mirror of https://gitee.com/openkylin/linux.git
404 lines
15 KiB
Plaintext
404 lines
15 KiB
Plaintext
This is a small guide for those who want to write kernel drivers for I2C
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or SMBus devices, using Linux as the protocol host/master (not slave).
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To set up a driver, you need to do several things. Some are optional, and
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some things can be done slightly or completely different. Use this as a
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guide, not as a rule book!
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General remarks
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===============
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Try to keep the kernel namespace as clean as possible. The best way to
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do this is to use a unique prefix for all global symbols. This is
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especially important for exported symbols, but it is a good idea to do
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it for non-exported symbols too. We will use the prefix `foo_' in this
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tutorial.
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The driver structure
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====================
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Usually, you will implement a single driver structure, and instantiate
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all clients from it. Remember, a driver structure contains general access
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routines, and should be zero-initialized except for fields with data you
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provide. A client structure holds device-specific information like the
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driver model device node, and its I2C address.
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static struct i2c_device_id foo_idtable[] = {
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{ "foo", my_id_for_foo },
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{ "bar", my_id_for_bar },
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{ }
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};
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MODULE_DEVICE_TABLE(i2c, foo_idtable);
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static struct i2c_driver foo_driver = {
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.driver = {
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.name = "foo",
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.pm = &foo_pm_ops, /* optional */
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},
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.id_table = foo_idtable,
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.probe = foo_probe,
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.remove = foo_remove,
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/* if device autodetection is needed: */
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.class = I2C_CLASS_SOMETHING,
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.detect = foo_detect,
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.address_list = normal_i2c,
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.shutdown = foo_shutdown, /* optional */
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.command = foo_command, /* optional, deprecated */
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}
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The name field is the driver name, and must not contain spaces. It
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should match the module name (if the driver can be compiled as a module),
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although you can use MODULE_ALIAS (passing "foo" in this example) to add
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another name for the module. If the driver name doesn't match the module
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name, the module won't be automatically loaded (hotplug/coldplug).
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All other fields are for call-back functions which will be explained
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below.
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Extra client data
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=================
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Each client structure has a special `data' field that can point to any
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structure at all. You should use this to keep device-specific data.
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/* store the value */
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void i2c_set_clientdata(struct i2c_client *client, void *data);
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/* retrieve the value */
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void *i2c_get_clientdata(const struct i2c_client *client);
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Note that starting with kernel 2.6.34, you don't have to set the `data' field
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to NULL in remove() or if probe() failed anymore. The i2c-core does this
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automatically on these occasions. Those are also the only times the core will
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touch this field.
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Accessing the client
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====================
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Let's say we have a valid client structure. At some time, we will need
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to gather information from the client, or write new information to the
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client.
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I have found it useful to define foo_read and foo_write functions for this.
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For some cases, it will be easier to call the i2c functions directly,
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but many chips have some kind of register-value idea that can easily
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be encapsulated.
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The below functions are simple examples, and should not be copied
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literally.
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int foo_read_value(struct i2c_client *client, u8 reg)
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{
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if (reg < 0x10) /* byte-sized register */
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return i2c_smbus_read_byte_data(client, reg);
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else /* word-sized register */
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return i2c_smbus_read_word_data(client, reg);
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}
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int foo_write_value(struct i2c_client *client, u8 reg, u16 value)
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{
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if (reg == 0x10) /* Impossible to write - driver error! */
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return -EINVAL;
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else if (reg < 0x10) /* byte-sized register */
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return i2c_smbus_write_byte_data(client, reg, value);
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else /* word-sized register */
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return i2c_smbus_write_word_data(client, reg, value);
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}
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Probing and attaching
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=====================
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The Linux I2C stack was originally written to support access to hardware
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monitoring chips on PC motherboards, and thus used to embed some assumptions
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that were more appropriate to SMBus (and PCs) than to I2C. One of these
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assumptions was that most adapters and devices drivers support the SMBUS_QUICK
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protocol to probe device presence. Another was that devices and their drivers
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can be sufficiently configured using only such probe primitives.
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As Linux and its I2C stack became more widely used in embedded systems
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and complex components such as DVB adapters, those assumptions became more
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problematic. Drivers for I2C devices that issue interrupts need more (and
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different) configuration information, as do drivers handling chip variants
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that can't be distinguished by protocol probing, or which need some board
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specific information to operate correctly.
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Device/Driver Binding
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---------------------
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System infrastructure, typically board-specific initialization code or
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boot firmware, reports what I2C devices exist. For example, there may be
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a table, in the kernel or from the boot loader, identifying I2C devices
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and linking them to board-specific configuration information about IRQs
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and other wiring artifacts, chip type, and so on. That could be used to
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create i2c_client objects for each I2C device.
