freebsd-skq/sys/kern/bus_if.m

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#-
# Copyright (c) 1998-2004 Doug Rabson
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions
# are met:
# 1. Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# 2. Redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution.
#
# THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
# ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
# ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
# FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
# DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
# OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
# HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
# LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
# OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
# SUCH DAMAGE.
#
1999-08-28 01:08:13 +00:00
# $FreeBSD$
#
#include <sys/types.h>
#include <sys/systm.h>
#include <sys/bus.h>
/**
* @defgroup BUS bus - KObj methods for drivers of devices with children
* @brief A set of methods required device drivers that support
* child devices.
* @{
*/
INTERFACE bus;
#
# Default implementations of some methods.
#
CODE {
static struct resource *
null_alloc_resource(device_t dev, device_t child,
int type, int *rid, rman_res_t start, rman_res_t end,
rman_res_t count, u_int flags)
{
return (0);
}
static int
null_remap_intr(device_t bus, device_t dev, u_int irq)
{
if (dev != NULL)
return (BUS_REMAP_INTR(dev, NULL, irq));
return (ENXIO);
}
static device_t
null_add_child(device_t bus, int order, const char *name,
int unit)
{
panic("bus_add_child is not implemented");
}
static int null_reset_post(device_t bus, device_t dev)
{
return (0);
}
static int null_reset_prepare(device_t bus, device_t dev)
{
return (0);
}
static int
null_translate_resource(device_t bus, int type, rman_res_t start,
rman_res_t *newstart)
{
if (device_get_parent(bus) != NULL)
return (BUS_TRANSLATE_RESOURCE(device_get_parent(bus),
type, start, newstart));
*newstart = start;
return (0);
}
};
/**
* @brief Print a description of a child device
*
* This is called from system code which prints out a description of a
* device. It should describe the attachment that the child has with
* the parent. For instance the TurboLaser bus prints which node the
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* device is attached to. See bus_generic_print_child() for more
* information.
*
* @param _dev the device whose child is being printed
* @param _child the child device to describe
*
* @returns the number of characters output.
*/
METHOD int print_child {
device_t _dev;
device_t _child;
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} DEFAULT bus_generic_print_child;
/**
* @brief Print a notification about an unprobed child device.
*
* Called for each child device that did not succeed in probing for a
* driver.
*
* @param _dev the device whose child was being probed
* @param _child the child device which failed to probe
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*/
METHOD void probe_nomatch {
device_t _dev;
device_t _child;
};
/**
* @brief Read the value of a bus-specific attribute of a device
*
* This method, along with BUS_WRITE_IVAR() manages a bus-specific set
* of instance variables of a child device. The intention is that
* each different type of bus defines a set of appropriate instance
* variables (such as ports and irqs for ISA bus etc.)
*
* This information could be given to the child device as a struct but
* that makes it hard for a bus to add or remove variables without
* forcing an edit and recompile for all drivers which may not be
* possible for vendor supplied binary drivers.
*
* This method copies the value of an instance variable to the
* location specified by @p *_result.
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*
* @param _dev the device whose child was being examined
* @param _child the child device whose instance variable is
* being read
* @param _index the instance variable to read
* @param _result a location to receive the instance variable
* value
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*
* @retval 0 success
* @retval ENOENT no such instance variable is supported by @p
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* _dev
*/
METHOD int read_ivar {
device_t _dev;
device_t _child;
int _index;
uintptr_t *_result;
};
/**
* @brief Write the value of a bus-specific attribute of a device
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*
* This method sets the value of an instance variable to @p _value.
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*
* @param _dev the device whose child was being updated
* @param _child the child device whose instance variable is
* being written
* @param _index the instance variable to write
* @param _value the value to write to that instance variable
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*
* @retval 0 success
* @retval ENOENT no such instance variable is supported by @p
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* _dev
* @retval EINVAL the instance variable was recognised but
* contains a read-only value
*/
METHOD int write_ivar {
device_t _dev;
device_t _child;
int _indx;
uintptr_t _value;
};
/**
* @brief Notify a bus that a child was deleted
*
* Called at the beginning of device_delete_child() to allow the parent
* to teardown any bus-specific state for the child.
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*
* @param _dev the device whose child is being deleted
* @param _child the child device which is being deleted
*/
METHOD void child_deleted {
device_t _dev;
device_t _child;
};
/**
* @brief Notify a bus that a child was detached
*
* Called after the child's DEVICE_DETACH() method to allow the parent
* to reclaim any resources allocated on behalf of the child.
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*
* @param _dev the device whose child changed state
* @param _child the child device which changed state
*/
METHOD void child_detached {
device_t _dev;
device_t _child;
};
/**
* @brief Notify a bus that a new driver was added
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*
* Called when a new driver is added to the devclass which owns this
* bus. The generic implementation of this method attempts to probe and
* attach any un-matched children of the bus.
