freebsd-nq/sys/kern/subr_intr.c

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Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
/*-
* Copyright (c) 2012-2014 Jakub Wojciech Klama <jceel@FreeBSD.org>.
* Copyright (c) 2015 Svatopluk Kraus
* Copyright (c) 2015 Michal Meloun
* 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.
*
* 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.
*
* $FreeBSD$
*/
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
/*
* New-style Interrupt Framework
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
*
* TODO: - to support IPI (PPI) enabling on other CPUs if already started
* - to complete things for removable PICs
*/
#include "opt_ddb.h"
#include "opt_platform.h"
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/kernel.h>
#include <sys/syslog.h>
#include <sys/malloc.h>
#include <sys/proc.h>
#include <sys/queue.h>
#include <sys/bus.h>
#include <sys/interrupt.h>
#include <sys/conf.h>
#include <sys/cpuset.h>
#include <sys/sched.h>
#include <sys/smp.h>
#include <machine/atomic.h>
#include <machine/intr.h>
#include <machine/cpu.h>
#include <machine/smp.h>
#include <machine/stdarg.h>
#include <dev/ofw/openfirm.h>
#include <dev/ofw/ofw_bus.h>
#include <dev/ofw/ofw_bus_subr.h>
#include <dev/fdt/fdt_common.h>
#ifdef DDB
#include <ddb/ddb.h>
#endif
#include "pic_if.h"
#define INTRNAME_LEN (2*MAXCOMLEN + 1)
#ifdef DEBUG
#define debugf(fmt, args...) do { printf("%s(): ", __func__); \
printf(fmt,##args); } while (0)
#else
#define debugf(fmt, args...)
#endif
MALLOC_DECLARE(M_INTRNG);
MALLOC_DEFINE(M_INTRNG, "intr", "intr interrupt handling");
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
/* Main interrupt handler called from assembler -> 'hidden' for C code. */
void intr_irq_handler(struct trapframe *tf);
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
/* Root interrupt controller stuff. */
static struct intr_irqsrc *irq_root_isrc;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
static device_t irq_root_dev;
static intr_irq_filter_t *irq_root_filter;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
static void *irq_root_arg;
static u_int irq_root_ipicount;
/* Interrupt controller definition. */
struct intr_pic {
SLIST_ENTRY(intr_pic) pic_next;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
intptr_t pic_xref; /* hardware identification */
device_t pic_dev;
};
static struct mtx pic_list_lock;
static SLIST_HEAD(, intr_pic) pic_list;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
static struct intr_pic *pic_lookup(device_t dev, intptr_t xref);
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
/* Interrupt source definition. */
static struct mtx isrc_table_lock;
static struct intr_irqsrc *irq_sources[NIRQ];
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
u_int irq_next_free;
#define IRQ_INVALID nitems(irq_sources)
#ifdef SMP
static boolean_t irq_assign_cpu = FALSE;
static struct intr_irqsrc ipi_sources[INTR_IPI_COUNT];
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
static u_int ipi_next_num;
#endif
/*
* - 2 counters for each I/O interrupt.
* - MAXCPU counters for each IPI counters for SMP.
*/
#ifdef SMP
#define INTRCNT_COUNT (NIRQ * 2 + INTR_IPI_COUNT * MAXCPU)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
#else
#define INTRCNT_COUNT (NIRQ * 2)
#endif
/* Data for MI statistics reporting. */
u_long intrcnt[INTRCNT_COUNT];
char intrnames[INTRCNT_COUNT * INTRNAME_LEN];
size_t sintrcnt = sizeof(intrcnt);
size_t sintrnames = sizeof(intrnames);
static u_int intrcnt_index;
/*
* Interrupt framework initialization routine.
*/
static void
intr_irq_init(void *dummy __unused)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
SLIST_INIT(&pic_list);
mtx_init(&pic_list_lock, "intr pic list", NULL, MTX_DEF);
mtx_init(&isrc_table_lock, "intr isrc table", NULL, MTX_DEF);
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
}
SYSINIT(intr_irq_init, SI_SUB_INTR, SI_ORDER_FIRST, intr_irq_init, NULL);
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
static void
intrcnt_setname(const char *name, int index)
{
snprintf(intrnames + INTRNAME_LEN * index, INTRNAME_LEN, "%-*s",
INTRNAME_LEN - 1, name);
}
/*
* Update name for interrupt source with interrupt event.
*/
static void
intrcnt_updatename(struct intr_irqsrc *isrc)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
/* QQQ: What about stray counter name? */
mtx_assert(&isrc_table_lock, MA_OWNED);
intrcnt_setname(isrc->isrc_event->ie_fullname, isrc->isrc_index);
}
/*
* Virtualization for interrupt source interrupt counter increment.
*/
static inline void
isrc_increment_count(struct intr_irqsrc *isrc)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
/*
* XXX - It should be atomic for PPI interrupts. It was proven that
* the lost is measurable easily for timer PPI interrupts.
*/
isrc->isrc_count[0]++;
/*atomic_add_long(&isrc->isrc_count[0], 1);*/
}
/*
* Virtualization for interrupt source interrupt stray counter increment.
