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Each text file under Documentation follows a different format. Some doesn't even have titles! Change its representation to follow the adopted standard, using ReST markups for it to be parseable by Sphinx: - use ReST notation for titles; - identify literal blocks; - use :Author: for document authorship; - use the proper notation for tables; - adjust whitespaces where needed. Signed-off-by: Mauro Carvalho Chehab <mchehab@s-opensource.com> Signed-off-by: Jonathan Corbet <corbet@lwn.net>
231 lines
7.6 KiB
Plaintext
231 lines
7.6 KiB
Plaintext
================
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EISA bus support
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================
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:Author: Marc Zyngier <maz@wild-wind.fr.eu.org>
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This document groups random notes about porting EISA drivers to the
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new EISA/sysfs API.
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Starting from version 2.5.59, the EISA bus is almost given the same
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status as other much more mainstream busses such as PCI or USB. This
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has been possible through sysfs, which defines a nice enough set of
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abstractions to manage busses, devices and drivers.
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Although the new API is quite simple to use, converting existing
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drivers to the new infrastructure is not an easy task (mostly because
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detection code is generally also used to probe ISA cards). Moreover,
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most EISA drivers are among the oldest Linux drivers so, as you can
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imagine, some dust has settled here over the years.
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The EISA infrastructure is made up of three parts:
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- The bus code implements most of the generic code. It is shared
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among all the architectures that the EISA code runs on. It
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implements bus probing (detecting EISA cards available on the bus),
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allocates I/O resources, allows fancy naming through sysfs, and
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offers interfaces for driver to register.
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- The bus root driver implements the glue between the bus hardware
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and the generic bus code. It is responsible for discovering the
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device implementing the bus, and setting it up to be latter probed
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by the bus code. This can go from something as simple as reserving
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an I/O region on x86, to the rather more complex, like the hppa
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EISA code. This is the part to implement in order to have EISA
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running on an "new" platform.
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- The driver offers the bus a list of devices that it manages, and
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implements the necessary callbacks to probe and release devices
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whenever told to.
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Every function/structure below lives in <linux/eisa.h>, which depends
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heavily on <linux/device.h>.
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Bus root driver
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===============
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::
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int eisa_root_register (struct eisa_root_device *root);
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The eisa_root_register function is used to declare a device as the
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root of an EISA bus. The eisa_root_device structure holds a reference
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to this device, as well as some parameters for probing purposes::
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struct eisa_root_device {
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struct device *dev; /* Pointer to bridge device */
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struct resource *res;
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unsigned long bus_base_addr;
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int slots; /* Max slot number */
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int force_probe; /* Probe even when no slot 0 */
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u64 dma_mask; /* from bridge device */
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int bus_nr; /* Set by eisa_root_register */
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struct resource eisa_root_res; /* ditto */
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};
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============= ======================================================
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node used for eisa_root_register internal purpose
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dev pointer to the root device
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res root device I/O resource
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bus_base_addr slot 0 address on this bus
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slots max slot number to probe
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force_probe Probe even when slot 0 is empty (no EISA mainboard)
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dma_mask Default DMA mask. Usually the bridge device dma_mask.
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bus_nr unique bus id, set by eisa_root_register
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============= ======================================================
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Driver
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======
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::
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int eisa_driver_register (struct eisa_driver *edrv);
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void eisa_driver_unregister (struct eisa_driver *edrv);
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Clear enough ?
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::
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struct eisa_device_id {
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char sig[EISA_SIG_LEN];
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unsigned long driver_data;
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};
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struct eisa_driver {
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const struct eisa_device_id *id_table;
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struct device_driver driver;
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};
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=============== ====================================================
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id_table an array of NULL terminated EISA id strings,
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followed by an empty string. Each string can
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optionally be paired with a driver-dependent value
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(driver_data).
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driver a generic driver, such as described in
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Documentation/driver-model/driver.txt. Only .name,
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.probe and .remove members are mandatory.