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*
* @param _dev the device whose devclass had a new driver
* added to it
* @param _driver the new driver which was added
*/
METHOD void driver_added {
device_t _dev;
driver_t *_driver;
} DEFAULT bus_generic_driver_added;
/**
* @brief Create a new child device
*
* For buses which use use drivers supporting DEVICE_IDENTIFY() to
* enumerate their devices, this method is used to create new
* device instances. The new device will be added after the last
* existing child with the same order. Implementations of bus_add_child
* call device_add_child_ordered to add the child and often add
* a suitable ivar to the device specific to that bus.
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*
* @param _dev the bus device which will be the parent of the
* new child device
* @param _order a value which is used to partially sort the
* children of @p _dev - devices created using
* lower values of @p _order appear first in @p
* _dev's list of children
* @param _name devclass name for new device or @c NULL if not
* specified
* @param _unit unit number for new device or @c -1 if not
* specified
*/
METHOD device_t add_child {
device_t _dev;
u_int _order;
const char *_name;
int _unit;
} DEFAULT null_add_child;
/**
* @brief Rescan the bus
*
* This method is called by a parent bridge or devctl to trigger a bus
* rescan. The rescan should delete devices no longer present and
* enumerate devices that have newly arrived.
*
* @param _dev the bus device
*/
METHOD int rescan {
device_t _dev;
}
/**
* @brief Allocate a system resource
*
* This method is called by child devices of a bus to allocate resources.
* The types are defined in <machine/resource.h>; the meaning of the
* resource-ID field varies from bus to bus (but @p *rid == 0 is always
* valid if the resource type is). If a resource was allocated and the
* caller did not use the RF_ACTIVE to specify that it should be
* activated immediately, the caller is responsible for calling
* BUS_ACTIVATE_RESOURCE() when it actually uses the resource.
*
* @param _dev the parent device of @p _child
* @param _child the device which is requesting an allocation
* @param _type the type of resource to allocate
* @param _rid a pointer to the resource identifier
* @param _start hint at the start of the resource range - pass
* @c 0 for any start address
* @param _end hint at the end of the resource range - pass
* @c ~0 for any end address
* @param _count hint at the size of range required - pass @c 1
* for any size
* @param _flags any extra flags to control the resource
* allocation - see @c RF_XXX flags in
* <sys/rman.h> for details
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*
* @returns the resource which was allocated or @c NULL if no
* resource could be allocated
*/
METHOD struct resource * alloc_resource {
device_t _dev;
device_t _child;
int _type;
int *_rid;
rman_res_t _start;
rman_res_t _end;
rman_res_t _count;
u_int _flags;
} DEFAULT null_alloc_resource;
/**
* @brief Activate a resource
*
* Activate a resource previously allocated with
Add new bus methods for mapping resources. Add a pair of bus methods that can be used to "map" resources for direct CPU access using bus_space(9). bus_map_resource() creates a mapping and bus_unmap_resource() releases a previously created mapping. Mappings are described by 'struct resource_map' object. Pointers to these objects can be passed as the first argument to the bus_space wrapper API used for bus resources. Drivers that wish to map all of a resource using default settings (for example, using uncacheable memory attributes) do not need to change. However, drivers that wish to use non-default settings can now do so without jumping through hoops. First, an RF_UNMAPPED flag is added to request that a resource is not implicitly mapped with the default settings when it is activated. This permits other activation steps (such as enabling I/O or memory decoding in a device's PCI command register) to be taken without creating a mapping. Right now the AGP drivers don't set RF_ACTIVE to avoid using up a large amount of KVA to map the AGP aperture on 32-bit platforms. Once RF_UNMAPPED is supported on all platforms that support AGP this can be changed to using RF_UNMAPPED with RF_ACTIVE instead. Second, bus_map_resource accepts an optional structure that defines additional settings for a given mapping. For example, a driver can now request to map only a subset of a resource instead of the entire range. The AGP driver could also use this to only map the first page of the aperture (IIRC, it calls pmap_mapdev() directly to map the first page currently). I will also eventually change the PCI-PCI bridge driver to request mappings of the subset of the I/O window resource on its parent side to create mappings for child devices rather than passing child resources directly up to nexus to be mapped. This also permits bridges that do address translation to request suitable mappings from a resource on the "upper" side of the bus when mapping resources on the "lower" side of the bus. Another attribute that can be specified is an alternate memory attribute for memory-mapped resources. This can be used to request a Write-Combining mapping of a PCI BAR in an MI fashion. (Currently the drivers that do this call pmap_change_attr() directly for x86 only.) Note that this commit only adds the MI framework. Each platform needs to add support for handling RF_UNMAPPED and thew new bus_map/unmap_resource methods. Generally speaking, any drivers that are calling rman_set_bustag() and rman_set_bushandle() need to be updated. Discussed on: arch Reviewed by: cem Differential Revision: https://reviews.freebsd.org/D5237
2016-05-20 17:57:47 +00:00
* BUS_ALLOC_RESOURCE(). This may enable decoding of this resource in a
* device for instance. It will also establish a mapping for the resource
* unless RF_UNMAPPED was set when allocating the resource.