*/
static inline void
isrc_increment_straycount(struct intr_irqsrc *isrc)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
isrc->isrc_count[1]++;
}
/*
* Virtualization for interrupt source interrupt name update.
*/
static void
isrc_update_name(struct intr_irqsrc *isrc, const char *name)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
char str[INTRNAME_LEN];
mtx_assert(&isrc_table_lock, MA_OWNED);
if (name != NULL) {
snprintf(str, INTRNAME_LEN, "%s: %s", isrc->isrc_name, name);
intrcnt_setname(str, isrc->isrc_index);
snprintf(str, INTRNAME_LEN, "stray %s: %s", isrc->isrc_name,
name);
intrcnt_setname(str, isrc->isrc_index + 1);
} else {
snprintf(str, INTRNAME_LEN, "%s:", isrc->isrc_name);
intrcnt_setname(str, isrc->isrc_index);
snprintf(str, INTRNAME_LEN, "stray %s:", isrc->isrc_name);
intrcnt_setname(str, isrc->isrc_index + 1);
}
}
/*
* Virtualization for interrupt source interrupt counters setup.
*/
static void
isrc_setup_counters(struct intr_irqsrc *isrc)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
u_int index;
/*
* XXX - it does not work well with removable controllers and
* interrupt sources !!!
*/
index = atomic_fetchadd_int(&intrcnt_index, 2);
isrc->isrc_index = index;
isrc->isrc_count = &intrcnt[index];
isrc_update_name(isrc, NULL);
}
#ifdef SMP
/*
* Virtualization for interrupt source IPI counter increment.
*/
static inline void
isrc_increment_ipi_count(struct intr_irqsrc *isrc, u_int cpu)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
isrc->isrc_count[cpu]++;
}
/*
* Virtualization for interrupt source IPI counters setup.
*/
static void
isrc_setup_ipi_counters(struct intr_irqsrc *isrc, const char *name)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
u_int index, i;
char str[INTRNAME_LEN];
index = atomic_fetchadd_int(&intrcnt_index, MAXCPU);
isrc->isrc_index = index;
isrc->isrc_count = &intrcnt[index];
for (i = 0; i < MAXCPU; i++) {
/*
* We do not expect any race in IPI case here,
* so locking is not needed.
*/
snprintf(str, INTRNAME_LEN, "cpu%d:%s", i, name);
intrcnt_setname(str, index + i);
}
}
#endif
/*
* Main interrupt dispatch handler. It's called straight
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
* from the assembler, where CPU interrupt is served.
*/
void
intr_irq_handler(struct trapframe *tf)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
struct trapframe * oldframe;
struct thread * td;
KASSERT(irq_root_filter != NULL, ("%s: no filter", __func__));
PCPU_INC(cnt.v_intr);
critical_enter();
td = curthread;
oldframe = td->td_intr_frame;
td->td_intr_frame = tf;
irq_root_filter(irq_root_arg);
td->td_intr_frame = oldframe;
critical_exit();
}
/*
* interrupt controller dispatch function for interrupts. It should
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
* be called straight from the interrupt controller, when associated interrupt
* source is learned.
*/
void
intr_irq_dispatch(struct intr_irqsrc *isrc, struct trapframe *tf)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
KASSERT(isrc != NULL, ("%s: no source", __func__));
isrc_increment_count(isrc);
#ifdef INTR_SOLO
if (isrc->isrc_filter != NULL) {
int error;
error = isrc->isrc_filter(isrc->isrc_arg, tf);
PIC_POST_FILTER(isrc->isrc_dev, isrc);
if (error == FILTER_HANDLED)
return;
} else
#endif
if (isrc->isrc_event != NULL) {
if (intr_event_handle(isrc->isrc_event, tf) == 0)
return;
}
isrc_increment_straycount(isrc);
PIC_DISABLE_SOURCE(isrc->isrc_dev, isrc);
device_printf(isrc->isrc_dev, "stray irq <%s> disabled",
isrc->isrc_name);
}
/*
* Allocate interrupt source.
*/
static struct intr_irqsrc *
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
isrc_alloc(u_int type, u_int extsize)
{
struct intr_irqsrc *isrc;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
isrc = malloc(sizeof(*isrc) + extsize, M_INTRNG, M_WAITOK | M_ZERO);
isrc->isrc_irq = IRQ_INVALID; /* just to be safe */
isrc->isrc_type = type;
isrc->isrc_nspc_type = INTR_IRQ_NSPC_NONE;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
isrc->isrc_trig = INTR_TRIGGER_CONFORM;
isrc->isrc_pol = INTR_POLARITY_CONFORM;
CPU_ZERO(&isrc->isrc_cpu);
return (isrc);
}
/*
* Free interrupt source.
*/
static void
isrc_free(struct intr_irqsrc *isrc)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
free(isrc, M_INTRNG);
}
void
intr_irq_set_name(struct intr_irqsrc *isrc, const char *fmt, ...)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
va_list ap;
va_start(ap, fmt);
vsnprintf(isrc->isrc_name, INTR_ISRC_NAMELEN, fmt, ap);
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
va_end(ap);
}
/*
* Alloc unique interrupt number (resource handle) for interrupt source.
*
* There could be various strategies how to allocate free interrupt number
* (resource handle) for new interrupt source.