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I2C device drivers using this binding model work just like any other
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kind of driver in Linux: they provide a probe() method to bind to
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those devices, and a remove() method to unbind.
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static int foo_probe(struct i2c_client *client,
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const struct i2c_device_id *id);
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static int foo_remove(struct i2c_client *client);
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Remember that the i2c_driver does not create those client handles. The
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handle may be used during foo_probe(). If foo_probe() reports success
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(zero not a negative status code) it may save the handle and use it until
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foo_remove() returns. That binding model is used by most Linux drivers.
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The probe function is called when an entry in the id_table name field
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matches the device's name. It is passed the entry that was matched so
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the driver knows which one in the table matched.
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Device Creation
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---------------
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If you know for a fact that an I2C device is connected to a given I2C bus,
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you can instantiate that device by simply filling an i2c_board_info
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structure with the device address and driver name, and calling
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i2c_new_device(). This will create the device, then the driver core will
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take care of finding the right driver and will call its probe() method.
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If a driver supports different device types, you can specify the type you
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want using the type field. You can also specify an IRQ and platform data
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if needed.
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Sometimes you know that a device is connected to a given I2C bus, but you
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don't know the exact address it uses. This happens on TV adapters for
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example, where the same driver supports dozens of slightly different
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models, and I2C device addresses change from one model to the next. In
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that case, you can use the i2c_new_probed_device() variant, which is
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similar to i2c_new_device(), except that it takes an additional list of
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possible I2C addresses to probe. A device is created for the first
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responsive address in the list. If you expect more than one device to be
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present in the address range, simply call i2c_new_probed_device() that
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many times.
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The call to i2c_new_device() or i2c_new_probed_device() typically happens
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in the I2C bus driver. You may want to save the returned i2c_client
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reference for later use.
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Device Detection
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----------------
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Sometimes you do not know in advance which I2C devices are connected to
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a given I2C bus. This is for example the case of hardware monitoring
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devices on a PC's SMBus. In that case, you may want to let your driver
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detect supported devices automatically. This is how the legacy model
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was working, and is now available as an extension to the standard
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driver model.
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You simply have to define a detect callback which will attempt to
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identify supported devices (returning 0 for supported ones and -ENODEV
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for unsupported ones), a list of addresses to probe, and a device type
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(or class) so that only I2C buses which may have that type of device
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connected (and not otherwise enumerated) will be probed. For example,
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a driver for a hardware monitoring chip for which auto-detection is
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needed would set its class to I2C_CLASS_HWMON, and only I2C adapters
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with a class including I2C_CLASS_HWMON would be probed by this driver.
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Note that the absence of matching classes does not prevent the use of
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a device of that type on the given I2C adapter. All it prevents is
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auto-detection; explicit instantiation of devices is still possible.
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Note that this mechanism is purely optional and not suitable for all
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devices. You need some reliable way to identify the supported devices
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(typically using device-specific, dedicated identification registers),
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otherwise misdetections are likely to occur and things can get wrong
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quickly. Keep in mind that the I2C protocol doesn't include any
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standard way to detect the presence of a chip at a given address, let
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alone a standard way to identify devices. Even worse is the lack of
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semantics associated to bus transfers, which means that the same
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transfer can be seen as a read operation by a chip and as a write
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operation by another chip. For these reasons, explicit device
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instantiation should always be preferred to auto-detection where
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possible.
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Device Deletion
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---------------
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Each I2C device which has been created using i2c_new_device() or
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i2c_new_probed_device() can be unregistered by calling
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i2c_unregister_device(). If you don't call it explicitly, it will be
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called automatically before the underlying I2C bus itself is removed, as a
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device can't survive its parent in the device driver model.
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Initializing the driver
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=======================
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When the kernel is booted, or when your foo driver module is inserted,
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you have to do some initializing. Fortunately, just registering the
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driver module is usually enough.
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static int __init foo_init(void)
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{
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return i2c_add_driver(&foo_driver);
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}
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module_init(foo_init);
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static void __exit foo_cleanup(void)
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{
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i2c_del_driver(&foo_driver);
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}
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module_exit(foo_cleanup);
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The module_i2c_driver() macro can be used to reduce above code.
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module_i2c_driver(foo_driver);
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Note that some functions are marked by `__init'. These functions can
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be removed after kernel booting (or module loading) is completed.
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Likewise, functions marked by `__exit' are dropped by the compiler when
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the code is built into the kernel, as they would never be called.
