Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 1 | .. SPDX-License-Identifier: GPL-2.0+ |
| 2 | .. sectionauthor:: Simon Glass <sjg@chromium.org> |
| 3 | |
| 4 | Design Details |
| 5 | ============== |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 6 | |
| 7 | This README contains high-level information about driver model, a unified |
| 8 | way of declaring and accessing drivers in U-Boot. The original work was done |
| 9 | by: |
| 10 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 11 | * Marek Vasut <marex@denx.de> |
| 12 | * Pavel Herrmann <morpheus.ibis@gmail.com> |
| 13 | * Viktor Křivák <viktor.krivak@gmail.com> |
| 14 | * Tomas Hlavacek <tmshlvck@gmail.com> |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 15 | |
| 16 | This has been both simplified and extended into the current implementation |
| 17 | by: |
| 18 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 19 | * Simon Glass <sjg@chromium.org> |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 20 | |
| 21 | |
| 22 | Terminology |
| 23 | ----------- |
| 24 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 25 | Uclass |
| 26 | a group of devices which operate in the same way. A uclass provides |
| 27 | a way of accessing individual devices within the group, but always |
| 28 | using the same interface. For example a GPIO uclass provides |
| 29 | operations for get/set value. An I2C uclass may have 10 I2C ports, |
| 30 | 4 with one driver, and 6 with another. |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 31 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 32 | Driver |
| 33 | some code which talks to a peripheral and presents a higher-level |
| 34 | interface to it. |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 35 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 36 | Device |
| 37 | an instance of a driver, tied to a particular port or peripheral. |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 38 | |
| 39 | |
| 40 | How to try it |
| 41 | ------------- |
| 42 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 43 | Build U-Boot sandbox and run it:: |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 44 | |
Masahiro Yamada | 33fcd1b | 2014-12-19 14:16:44 +0900 | [diff] [blame] | 45 | make sandbox_defconfig |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 46 | make |
Masahiro Yamada | 33fcd1b | 2014-12-19 14:16:44 +0900 | [diff] [blame] | 47 | ./u-boot -d u-boot.dtb |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 48 | |
| 49 | (type 'reset' to exit U-Boot) |
| 50 | |
| 51 | |
| 52 | There is a uclass called 'demo'. This uclass handles |
| 53 | saying hello, and reporting its status. There are two drivers in this |
| 54 | uclass: |
| 55 | |
| 56 | - simple: Just prints a message for hello, doesn't implement status |
| 57 | - shape: Prints shapes and reports number of characters printed as status |
| 58 | |
| 59 | The demo class is pretty simple, but not trivial. The intention is that it |
| 60 | can be used for testing, so it will implement all driver model features and |
| 61 | provide good code coverage of them. It does have multiple drivers, it |
| 62 | handles parameter data and platdata (data which tells the driver how |
| 63 | to operate on a particular platform) and it uses private driver data. |
| 64 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 65 | To try it, see the example session below:: |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 66 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 67 | =>demo hello 1 |
| 68 | Hello '@' from 07981110: red 4 |
| 69 | =>demo status 2 |
| 70 | Status: 0 |
| 71 | =>demo hello 2 |
| 72 | g |
| 73 | r@ |
| 74 | e@@ |
| 75 | e@@@ |
| 76 | n@@@@ |
| 77 | g@@@@@ |
| 78 | =>demo status 2 |
| 79 | Status: 21 |
| 80 | =>demo hello 4 ^ |
| 81 | y^^^ |
| 82 | e^^^^^ |
| 83 | l^^^^^^^ |
| 84 | l^^^^^^^ |
| 85 | o^^^^^ |
| 86 | w^^^ |
| 87 | =>demo status 4 |
| 88 | Status: 36 |
| 89 | => |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 90 | |
| 91 | |
| 92 | Running the tests |
| 93 | ----------------- |
| 94 | |
| 95 | The intent with driver model is that the core portion has 100% test coverage |
| 96 | in sandbox, and every uclass has its own test. As a move towards this, tests |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 97 | are provided in test/dm. To run them, try:: |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 98 | |
Jagan Teki | e57f9c8 | 2016-03-17 12:23:18 +0530 | [diff] [blame] | 99 | ./test/py/test.py --bd sandbox --build -k ut_dm -v |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 100 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 101 | You should see something like this:: |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 102 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 103 | (venv)$ ./test/py/test.py --bd sandbox --build -k ut_dm -v |
| 104 | +make O=/root/u-boot/build-sandbox -s sandbox_defconfig |
| 105 | +make O=/root/u-boot/build-sandbox -s -j8 |