*
* 1. Handles are always allocated forward, so handles are not recycled
* immediately. However, if only one free handle left which is reused
* constantly...
*/
static int
isrc_alloc_irq_locked(struct intr_irqsrc *isrc)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
u_int maxirqs, irq;
mtx_assert(&isrc_table_lock, MA_OWNED);
maxirqs = nitems(irq_sources);
if (irq_next_free >= maxirqs)
return (ENOSPC);
for (irq = irq_next_free; irq < maxirqs; irq++) {
if (irq_sources[irq] == NULL)
goto found;
}
for (irq = 0; irq < irq_next_free; irq++) {
if (irq_sources[irq] == NULL)
goto found;
}
irq_next_free = maxirqs;
return (ENOSPC);
found:
isrc->isrc_irq = irq;
irq_sources[irq] = isrc;
intr_irq_set_name(isrc, "irq%u", irq);
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
isrc_setup_counters(isrc);
irq_next_free = irq + 1;
if (irq_next_free >= maxirqs)
irq_next_free = 0;
return (0);
}
#ifdef notyet
/*
* Free unique interrupt number (resource handle) from interrupt source.
*/
static int
isrc_free_irq(struct intr_irqsrc *isrc)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
u_int maxirqs;
mtx_assert(&isrc_table_lock, MA_NOTOWNED);
maxirqs = nitems(irq_sources);
if (isrc->isrc_irq >= maxirqs)
return (EINVAL);
mtx_lock(&isrc_table_lock);
if (irq_sources[isrc->isrc_irq] != isrc) {
mtx_unlock(&isrc_table_lock);
return (EINVAL);
}
irq_sources[isrc->isrc_irq] = NULL;
isrc->isrc_irq = IRQ_INVALID; /* just to be safe */
mtx_unlock(&isrc_table_lock);
return (0);
}
#endif
/*
* Lookup interrupt source by interrupt number (resource handle).
*/
static struct intr_irqsrc *
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
isrc_lookup(u_int irq)
{
if (irq < nitems(irq_sources))
return (irq_sources[irq]);
return (NULL);
}
/*
* Lookup interrupt source by namespace description.
*/
static struct intr_irqsrc *
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
isrc_namespace_lookup(device_t dev, uint16_t type, uint16_t num)
{
u_int irq;
struct intr_irqsrc *isrc;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
mtx_assert(&isrc_table_lock, MA_OWNED);
for (irq = 0; irq < nitems(irq_sources); irq++) {
isrc = irq_sources[irq];
if (isrc != NULL && isrc->isrc_dev == dev &&
isrc->isrc_nspc_type == type && isrc->isrc_nspc_num == num)
return (isrc);
}
return (NULL);
}
/*
* Map interrupt source according to namespace into framework. If such mapping
* does not exist, create it. Return unique interrupt number (resource handle)
* associated with mapped interrupt source.
*/
u_int
intr_namespace_map_irq(device_t dev, uint16_t type, uint16_t num)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
struct intr_irqsrc *isrc, *new_isrc;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
int error;
new_isrc = isrc_alloc(INTR_ISRCT_NAMESPACE, 0);
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
mtx_lock(&isrc_table_lock);
isrc = isrc_namespace_lookup(dev, type, num);
if (isrc != NULL) {
mtx_unlock(&isrc_table_lock);
isrc_free(new_isrc);
return (isrc->isrc_irq); /* already mapped */
}
error = isrc_alloc_irq_locked(new_isrc);
if (error != 0) {
mtx_unlock(&isrc_table_lock);
isrc_free(new_isrc);
return (IRQ_INVALID); /* no space left */
}
new_isrc->isrc_dev = dev;
new_isrc->isrc_nspc_type = type;
new_isrc->isrc_nspc_num = num;
mtx_unlock(&isrc_table_lock);
return (new_isrc->isrc_irq);
}
#ifdef FDT
/*
* Lookup interrupt source by FDT description.
*/
static struct intr_irqsrc *
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
isrc_fdt_lookup(intptr_t xref, pcell_t *cells, u_int ncells)
{
u_int irq, cellsize;
struct intr_irqsrc *isrc;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
mtx_assert(&isrc_table_lock, MA_OWNED);
cellsize = ncells * sizeof(*cells);
for (irq = 0; irq < nitems(irq_sources); irq++) {
isrc = irq_sources[irq];
if (isrc != NULL && isrc->isrc_type == INTR_ISRCT_FDT &&
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
isrc->isrc_xref == xref && isrc->isrc_ncells == ncells &&
memcmp(isrc->isrc_cells, cells, cellsize) == 0)
return (isrc);
}
return (NULL);
}
/*
* Map interrupt source according to FDT data into framework. If such mapping
* does not exist, create it. Return unique interrupt number (resource handle)
* associated with mapped interrupt source.