*
* @param _dev the parent device of @p _child
* @param _child the device which allocated the resource
* @param _type the type of resource
* @param _rid the resource identifier
* @param _r the resource to activate
*/
METHOD int activate_resource {
device_t _dev;
device_t _child;
int _type;
int _rid;
struct resource *_r;
};
Add new bus methods for mapping resources. Add a pair of bus methods that can be used to "map" resources for direct CPU access using bus_space(9). bus_map_resource() creates a mapping and bus_unmap_resource() releases a previously created mapping. Mappings are described by 'struct resource_map' object. Pointers to these objects can be passed as the first argument to the bus_space wrapper API used for bus resources. Drivers that wish to map all of a resource using default settings (for example, using uncacheable memory attributes) do not need to change. However, drivers that wish to use non-default settings can now do so without jumping through hoops. First, an RF_UNMAPPED flag is added to request that a resource is not implicitly mapped with the default settings when it is activated. This permits other activation steps (such as enabling I/O or memory decoding in a device's PCI command register) to be taken without creating a mapping. Right now the AGP drivers don't set RF_ACTIVE to avoid using up a large amount of KVA to map the AGP aperture on 32-bit platforms. Once RF_UNMAPPED is supported on all platforms that support AGP this can be changed to using RF_UNMAPPED with RF_ACTIVE instead. Second, bus_map_resource accepts an optional structure that defines additional settings for a given mapping. For example, a driver can now request to map only a subset of a resource instead of the entire range. The AGP driver could also use this to only map the first page of the aperture (IIRC, it calls pmap_mapdev() directly to map the first page currently). I will also eventually change the PCI-PCI bridge driver to request mappings of the subset of the I/O window resource on its parent side to create mappings for child devices rather than passing child resources directly up to nexus to be mapped. This also permits bridges that do address translation to request suitable mappings from a resource on the "upper" side of the bus when mapping resources on the "lower" side of the bus. Another attribute that can be specified is an alternate memory attribute for memory-mapped resources. This can be used to request a Write-Combining mapping of a PCI BAR in an MI fashion. (Currently the drivers that do this call pmap_change_attr() directly for x86 only.) Note that this commit only adds the MI framework. Each platform needs to add support for handling RF_UNMAPPED and thew new bus_map/unmap_resource methods. Generally speaking, any drivers that are calling rman_set_bustag() and rman_set_bushandle() need to be updated. Discussed on: arch Reviewed by: cem Differential Revision: https://reviews.freebsd.org/D5237
2016-05-20 17:57:47 +00:00
/**
* @brief Map a resource
*
* Allocate a mapping for a range of an active resource. The mapping
* is described by a struct resource_map object. This may for instance
* map a memory region into the kernel's virtual address space.
*
* @param _dev the parent device of @p _child
* @param _child the device which allocated the resource
* @param _type the type of resource
* @param _r the resource to map
* @param _args optional attributes of the mapping
* @param _map the mapping
*/
METHOD int map_resource {
device_t _dev;
device_t _child;
int _type;
struct resource *_r;
struct resource_map_request *_args;
struct resource_map *_map;
} DEFAULT bus_generic_map_resource;
/**
* @brief Unmap a resource
*
* Release a mapping previously allocated with
* BUS_MAP_RESOURCE(). This may for instance unmap a memory region
* from the kernel's virtual address space.
*
* @param _dev the parent device of @p _child
* @param _child the device which allocated the resource
* @param _type the type of resource
* @param _r the resource
* @param _map the mapping to release
*/
METHOD int unmap_resource {
device_t _dev;
device_t _child;
int _type;
struct resource *_r;
struct resource_map *_map;
} DEFAULT bus_generic_unmap_resource;
/**
* @brief Deactivate a resource
*
* Deactivate a resource previously allocated with
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* BUS_ALLOC_RESOURCE().
*
* @param _dev the parent device of @p _child
* @param _child the device which allocated the resource
* @param _type the type of resource
* @param _rid the resource identifier
* @param _r the resource to deactivate
*/
METHOD int deactivate_resource {
device_t _dev;
device_t _child;
int _type;
int _rid;
struct resource *_r;
};
/**
* @brief Adjust a resource
*
* Adjust the start and/or end of a resource allocated by
* BUS_ALLOC_RESOURCE. At least part of the new address range must overlap
* with the existing address range. If the successful, the resource's range
* will be adjusted to [start, end] on return.