| 106 | ============================= test session starts ============================== |
| 107 | platform linux2 -- Python 2.7.5, pytest-2.9.0, py-1.4.31, pluggy-0.3.1 -- /root/u-boot/venv/bin/python |
| 108 | cachedir: .cache |
| 109 | rootdir: /root/u-boot, inifile: |
| 110 | collected 199 items |
Simon Glass | 98a1605 | 2015-04-19 07:21:01 -0600 | [diff] [blame] | 111 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 112 | test/py/tests/test_ut.py::test_ut_dm_init PASSED |
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Simon Glass | 98a1605 | 2015-04-19 07:21:01 -0600 | [diff] [blame] | 227 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 228 | ======================= 84 tests deselected by '-kut_dm' ======================= |
| 229 | ================== 115 passed, 84 deselected in 3.77 seconds =================== |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 230 | |
| 231 | What is going on? |
| 232 | ----------------- |
| 233 | |
Dario Binacchi | 2a37201 | 2020-02-09 19:57:41 +0100 | [diff] [blame] | 234 | Let's start at the top. The demo command is in cmd/demo.c. It does |
Chris Packham | 34e4a2e | 2014-06-07 10:35:55 +1200 | [diff] [blame] | 235 | the usual command processing and then: |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 236 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 237 | .. code-block:: c |
| 238 | |
Heiko Schocher | 54c5d08 | 2014-05-22 12:43:05 +0200 | [diff] [blame] | 239 | struct udevice *demo_dev; |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 240 | |
| 241 | ret = uclass_get_device(UCLASS_DEMO, devnum, &demo_dev); |
| 242 | |
| 243 | UCLASS_DEMO means the class of devices which implement 'demo'. Other |
| 244 | classes might be MMC, or GPIO, hashing or serial. The idea is that the |
| 245 | devices in the class all share a particular way of working. The class |
| 246 | presents a unified view of all these devices to U-Boot. |
| 247 | |
| 248 | This function looks up a device for the demo uclass. Given a device |
| 249 | number we can find the device because all devices have registered with |
| 250 | the UCLASS_DEMO uclass. |
| 251 | |
| 252 | The device is automatically activated ready for use by uclass_get_device(). |
| 253 | |
| 254 | Now that we have the device we can do things like: |
| 255 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 256 | .. code-block:: c |
| 257 | |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 258 | return demo_hello(demo_dev, ch); |
| 259 | |
| 260 | This function is in the demo uclass. It takes care of calling the 'hello' |
| 261 | method of the relevant driver. Bearing in mind that there are two drivers, |
| 262 | this particular device may use one or other of them. |
| 263 | |
| 264 | The code for demo_hello() is in drivers/demo/demo-uclass.c: |
| 265 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 266 | .. code-block:: c |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 267 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 268 | int demo_hello(struct udevice *dev, int ch) |
| 269 | { |
| 270 | const struct demo_ops *ops = device_get_ops(dev); |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 271 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 272 | if (!ops->hello) |
| 273 | return -ENOSYS; |
| 274 | |
| 275 | return ops->hello(dev, ch); |
| 276 | } |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 277 | |
| 278 | As you can see it just calls the relevant driver method. One of these is |
| 279 | in drivers/demo/demo-simple.c: |
| 280 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 281 | .. code-block:: c |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 282 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 283 | static int simple_hello(struct udevice *dev, int ch) |
| 284 | { |
| 285 | const struct dm_demo_pdata *pdata = dev_get_platdata(dev); |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 286 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 287 | printf("Hello from %08x: %s %d\n", map_to_sysmem(dev), |
| 288 | pdata->colour, pdata->sides); |
| 289 | |
| 290 | return 0; |
| 291 | } |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 292 | |
| 293 | |
| 294 | So that is a trip from top (command execution) to bottom (driver action) |
| 295 | but it leaves a lot of topics to address. |
| 296 | |
| 297 | |
| 298 | Declaring Drivers |
| 299 | ----------------- |
| 300 | |
| 301 | A driver declaration looks something like this (see |
| 302 | drivers/demo/demo-shape.c): |
| 303 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 304 | .. code-block:: c |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 305 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 306 | static const struct demo_ops shape_ops = { |
| 307 | .hello = shape_hello, |
| 308 | .status = shape_status, |
| 309 | }; |
| 310 | |
| 311 | U_BOOT_DRIVER(demo_shape_drv) = { |
| 312 | .name = "demo_shape_drv", |