*/
u_int
intr_fdt_map_irq(phandle_t node, pcell_t *cells, u_int ncells)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
struct intr_irqsrc *isrc, *new_isrc;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
u_int cellsize;
intptr_t xref;
int error;
xref = (intptr_t)node; /* It's so simple for now. */
cellsize = ncells * sizeof(*cells);
new_isrc = isrc_alloc(INTR_ISRCT_FDT, cellsize);
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
mtx_lock(&isrc_table_lock);
isrc = isrc_fdt_lookup(xref, cells, ncells);
if (isrc != NULL) {
mtx_unlock(&isrc_table_lock);
isrc_free(new_isrc);
return (isrc->isrc_irq); /* already mapped */
}
error = isrc_alloc_irq_locked(new_isrc);
if (error != 0) {
mtx_unlock(&isrc_table_lock);
isrc_free(new_isrc);
return (IRQ_INVALID); /* no space left */
}
new_isrc->isrc_xref = xref;
new_isrc->isrc_ncells = ncells;
memcpy(new_isrc->isrc_cells, cells, cellsize);
mtx_unlock(&isrc_table_lock);
return (new_isrc->isrc_irq);
}
#endif
/*
* Register interrupt source into interrupt controller.
*/
static int
isrc_register(struct intr_irqsrc *isrc)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
struct intr_pic *pic;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
boolean_t is_percpu;
int error;
if (isrc->isrc_flags & INTR_ISRCF_REGISTERED)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
return (0);
if (isrc->isrc_dev == NULL) {
pic = pic_lookup(NULL, isrc->isrc_xref);
if (pic == NULL || pic->pic_dev == NULL)
return (ESRCH);
isrc->isrc_dev = pic->pic_dev;
}
error = PIC_REGISTER(isrc->isrc_dev, isrc, &is_percpu);
if (error != 0)
return (error);
mtx_lock(&isrc_table_lock);
isrc->isrc_flags |= INTR_ISRCF_REGISTERED;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
if (is_percpu)
isrc->isrc_flags |= INTR_ISRCF_PERCPU;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
isrc_update_name(isrc, NULL);
mtx_unlock(&isrc_table_lock);
return (0);
}
#ifdef INTR_SOLO
/*
* Setup filter into interrupt source.
*/
static int
iscr_setup_filter(struct intr_irqsrc *isrc, const char *name,
intr_irq_filter_t *filter, void *arg, void **cookiep)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
if (filter == NULL)
return (EINVAL);
mtx_lock(&isrc_table_lock);
/*
* Make sure that we do not mix the two ways
* how we handle interrupt sources.
*/
if (isrc->isrc_filter != NULL || isrc->isrc_event != NULL) {
mtx_unlock(&isrc_table_lock);
return (EBUSY);
}
isrc->isrc_filter = filter;
isrc->isrc_arg = arg;
isrc_update_name(isrc, name);
mtx_unlock(&isrc_table_lock);
*cookiep = isrc;
return (0);
}
#endif
/*
* Interrupt source pre_ithread method for MI interrupt framework.
*/
static void
intr_isrc_pre_ithread(void *arg)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
struct intr_irqsrc *isrc = arg;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
PIC_PRE_ITHREAD(isrc->isrc_dev, isrc);
}
/*
* Interrupt source post_ithread method for MI interrupt framework.
*/
static void
intr_isrc_post_ithread(void *arg)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
struct intr_irqsrc *isrc = arg;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
PIC_POST_ITHREAD(isrc->isrc_dev, isrc);
}
/*
* Interrupt source post_filter method for MI interrupt framework.
*/
static void
intr_isrc_post_filter(void *arg)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
struct intr_irqsrc *isrc = arg;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
PIC_POST_FILTER(isrc->isrc_dev, isrc);
}
/*
* Interrupt source assign_cpu method for MI interrupt framework.
*/
static int
intr_isrc_assign_cpu(void *arg, int cpu)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
#ifdef SMP
struct intr_irqsrc *isrc = arg;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
int error;
if (isrc->isrc_dev != irq_root_dev)
return (EINVAL);
mtx_lock(&isrc_table_lock);
if (cpu == NOCPU) {
CPU_ZERO(&isrc->isrc_cpu);
isrc->isrc_flags &= ~INTR_ISRCF_BOUND;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
} else {
CPU_SETOF(cpu, &isrc->isrc_cpu);
isrc->isrc_flags |= INTR_ISRCF_BOUND;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
}
/*
* In NOCPU case, it's up to PIC to either leave ISRC on same CPU or
* re-balance it to another CPU or enable it on more CPUs. However,
* PIC is expected to change isrc_cpu appropriately to keep us well
* informed if the call is successfull.
*/
if (irq_assign_cpu) {
error = PIC_BIND(isrc->isrc_dev, isrc);
if (error) {
CPU_ZERO(&isrc->isrc_cpu);
mtx_unlock(&isrc_table_lock);
return (error);
}
}
mtx_unlock(&isrc_table_lock);
return (0);
#else
return (EOPNOTSUPP);
#endif
}
/*
* Create interrupt event for interrupt source.
*/
static int
isrc_event_create(struct intr_irqsrc *isrc)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
struct intr_event *ie;
int error;
error = intr_event_create(&ie, isrc, 0, isrc->isrc_irq,
intr_isrc_pre_ithread, intr_isrc_post_ithread, intr_isrc_post_filter,
intr_isrc_assign_cpu, "%s:", isrc->isrc_name);
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
if (error)
return (error);
mtx_lock(&isrc_table_lock);
/*
* Make sure that we do not mix the two ways
* how we handle interrupt sources. Let contested event wins.