*
* @param _dev the parent device of @p _child
* @param _child the device which allocated the resource
* @param _type the type of resource
* @param _res the resource to adjust
* @param _start the new starting address of the resource range
* @param _end the new ending address of the resource range
*/
METHOD int adjust_resource {
device_t _dev;
device_t _child;
int _type;
struct resource *_res;
rman_res_t _start;
rman_res_t _end;
};
/**
* @brief translate a resource value
*
*
* @param _dev the device associated with the resource
* @param _type the type of resource
* @param _start the starting address of the resource range
* @param _newstart the new starting address of the resource range
*/
METHOD int translate_resource {
device_t _dev;
int _type;
rman_res_t _start;
rman_res_t *_newstart;
} DEFAULT null_translate_resource;
/**
* @brief Release a resource
*
* Free a resource allocated by the BUS_ALLOC_RESOURCE. The @p _rid
* value must be the same as the one returned by BUS_ALLOC_RESOURCE()
* (which is not necessarily the same as the one the client passed).
*
* @param _dev the parent device of @p _child
* @param _child the device which allocated the resource
* @param _type the type of resource
* @param _rid the resource identifier
* @param _r the resource to release
*/
METHOD int release_resource {
device_t _dev;
device_t _child;
int _type;
int _rid;
struct resource *_res;
};
/**
* @brief Install an interrupt handler
*
* This method is used to associate an interrupt handler function with
* an irq resource. When the interrupt triggers, the function @p _intr
* will be called with the value of @p _arg as its single
* argument. The value returned in @p *_cookiep is used to cancel the
* interrupt handler - the caller should save this value to use in a
* future call to BUS_TEARDOWN_INTR().
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*
* @param _dev the parent device of @p _child
* @param _child the device which allocated the resource
* @param _irq the resource representing the interrupt
* @param _flags a set of bits from enum intr_type specifying
* the class of interrupt
* @param _intr the function to call when the interrupt
* triggers
* @param _arg a value to use as the single argument in calls
* to @p _intr
* @param _cookiep a pointer to a location to receive a cookie
* value that may be used to remove the interrupt
* handler
*/
METHOD int setup_intr {
device_t _dev;
device_t _child;
struct resource *_irq;
int _flags;
driver_filter_t *_filter;
driver_intr_t *_intr;
void *_arg;
void **_cookiep;
};
/**
* @brief Uninstall an interrupt handler
*
* This method is used to disassociate an interrupt handler function
* with an irq resource. The value of @p _cookie must be the value
* returned from a previous call to BUS_SETUP_INTR().
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*
* @param _dev the parent device of @p _child
* @param _child the device which allocated the resource
* @param _irq the resource representing the interrupt
* @param _cookie the cookie value returned when the interrupt
* was originally registered
*/
METHOD int teardown_intr {
device_t _dev;
device_t _child;
struct resource *_irq;
void *_cookie;
};
add support for marking interrupt handlers as suspended The goal of this change is to fix a problem with PCI shared interrupts during suspend and resume. I have observed a couple of variations of the following scenario. Devices A and B are on the same PCI bus and share the same interrupt. Device A's driver is suspended first and the device is powered down. Device B generates an interrupt. Interrupt handlers of both drivers are called. Device A's interrupt handler accesses registers of the powered down device and gets back bogus values (I assume all 0xff). That data is interpreted as interrupt status bits, etc. So, the interrupt handler gets confused and may produce some noise or enter an infinite loop, etc. This change affects only PCI devices. The pci(4) bus driver marks a child's interrupt handler as suspended after the child's suspend method is called and before the device is powered down. This is done only for traditional PCI interrupts, because only they can be shared. At the moment the change is only for x86. Notable changes in core subsystems / interfaces: - BUS_SUSPEND_INTR and BUS_RESUME_INTR methods are added to bus interface along with convenience functions bus_suspend_intr and bus_resume_intr; - rman_set_irq_cookie and rman_get_irq_cookie functions are added to provide a way to associate an interrupt resource with an interrupt cookie; - intr_event_suspend_handler and intr_event_resume_handler functions are added to the MI interrupt handler interface. I added two new interrupt handler flags, IH_SUSP and IH_CHANGED, to implement the new intr_event functions. IH_SUSP marks a suspended interrupt handler. IH_CHANGED is used to implement a barrier that ensures that a change to the interrupt handler's state is visible to future interrupts. While there, I fixed some whitespace issues in comments and changed a couple of logically boolean variables to be bool. MFC after: 1 month (maybe) Differential Revision: https://reviews.freebsd.org/D15755
2018-12-17 17:11:00 +00:00
/**
* @brief Suspend an interrupt handler
*
* This method is used to mark a handler as suspended in the case
* that the associated device is powered down and cannot be a source
* for the, typically shared, interrupt.