| 313 | .id = UCLASS_DEMO, |
| 314 | .ops = &shape_ops, |
| 315 | .priv_data_size = sizeof(struct shape_data), |
| 316 | }; |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 317 | |
| 318 | |
| 319 | This driver has two methods (hello and status) and requires a bit of |
| 320 | private data (accessible through dev_get_priv(dev) once the driver has |
| 321 | been probed). It is a member of UCLASS_DEMO so will register itself |
| 322 | there. |
| 323 | |
| 324 | In U_BOOT_DRIVER it is also possible to specify special methods for bind |
| 325 | and unbind, and these are called at appropriate times. For many drivers |
| 326 | it is hoped that only 'probe' and 'remove' will be needed. |
| 327 | |
| 328 | The U_BOOT_DRIVER macro creates a data structure accessible from C, |
| 329 | so driver model can find the drivers that are available. |
| 330 | |
| 331 | The methods a device can provide are documented in the device.h header. |
| 332 | Briefly, they are: |
| 333 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 334 | * bind - make the driver model aware of a device (bind it to its driver) |
| 335 | * unbind - make the driver model forget the device |
| 336 | * ofdata_to_platdata - convert device tree data to platdata - see later |
| 337 | * probe - make a device ready for use |
| 338 | * remove - remove a device so it cannot be used until probed again |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 339 | |
| 340 | The sequence to get a device to work is bind, ofdata_to_platdata (if using |
| 341 | device tree) and probe. |
| 342 | |
| 343 | |
| 344 | Platform Data |
| 345 | ------------- |
| 346 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 347 | Note: platform data is the old way of doing things. It is |
| 348 | basically a C structure which is passed to drivers to tell them about |
| 349 | platform-specific settings like the address of its registers, bus |
| 350 | speed, etc. Device tree is now the preferred way of handling this. |
| 351 | Unless you have a good reason not to use device tree (the main one |
| 352 | being you need serial support in SPL and don't have enough SRAM for |
| 353 | the cut-down device tree and libfdt libraries) you should stay away |
| 354 | from platform data. |
Simon Glass | 97f3ee3 | 2015-07-06 12:54:22 -0600 | [diff] [blame] | 355 | |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 356 | Platform data is like Linux platform data, if you are familiar with that. |
| 357 | It provides the board-specific information to start up a device. |
| 358 | |
| 359 | Why is this information not just stored in the device driver itself? The |
| 360 | idea is that the device driver is generic, and can in principle operate on |
| 361 | any board that has that type of device. For example, with modern |
| 362 | highly-complex SoCs it is common for the IP to come from an IP vendor, and |
| 363 | therefore (for example) the MMC controller may be the same on chips from |
| 364 | different vendors. It makes no sense to write independent drivers for the |
| 365 | MMC controller on each vendor's SoC, when they are all almost the same. |
| 366 | Similarly, we may have 6 UARTs in an SoC, all of which are mostly the same, |
| 367 | but lie at different addresses in the address space. |
| 368 | |
| 369 | Using the UART example, we have a single driver and it is instantiated 6 |
| 370 | times by supplying 6 lots of platform data. Each lot of platform data |
| 371 | gives the driver name and a pointer to a structure containing information |
| 372 | about this instance - e.g. the address of the register space. It may be that |
| 373 | one of the UARTS supports RS-485 operation - this can be added as a flag in |
| 374 | the platform data, which is set for this one port and clear for the rest. |
| 375 | |
| 376 | Think of your driver as a generic piece of code which knows how to talk to |
| 377 | a device, but needs to know where it is, any variant/option information and |
| 378 | so on. Platform data provides this link between the generic piece of code |
| 379 | and the specific way it is bound on a particular board. |
| 380 | |
| 381 | Examples of platform data include: |
| 382 | |
| 383 | - The base address of the IP block's register space |
| 384 | - Configuration options, like: |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 385 | - the SPI polarity and maximum speed for a SPI controller |
| 386 | - the I2C speed to use for an I2C device |
| 387 | - the number of GPIOs available in a GPIO device |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 388 | |
| 389 | Where does the platform data come from? It is either held in a structure |
| 390 | which is compiled into U-Boot, or it can be parsed from the Device Tree |
| 391 | (see 'Device Tree' below). |
| 392 | |
| 393 | For an example of how it can be compiled in, see demo-pdata.c which |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 394 | sets up a table of driver names and their associated platform data. |