*/
if (isrc->isrc_filter != NULL || isrc->isrc_event != NULL) {
mtx_unlock(&isrc_table_lock);
intr_event_destroy(ie);
return (isrc->isrc_event != NULL ? EBUSY : 0);
}
isrc->isrc_event = ie;
mtx_unlock(&isrc_table_lock);
return (0);
}
#ifdef notyet
/*
* Destroy interrupt event for interrupt source.
*/
static void
isrc_event_destroy(struct intr_irqsrc *isrc)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
struct intr_event *ie;
mtx_lock(&isrc_table_lock);
ie = isrc->isrc_event;
isrc->isrc_event = NULL;
mtx_unlock(&isrc_table_lock);
if (ie != NULL)
intr_event_destroy(ie);
}
#endif
/*
* Add handler to interrupt source.
*/
static int
isrc_add_handler(struct intr_irqsrc *isrc, const char *name,
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
driver_filter_t filter, driver_intr_t handler, void *arg,
enum intr_type flags, void **cookiep)
{
int error;
if (isrc->isrc_event == NULL) {
error = isrc_event_create(isrc);
if (error)
return (error);
}
error = intr_event_add_handler(isrc->isrc_event, name, filter, handler,
arg, intr_priority(flags), flags, cookiep);
if (error == 0) {
mtx_lock(&isrc_table_lock);
intrcnt_updatename(isrc);
mtx_unlock(&isrc_table_lock);
}
return (error);
}
/*
* Lookup interrupt controller locked.
*/
static struct intr_pic *
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
pic_lookup_locked(device_t dev, intptr_t xref)
{
struct intr_pic *pic;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
mtx_assert(&pic_list_lock, MA_OWNED);
SLIST_FOREACH(pic, &pic_list, pic_next) {
if (pic->pic_xref != xref)
continue;
if (pic->pic_xref != 0 || pic->pic_dev == dev)
return (pic);
}
return (NULL);
}
/*
* Lookup interrupt controller.
*/
static struct intr_pic *
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
pic_lookup(device_t dev, intptr_t xref)
{
struct intr_pic *pic;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
mtx_lock(&pic_list_lock);
pic = pic_lookup_locked(dev, xref);
mtx_unlock(&pic_list_lock);
return (pic);
}
/*
* Create interrupt controller.
*/
static struct intr_pic *
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
pic_create(device_t dev, intptr_t xref)
{
struct intr_pic *pic;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
mtx_lock(&pic_list_lock);
pic = pic_lookup_locked(dev, xref);
if (pic != NULL) {
mtx_unlock(&pic_list_lock);
return (pic);
}
pic = malloc(sizeof(*pic), M_INTRNG, M_NOWAIT | M_ZERO);
pic->pic_xref = xref;
pic->pic_dev = dev;
SLIST_INSERT_HEAD(&pic_list, pic, pic_next);
mtx_unlock(&pic_list_lock);
return (pic);
}
#ifdef notyet
/*
* Destroy interrupt controller.
*/
static void
pic_destroy(device_t dev, intptr_t xref)
{
struct intr_pic *pic;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
mtx_lock(&pic_list_lock);
pic = pic_lookup_locked(dev, xref);
if (pic == NULL) {
mtx_unlock(&pic_list_lock);
return;
}
SLIST_REMOVE(&pic_list, pic, intr_pic, pic_next);
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
mtx_unlock(&pic_list_lock);
free(pic, M_INTRNG);
}
#endif
/*
* Register interrupt controller.
*/
int
intr_pic_register(device_t dev, intptr_t xref)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
struct intr_pic *pic;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
pic = pic_create(dev, xref);
if (pic == NULL)
return (ENOMEM);
if (pic->pic_dev != dev)
return (EINVAL); /* XXX it could be many things. */
debugf("PIC %p registered for %s <xref %x>\n", pic,
device_get_nameunit(dev), xref);
return (0);
}
/*
* Unregister interrupt controller.
*/
int
intr_pic_unregister(device_t dev, intptr_t xref)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
panic("%s: not implemented", __func__);
}
/*
* Mark interrupt controller (itself) as a root one.
*
* Note that only an interrupt controller can really know its position
* in interrupt controller's tree. So root PIC must claim itself as a root.
*
* In FDT case, according to ePAPR approved version 1.1 from 08 April 2011,
* page 30:
* "The root of the interrupt tree is determined when traversal
* of the interrupt tree reaches an interrupt controller node without
* an interrupts property and thus no explicit interrupt parent."
*/
int
intr_pic_claim_root(device_t dev, intptr_t xref, intr_irq_filter_t *filter,
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
void *arg, u_int ipicount)
{
int error;
u_int rootirq;
if (pic_lookup(dev, xref) == NULL) {
device_printf(dev, "not registered\n");
return (EINVAL);
}
if (filter == NULL) {
device_printf(dev, "filter missing\n");
return (EINVAL);
}
/*
* Only one interrupt controllers could be on the root for now.
* Note that we further suppose that there is not threaded interrupt
* routine (handler) on the root. See intr_irq_handler().