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=============== ====================================================
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An example is the 3c59x driver::
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static struct eisa_device_id vortex_eisa_ids[] = {
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{ "TCM5920", EISA_3C592_OFFSET },
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{ "TCM5970", EISA_3C597_OFFSET },
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{ "" }
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};
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static struct eisa_driver vortex_eisa_driver = {
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.id_table = vortex_eisa_ids,
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.driver = {
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.name = "3c59x",
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.probe = vortex_eisa_probe,
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.remove = vortex_eisa_remove
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}
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};
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Device
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======
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The sysfs framework calls .probe and .remove functions upon device
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discovery and removal (note that the .remove function is only called
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when driver is built as a module).
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Both functions are passed a pointer to a 'struct device', which is
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encapsulated in a 'struct eisa_device' described as follows::
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struct eisa_device {
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struct eisa_device_id id;
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int slot;
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int state;
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unsigned long base_addr;
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struct resource res[EISA_MAX_RESOURCES];
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u64 dma_mask;
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struct device dev; /* generic device */
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};
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======== ============================================================
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id EISA id, as read from device. id.driver_data is set from the
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matching driver EISA id.
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slot slot number which the device was detected on
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state set of flags indicating the state of the device. Current
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flags are EISA_CONFIG_ENABLED and EISA_CONFIG_FORCED.
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res set of four 256 bytes I/O regions allocated to this device
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dma_mask DMA mask set from the parent device.
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dev generic device (see Documentation/driver-model/device.txt)
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======== ============================================================
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You can get the 'struct eisa_device' from 'struct device' using the
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'to_eisa_device' macro.
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Misc stuff
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==========
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::
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void eisa_set_drvdata (struct eisa_device *edev, void *data);
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Stores data into the device's driver_data area.
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::
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void *eisa_get_drvdata (struct eisa_device *edev):
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Gets the pointer previously stored into the device's driver_data area.
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::
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int eisa_get_region_index (void *addr);
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Returns the region number (0 <= x < EISA_MAX_RESOURCES) of a given
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address.
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Kernel parameters
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=================
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eisa_bus.enable_dev
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A comma-separated list of slots to be enabled, even if the firmware
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set the card as disabled. The driver must be able to properly
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initialize the device in such conditions.
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eisa_bus.disable_dev
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A comma-separated list of slots to be enabled, even if the firmware
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set the card as enabled. The driver won't be called to handle this
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device.
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virtual_root.force_probe
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Force the probing code to probe EISA slots even when it cannot find an
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EISA compliant mainboard (nothing appears on slot 0). Defaults to 0
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(don't force), and set to 1 (force probing) when either
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CONFIG_ALPHA_JENSEN or CONFIG_EISA_VLB_PRIMING are set.
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Random notes
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============
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Converting an EISA driver to the new API mostly involves *deleting*
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code (since probing is now in the core EISA code). Unfortunately, most
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drivers share their probing routine between ISA, and EISA. Special
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care must be taken when ripping out the EISA code, so other busses
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won't suffer from these surgical strikes...
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You *must not* expect any EISA device to be detected when returning
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from eisa_driver_register, since the chances are that the bus has not
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yet been probed. In fact, that's what happens most of the time (the
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bus root driver usually kicks in rather late in the boot process).
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Unfortunately, most drivers are doing the probing by themselves, and
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expect to have explored the whole machine when they exit their probe
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routine.
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For example, switching your favorite EISA SCSI card to the "hotplug"
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model is "the right thing"(tm).
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Thanks
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======
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I'd like to thank the following people for their help:
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- Xavier Benigni for lending me a wonderful Alpha Jensen,
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- James Bottomley, Jeff Garzik for getting this stuff into the kernel,
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- Andries Brouwer for contributing numerous EISA ids,
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- Catrin Jones for coping with far too many machines at home.
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