| 395 | The data can be interpreted by the drivers however they like - it is |
| 396 | basically a communication scheme between the board-specific code and |
| 397 | the generic drivers, which are intended to work on any board. |
| 398 | |
Chris Packham | 34e4a2e | 2014-06-07 10:35:55 +1200 | [diff] [blame] | 399 | Drivers can access their data via dev->info->platdata. Here is |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 400 | the declaration for the platform data, which would normally appear |
| 401 | in the board file. |
| 402 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 403 | .. code-block:: c |
| 404 | |
Dario Binacchi | 2a37201 | 2020-02-09 19:57:41 +0100 | [diff] [blame] | 405 | static const struct dm_demo_pdata red_square = { |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 406 | .colour = "red", |
| 407 | .sides = 4. |
| 408 | }; |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 409 | |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 410 | static const struct driver_info info[] = { |
| 411 | { |
| 412 | .name = "demo_shape_drv", |
| 413 | .platdata = &red_square, |
| 414 | }, |
| 415 | }; |
| 416 | |
| 417 | demo1 = driver_bind(root, &info[0]); |
| 418 | |
| 419 | |
| 420 | Device Tree |
| 421 | ----------- |
| 422 | |
| 423 | While platdata is useful, a more flexible way of providing device data is |
Simon Glass | 97f3ee3 | 2015-07-06 12:54:22 -0600 | [diff] [blame] | 424 | by using device tree. In U-Boot you should use this where possible. Avoid |
| 425 | sending patches which make use of the U_BOOT_DEVICE() macro unless strictly |
| 426 | necessary. |
| 427 | |
| 428 | With device tree we replace the above code with the following device tree |
| 429 | fragment: |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 430 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 431 | .. code-block:: c |
| 432 | |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 433 | red-square { |
| 434 | compatible = "demo-shape"; |
| 435 | colour = "red"; |
| 436 | sides = <4>; |
| 437 | }; |
| 438 | |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 439 | This means that instead of having lots of U_BOOT_DEVICE() declarations in |
| 440 | the board file, we put these in the device tree. This approach allows a lot |
| 441 | more generality, since the same board file can support many types of boards |
| 442 | (e,g. with the same SoC) just by using different device trees. An added |
| 443 | benefit is that the Linux device tree can be used, thus further simplifying |
| 444 | the task of board-bring up either for U-Boot or Linux devs (whoever gets to |
| 445 | the board first!). |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 446 | |
| 447 | The easiest way to make this work it to add a few members to the driver: |
| 448 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 449 | .. code-block:: c |
| 450 | |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 451 | .platdata_auto_alloc_size = sizeof(struct dm_test_pdata), |
| 452 | .ofdata_to_platdata = testfdt_ofdata_to_platdata, |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 453 | |
| 454 | The 'auto_alloc' feature allowed space for the platdata to be allocated |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 455 | and zeroed before the driver's ofdata_to_platdata() method is called. The |
| 456 | ofdata_to_platdata() method, which the driver write supplies, should parse |
| 457 | the device tree node for this device and place it in dev->platdata. Thus |
| 458 | when the probe method is called later (to set up the device ready for use) |
| 459 | the platform data will be present. |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 460 | |
| 461 | Note that both methods are optional. If you provide an ofdata_to_platdata |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 462 | method then it will be called first (during activation). If you provide a |
| 463 | probe method it will be called next. See Driver Lifecycle below for more |
| 464 | details. |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 465 | |
| 466 | If you don't want to have the platdata automatically allocated then you |
| 467 | can leave out platdata_auto_alloc_size. In this case you can use malloc |
| 468 | in your ofdata_to_platdata (or probe) method to allocate the required memory, |
| 469 | and you should free it in the remove method. |
| 470 | |
Simon Glass | 2f3b95d | 2015-01-25 08:26:58 -0700 | [diff] [blame] | 471 | The driver model tree is intended to mirror that of the device tree. The |
| 472 | root driver is at device tree offset 0 (the root node, '/'), and its |
| 473 | children are the children of the root node. |
| 474 | |
Tom Rini | 15416c8 | 2018-08-31 11:59:11 -0400 | [diff] [blame] | 475 | In order for a device tree to be valid, the content must be correct with |
| 476 | respect to either device tree specification |
| 477 | (https://www.devicetree.org/specifications/) or the device tree bindings that |