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
*/
if (irq_root_dev != NULL) {
device_printf(dev, "another root already set\n");
return (EBUSY);
}
rootirq = intr_namespace_map_irq(device_get_parent(dev), 0, 0);
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
if (rootirq == IRQ_INVALID) {
device_printf(dev, "failed to map an irq for the root pic\n");
return (ENOMEM);
}
/* Create the isrc. */
irq_root_isrc = isrc_lookup(rootirq);
/* XXX "register" with the PIC. We are the "pic" here, so fake it. */
irq_root_isrc->isrc_flags |= INTR_ISRCF_REGISTERED;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
error = intr_irq_add_handler(device_get_parent(dev),
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
(void*)filter, NULL, arg, rootirq, INTR_TYPE_CLK, NULL);
if (error != 0) {
device_printf(dev, "failed to install root pic handler\n");
return (error);
}
irq_root_dev = dev;
irq_root_filter = filter;
irq_root_arg = arg;
irq_root_ipicount = ipicount;
debugf("irq root set to %s\n", device_get_nameunit(dev));
return (0);
}
int
intr_irq_add_handler(device_t dev, driver_filter_t filt, driver_intr_t hand,
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
void *arg, u_int irq, int flags, void **cookiep)
{
const char *name;
struct intr_irqsrc *isrc;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
int error;
name = device_get_nameunit(dev);
#ifdef INTR_SOLO
/*
* Standard handling is done thru MI interrupt framework. However,
* some interrupts could request solely own special handling. This
* non standard handling can be used for interrupt controllers without
* handler (filter only), so in case that interrupt controllers are
* chained, MI interrupt framework is called only in leaf controller.
*
* Note that root interrupt controller routine is served as well,
* however in intr_irq_handler(), i.e. main system dispatch routine.
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
*/
if (flags & INTR_SOLO && hand != NULL) {
debugf("irq %u cannot solo on %s\n", irq, name);
return (EINVAL);
}
#endif
isrc = isrc_lookup(irq);
if (isrc == NULL) {
debugf("irq %u without source on %s\n", irq, name);
return (EINVAL);
}
error = isrc_register(isrc);
if (error != 0) {
debugf("irq %u map error %d on %s\n", irq, error, name);
return (error);
}
#ifdef INTR_SOLO
if (flags & INTR_SOLO) {
error = iscr_setup_filter(isrc, name, (intr_irq_filter_t *)filt,
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
arg, cookiep);
debugf("irq %u setup filter error %d on %s\n", irq, error,
name);
} else
#endif
{
error = isrc_add_handler(isrc, name, filt, hand, arg, flags,
cookiep);
debugf("irq %u add handler error %d on %s\n", irq, error, name);
}
if (error != 0)
return (error);
mtx_lock(&isrc_table_lock);
isrc->isrc_handlers++;
if (isrc->isrc_handlers == 1) {
PIC_ENABLE_INTR(isrc->isrc_dev, isrc);
PIC_ENABLE_SOURCE(isrc->isrc_dev, isrc);
}
mtx_unlock(&isrc_table_lock);
return (0);
}
int
intr_irq_remove_handler(device_t dev, u_int irq, void *cookie)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
struct intr_irqsrc *isrc;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
int error;
isrc = isrc_lookup(irq);
if (isrc == NULL || isrc->isrc_handlers == 0)
return (EINVAL);
if (isrc->isrc_filter != NULL) {
if (isrc != cookie)
return (EINVAL);
mtx_lock(&isrc_table_lock);
isrc->isrc_filter = NULL;
isrc->isrc_arg = NULL;
isrc->isrc_handlers = 0;
PIC_DISABLE_SOURCE(isrc->isrc_dev, isrc);
PIC_DISABLE_INTR(isrc->isrc_dev, isrc);
isrc_update_name(isrc, NULL);
mtx_unlock(&isrc_table_lock);
return (0);
}
if (isrc != intr_handler_source(cookie))
return (EINVAL);
error = intr_event_remove_handler(cookie);
if (error == 0) {
mtx_lock(&isrc_table_lock);
isrc->isrc_handlers--;
if (isrc->isrc_handlers == 0) {
PIC_DISABLE_SOURCE(isrc->isrc_dev, isrc);
PIC_DISABLE_INTR(isrc->isrc_dev, isrc);
}
intrcnt_updatename(isrc);
mtx_unlock(&isrc_table_lock);
}
return (error);
}
int
intr_irq_config(u_int irq, enum intr_trigger trig, enum intr_polarity pol)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
struct intr_irqsrc *isrc;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
isrc = isrc_lookup(irq);
if (isrc == NULL)
return (EINVAL);
if (isrc->isrc_handlers != 0)
return (EBUSY); /* interrrupt is enabled (active) */
/*
* Once an interrupt is enabled, we do not change its configuration.
* A controller PIC_ENABLE_INTR() method is called when an interrupt
* is going to be enabled. In this method, a controller should setup
* the interrupt according to saved configuration parameters.