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Driver Information
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==================
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/* Substitute your own name and email address */
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MODULE_AUTHOR("Frodo Looijaard <frodol@dds.nl>"
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MODULE_DESCRIPTION("Driver for Barf Inc. Foo I2C devices");
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/* a few non-GPL license types are also allowed */
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MODULE_LICENSE("GPL");
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Power Management
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================
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If your I2C device needs special handling when entering a system low
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power state -- like putting a transceiver into a low power mode, or
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activating a system wakeup mechanism -- do that by implementing the
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appropriate callbacks for the dev_pm_ops of the driver (like suspend
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and resume).
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These are standard driver model calls, and they work just like they
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would for any other driver stack. The calls can sleep, and can use
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I2C messaging to the device being suspended or resumed (since their
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parent I2C adapter is active when these calls are issued, and IRQs
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are still enabled).
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System Shutdown
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===============
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If your I2C device needs special handling when the system shuts down
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or reboots (including kexec) -- like turning something off -- use a
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shutdown() method.
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Again, this is a standard driver model call, working just like it
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would for any other driver stack: the calls can sleep, and can use
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I2C messaging.
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Command function
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================
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A generic ioctl-like function call back is supported. You will seldom
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need this, and its use is deprecated anyway, so newer design should not
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use it.
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Sending and receiving
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=====================
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If you want to communicate with your device, there are several functions
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to do this. You can find all of them in <linux/i2c.h>.
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If you can choose between plain I2C communication and SMBus level
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communication, please use the latter. All adapters understand SMBus level
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commands, but only some of them understand plain I2C!
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Plain I2C communication
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-----------------------
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int i2c_master_send(struct i2c_client *client, const char *buf,
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int count);
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int i2c_master_recv(struct i2c_client *client, char *buf, int count);
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These routines read and write some bytes from/to a client. The client
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contains the i2c address, so you do not have to include it. The second
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parameter contains the bytes to read/write, the third the number of bytes
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to read/write (must be less than the length of the buffer, also should be
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less than 64k since msg.len is u16.) Returned is the actual number of bytes
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read/written.
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int i2c_transfer(struct i2c_adapter *adap, struct i2c_msg *msg,
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int num);
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This sends a series of messages. Each message can be a read or write,
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and they can be mixed in any way. The transactions are combined: no
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stop bit is sent between transaction. The i2c_msg structure contains
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for each message the client address, the number of bytes of the message
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and the message data itself.
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You can read the file `i2c-protocol' for more information about the
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actual I2C protocol.
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SMBus communication
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-------------------
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s32 i2c_smbus_xfer(struct i2c_adapter *adapter, u16 addr,
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unsigned short flags, char read_write, u8 command,
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int size, union i2c_smbus_data *data);
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This is the generic SMBus function. All functions below are implemented
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in terms of it. Never use this function directly!
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s32 i2c_smbus_read_byte(struct i2c_client *client);
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s32 i2c_smbus_write_byte(struct i2c_client *client, u8 value);
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s32 i2c_smbus_read_byte_data(struct i2c_client *client, u8 command);
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s32 i2c_smbus_write_byte_data(struct i2c_client *client,
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u8 command, u8 value);
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s32 i2c_smbus_read_word_data(struct i2c_client *client, u8 command);
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s32 i2c_smbus_write_word_data(struct i2c_client *client,
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u8 command, u16 value);
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s32 i2c_smbus_read_block_data(struct i2c_client *client,
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u8 command, u8 *values);
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s32 i2c_smbus_write_block_data(struct i2c_client *client,
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u8 command, u8 length, const u8 *values);
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s32 i2c_smbus_read_i2c_block_data(struct i2c_client *client,
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u8 command, u8 length, u8 *values);
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s32 i2c_smbus_write_i2c_block_data(struct i2c_client *client,
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u8 command, u8 length,
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const u8 *values);
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These ones were removed from i2c-core because they had no users, but could
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be added back later if needed:
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s32 i2c_smbus_write_quick(struct i2c_client *client, u8 value);
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s32 i2c_smbus_process_call(struct i2c_client *client,
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u8 command, u16 value);
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s32 i2c_smbus_block_process_call(struct i2c_client *client,
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u8 command, u8 length, u8 *values);
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All these transactions return a negative errno value on failure. The 'write'
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transactions return 0 on success; the 'read' transactions return the read
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value, except for block transactions, which return the number of values
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read. The block buffers need not be longer than 32 bytes.
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You can read the file `smbus-protocol' for more information about the
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actual SMBus protocol.
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General purpose routines
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========================
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Below all general purpose routines are listed, that were not mentioned
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before.
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/* Return the adapter number for a specific adapter */
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int i2c_adapter_id(struct i2c_adapter *adap);
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