| 478 | are found in the doc/device-tree-bindings directory. When not U-Boot specific |
| 479 | the bindings in this directory tend to come from the Linux Kernel. As such |
| 480 | certain design decisions may have been made already for us in terms of how |
| 481 | specific devices are described and bound. In most circumstances we wish to |
| 482 | retain compatibility without additional changes being made to the device tree |
| 483 | source files. |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 484 | |
| 485 | Declaring Uclasses |
| 486 | ------------------ |
| 487 | |
| 488 | The demo uclass is declared like this: |
| 489 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 490 | .. code-block:: c |
| 491 | |
Dario Binacchi | 2a37201 | 2020-02-09 19:57:41 +0100 | [diff] [blame] | 492 | UCLASS_DRIVER(demo) = { |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 493 | .id = UCLASS_DEMO, |
| 494 | }; |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 495 | |
| 496 | It is also possible to specify special methods for probe, etc. The uclass |
Dario Binacchi | 2a37201 | 2020-02-09 19:57:41 +0100 | [diff] [blame] | 497 | numbering comes from include/dm/uclass-id.h. To add a new uclass, add to the |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 498 | end of the enum there, then declare your uclass as above. |
| 499 | |
| 500 | |
Simon Glass | 5a66a8f | 2014-07-23 06:55:12 -0600 | [diff] [blame] | 501 | Device Sequence Numbers |
| 502 | ----------------------- |
| 503 | |
| 504 | U-Boot numbers devices from 0 in many situations, such as in the command |
| 505 | line for I2C and SPI buses, and the device names for serial ports (serial0, |
| 506 | serial1, ...). Driver model supports this numbering and permits devices |
Simon Glass | 9cc36a2 | 2015-01-25 08:27:05 -0700 | [diff] [blame] | 507 | to be locating by their 'sequence'. This numbering uniquely identifies a |
Simon Glass | 547cea1 | 2014-10-13 23:41:51 -0600 | [diff] [blame] | 508 | device in its uclass, so no two devices within a particular uclass can have |
| 509 | the same sequence number. |
Simon Glass | 5a66a8f | 2014-07-23 06:55:12 -0600 | [diff] [blame] | 510 | |
| 511 | Sequence numbers start from 0 but gaps are permitted. For example, a board |
Simon Glass | 9cc36a2 | 2015-01-25 08:27:05 -0700 | [diff] [blame] | 512 | may have I2C buses 1, 4, 5 but no 0, 2 or 3. The choice of how devices are |
Simon Glass | 5a66a8f | 2014-07-23 06:55:12 -0600 | [diff] [blame] | 513 | numbered is up to a particular board, and may be set by the SoC in some |
| 514 | cases. While it might be tempting to automatically renumber the devices |
| 515 | where there are gaps in the sequence, this can lead to confusion and is |
| 516 | not the way that U-Boot works. |
| 517 | |
| 518 | Each device can request a sequence number. If none is required then the |
| 519 | device will be automatically allocated the next available sequence number. |
| 520 | |
| 521 | To specify the sequence number in the device tree an alias is typically |
Simon Glass | 9cc36a2 | 2015-01-25 08:27:05 -0700 | [diff] [blame] | 522 | used. Make sure that the uclass has the DM_UC_FLAG_SEQ_ALIAS flag set. |
Simon Glass | 5a66a8f | 2014-07-23 06:55:12 -0600 | [diff] [blame] | 523 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 524 | .. code-block:: none |
| 525 | |
| 526 | aliases { |
| 527 | serial2 = "/serial@22230000"; |
| 528 | }; |
Simon Glass | 5a66a8f | 2014-07-23 06:55:12 -0600 | [diff] [blame] | 529 | |
| 530 | This indicates that in the uclass called "serial", the named node |
| 531 | ("/serial@22230000") will be given sequence number 2. Any command or driver |
| 532 | which requests serial device 2 will obtain this device. |
| 533 | |
Simon Glass | 9cc36a2 | 2015-01-25 08:27:05 -0700 | [diff] [blame] | 534 | More commonly you can use node references, which expand to the full path: |
Simon Glass | 5a66a8f | 2014-07-23 06:55:12 -0600 | [diff] [blame] | 535 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 536 | .. code-block:: none |
| 537 | |
| 538 | aliases { |
| 539 | serial2 = &serial_2; |
| 540 | }; |
| 541 | ... |
| 542 | serial_2: serial@22230000 { |
| 543 | ... |
| 544 | }; |
Simon Glass | 5a66a8f | 2014-07-23 06:55:12 -0600 | [diff] [blame] | 545 | |
Simon Glass | 9cc36a2 | 2015-01-25 08:27:05 -0700 | [diff] [blame] | 546 | The alias resolves to the same string in this case, but this version is |
| 547 | easier to read. |
Simon Glass | 5a66a8f | 2014-07-23 06:55:12 -0600 | [diff] [blame] | 548 | |
| 549 | Device sequence numbers are resolved when a device is probed. Before then |
| 550 | the sequence number is only a request which may or may not be honoured, |
| 551 | depending on what other devices have been probed. However the numbering is |
| 552 | entirely under the control of the board author so a conflict is generally |
| 553 | an error. |
| 554 | |
| 555 | |
Simon Glass | a327dee | 2014-07-23 06:55:21 -0600 | [diff] [blame] | 556 | Bus Drivers |
