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author | Linus Torvalds <torvalds@woody.osdl.org> | 2006-12-01 16:41:07 -0800 |
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committer | Linus Torvalds <torvalds@woody.osdl.org> | 2006-12-01 16:41:07 -0800 |
commit | 4549df891a31b9a05b7d183106c09049b79327be (patch) | |
tree | d4dfd0921f0dd0dba2525fd33c0962b26ba5ff1e /Documentation/driver-model | |
parent | 6b8cc71ab2619a776b02869fd733ac1ead3db4e8 (diff) | |
parent | e17e0f51aeea4e59c7e450a1c0f26605b91c1260 (diff) | |
download | linux-4549df891a31b9a05b7d183106c09049b79327be.tar.bz2 |
Merge master.kernel.org:/pub/scm/linux/kernel/git/gregkh/driver-2.6
* master.kernel.org:/pub/scm/linux/kernel/git/gregkh/driver-2.6: (36 commits)
Driver core: show drivers in /sys/module/
Documentation/driver-model/platform.txt update/rewrite
Driver core: platform_driver_probe(), can save codespace
driver core: Use klist_remove() in device_move()
driver core: Introduce device_move(): move a device to a new parent.
Driver core: make drivers/base/core.c:setup_parent() static
driver core: Introduce device_find_child().
sysfs: sysfs_write_file() writes zero terminated data
cpu topology: consider sysfs_create_group return value
Driver core: Call platform_notify_remove later
ACPI: Change ACPI to use dev_archdata instead of firmware_data
Driver core: add dev_archdata to struct device
Driver core: convert sound core to use struct device
Driver core: change mem class_devices to be real devices
Driver core: convert fb code to use struct device
Driver core: convert firmware code to use struct device
Driver core: convert mmc code to use struct device
Driver core: convert ppdev code to use struct device
Driver core: convert PPP code to use struct device
Driver core: convert cpuid code to use struct device
...
Diffstat (limited to 'Documentation/driver-model')
-rw-r--r-- | Documentation/driver-model/platform.txt | 204 |
1 files changed, 118 insertions, 86 deletions
diff --git a/Documentation/driver-model/platform.txt b/Documentation/driver-model/platform.txt index 5eee3e0bfc4c..9f0bc3bfd776 100644 --- a/Documentation/driver-model/platform.txt +++ b/Documentation/driver-model/platform.txt @@ -1,99 +1,131 @@ Platform Devices and Drivers ~~~~~~~~~~~~~~~~~~~~~~~~~~~~ +See <linux/platform_device.h> for the driver model interface to the +platform bus: platform_device, and platform_driver. This pseudo-bus +is used to connect devices on busses with minimal infrastructure, +like those used to integrate peripherals on many system-on-chip +processors, or some "legacy" PC interconnects; as opposed to large +formally specified ones like PCI or USB. + Platform devices ~~~~~~~~~~~~~~~~ Platform devices are devices that typically appear as autonomous entities in the system. This includes legacy port-based devices and -host bridges to peripheral buses. - - -Platform drivers -~~~~~~~~~~~~~~~~ -Drivers for platform devices are typically very simple and -unstructured. Either the device was present at a particular I/O port -and the driver was loaded, or it was not. There was no possibility -of hotplugging or alternative discovery besides probing at a specific -I/O address and expecting a specific response. +host bridges to peripheral buses, and most controllers integrated +into system-on-chip platforms. What they usually have in common +is direct addressing from a CPU bus. Rarely, a platform_device will +be connected through a segment of some other kind of bus; but its +registers will still be directly addressible. +Platform devices are given a name, used in driver binding, and a +list of resources such as addresses and IRQs. -Other Architectures, Modern Firmware, and new Platforms -~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ -These devices are not always at the legacy I/O ports. This is true on -other architectures and on some modern architectures. In most cases, -the drivers are modified to discover the devices at other well-known -ports for the given platform. However, the firmware in these systems -does usually know where exactly these devices reside, and in some -cases, it's the only way of discovering them. +struct platform_device { + const char *name; + u32 id; + struct device dev; + u32 num_resources; + struct resource *resource; +}; -The Platform Bus -~~~~~~~~~~~~~~~~ -A platform bus has been created to deal with these issues. First and -foremost, it groups all the legacy devices under a common bus, and -gives them a common parent if they don't already have one. - -But, besides the organizational benefits, the platform bus can also -accommodate firmware-based enumeration. - - -Device Discovery +Platform drivers ~~~~~~~~~~~~~~~~ -The platform bus has no concept of probing for devices. Devices -discovery is left up to either the legacy drivers or the -firmware. These entities are expected to notify the platform of -devices that it discovers via the bus's add() callback: - - platform_bus.add(parent,bus_id). - - -Bus IDs -~~~~~~~ -Bus IDs are the canonical names for the devices. There is no globally -standard addressing mechanism for legacy devices. In the IA-32 world, -we have Pnp IDs to use, as well as the legacy I/O ports. However, -neither tell what the device really is or have any meaning on other -platforms. - -Since both PnP IDs and the legacy I/O ports (and other standard I/O -ports for specific devices) have a 1:1 mapping, we map the -platform-specific name or identifier to a generic name (at least -within the scope of the kernel). - -For example, a serial driver might find a device at I/O 0x3f8. The -ACPI firmware might also discover a device with PnP ID (_HID) -PNP0501. Both correspond to the same device and should be mapped to the -canonical name 'serial'. - -The