9480e307cd
In PM v1, all devices were called at SUSPEND_DISABLE level. Then all devices were called at SUSPEND_SAVE_STATE level, and finally SUSPEND_POWER_DOWN level. However, with PM v2, to maintain compatibility for platform devices, I arranged for the PM v2 suspend/resume callbacks to call the old PM v1 suspend/resume callbacks three times with each level in order so that existing drivers continued to work. Since this is obsolete infrastructure which is no longer necessary, we can remove it. Here's an (untested) patch to do exactly that. Signed-off-by: Russell King <rmk+kernel@arm.linux.org.uk> Signed-off-by: Greg Kroah-Hartman <gregkh@suse.de>
231 lines
7.9 KiB
Plaintext
231 lines
7.9 KiB
Plaintext
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Device Drivers
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struct device_driver {
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char * name;
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struct bus_type * bus;
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struct completion unloaded;
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struct kobject kobj;
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list_t devices;
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struct module *owner;
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int (*probe) (struct device * dev);
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int (*remove) (struct device * dev);
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int (*suspend) (struct device * dev, pm_message_t state, u32 level);
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int (*resume) (struct device * dev, u32 level);
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};
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Allocation
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~~~~~~~~~~
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Device drivers are statically allocated structures. Though there may
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be multiple devices in a system that a driver supports, struct
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device_driver represents the driver as a whole (not a particular
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device instance).
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Initialization
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~~~~~~~~~~~~~~
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The driver must initialize at least the name and bus fields. It should
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also initialize the devclass field (when it arrives), so it may obtain
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the proper linkage internally. It should also initialize as many of
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the callbacks as possible, though each is optional.
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Declaration
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~~~~~~~~~~~
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As stated above, struct device_driver objects are statically
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allocated. Below is an example declaration of the eepro100
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driver. This declaration is hypothetical only; it relies on the driver
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being converted completely to the new model.
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static struct device_driver eepro100_driver = {
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.name = "eepro100",
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.bus = &pci_bus_type,
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.probe = eepro100_probe,
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.remove = eepro100_remove,
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.suspend = eepro100_suspend,
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.resume = eepro100_resume,
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};
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Most drivers will not be able to be converted completely to the new
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model because the bus they belong to has a bus-specific structure with
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bus-specific fields that cannot be generalized.
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The most common example of this are device ID structures. A driver
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typically defines an array of device IDs that it supports. The format
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of these structures and the semantics for comparing device IDs are
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completely bus-specific. Defining them as bus-specific entities would
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sacrifice type-safety, so we keep bus-specific structures around.
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Bus-specific drivers should include a generic struct device_driver in
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the definition of the bus-specific driver. Like this:
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struct pci_driver {
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const struct pci_device_id *id_table;
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struct device_driver driver;
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};
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A definition that included bus-specific fields would look like
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(using the eepro100 driver again):
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static struct pci_driver eepro100_driver = {
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.id_table = eepro100_pci_tbl,
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.driver = {
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.name = "eepro100",
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.bus = &pci_bus_type,
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.probe = eepro100_probe,
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.remove = eepro100_remove,
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.suspend = eepro100_suspend,
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.resume = eepro100_resume,
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},
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};
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Some may find the syntax of embedded struct initialization awkward or
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even a bit ugly. So far, it's the best way we've found to do what we want...
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Registration
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~~~~~~~~~~~~
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int driver_register(struct device_driver * drv);
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The driver registers the structure on startup. For drivers that have
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no bus-specific fields (i.e. don't have a bus-specific driver
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structure), they would use driver_register and pass a pointer to their
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struct device_driver object.
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Most drivers, however, will have a bus-specific structure and will
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need to register with the bus using something like pci_driver_register.
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It is important that drivers register their driver structure as early as
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possible. Registration with the core initializes several fields in the
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struct device_driver object, including the reference count and the
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lock. These fields are assumed to be valid at all times and may be
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used by the device model core or the bus driver.