| 557 | ----------- |
| 558 | |
| 559 | A common use of driver model is to implement a bus, a device which provides |
| 560 | access to other devices. Example of buses include SPI and I2C. Typically |
| 561 | the bus provides some sort of transport or translation that makes it |
| 562 | possible to talk to the devices on the bus. |
| 563 | |
Simon Glass | 2017aae | 2015-01-25 08:27:20 -0700 | [diff] [blame] | 564 | Driver model provides some useful features to help with implementing buses. |
| 565 | Firstly, a bus can request that its children store some 'parent data' which |
| 566 | can be used to keep track of child state. Secondly, the bus can define |
| 567 | methods which are called when a child is probed or removed. This is similar |
| 568 | to the methods the uclass driver provides. Thirdly, per-child platform data |
| 569 | can be provided to specify things like the child's address on the bus. This |
| 570 | persists across child probe()/remove() cycles. |
| 571 | |
| 572 | For consistency and ease of implementation, the bus uclass can specify the |
| 573 | per-child platform data, so that it can be the same for all children of buses |
| 574 | in that uclass. There are also uclass methods which can be called when |
| 575 | children are bound and probed. |
Simon Glass | a327dee | 2014-07-23 06:55:21 -0600 | [diff] [blame] | 576 | |
| 577 | Here an explanation of how a bus fits with a uclass may be useful. Consider |
| 578 | a USB bus with several devices attached to it, each from a different (made |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 579 | up) uclass:: |
Simon Glass | a327dee | 2014-07-23 06:55:21 -0600 | [diff] [blame] | 580 | |
| 581 | xhci_usb (UCLASS_USB) |
Heinrich Schuchardt | da2fa6d | 2020-02-26 20:18:54 +0100 | [diff] [blame] | 582 | eth (UCLASS_ETH) |
Simon Glass | a327dee | 2014-07-23 06:55:21 -0600 | [diff] [blame] | 583 | camera (UCLASS_CAMERA) |
| 584 | flash (UCLASS_FLASH_STORAGE) |
| 585 | |
| 586 | Each of the devices is connected to a different address on the USB bus. |
| 587 | The bus device wants to store this address and some other information such |
| 588 | as the bus speed for each device. |
| 589 | |
Simon Glass | 2017aae | 2015-01-25 08:27:20 -0700 | [diff] [blame] | 590 | To achieve this, the bus device can use dev->parent_platdata in each of its |
| 591 | three children. This can be auto-allocated if the bus driver (or bus uclass) |
| 592 | has a non-zero value for per_child_platdata_auto_alloc_size. If not, then |
| 593 | the bus device or uclass can allocate the space itself before the child |
| 594 | device is probed. |
Simon Glass | a327dee | 2014-07-23 06:55:21 -0600 | [diff] [blame] | 595 | |
| 596 | Also the bus driver can define the child_pre_probe() and child_post_remove() |
| 597 | methods to allow it to do some processing before the child is activated or |
| 598 | after it is deactivated. |
| 599 | |
Simon Glass | 2017aae | 2015-01-25 08:27:20 -0700 | [diff] [blame] | 600 | Similarly the bus uclass can define the child_post_bind() method to obtain |
| 601 | the per-child platform data from the device tree and set it up for the child. |
| 602 | The bus uclass can also provide a child_pre_probe() method. Very often it is |
| 603 | the bus uclass that controls these features, since it avoids each driver |
| 604 | having to do the same processing. Of course the driver can still tweak and |
| 605 | override these activities. |
| 606 | |
Simon Glass | a327dee | 2014-07-23 06:55:21 -0600 | [diff] [blame] | 607 | Note that the information that controls this behaviour is in the bus's |
| 608 | driver, not the child's. In fact it is possible that child has no knowledge |
| 609 | that it is connected to a bus. The same child device may even be used on two |
| 610 | different bus types. As an example. the 'flash' device shown above may also |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 611 | be connected on a SATA bus or standalone with no bus:: |
Simon Glass | a327dee | 2014-07-23 06:55:21 -0600 | [diff] [blame] | 612 | |
| 613 | xhci_usb (UCLASS_USB) |
| 614 | flash (UCLASS_FLASH_STORAGE) - parent data/methods defined by USB bus |
| 615 | |
Heinrich Schuchardt | 2f8f5e2 | 2020-05-20 23:27:27 +0200 | [diff] [blame] | 616 | sata (UCLASS_AHCI) |
Simon Glass | a327dee | 2014-07-23 06:55:21 -0600 | [diff] [blame] | 617 | flash (UCLASS_FLASH_STORAGE) - parent data/methods defined by SATA bus |
| 618 | |
| 619 | flash (UCLASS_FLASH_STORAGE) - no parent data/methods (not on a bus) |
| 620 | |
| 621 | Above you can see that the driver for xhci_usb/sata controls the child's |
| 622 | bus methods. In the third example the device is not on a bus, and therefore |
| 623 | will not have these methods at all. Consider the case where the flash |
| 624 | device defines child methods. These would be used for *its* children, and |
| 625 | would be quite separate from the methods defined by the driver for the bus |