* The value of @p _irq must be the interrupt resource passed
* to a previous call to BUS_SETUP_INTR().
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*
add support for marking interrupt handlers as suspended The goal of this change is to fix a problem with PCI shared interrupts during suspend and resume. I have observed a couple of variations of the following scenario. Devices A and B are on the same PCI bus and share the same interrupt. Device A's driver is suspended first and the device is powered down. Device B generates an interrupt. Interrupt handlers of both drivers are called. Device A's interrupt handler accesses registers of the powered down device and gets back bogus values (I assume all 0xff). That data is interpreted as interrupt status bits, etc. So, the interrupt handler gets confused and may produce some noise or enter an infinite loop, etc. This change affects only PCI devices. The pci(4) bus driver marks a child's interrupt handler as suspended after the child's suspend method is called and before the device is powered down. This is done only for traditional PCI interrupts, because only they can be shared. At the moment the change is only for x86. Notable changes in core subsystems / interfaces: - BUS_SUSPEND_INTR and BUS_RESUME_INTR methods are added to bus interface along with convenience functions bus_suspend_intr and bus_resume_intr; - rman_set_irq_cookie and rman_get_irq_cookie functions are added to provide a way to associate an interrupt resource with an interrupt cookie; - intr_event_suspend_handler and intr_event_resume_handler functions are added to the MI interrupt handler interface. I added two new interrupt handler flags, IH_SUSP and IH_CHANGED, to implement the new intr_event functions. IH_SUSP marks a suspended interrupt handler. IH_CHANGED is used to implement a barrier that ensures that a change to the interrupt handler's state is visible to future interrupts. While there, I fixed some whitespace issues in comments and changed a couple of logically boolean variables to be bool. MFC after: 1 month (maybe) Differential Revision: https://reviews.freebsd.org/D15755
2018-12-17 17:11:00 +00:00
* @param _dev the parent device of @p _child
* @param _child the device which allocated the resource
* @param _irq the resource representing the interrupt
*/
METHOD int suspend_intr {
device_t _dev;
device_t _child;
struct resource *_irq;
} DEFAULT bus_generic_suspend_intr;
/**
* @brief Resume an interrupt handler
*
* This method is used to clear suspended state of a handler when
* the associated device is powered up and can be an interrupt source
* again.
* The value of @p _irq must be the interrupt resource passed
* to a previous call to BUS_SETUP_INTR().
2020-02-26 16:22:28 +00:00
*
add support for marking interrupt handlers as suspended The goal of this change is to fix a problem with PCI shared interrupts during suspend and resume. I have observed a couple of variations of the following scenario. Devices A and B are on the same PCI bus and share the same interrupt. Device A's driver is suspended first and the device is powered down. Device B generates an interrupt. Interrupt handlers of both drivers are called. Device A's interrupt handler accesses registers of the powered down device and gets back bogus values (I assume all 0xff). That data is interpreted as interrupt status bits, etc. So, the interrupt handler gets confused and may produce some noise or enter an infinite loop, etc. This change affects only PCI devices. The pci(4) bus driver marks a child's interrupt handler as suspended after the child's suspend method is called and before the device is powered down. This is done only for traditional PCI interrupts, because only they can be shared. At the moment the change is only for x86. Notable changes in core subsystems / interfaces: - BUS_SUSPEND_INTR and BUS_RESUME_INTR methods are added to bus interface along with convenience functions bus_suspend_intr and bus_resume_intr; - rman_set_irq_cookie and rman_get_irq_cookie functions are added to provide a way to associate an interrupt resource with an interrupt cookie; - intr_event_suspend_handler and intr_event_resume_handler functions are added to the MI interrupt handler interface. I added two new interrupt handler flags, IH_SUSP and IH_CHANGED, to implement the new intr_event functions. IH_SUSP marks a suspended interrupt handler. IH_CHANGED is used to implement a barrier that ensures that a change to the interrupt handler's state is visible to future interrupts. While there, I fixed some whitespace issues in comments and changed a couple of logically boolean variables to be bool. MFC after: 1 month (maybe) Differential Revision: https://reviews.freebsd.org/D15755
2018-12-17 17:11:00 +00:00
* @param _dev the parent device of @p _child
* @param _child the device which allocated the resource
* @param _irq the resource representing the interrupt
*/
METHOD int resume_intr {
device_t _dev;
device_t _child;
struct resource *_irq;
} DEFAULT bus_generic_resume_intr;
/**
* @brief Define a resource which can be allocated with
* BUS_ALLOC_RESOURCE().
*
* This method is used by some buses (typically ISA) to allow a
* driver to describe a resource range that it would like to
* allocate. The resource defined by @p _type and @p _rid is defined
* to start at @p _start and to include @p _count indices in its
* range.