bus_id field should be a concatenation of the canonical name and -the instance of that type of device. For example, the device at I/O -port 0x3f8 should have a bus_id of "serial0". This places the -responsibility of enumerating devices of a particular type up to the -discovery mechanism. But, they are the entity that should know best -(as opposed to the platform bus driver). - - -Drivers -~~~~~~~ -Drivers for platform devices should have a name that is the same as -the canonical name of the devices they support. This allows the -platform bus driver to do simple matching with the basic data -structures to determine if a driver supports a certain device. - -For example, a legacy serial driver should have a name of 'serial' and -register itself with the platform bus. - - -Driver Binding -~~~~~~~~~~~~~~ -Legacy drivers assume they are bound to the device once they start up -and probe an I/O port. Divorcing them from this will be a difficult -process. However, that shouldn't prevent us from implementing -firmware-based enumeration. - -The firmware should notify the platform bus about devices before the -legacy drivers have had a chance to load. Once the drivers are loaded, -they driver model core will attempt to bind the driver to any -previously-discovered devices. Once that has happened, it will be free -to discover any other devices it pleases. +Platform drivers follow the standard driver model convention, where +discovery/enumeration is handled outside the drivers, and drivers +provide probe() and remove() methods. They support power management +and shutdown notifications using the standard conventions. + +struct platform_driver { + int (*probe)(struct platform_device *); + int (*remove)(struct platform_device *); + void (*shutdown)(struct platform_device *); + int (*suspend)(struct platform_device *, pm_message_t state); + int (*suspend_late)(struct platform_device *, pm_message_t state); + int (*resume_early)(struct platform_device *); + int (*resume)(struct platform_device *); + struct device_driver driver; +}; + +Note that probe() should general verify that the specified device hardware +actually exists; sometimes platform setup code can't be sure. The probing +can use device resources, including clocks, and device platform_data. + +Platform drivers register themselves the normal way: + + int platform_driver_register(struct platform_driver *drv); + +Or, in common situations where the device is known not to be hot-pluggable, +the probe() routine can live in an init section to reduce the driver's +runtime memory footprint: + + int platform_driver_probe(struct platform_driver *drv, + int (*probe)(struct platform_device *)) + + +Device Enumeration +~~~~~~~~~~~~~~~~~~ +As a rule, platform specific (and often board-specific) setup code wil +register platform devices: + + int platform_device_register(struct platform_device *pdev); + + int platform_add_devices(struct platform_device **pdevs, int ndev); + +The general rule is to register only those devices that actually exist, +but in some cases extra devices might be registered. For example, a kernel +might be configured to work with an external network adapter that might not +be populated on all boards, or likewise to work with an integrated controller +that some boards might not hook up to any peripherals. + +In some cases, boot firmware will export tables describing the devices +that are populated on a given board. Without such tables, often the +only way for system setup code to set up the correct devices is to build +a kernel for a specific target board. Such board-specific kernels are +common with embedded and custom systems development. + +In many cases, the memory and IRQ resources associated with the platform +device are not enough to let the device's driver work. Board setup code +will often provide additional information using the device's platform_data +field to hold additional information. + +Embedded systems frequently need one or more clocks for platform devices, +which are normally kept off until they're actively needed (to save power). +System setup also associates those clocks with the device, so that that +calls to clk_get(&pdev->dev, clock_name) return them as needed. + + +Device Naming and Driver Binding +~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ +The platform_device.dev.bus_id is the canonical name for the devices. +It's built from two components: + + * platform_device.name ... which is also used to for driver matching. + + * platform_device.id ... the device instance number, or else "-1" + to indicate there's only one. + +These are catenated, so name/id "serial"/0 indicates bus_id "serial.0", and +"serial/3" indicates bus_id "serial.3"; both would use the platform_driver +named "serial". While "my_rtc"/-1 would be bus_id "my_rtc" (no instance id) +and use the platform_driver called "my_rtc". + +Driver binding is performed automatically by the driver core, invoking +driver probe() after finding a match between device and driver. If the +probe() succeeds, the driver and device are bound as usual. There are +three different ways to find such a match: + + - Whenever a device is registered, the drivers for that bus are + checked for matches. Platform devices should be registered very + early during system boot. + + - When a driver is registered using platform_driver_register(), all + unbound devices on that bus are checked for matches. Drivers + usually register later during booting, or by module loading. + + - Registering a driver using platform_driver_probe() works just like + using platform_driver_register(), except that the the driver won't + be probed later if another device registers. (Which is OK, since + this interface is only for use with non-hotpluggable devices.) |