| 626 | that the flash device is connetced to. The act of attaching a device to a |
| 627 | parent device which is a bus, causes the device to start behaving like a |
| 628 | bus device, regardless of its own views on the matter. |
| 629 | |
| 630 | The uclass for the device can also contain data private to that uclass. |
Dario Binacchi | cea8f2c | 2020-06-04 14:58:13 +0200 | [diff] [blame] | 631 | But note that each device on the bus may be a member of a different |
Simon Glass | a327dee | 2014-07-23 06:55:21 -0600 | [diff] [blame] | 632 | uclass, and this data has nothing to do with the child data for each child |
Simon Glass | 2017aae | 2015-01-25 08:27:20 -0700 | [diff] [blame] | 633 | on the bus. It is the bus' uclass that controls the child with respect to |
| 634 | the bus. |
Simon Glass | a327dee | 2014-07-23 06:55:21 -0600 | [diff] [blame] | 635 | |
| 636 | |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 637 | Driver Lifecycle |
| 638 | ---------------- |
| 639 | |
| 640 | Here are the stages that a device goes through in driver model. Note that all |
| 641 | methods mentioned here are optional - e.g. if there is no probe() method for |
| 642 | a device then it will not be called. A simple device may have very few |
| 643 | methods actually defined. |
| 644 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 645 | Bind stage |
| 646 | ^^^^^^^^^^ |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 647 | |
Stephen Warren | daac3bf | 2016-05-11 15:26:24 -0600 | [diff] [blame] | 648 | U-Boot discovers devices using one of these two methods: |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 649 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 650 | - Scan the U_BOOT_DEVICE() definitions. U-Boot looks up the name specified |
| 651 | by each, to find the appropriate U_BOOT_DRIVER() definition. In this case, |
| 652 | there is no path by which driver_data may be provided, but the U_BOOT_DEVICE() |
| 653 | may provide platdata. |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 654 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 655 | - Scan through the device tree definitions. U-Boot looks at top-level |
| 656 | nodes in the the device tree. It looks at the compatible string in each node |
| 657 | and uses the of_match table of the U_BOOT_DRIVER() structure to find the |
| 658 | right driver for each node. In this case, the of_match table may provide a |
| 659 | driver_data value, but platdata cannot be provided until later. |
Stephen Warren | daac3bf | 2016-05-11 15:26:24 -0600 | [diff] [blame] | 660 | |
| 661 | For each device that is discovered, U-Boot then calls device_bind() to create a |
| 662 | new device, initializes various core fields of the device object such as name, |
| 663 | uclass & driver, initializes any optional fields of the device object that are |
| 664 | applicable such as of_offset, driver_data & platdata, and finally calls the |
| 665 | driver's bind() method if one is defined. |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 666 | |
| 667 | At this point all the devices are known, and bound to their drivers. There |
| 668 | is a 'struct udevice' allocated for all devices. However, nothing has been |
| 669 | activated (except for the root device). Each bound device that was created |
| 670 | from a U_BOOT_DEVICE() declaration will hold the platdata pointer specified |
| 671 | in that declaration. For a bound device created from the device tree, |
| 672 | platdata will be NULL, but of_offset will be the offset of the device tree |
| 673 | node that caused the device to be created. The uclass is set correctly for |
| 674 | the device. |
| 675 | |
| 676 | The device's bind() method is permitted to perform simple actions, but |
| 677 | should not scan the device tree node, not initialise hardware, nor set up |
| 678 | structures or allocate memory. All of these tasks should be left for |
| 679 | the probe() method. |
| 680 | |
| 681 | Note that compared to Linux, U-Boot's driver model has a separate step of |
| 682 | probe/remove which is independent of bind/unbind. This is partly because in |
| 683 | U-Boot it may be expensive to probe devices and we don't want to do it until |
| 684 | they are needed, or perhaps until after relocation. |
| 685 | |
Simon Glass | b0dcc87 | 2020-04-05 15:38:19 -0600 | [diff] [blame] | 686 | Reading ofdata |
| 687 | ^^^^^^^^^^^^^^ |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 688 | |
Simon Glass | b0dcc87 | 2020-04-05 15:38:19 -0600 | [diff] [blame] | 689 | Most devices have data in the device tree which they can read to find out the |
| 690 | base address of hardware registers and parameters relating to driver |
| 691 | operation. This is called 'ofdata' (Open-Firmware data). |
| 692 | |
| 693 | The device's_ofdata_to_platdata() implemnents allocation and reading of |
| 694 | platdata. A parent's ofdata is always read before a child. |
| 695 | |
