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This is almost a rewrite of the driver-model/platform.txt documentation; the previous text was obsolete (for several years), evidently it never got updated to match the change from being a PC "legacy_bus" to the more widely used core bus for most embedded systems. Signed-off-by: David Brownell <dbrownell@users.sourceforge.net> Signed-off-by: Greg Kroah-Hartman <gregkh@suse.de>
132 lines
5.4 KiB
Plaintext
132 lines
5.4 KiB
Plaintext
Platform Devices and Drivers
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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See <linux/platform_device.h> for the driver model interface to the
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platform bus: platform_device, and platform_driver. This pseudo-bus
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is used to connect devices on busses with minimal infrastructure,
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like those used to integrate peripherals on many system-on-chip
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processors, or some "legacy" PC interconnects; as opposed to large
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formally specified ones like PCI or USB.
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Platform devices
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~~~~~~~~~~~~~~~~
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Platform devices are devices that typically appear as autonomous
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entities in the system. This includes legacy port-based devices and
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host bridges to peripheral buses, and most controllers integrated
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into system-on-chip platforms. What they usually have in common
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is direct addressing from a CPU bus. Rarely, a platform_device will
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be connected through a segment of some other kind of bus; but its
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registers will still be directly addressible.
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Platform devices are given a name, used in driver binding, and a
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list of resources such as addresses and IRQs.
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struct platform_device {
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const char *name;
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u32 id;
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struct device dev;
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u32 num_resources;
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struct resource *resource;
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};
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Platform drivers
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~~~~~~~~~~~~~~~~
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Platform drivers follow the standard driver model convention, where
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discovery/enumeration is handled outside the drivers, and drivers
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provide probe() and remove() methods. They support power management
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and shutdown notifications using the standard conventions.
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struct platform_driver {
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int (*probe)(struct platform_device *);
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int (*remove)(struct platform_device *);
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void (*shutdown)(struct platform_device *);
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int (*suspend)(struct platform_device *, pm_message_t state);
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int (*suspend_late)(struct platform_device *, pm_message_t state);
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int (*resume_early)(struct platform_device *);
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int (*resume)(struct platform_device *);
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struct device_driver driver;
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};
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Note that probe() should general verify that the specified device hardware
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actually exists; sometimes platform setup code can't be sure. The probing
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can use device resources, including clocks, and device platform_data.
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Platform drivers register themselves the normal way:
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int platform_driver_register(struct platform_driver *drv);
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Or, in common situations where the device is known not to be hot-pluggable,
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the probe() routine can live in an init section to reduce the driver's
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runtime memory footprint:
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int platform_driver_probe(struct platform_driver *drv,
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int (*probe)(struct platform_device *))
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Device Enumeration
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~~~~~~~~~~~~~~~~~~
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As a rule, platform specific (and often board-specific) setup code wil
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register platform devices:
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int platform_device_register(struct platform_device *pdev);
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int platform_add_devices(struct platform_device **pdevs, int ndev);
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The general rule is to register only those devices that actually exist,
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but in some cases extra devices might be registered. For example, a kernel
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might be configured to work with an external network adapter that might not
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be populated on all boards, or likewise to work with an integrated controller
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that some boards might not hook up to any peripherals.
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In some cases, boot firmware will export tables describing the devices
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that are populated on a given board. Without such tables, often the
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only way for system setup code to set up the correct devices is to build
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a kernel for a specific target board. Such board-specific kernels are
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common with embedded and custom systems development.
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In many cases, the memory and IRQ resources associated with the platform
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device are not enough to let the device's driver work. Board setup code
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will often provide additional information using the device's platform_data
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field to hold additional information.
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Embedded systems frequently need one or more clocks for platform devices,
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which are normally kept off until they're actively needed (to save power).
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System setup also associates those clocks with the device, so that that
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calls to clk_get(&pdev->dev, clock_name) return them as needed.
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Device Naming and Driver Binding
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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The platform_device.dev.bus_id is the canonical name for the devices.
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It's built from two components:
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* platform_device.name ... which is also used to for driver matching.
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* platform_device.id ... the device instance number, or else "-1"
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to indicate there's only one.
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These are catenated, so name/id "serial"/0 indicates bus_id "serial.0", and
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"serial/3" indicates bus_id "serial.3"; both would use the platform_driver
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named "serial". While "my_rtc"/-1 would be bus_id "my_rtc" (no instance id)
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and use the platform_driver called "my_rtc".
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Driver binding is performed automatically by the driver core, invoking
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driver probe() after finding a match between device and driver. If the
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probe() succeeds, the driver and device are bound as usual. There are
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three different ways to find such a match:
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- Whenever a device is registered, the drivers for that bus are
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checked for matches. Platform devices should be registered very
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early during system boot.
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- When a driver is registered using platform_driver_register(), all
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unbound devices on that bus are checked for matches. Drivers
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usually register later during booting, or by module loading.
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- Registering a driver using platform_driver_probe() works just like
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using platform_driver_register(), except that the the driver won't
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be probed later if another device registers. (Which is OK, since
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this interface is only for use with non-hotpluggable devices.)
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