*/
isrc->isrc_trig = trig;
isrc->isrc_pol = pol;
return (0);
}
int
intr_irq_describe(u_int irq, void *cookie, const char *descr)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
struct intr_irqsrc *isrc;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
int error;
isrc = isrc_lookup(irq);
if (isrc == NULL || isrc->isrc_handlers == 0)
return (EINVAL);
if (isrc->isrc_filter != NULL) {
if (isrc != cookie)
return (EINVAL);
mtx_lock(&isrc_table_lock);
isrc_update_name(isrc, descr);
mtx_unlock(&isrc_table_lock);
return (0);
}
error = intr_event_describe_handler(isrc->isrc_event, cookie, descr);
if (error == 0) {
mtx_lock(&isrc_table_lock);
intrcnt_updatename(isrc);
mtx_unlock(&isrc_table_lock);
}
return (error);
}
#ifdef SMP
int
intr_irq_bind(u_int irq, int cpu)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
struct intr_irqsrc *isrc;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
isrc = isrc_lookup(irq);
if (isrc == NULL || isrc->isrc_handlers == 0)
return (EINVAL);
if (isrc->isrc_filter != NULL)
return (intr_isrc_assign_cpu(isrc, cpu));
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
return (intr_event_bind(isrc->isrc_event, cpu));
}
/*
* Return the CPU that the next interrupt source should use.
* For now just returns the next CPU according to round-robin.
*/
u_int
intr_irq_next_cpu(u_int last_cpu, cpuset_t *cpumask)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
if (!irq_assign_cpu || mp_ncpus == 1)
return (PCPU_GET(cpuid));
do {
last_cpu++;
if (last_cpu > mp_maxid)
last_cpu = 0;
} while (!CPU_ISSET(last_cpu, cpumask));
return (last_cpu);
}
/*
* Distribute all the interrupt sources among the available
* CPUs once the AP's have been launched.
*/
static void
intr_irq_shuffle(void *arg __unused)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
struct intr_irqsrc *isrc;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
u_int i;
if (mp_ncpus == 1)
return;
mtx_lock(&isrc_table_lock);
irq_assign_cpu = TRUE;
for (i = 0; i < NIRQ; i++) {
isrc = irq_sources[i];
if (isrc == NULL || isrc->isrc_handlers == 0 ||
isrc->isrc_flags & INTR_ISRCF_PERCPU)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
continue;
if (isrc->isrc_event != NULL &&
isrc->isrc_flags & INTR_ISRCF_BOUND &&
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
isrc->isrc_event->ie_cpu != CPU_FFS(&isrc->isrc_cpu) - 1)
panic("%s: CPU inconsistency", __func__);
if ((isrc->isrc_flags & INTR_ISRCF_BOUND) == 0)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
CPU_ZERO(&isrc->isrc_cpu); /* start again */
/*
* We are in wicked position here if the following call fails
* for bound ISRC. The best thing we can do is to clear
* isrc_cpu so inconsistency with ie_cpu will be detectable.
*/
if (PIC_BIND(isrc->isrc_dev, isrc) != 0)
CPU_ZERO(&isrc->isrc_cpu);
}
mtx_unlock(&isrc_table_lock);
}
SYSINIT(intr_irq_shuffle, SI_SUB_SMP, SI_ORDER_SECOND, intr_irq_shuffle, NULL);
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
#else
u_int
intr_irq_next_cpu(u_int current_cpu, cpuset_t *cpumask)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
return (PCPU_GET(cpuid));
}
#endif
void dosoftints(void);
void
dosoftints(void)
{
}
#ifdef SMP
/*
* Lookup IPI source.
*/
static struct intr_irqsrc *
intr_ipi_lookup(u_int ipi)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
if (ipi >= INTR_IPI_COUNT)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
panic("%s: no such IPI %u", __func__, ipi);
return (&ipi_sources[ipi]);
}
/*
* interrupt controller dispatch function for IPIs. It should
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
* be called straight from the interrupt controller, when associated
* interrupt source is learned. Or from anybody who has an interrupt
* source mapped.
*/
void
intr_ipi_dispatch(struct intr_irqsrc *isrc, struct trapframe *tf)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
void *arg;
KASSERT(isrc != NULL, ("%s: no source", __func__));
isrc_increment_ipi_count(isrc, PCPU_GET(cpuid));
/*
* Supply ipi filter with trapframe argument
* if none is registered.
*/
arg = isrc->isrc_arg != NULL ? isrc->isrc_arg : tf;
isrc->isrc_ipifilter(arg);
}
/*
* Map IPI into interrupt controller.
*
* Not SMP coherent.
*/
static int
ipi_map(struct intr_irqsrc *isrc, u_int ipi)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
boolean_t is_percpu;
int error;
if (ipi >= INTR_IPI_COUNT)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
panic("%s: no such IPI %u", __func__, ipi);
KASSERT(irq_root_dev != NULL, ("%s: no root attached", __func__));
isrc->isrc_type = INTR_ISRCT_NAMESPACE;
isrc->isrc_nspc_type = INTR_IRQ_NSPC_IPI;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
isrc->isrc_nspc_num = ipi_next_num;
error = PIC_REGISTER(irq_root_dev, isrc, &is_percpu);
debugf("ipi %u mapped to %u on %s - error %d\n", ipi, ipi_next_num,
device_get_nameunit(irq_root_dev), error);
if (error == 0) {
isrc->isrc_dev = irq_root_dev;
ipi_next_num++;
}
return (error);
}
/*
* Setup IPI handler to interrupt source.
