrc) { struct ioapic_intsrc *intpin = (struct ioapic_intsrc *)isrc; u_int vector; if (intpin->io_vector != 0) { /* Mask this interrupt pin and free its APIC vector. */ vector = intpin->io_vector; apic_disable_vector(intpin->io_cpu, vector); mtx_lock_spin(&icu_lock); intpin->io_masked = 1; intpin->io_vector = 0; ioapic_program_intpin(intpin); mtx_unlock_spin(&icu_lock); apic_free_vector(intpin->io_cpu, vector, intpin->io_irq); } } static int ioapic_vector(struct intsrc *isrc) { struct ioapic_intsrc *pin; pin = (struct ioapic_intsrc *)isrc; return (pin->io_irq); } static int ioapic_source_pending(struct intsrc *isrc) { struct ioapic_intsrc *intpin = (struct ioapic_intsrc *)isrc; if (intpin->io_vector == 0) return 0; return (lapic_intr_pending(intpin->io_vector)); } static int ioapic_config_intr(struct intsrc *isrc, enum intr_trigger trig, enum intr_polarity pol) { struct ioapic_intsrc *intpin = (struct ioapic_intsrc *)isrc; struct ioapic *io = (struct ioapic *)isrc->is_pic; int changed; KASSERT(!(trig == INTR_TRIGGER_CONFORM || pol == INTR_POLARITY_CONFORM), ("%s: Conforming trigger or polarity\n", __func__)); /* * EISA interrupts always use active high polarity, so don't allow * them to be set to active low. * * XXX: Should we write to the ELCR if the trigger mode changes for * an EISA IRQ or an ISA IRQ with the ELCR present? */ mtx_lock_spin(&icu_lock); if (intpin->io_bus == APIC_BUS_EISA) pol = INTR_POLARITY_HIGH; changed = 0; if (intpin->io_edgetrigger != (trig == INTR_TRIGGER_EDGE)) { if (bootverbose) printf("ioapic%u: Changing trigger for pin %u to %s\n", io->io_id, intpin->io_intpin, trig == INTR_TRIGGER_EDGE ? "edge" : "level"); intpin->io_edgetrigger = (trig == INTR_TRIGGER_EDGE); changed++; } if (intpin->io_activehi != (pol == INTR_POLARITY_HIGH)) { if (bootverbose) printf("ioapic%u: Changing polarity for pin %u to %s\n", io->io_id, intpin->io_intpin, pol == INTR_POLARITY_HIGH ? "high" : "low"); intpin->io_activehi = (pol == INTR_POLARITY_HIGH); changed++; } if (changed) ioapic_program_intpin(intpin); mtx_unlock_spin(&icu_lock); return (0); } static void ioapic_resume(struct pic *pic) { struct ioapic *io = (struct ioapic *)pic; int i; mtx_lock_spin(&icu_lock); for (i = 0; i < io->io_numintr; i++) ioapic_program_intpin(&io->io_pins[i]); mtx_unlock_spin(&icu_lock); } /* * Create a plain I/O APIC object. */ void * ioapic_create(vm_paddr_t addr, int32_t apic_id, int intbase) { struct ioapic *io; struct ioapic_intsrc *intpin; volatile ioapic_t *apic; u_int numintr, i; uint32_t value; /* Map the register window so we can access the device. */ apic = pmap_mapdev(addr, IOAPIC_MEM_REGION); mtx_lock_spin(&icu_lock); value = ioapic_read(apic, IOAPIC_VER); mtx_unlock_spin(&icu_lock); /* If it's version register doesn't seem to work, punt. */ if (value == 0xffffffff) { pmap_unmapdev((vm_offset_t)apic, IOAPIC_MEM_REGION); return (NULL); } /* Determine the number of vectors and set the APIC ID. */ numintr = ((value & IOART_VER_MAXREDIR) >> MAXREDIRSHIFT) + 1; io = malloc(sizeof(struct ioapic) + numintr * sizeof(struct ioapic_intsrc), M_IOAPIC, M_WAITOK); io->io_pic = ioapic_template; mtx_lock_spin(&icu_lock); io->io_id = next_id++; io->io_apic_id = ioapic_read(apic, IOAPIC_ID) >> APIC_ID_SHIFT; if (apic_id != -1 && io->io_apic_id != apic_id) { ioapic_write(apic, IOAPIC_ID, apic_id << APIC_ID_SHIFT); mtx_unlock_spin(&icu_lock); io->io_apic_id = apic_id; printf("ioapic%u: Changing APIC ID to %d\n", io->io_id, apic_id); } else mtx_unlock_spin(&icu_lock); if (intbase == -1) { intbase = next_ioapic_base; printf("ioapic%u: Assuming intbase of %d\n", io->io_id, intbase); } else if (intbase != next_ioapic_base && bootverbose) printf("ioapic%u: WARNING: intbase %d != expected base %d\n", io->io_id, intbase, next_ioapic_base); io->io_intbase = intbase; next_ioapic_base = intbase + numintr; io->io_numintr = numintr; io->io_addr = apic; io->io_paddr = addr; /* * Initialize pins. Start off with interrupts disabled. Default * to active-hi and edge-triggered for ISA interrupts and active-lo * and level-triggered for all others. */ bzero(io->io_pins, sizeof(struct ioapic_intsrc) * numintr); mtx_lock_spin(&icu_lock); for (i = 0, intpin = io->io_pins; i < numintr; i++, intpin++) { intpin->io_intsrc.is_pic = (struct pic *)io; intpin->io_intpin = i; intpin->io_irq = intbase + i; /* * Assume that pin 0 on the first I/O APIC is an ExtINT pin. * Assume that pins 1-15 are ISA interrupts and that all * other pins are PCI interrupts. */ if (intpin->io_irq == 0) ioapic_set_extint(io, i); else if (intpin->io_irq < IOAPIC_ISA_INTS) { intpin->io_bus = APIC_BUS_ISA; intpin->io_activehi = 1; intpin->io_edgetrigger = 1; intpin->io_masked = 1; } else { intpin->io_bus = APIC_BUS_PCI; intpin->io_activehi = 0; intpin->io_edgetrigger = 0; intpin->io_masked = 1; } /* * Route interrupts to the BSP by default. Interrupts may * be routed to other CPUs later after they are enabled. */ intpin->io_cpu = PCPU_GET(apic_id); value = ioapic_read(apic, IOAPIC_REDTBL_LO(i)); ioapic_write(apic, IOAPIC_REDTBL_LO(i), value | IOART_INTMSET); } mtx_unlock_spin(&icu_lock); return (io); } int ioapic_get_vector(void *cookie, u_int pin) { struct ioapic *io; io = (struct ioapic *)cookie; if (pin >= io->io_numintr) return (-1); return (io->io_pins[pin].io_irq); } int ioapic_disable_pin(void *cookie, u_int pin) { struct ioapic *io; io = (struct ioapic *)cookie; if (pin >= io->io_numintr) return (EINVAL); if (io->io_pins[pin].io_irq == IRQ_DISABLED) return (EINVAL); io->io_pins[pin].io_irq = IRQ_DISABLED; if (bootverbose) printf("ioapic%u: intpin %d disabled\n", io->io_id, pin); return (0); } int ioapic_remap_vector(void *cookie, u_int pin, int vector) { struct ioapic *io; io = (struct ioapic *)cookie; if (pin >= io->io_numintr || vector < 0) return (EINVAL); if (io->io_pins[pin].io_irq >= NUM_IO_INTS) return (EINVAL); io->io_pins[pin].io_irq = vector; if (bootverbose) printf("ioapic%u: Routing IRQ %d -> intpin %d\n", io->io_id, vector, pin); return (0); } int ioapic_set_bus(void *cookie, u_int pin, int bus_type) { struct ioapic *io; if (bus_type < 0 || bus_type > APIC_BUS_MAX) return (EINVAL); io = (struct ioapic *)cookie; if (pin >= io->io_numintr) return (EINVAL); if (io->io_pins[pin].io_irq >= NUM_IO_INTS) return (EINVAL); if (io->io_pins[pin].io_bus == bus_type) return (0); io->io_pins[pin].io_bus = bus_type; if (bootverbose) printf("ioapic%u: intpin %d bus %s\n", io->io_id, pin, ioapic_bus_string(bus_type)); return (0); } int ioapic_set_nmi(void *cookie, u_int pin) { struct ioapic *io; io = (struct ioapic *)cookie; if (pin >= io->io_numintr) return (EINVAL); if (io->io_pins[pin].io_irq == IRQ_NMI) return (0); if (io->io_pins[pin].io_irq >= NUM_IO_INTS) return (EINVAL); io->io_pins[pin].io_bus = APIC_BUS_UNKNOWN; io->io_pins[pin].io_irq = IRQ_NMI; io->io_pins[pin].io_masked = 0; io->io_pins[pin].io_edgetrigger = 1; io->io_pins[pin].io_activehi = 1; if (bootverbose) printf("ioapic%u: Routing NMI -> intpin %d\n", io->io_id, pin); return (0); } int ioapic_set_smi(void *cookie, u_int pin) { struct ioapic *io; io = (struct ioapic *)cookie; if (pin >= io->io_numintr) return (EINVAL); if (io->io_pins[pin].io_irq == IRQ_SMI) return (0); if (io->io_pins[pin].io_irq >= NUM_IO_INTS) return (EINVAL); io->io_pins[pin].io_bus = APIC_BUS_UNKNOWN; io->io_pins[pin].io_irq = IRQ_SMI; io->io_pins[pin].io_masked = 0; io->io_pins[pin].io_edgetrigger = 1; io->io_pins[pin].io_activehi = 1; if (bootverbose) printf("ioapic%u: Routing SMI -> intpin %d\n", io->io_id, pin); return (0); } int ioapic_set_extint(void *cookie, u_int pin) { struct ioapic *io; io = (struct ioapic *)cookie; if (pin >= io->io_numintr) return (EINVAL); if (io->io_pins[pin].io_irq == IRQ_EXTINT) return (0); if (io->io_pins[pin].io_irq >= NUM_IO_INTS) return (EINVAL); io->io_pins[pin].io_bus = APIC_BUS_UNKNOWN; io->io_pins[pin].io_irq = IRQ_EXTINT; if (enable_extint) io->io_pins[pin].io_masked = 0; else io->io_pins[pin].io_masked = 1; io->io_pins[pin].io_edgetrigger = 1; io->io_pins[pin].io_activehi = 1; if (bootverbose) printf("ioapic%u: Routing external 8259A's -> intpin %d\n", io->io_id, pin); return (0); } int ioapic_set_polarity(void *cookie, u_int pin, enum intr_polarity pol) { struct ioapic *io; int activehi; io = (struct ioapic *)cookie; if (pin >= io->io_numintr || pol == INTR_POLARITY_CONFORM) return (EINVAL); if (io->io_pins[pin].io_irq >= NUM_IO_INTS) return (EINVAL); activehi = (pol == INTR_POLARITY_HIGH); if (io->io_pins[pin].io_activehi == activehi) return (0); io->io_pins[pin].io_activehi = activehi; if (bootverbose) printf("ioapic%u: intpin %d polarity: %s\n", io->io_id, pin, pol == INTR_POLARITY_HIGH ? "high" : "low"); return (0); } int ioapic_set_triggermode(void *cookie, u_int pin, enum intr_trigger trigger) { struct ioapic *io; int edgetrigger; io = (struct ioapic *)cookie; if (pin >= io->io_numintr || trigger == INTR_TRIGGER_CONFORM) return (EINVAL); if (io->io_pins[pin].io_irq >= NUM_IO_INTS) return (EINVAL); edgetrigger = (trigger == INTR_TRIGGER_EDGE); if (io->io_pins[pin].io_edgetrigger == edgetrigger) return (0); io->io_pins[pin].io_edgetrigger = edgetrigger; if (bootverbose) printf("ioapic%u: intpin %d trigger: %s\n", io->io_id, pin, trigger == INTR_TRIGGER_EDGE ? "edge" : "level"); return (0); } /* * Register a complete I/O APIC object with the interrupt subsystem. */ void ioapic_register(void *cookie) { struct ioapic_intsrc *pin; struct ioapic *io; volatile ioapic_t *apic; uint32_t flags; int i; io = (struct ioapic *)cookie; apic = io->io_addr; mtx_lock_spin(&icu_lock); flags = ioapic_read(apic, IOAPIC_VER) & IOART_VER_VERSION; STAILQ_INSERT_TAIL(&ioapic_list, io, io_next); mtx_unlock_spin(&icu_lock); printf("ioapic%u <Version %u.