diff options
Diffstat (limited to 'Documentation/s390/driver-model.txt')
-rw-r--r-- | Documentation/s390/driver-model.txt | 265 |
1 files changed, 265 insertions, 0 deletions
diff --git a/Documentation/s390/driver-model.txt b/Documentation/s390/driver-model.txt new file mode 100644 index 00000000000..19461958e2b --- /dev/null +++ b/Documentation/s390/driver-model.txt @@ -0,0 +1,265 @@ +S/390 driver model interfaces +----------------------------- + +1. CCW devices +-------------- + +All devices which can be addressed by means of ccws are called 'CCW devices' - +even if they aren't actually driven by ccws. + +All ccw devices are accessed via a subchannel, this is reflected in the +structures under root/: + +root/ + - sys + - legacy + - css0/ + - 0.0.0000/0.0.0815/ + - 0.0.0001/0.0.4711/ + - 0.0.0002/ + ... + +In this example, device 0815 is accessed via subchannel 0, device 4711 via +subchannel 1, and subchannel 2 is a non-I/O subchannel. + +You should address a ccw device via its bus id (e.g. 0.0.4711); the device can +be found under bus/ccw/devices/. + +All ccw devices export some data via sysfs. + +cutype: The control unit type / model. + +devtype: The device type / model, if applicable. + +availability: Can be 'good' or 'boxed'; 'no path' or 'no device' for + disconnected devices. + +online: An interface to set the device online and offline. + In the special case of the device being disconnected (see the + notify function under 1.2), piping 0 to online will focibly delete + the device. + +The device drivers can add entries to export per-device data and interfaces. + +There is also some data exported on a per-subchannel basis (see under +bus/css/devices/): + +chpids: Via which chpids the device is connected. + +pimpampom: The path installed, path available and path operational masks. + +There also might be additional data, for example for block devices. + + +1.1 Bringing up a ccw device +---------------------------- + +This is done in several steps. + +a. Each driver can provide one or more parameter interfaces where parameters can + be specified. These interfaces are also in the driver's responsibility. +b. After a. has been performed, if necessary, the device is finally brought up + via the 'online' interface. + + +1.2 Writing a driver for ccw devices +------------------------------------ + +The basic struct ccw_device and struct ccw_driver data structures can be found +under include/asm/ccwdev.h. + +struct ccw_device { + spinlock_t *ccwlock; + struct ccw_device_private *private; + struct ccw_device_id id; + + struct ccw_driver *drv; + struct device dev; + int online; + + void (*handler) (struct ccw_device *dev, unsigned long intparm, + struct irb *irb); +}; + +struct ccw_driver { + struct module *owner; + struct ccw_device_id *ids; + int (*probe) (struct ccw_device *); + int (*remove) (struct ccw_device *); + int (*set_online) (struct ccw_device *); + int (*set_offline) (struct ccw_device *); + int (*notify) (struct ccw_device *, int); + struct device_driver driver; + char *name; +}; + +The 'private' field contains data needed for internal i/o operation only, and +is not available to the device driver. + +Each driver should declare in a MODULE_DEVICE_TABLE into which CU types/models +and/or device types/models it is interested. This information can later be found +found in the struct ccw_device_id fields: + +struct ccw_device_id { + __u16 match_flags; + + __u16 cu_type; + __u16 dev_type; + __u8 cu_model; + __u8 dev_model; + + unsigned long driver_info; +}; + +The functions in ccw_driver should be used in the following way: +probe: This function is called by the device layer for each device the driver + is interested in. The driver should only allocate private structures + to put in dev->driver_data and create attributes (if needed). Also, + the interrupt handler (see below) should be set here. + +int (*probe) (struct ccw_device *cdev); + +Parameters: cdev - the device to be probed. + + +remove: This function is called by the device layer upon removal of the driver, + the device or the module. The driver should perform cleanups here. + +int (*remove) (struct ccw_device *cdev); + +Parameters: cdev - the device to be removed. + + +set_online: This function is called by the common I/O layer when the device is + activated via the 'online' attribute. The driver should finally + setup and activate the device here. + +int (*set_online) (struct ccw_device *); + +Parameters: cdev - the device to be activated. The common layer has + verified that the device is not already online. + + +set_offline: This function is called by the common I/O layer when the device is + de-activated via the 'online' attribute. The driver should shut + down the