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Transition Bus Drivers
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~~~~~~~~~~~~~~~~~~~~~~
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By defining wrapper functions, the transition to the new model can be
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made easier. Drivers can ignore the generic structure altogether and
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let the bus wrapper fill in the fields. For the callbacks, the bus can
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define generic callbacks that forward the call to the bus-specific
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callbacks of the drivers.
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This solution is intended to be only temporary. In order to get class
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information in the driver, the drivers must be modified anyway. Since
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converting drivers to the new model should reduce some infrastructural
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complexity and code size, it is recommended that they are converted as
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class information is added.
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Access
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~~~~~~
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Once the object has been registered, it may access the common fields of
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the object, like the lock and the list of devices.
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int driver_for_each_dev(struct device_driver * drv, void * data,
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int (*callback)(struct device * dev, void * data));
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The devices field is a list of all the devices that have been bound to
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the driver. The LDM core provides a helper function to operate on all
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the devices a driver controls. This helper locks the driver on each
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node access, and does proper reference counting on each device as it
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accesses it.
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sysfs
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~~~~~
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When a driver is registered, a sysfs directory is created in its
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bus's directory. In this directory, the driver can export an interface
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to userspace to control operation of the driver on a global basis;
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e.g. toggling debugging output in the driver.
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A future feature of this directory will be a 'devices' directory. This
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directory will contain symlinks to the directories of devices it
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supports.
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Callbacks
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~~~~~~~~~
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int (*probe) (struct device * dev);
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The probe() entry is called in task context, with the bus's rwsem locked
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and the driver partially bound to the device. Drivers commonly use
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container_of() to convert "dev" to a bus-specific type, both in probe()
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and other routines. That type often provides device resource data, such
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as pci_dev.resource[] or platform_device.resources, which is used in
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addition to dev->platform_data to initialize the driver.
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This callback holds the driver-specific logic to bind the driver to a
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given device. That includes verifying that the device is present, that
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it's a version the driver can handle, that driver data structures can
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be allocated and initialized, and that any hardware can be initialized.
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Drivers often store a pointer to their state with dev_set_drvdata().
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When the driver has successfully bound itself to that device, then probe()
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returns zero and the driver model code will finish its part of binding
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the driver to that device.
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A driver's probe() may return a negative errno value to indicate that
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the driver did not bind to this device, in which case it should have
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released all reasources it allocated.
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int (*remove) (struct device * dev);
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remove is called to unbind a driver from a device. This may be
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called if a device is physically removed from the system, if the
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driver module is being unloaded, during a reboot sequence, or
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in other cases.
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It is up to the driver to determine if the device is present or
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not. It should free any resources allocated specifically for the
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device; i.e. anything in the device's driver_data field.
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If the device is still present, it should quiesce the device and place
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it into a supported low-power state.
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int (*suspend) (struct device * dev, pm_message_t state, u32 level);
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suspend is called to put the device in a low power state.
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int (*resume) (struct device * dev, u32 level);
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Resume is used to bring a device back from a low power state.
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Attributes
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~~~~~~~~~~
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struct driver_attribute {
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struct attribute attr;
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ssize_t (*show)(struct device_driver *, char * buf, size_t count, loff_t off);
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ssize_t (*store)(struct device_driver *, const char * buf, size_t count, loff_t off);
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};
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Device drivers can export attributes via their sysfs directories.
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Drivers can declare attributes using a DRIVER_ATTR macro that works
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identically to the DEVICE_ATTR macro.
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Example:
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DRIVER_ATTR(debug,0644,show_debug,store_debug);
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This is equivalent to declaring:
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struct driver_attribute driver_attr_debug;
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This can then be used to add and remove the attribute from the
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driver's directory using:
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int driver_create_file(struct device_driver *, struct driver_attribute *);
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void driver_remove_file(struct device_driver *, struct driver_attribute *);
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