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*
* @param _dev the parent device of @p _child
* @param _child the device which owns the resource
* @param _type the type of resource
* @param _rid the resource identifier
* @param _start the start of the resource range
* @param _count the size of the resource range
*/
METHOD int set_resource {
device_t _dev;
device_t _child;
int _type;
int _rid;
rman_res_t _start;
rman_res_t _count;
};
/**
* @brief Describe a resource
*
* This method allows a driver to examine the range used for a given
* resource without actually allocating it.
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*
* @param _dev the parent device of @p _child
* @param _child the device which owns the resource
* @param _type the type of resource
* @param _rid the resource identifier
* @param _start the address of a location to receive the start
* index of the resource range
* @param _count the address of a location to receive the size
* of the resource range
*/
METHOD int get_resource {
device_t _dev;
device_t _child;
int _type;
int _rid;
rman_res_t *_startp;
rman_res_t *_countp;
};
/**
* @brief Delete a resource.
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*
* Use this to delete a resource (possibly one previously added with
* BUS_SET_RESOURCE()).
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*
* @param _dev the parent device of @p _child
* @param _child the device which owns the resource
* @param _type the type of resource
* @param _rid the resource identifier
*/
METHOD void delete_resource {
device_t _dev;
device_t _child;
int _type;
int _rid;
};
/**
* @brief Return a struct resource_list.
*
* Used by drivers which use bus_generic_rl_alloc_resource() etc. to
* implement their resource handling. It should return the resource
* list of the given child device.
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*
* @param _dev the parent device of @p _child
* @param _child the device which owns the resource list
*/
METHOD struct resource_list * get_resource_list {
device_t _dev;
device_t _child;
} DEFAULT bus_generic_get_resource_list;
/**
* @brief Is the hardware described by @p _child still attached to the
* system?
*
* This method should return 0 if the device is not present. It
* should return -1 if it is present. Any errors in determining
* should be returned as a normal errno value. Client drivers are to
* assume that the device is present, even if there is an error
* determining if it is there. Buses are to try to avoid returning
* errors, but newcard will return an error if the device fails to
* implement this method.
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*
* @param _dev the parent device of @p _child
* @param _child the device which is being examined
*/
METHOD int child_present {
device_t _dev;
device_t _child;
} DEFAULT bus_generic_child_present;
/**
* @brief Returns the pnp info for this device.
*
* Return it as a string. If the storage is insufficient for the
* string, then return EOVERFLOW.
*
* The string must be formatted as a space-separated list of
* name=value pairs. Names may only contain alphanumeric characters,
* underscores ('_') and hyphens ('-'). Values can contain any
* non-whitespace characters. Values containing whitespace can be
* quoted with double quotes ('"'). Double quotes and backslashes in
* quoted values can be escaped with backslashes ('\').
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*
* @param _dev the parent device of @p _child
* @param _child the device which is being examined
* @param _buf the address of a buffer to receive the pnp
* string
* @param _buflen the size of the buffer pointed to by @p _buf
*/
METHOD int child_pnpinfo_str {
device_t _dev;
device_t _child;
char *_buf;
size_t _buflen;
};
/**
* @brief Returns the location for this device.
*
* Return it as a string. If the storage is insufficient for the
* string, then return EOVERFLOW.
*
* The string must be formatted as a space-separated list of
* name=value pairs. Names may only contain alphanumeric characters,
* underscores ('_') and hyphens ('-'). Values can contain any
* non-whitespace characters. Values containing whitespace can be
* quoted with double quotes ('"'). Double quotes and backslashes in
* quoted values can be escaped with backslashes ('\').
*
* @param _dev the parent device of @p _child
* @param _child the device which is being examined
* @param _buf the address of a buffer to receive the location
* string
* @param _buflen the size of the buffer pointed to by @p _buf
*/
METHOD int child_location_str {
device_t _dev;
device_t _child;
char *_buf;
size_t _buflen;
};
/**
* @brief Allow drivers to request that an interrupt be bound to a specific
* CPU.
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*
* @param _dev the parent device of @p _child
* @param _child the device which allocated the resource
* @param _irq the resource representing the interrupt
* @param _cpu the CPU to bind the interrupt to
*/
METHOD int bind_intr {
device_t _dev;
device_t _child;
struct resource *_irq;
int _cpu;
} DEFAULT bus_generic_bind_intr;
/**
* @brief Allow (bus) drivers to specify the trigger mode and polarity
* of the specified interrupt.
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*
* @param _dev the bus device
* @param _irq the interrupt number to modify
* @param _trig the trigger mode required
* @param _pol the interrupt polarity required
*/
METHOD int config_intr {
device_t _dev;
int _irq;
enum intr_trigger _trig;
enum intr_polarity _pol;
} DEFAULT bus_generic_config_intr;
/**
* @brief Allow drivers to associate a description with an active
* interrupt handler.
