freebsd-nq/sys/kern/pic_if.m

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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
#-
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
# Copyright (c) 2015-2016 Svatopluk Kraus
# Copyright (c) 2015-2016 Michal Meloun
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
# All rights reserved.
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# 1. Redistributions of source code must retain the above copyright
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# OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
# SUCH DAMAGE.
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# $FreeBSD$
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#include <sys/bus.h>
#include <sys/cpuset.h>
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
#include <sys/resource.h>
#include <sys/intr.h>
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
INTERFACE pic;
CODE {
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
static int
dflt_pic_bind_intr(device_t dev, 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
{
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
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 (EOPNOTSUPP);
}
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
static int
null_pic_activate_intr(device_t dev, struct intr_irqsrc *isrc,
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
struct resource *res, struct intr_map_data *data)
{
return (0);
}
static int
null_pic_deactivate_intr(device_t dev, struct intr_irqsrc *isrc,
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
struct resource *res, struct intr_map_data *data)
{
return (0);
}
static int
null_pic_setup_intr(device_t dev, struct intr_irqsrc *isrc,
struct resource *res, struct intr_map_data *data)
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
{
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
return (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
}
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
static int
null_pic_teardown_intr(device_t dev, struct intr_irqsrc *isrc,
struct resource *res, struct intr_map_data *data)
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
{
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
return (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
}
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
static void
null_pic_init_secondary(device_t 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
{
}
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
static void
null_pic_ipi_send(device_t dev, cpuset_t cpus, 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
{
}
static int
dflt_pic_ipi_setup(device_t dev, u_int ipi, struct intr_irqsrc *isrc)
{
return (EOPNOTSUPP);
}
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
};
METHOD int activate_intr {
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
device_t dev;
struct intr_irqsrc *isrc;
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
struct resource *res;
struct intr_map_data *data;
} DEFAULT null_pic_activate_intr;
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
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
METHOD int bind_intr {
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
device_t dev;
struct intr_irqsrc *isrc;
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
} DEFAULT dflt_pic_bind_intr;
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
METHOD void disable_intr {
device_t dev;
struct intr_irqsrc *isrc;
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
};
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
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
METHOD void enable_intr {
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
device_t dev;
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
};
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
METHOD int map_intr {
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
device_t dev;
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
struct intr_map_data *data;
struct intr_irqsrc **isrcp;
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
};
METHOD int deactivate_intr {
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
device_t dev;
struct intr_irqsrc *isrc;
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
struct resource *res;
struct intr_map_data *data;
} DEFAULT null_pic_deactivate_intr;
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
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
METHOD int setup_intr {
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
device_t dev;
struct intr_irqsrc *isrc;
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
struct resource *res;
struct intr_map_data *data;
} DEFAULT null_pic_setup_intr;
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
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
METHOD int teardown_intr {
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
device_t dev;
struct intr_irqsrc *isrc;
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
struct resource *res;
struct intr_map_data *data;
} DEFAULT null_pic_teardown_intr;
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
METHOD void post_filter {
device_t dev;
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
};
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
METHOD void post_ithread {
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
device_t dev;
struct intr_irqsrc *isrc;
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
};
METHOD void pre_ithread {
device_t dev;
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
METHOD void init_secondary {
device_t dev;
} DEFAULT null_pic_init_secondary;
METHOD void ipi_send {
device_t dev;
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
cpuset_t cpus;
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
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
} DEFAULT null_pic_ipi_send;
METHOD int ipi_setup {
device_t dev;
u_int ipi;
Remove FDT specific parts from INTRNG. Change its interface to make it universal. (1) New struct intr_map_data is defined as a container for arbitrary description of an interrupt used by a device. Typically, an interrupt number and configuration relevant to an interrupt controller is encoded in such description. However, any additional information may be encoded too like a set of cpus on which an interrupt should be enabled or vendor specific data needed for setup of an interrupt in controller. The struct intr_map_data itself is meant to be opaque for INTRNG. (2) An intr_map_irq() function is created which takes an interrupt controller identification and struct intr_map_data as arguments and returns global interrupt number which identifies an interrupt. (3) A set of functions to be used by bus drivers is created as well as a corresponding set of methods for interrupt controller drivers. These sets take both struct resource and struct intr_map_data as one of the arguments. There is a goal to keep struct intr_map_data in struct resource, however, this way a final solution is not limited to that. (4) Other small changes are done to reflect new situation. This is only first step aiming to create stable interface for interrupt controller drivers. Thus, some temporary solution is taken. Interrupt descriptions for devices are stored in INTRNG and two specific mapping function are created to be temporary used by bus drivers. That's why the struct intr_map_data is not opaque for INTRNG now. This temporary solution will be replaced by final one in next step. Differential Revision: https://reviews.freebsd.org/D5730
2016-04-04 09:15:25 +00:00
struct intr_irqsrc **isrcp;
} DEFAULT dflt_pic_ipi_setup;