%u> irqs %u-%u on motherboard\n", io->io_id, flags >> 4, flags & 0xf, io->io_intbase, io->io_intbase + io->io_numintr - 1); /* Register valid pins as interrupt sources. */ intr_register_pic(&io->io_pic); for (i = 0, pin = io->io_pins; i < io->io_numintr; i++, pin++) if (pin->io_irq < NUM_IO_INTS) intr_register_source(&pin->io_intsrc); } /* A simple new-bus driver to consume PCI I/O APIC devices. */ static int ioapic_pci_probe(device_t dev) { if (pci_get_class(dev) == PCIC_BASEPERIPH && pci_get_subclass(dev) == PCIS_BASEPERIPH_PIC) { switch (pci_get_progif(dev)) { case PCIP_BASEPERIPH_PIC_IO_APIC: device_set_desc(dev, "IO APIC"); break; case PCIP_BASEPERIPH_PIC_IOX_APIC: device_set_desc(dev, "IO(x) APIC"); break; default: return (ENXIO); } device_quiet(dev); return (-10000); } return (ENXIO); } static int ioapic_pci_attach(device_t dev) { return (0); } static device_method_t ioapic_pci_methods[] = { /* Device interface */ DEVMETHOD(device_probe, ioapic_pci_probe), DEVMETHOD(device_attach, ioapic_pci_attach), { 0, 0 } }; DEFINE_CLASS_0(ioapic, ioapic_pci_driver, ioapic_pci_methods, 0); static devclass_t ioapic_devclass; DRIVER_MODULE(ioapic, pci, ioapic_pci_driver, ioapic_devclass, 0, 0); /* * A new-bus driver to consume the memory resources associated with * the APICs in the system. On some systems ACPI or PnPBIOS system * resource devices may already claim these resources. To keep from * breaking those devices, we attach ourself to the nexus device after * legacy0 and acpi0 and ignore any allocation failures. */ static void apic_identify(driver_t *driver, device_t parent) { /* * Add at order 12. acpi0 is probed at order 10 and legacy0 * is probed at order 11. */ if (lapic_paddr != 0) BUS_ADD_CHILD(parent, 12, "apic", 0); } static int apic_probe(device_t dev) { device_set_desc(dev, "APIC resources"); device_quiet(dev); return (0); } static void apic_add_resource(device_t dev, int rid, vm_paddr_t base, size_t length) { int error; #ifdef PAE /* * Resources use long's to track resources, so we can't * include memory regions above 4GB. */ if (base >= ~0ul) return; #endif error = bus_set_resource(dev, SYS_RES_MEMORY, rid, base, length); if (error) panic("apic_add_resource: resource %d failed set with %d", rid, error); bus_alloc_resource_any(dev, SYS_RES_MEMORY, &rid, 0); } static int apic_attach(device_t dev) { struct ioapic *io; int i; /* Reserve the local APIC. */ apic_add_resource(dev, 0, lapic_paddr, sizeof(lapic_t)); i = 1; STAILQ_FOREACH(io, &ioapic_list, io_next) { apic_add_resource(dev, i, io->io_paddr, IOAPIC_MEM_REGION); i++; } return (0); } static device_method_t apic_methods[] = { /* Device interface */ DEVMETHOD(device_identify, apic_identify), DEVMETHOD(device_probe, apic_probe), DEVMETHOD(device_attach, apic_attach), { 0, 0 } }; DEFINE_CLASS_0(apic, apic_driver, apic_methods, 0); static devclass_t apic_devclass; DRIVER_MODULE(apic, nexus, apic_driver, apic_devclass, 0, 0);