*
* Note that there could be more ways how to send and receive IPIs
* on a platform like fast interrupts for example. In that case,
* one can call this function with ASIF_NOALLOC flag set and then
* call intr_ipi_dispatch() when appropriate.
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
*
* Not SMP coherent.
*/
int
intr_ipi_set_handler(u_int ipi, const char *name, intr_ipi_filter_t *filter,
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
void *arg, u_int flags)
{
struct intr_irqsrc *isrc;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
int error;
if (filter == NULL)
return(EINVAL);
isrc = intr_ipi_lookup(ipi);
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
if (isrc->isrc_ipifilter != NULL)
return (EEXIST);
if ((flags & AISHF_NOALLOC) == 0) {
error = ipi_map(isrc, ipi);
if (error != 0)
return (error);
}
isrc->isrc_ipifilter = filter;
isrc->isrc_arg = arg;
isrc->isrc_handlers = 1;
isrc_setup_ipi_counters(isrc, name);
if (isrc->isrc_dev != NULL) {
mtx_lock(&isrc_table_lock);
PIC_ENABLE_INTR(isrc->isrc_dev, isrc);
PIC_ENABLE_SOURCE(isrc->isrc_dev, isrc);
mtx_unlock(&isrc_table_lock);
}
return (0);
}
/*
* Send IPI thru interrupt controller.
*/
void
pic_ipi_send(cpuset_t cpus, u_int ipi)
{
struct intr_irqsrc *isrc;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
isrc = intr_ipi_lookup(ipi);
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
KASSERT(irq_root_dev != NULL, ("%s: no root attached", __func__));
PIC_IPI_SEND(irq_root_dev, isrc, cpus);
}
/*
* Init interrupt controller on another CPU.
*/
void
intr_pic_init_secondary(void)
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
{
/*
* QQQ: Only root PIC is aware of other CPUs ???
*/
KASSERT(irq_root_dev != NULL, ("%s: no root attached", __func__));
//mtx_lock(&isrc_table_lock);
PIC_INIT_SECONDARY(irq_root_dev);
//mtx_unlock(&isrc_table_lock);
}
#endif
#ifdef DDB
DB_SHOW_COMMAND(irqs, db_show_irqs)
{
u_int i, irqsum;
struct intr_irqsrc *isrc;
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
#ifdef SMP
for (i = 0; i <= mp_maxid; i++) {
struct pcpu *pc;
u_int ipi, ipisum;
pc = pcpu_find(i);
if (pc != NULL) {
for (ipisum = 0, ipi = 0; ipi < INTR_IPI_COUNT; ipi++) {
isrc = intr_ipi_lookup(ipi);
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
if (isrc->isrc_count != NULL)
ipisum += isrc->isrc_count[i];
}
printf ("cpu%u: total %u ipis %u\n", i,
pc->pc_cnt.v_intr, ipisum);
}
}
db_printf("\n");
#endif
for (irqsum = 0, i = 0; i < NIRQ; i++) {
isrc = irq_sources[i];
if (isrc == NULL)
continue;
db_printf("irq%-3u <%s>: cpu %02lx%s cnt %lu\n", i,
isrc->isrc_name, isrc->isrc_cpu.__bits[0],
isrc->isrc_flags & INTR_ISRCF_BOUND ? " (bound)" : "",
Import ARM_INTRNG, the "next generation" interrupt architecture for arm and armv6 architecures. The primary enhancement over the old design is support for hierarchical interrupt controllers (such as a gpio driver which can receive interrupts from a root PIC and act as a PIC itself for clients interested in handling a change of gpio pin state as an interrupt). The new code also provides an infrastructure for mapping interrupts described in metadata in the form of a "controller reference plus interrupt number" tuple into the simple "0-n" flat numeric space understood by rman and the bus resource mechanisms. Use of the new code is enabled by setting the ARM_INTRNG option, and by making a few simple changes to the platform's support code. In addition each existing PIC driver needs changes to be ready for INTRNG; this commit contains the changes for the arm/gic driver, which most armv6 SoCs use, but it does not enable the new code yet on any platform. This project has been many years in the making, starting as a GSoC project by Jakub Klama (jceel@) in 2012. That didn't get committed right away and the source base evolved out from under it to some degree. In 2014 I rebased the diffs to then -current and did some enhancements in the area of mapping interrupt numbers and storing associated fdt data, then the project went cold again for a while. Eventually Svata Kraus took that work in progress and did another big round of work on it, removing most of the remaining rough edges. Finally I took that and made one more pass through it, mostly disabling the "INTR_SOLO" feature for now, pending further design discussions on how to most efficiently dispatch a pending interrupt through more than one layer of PIC. The current code with the INTR_SOLO feature disabled uses approximate 100 extra cpu cycles for each cascaded PIC the interrupt has to be passed to, so what's left to do is about efficiency, not correct operation. Differential Revision: https://reviews.freebsd.org/D2047
2015-10-18 18:26:19 +00:00
isrc->isrc_count[0]);
irqsum += isrc->isrc_count[0];
}
db_printf("irq total %u\n", irqsum);
}
#endif