*
* @param _dev the parent device of @p _child
* @param _child the device which allocated the resource
* @param _irq the resource representing the interrupt
* @param _cookie the cookie value returned when the interrupt
* was originally registered
* @param _descr the description to associate with the interrupt
*/
METHOD int describe_intr {
device_t _dev;
device_t _child;
struct resource *_irq;
void *_cookie;
const char *_descr;
} DEFAULT bus_generic_describe_intr;
/**
* @brief Notify a (bus) driver about a child that the hints mechanism
* believes it has discovered.
*
* The bus is responsible for then adding the child in the right order
* and discovering other things about the child. The bus driver is
* free to ignore this hint, to do special things, etc. It is all up
* to the bus driver to interpret.
*
* This method is only called in response to the parent bus asking for
* hinted devices to be enumerated.
*
* @param _dev the bus device
* @param _dname the name of the device w/o unit numbers
* @param _dunit the unit number of the device
*/
METHOD void hinted_child {
device_t _dev;
const char *_dname;
int _dunit;
};
/**
* @brief Returns bus_dma_tag_t for use w/ devices on the bus.
*
* @param _dev the parent device of @p _child
* @param _child the device to which the tag will belong
*/
METHOD bus_dma_tag_t get_dma_tag {
device_t _dev;
device_t _child;
} DEFAULT bus_generic_get_dma_tag;
/**
* @brief Returns bus_space_tag_t for use w/ devices on the bus.
*
* @param _dev the parent device of @p _child
* @param _child the device to which the tag will belong
*/
METHOD bus_space_tag_t get_bus_tag {
device_t _dev;
device_t _child;
} DEFAULT bus_generic_get_bus_tag;
/**
* @brief Allow the bus to determine the unit number of a device.
*
* @param _dev the parent device of @p _child
* @param _child the device whose unit is to be wired
* @param _name the name of the device's new devclass
* @param _unitp a pointer to the device's new unit value
*/
METHOD void hint_device_unit {
device_t _dev;
device_t _child;
const char *_name;
int *_unitp;
};
Add support for multiple passes of the device tree during the boot-time probe. The current device order is unchanged. This commit just adds the infrastructure and ABI changes so that it is easier to merge later changes into 8.x. - Driver attachments now have an associated pass level. Attachments are not allowed to probe or attach to drivers until the system-wide pass level is >= the attachment's pass level. By default driver attachments use the "last" pass level (BUS_PASS_DEFAULT). Driver's that wish to probe during an earlier pass use EARLY_DRIVER_MODULE() instead of DRIVER_MODULE() which accepts the pass level as an additional parameter. - A new method BUS_NEW_PASS has been added to the bus interface. This method is invoked when the system-wide pass level is changed to kick off a rescan of the device tree so that drivers that have just been made "eligible" can probe and attach. - The bus_generic_new_pass() function provides a default implementation of BUS_NEW_PASS(). It first allows drivers that were just made eligible for this pass to identify new child devices. Then it propogates the rescan to child devices that already have an attached driver by invoking their BUS_NEW_PASS() method. It also reprobes devices without a driver. - BUS_PROBE_NOMATCH() is only invoked for devices that do not have an attached driver after being scanned during the final pass. - The bus_set_pass() function is used during boot to raise the pass level. Currently it is only called once during root_bus_configure() to raise the pass level to BUS_PASS_DEFAULT. This has the effect of probing all devices in a single pass identical to previous behavior. Reviewed by: imp Approved by: re (kib)
2009-06-09 14:26:23 +00:00
/**
* @brief Notify a bus that the bus pass level has been changed
*
* @param _dev the bus device
*/
METHOD void new_pass {
device_t _dev;
} DEFAULT bus_generic_new_pass;
/**
* @brief Notify a bus that specified child's IRQ should be remapped.
*
* @param _dev the bus device
* @param _child the child device
* @param _irq the irq number
*/
METHOD int remap_intr {
device_t _dev;
device_t _child;
u_int _irq;
} DEFAULT null_remap_intr;
/**
* @brief Suspend a given child
*
* @param _dev the parent device of @p _child
* @param _child the device to suspend
*/
METHOD int suspend_child {
device_t _dev;
device_t _child;
} DEFAULT bus_generic_suspend_child;
/**
* @brief Resume a given child
*
* @param _dev the parent device of @p _child
* @param _child the device to resume
*/
METHOD int resume_child {
device_t _dev;
device_t _child;
} DEFAULT bus_generic_resume_child;
/**
* @brief Get the VM domain handle for the given bus and child.