device, but not de-allocate its private data. + +int (*set_offline) (struct ccw_device *); + +Parameters: cdev - the device to be deactivated. The common layer has + verified that the device is online. + + +notify: This function is called by the common I/O layer for some state changes + of the device. + Signalled to the driver are: + * In online state, device detached (CIO_GONE) or last path gone + (CIO_NO_PATH). The driver must return !0 to keep the device; for + return code 0, the device will be deleted as usual (also when no + notify function is registerd). If the driver wants to keep the + device, it is moved into disconnected state. + * In disconnected state, device operational again (CIO_OPER). The + common I/O layer performs some sanity checks on device number and + Device / CU to be reasonably sure if it is still the same device. + If not, the old device is removed and a new one registered. By the + return code of the notify function the device driver signals if it + wants the device back: !0 for keeping, 0 to make the device being + removed and re-registered. + +int (*notify) (struct ccw_device *, int); + +Parameters: cdev - the device whose state changed. + event - the event that happened. This can be one of CIO_GONE, + CIO_NO_PATH or CIO_OPER. + +The handler field of the struct ccw_device is meant to be set to the interrupt +handler for the device. In order to accommodate drivers which use several +distinct handlers (e.g. multi subchannel devices), this is a member of ccw_device +instead of ccw_driver. +The handler is registered with the common layer during set_online() processing +before the driver is called, and is deregistered during set_offline() after the +driver has been called. Also, after registering / before deregistering, path +grouping resp. disbanding of the path group (if applicable) are performed. + +void (*handler) (struct ccw_device *dev, unsigned long intparm, struct irb *irb); + +Parameters: dev - the device the handler is called for + intparm - the intparm which allows the device driver to identify + the i/o the interrupt is associated with, or to recognize + the interrupt as unsolicited. + irb - interruption response block which contains the accumulated + status. + +The device driver is called from the common ccw_device layer and can retrieve +information about the interrupt from the irb parameter. + + +1.3 ccwgroup devices +-------------------- + +The ccwgroup mechanism is designed to handle devices consisting of multiple ccw +devices, like lcs or ctc. + +The ccw driver provides a 'group' attribute. Piping bus ids of ccw devices to +this attributes creates a ccwgroup device consisting of these ccw devices (if +possible). This ccwgroup device can be set online or offline just like a normal +ccw device. + +Each ccwgroup device also provides an 'ungroup' attribute to destroy the device +again (only when offline). This is a generic ccwgroup mechanism (the driver does +not need to implement anything beyond normal removal routines). + +To implement a ccwgroup driver, please refer to include/asm/ccwgroup.h. Keep in +mind that most drivers will need to implement both a ccwgroup and a ccw driver +(unless you have a meta ccw driver, like cu3088 for lcs and ctc). + + +2. Channel paths +----------------- + +Channel paths show up, like subchannels, under the channel subsystem root (css0) +and are called 'chp0.<chpid>'. They have no driver and do not belong to any bus. +Please note, that unlike /proc/chpids in 2.4, the channel path objects reflect +only the logical state and not the physical state, since we cannot track the +latter consistently due to lacking machine support (we don't need to be aware +of anyway). + +status - Can be 'online' or 'offline'. + Piping 'on' or 'off' sets the chpid logically online/offline. + Piping 'on' to an online chpid triggers path reprobing for all devices + the chpid connects to. This can be used to force the kernel to re-use + a channel path the user knows to be online, but the machine hasn't + created a machine check for. + + +3. System devices +----------------- + +Note: cpus may yet be added here. + +3.1 xpram +--------- + +xpram shows up under sys/ as 'xpram'. + + +4. Other devices +---------------- + +4.1 Netiucv +----------- + +The netiucv driver creates an attribute 'connection' under +bus/iucv/drivers/netiucv. Piping to this attibute creates a new netiucv +connection to the specified host. + +Netiucv connections show up under devices/iucv/ as "netiucv<ifnum>". The interface +number is assigned sequentially to the connections defined via the 'connection' +attribute. + +user - shows the connection partner. + +buffer - maximum buffer size. + Pipe to it to change buffer size. + + |