*
* @param _dev the bus device
* @param _child the child device
* @param _domain a pointer to the bus's domain handle identifier
*/
METHOD int get_domain {
device_t _dev;
device_t _child;
int *_domain;
} DEFAULT bus_generic_get_domain;
Add a new bus method to fetch device-specific CPU sets. bus_get_cpus() returns a specified set of CPUs for a device. It accepts an enum for the second parameter that indicates the type of cpuset to request. Currently two valus are supported: - LOCAL_CPUS (on x86 this returns all the CPUs in the package closest to the device when DEVICE_NUMA is enabled) - INTR_CPUS (like LOCAL_CPUS but only returns 1 SMT thread for each core) For systems that do not support NUMA (or if it is not enabled in the kernel config), LOCAL_CPUS fails with EINVAL. INTR_CPUS is mapped to 'all_cpus' by default. The idea is that INTR_CPUS should always return a valid set. Device drivers which want to use per-CPU interrupts should start using INTR_CPUS instead of simply assigning interrupts to all available CPUs. In the future we may wish to add tunables to control the policy of INTR_CPUS (e.g. should it be local-only or global, should it ignore SMT threads or not). The x86 nexus driver exposes the internal set of interrupt CPUs from the the x86 interrupt code via INTR_CPUS. The ACPI bus driver and PCI bridge drivers use _PXM to return a suitable LOCAL_CPUS set when _PXM exists and DEVICE_NUMA is enabled. They also and the global INTR_CPUS set from the nexus driver with the per-domain set from _PXM to generate a local INTR_CPUS set for child devices. Compared to the r298933, this version uses 'struct _cpuset' in <sys/bus.h> instead of 'cpuset_t' to avoid requiring <sys/param.h> (<sys/_cpuset.h> still requires <sys/param.h> for MAXCPU even though <sys/_bitset.h> does not after recent changes).
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/**
* @brief Request a set of CPUs
*
* @param _dev the bus device
* @param _child the child device
* @param _op type of CPUs to request
* @param _setsize the size of the set passed in _cpuset
* @param _cpuset a pointer to a cpuset to receive the requested
* set of CPUs
*/
METHOD int get_cpus {
device_t _dev;
device_t _child;
enum cpu_sets _op;
size_t _setsize;
struct _cpuset *_cpuset;
Add a new bus method to fetch device-specific CPU sets. bus_get_cpus() returns a specified set of CPUs for a device. It accepts an enum for the second parameter that indicates the type of cpuset to request. Currently two valus are supported: - LOCAL_CPUS (on x86 this returns all the CPUs in the package closest to the device when DEVICE_NUMA is enabled) - INTR_CPUS (like LOCAL_CPUS but only returns 1 SMT thread for each core) For systems that do not support NUMA (or if it is not enabled in the kernel config), LOCAL_CPUS fails with EINVAL. INTR_CPUS is mapped to 'all_cpus' by default. The idea is that INTR_CPUS should always return a valid set. Device drivers which want to use per-CPU interrupts should start using INTR_CPUS instead of simply assigning interrupts to all available CPUs. In the future we may wish to add tunables to control the policy of INTR_CPUS (e.g. should it be local-only or global, should it ignore SMT threads or not). The x86 nexus driver exposes the internal set of interrupt CPUs from the the x86 interrupt code via INTR_CPUS. The ACPI bus driver and PCI bridge drivers use _PXM to return a suitable LOCAL_CPUS set when _PXM exists and DEVICE_NUMA is enabled. They also and the global INTR_CPUS set from the nexus driver with the per-domain set from _PXM to generate a local INTR_CPUS set for child devices. Compared to the r298933, this version uses 'struct _cpuset' in <sys/bus.h> instead of 'cpuset_t' to avoid requiring <sys/param.h> (<sys/_cpuset.h> still requires <sys/param.h> for MAXCPU even though <sys/_bitset.h> does not after recent changes).
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} DEFAULT bus_generic_get_cpus;
/**
* @brief Prepares the given child of the bus for reset
*
* Typically bus detaches or suspends children' drivers, and then
* calls this method to save bus-specific information, for instance,
* PCI config space, which is damaged by reset.
*
* The bus_helper_reset_prepare() helper is provided to ease
* implementing bus reset methods.
*
* @param _dev the bus device
* @param _child the child device
*/
METHOD int reset_prepare {
device_t _dev;
device_t _child;
} DEFAULT null_reset_prepare;
/**
* @brief Restores the child operations after the reset
*
* The bus_helper_reset_post() helper is provided to ease
* implementing bus reset methods.
*
* @param _dev the bus device
* @param _child the child device
*/
METHOD int reset_post {
device_t _dev;
device_t _child;
} DEFAULT null_reset_post;
/**
* @brief Performs reset of the child
*
* @param _dev the bus device
* @param _child the child device
* @param _flags DEVF_RESET_ flags
*/
METHOD int reset_child {
device_t _dev;
device_t _child;
int _flags;
};