| 696 | The steps are: |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 697 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 698 | 1. If priv_auto_alloc_size is non-zero, then the device-private space |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 699 | is allocated for the device and zeroed. It will be accessible as |
| 700 | dev->priv. The driver can put anything it likes in there, but should use |
| 701 | it for run-time information, not platform data (which should be static |
| 702 | and known before the device is probed). |
| 703 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 704 | 2. If platdata_auto_alloc_size is non-zero, then the platform data space |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 705 | is allocated. This is only useful for device tree operation, since |
| 706 | otherwise you would have to specific the platform data in the |
| 707 | U_BOOT_DEVICE() declaration. The space is allocated for the device and |
| 708 | zeroed. It will be accessible as dev->platdata. |
| 709 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 710 | 3. If the device's uclass specifies a non-zero per_device_auto_alloc_size, |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 711 | then this space is allocated and zeroed also. It is allocated for and |
| 712 | stored in the device, but it is uclass data. owned by the uclass driver. |
| 713 | It is possible for the device to access it. |
| 714 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 715 | 4. If the device's immediate parent specifies a per_child_auto_alloc_size |
Simon Glass | e59f458 | 2014-07-23 06:55:20 -0600 | [diff] [blame] | 716 | then this space is allocated. This is intended for use by the parent |
| 717 | device to keep track of things related to the child. For example a USB |
| 718 | flash stick attached to a USB host controller would likely use this |
| 719 | space. The controller can hold information about the USB state of each |
| 720 | of its children. |
| 721 | |
Simon Glass | b0dcc87 | 2020-04-05 15:38:19 -0600 | [diff] [blame] | 722 | 5. If the driver provides an ofdata_to_platdata() method, then this is |
| 723 | called to convert the device tree data into platform data. This should |
| 724 | do various calls like dev_read_u32(dev, ...) to access the node and store |
| 725 | the resulting information into dev->platdata. After this point, the device |
| 726 | works the same way whether it was bound using a device tree node or |
| 727 | U_BOOT_DEVICE() structure. In either case, the platform data is now stored |
| 728 | in the platdata structure. Typically you will use the |
| 729 | platdata_auto_alloc_size feature to specify the size of the platform data |
| 730 | structure, and U-Boot will automatically allocate and zero it for you before |
| 731 | entry to ofdata_to_platdata(). But if not, you can allocate it yourself in |
| 732 | ofdata_to_platdata(). Note that it is preferable to do all the device tree |
| 733 | decoding in ofdata_to_platdata() rather than in probe(). (Apart from the |
| 734 | ugliness of mixing configuration and run-time data, one day it is possible |
| 735 | that U-Boot will cache platform data for devices which are regularly |
| 736 | de/activated). |
| 737 | |
| 738 | 5. The device is marked 'platdata valid'. |
| 739 | |
| 740 | Note that ofdata reading is always done (for a child and all its parents) |
| 741 | before probing starts. Thus devices go through two distinct states when |
| 742 | probing: reading platform data and actually touching the hardware to bring |
| 743 | the device up. |
| 744 | |
| 745 | Having probing separate from ofdata-reading helps deal with of-platdata, where |
| 746 | the probe() method is common to both DT/of-platdata operation, but the |
| 747 | ofdata_to_platdata() method is implemented differently. |
| 748 | |
| 749 | Another case has come up where this separate is useful. Generation of ACPI |
| 750 | tables uses the of-platdata but does not want to probe the device. Probing |
| 751 | would cause U-Boot to violate one of its design principles, viz that it |
| 752 | should only probe devices that are used. For ACPI we want to generate a |
| 753 | table for each device, even if U-Boot does not use it. In fact it may not |
| 754 | even be possible to probe the device - e.g. an SD card which is not |
| 755 | present will cause an error on probe, yet we still must tell Linux about |
| 756 | the SD card connector in case it is used while Linux is running. |
| 757 | |
| 758 | It is important that the ofdata_to_platdata() method does not actually probe |
| 759 | the device itself. However there are cases where other devices must be probed |
| 760 | in the ofdata_to_platdata() method. An example is where a device requires a |
| 761 | GPIO for it to operate. To select a GPIO obviously requires that the GPIO |
| 762 | device is probed. This is OK when used by common, core devices such as GPIO, |
| 763 | clock, interrupts, reset and the like. |
| 764 | |
| 765 | If your device relies on its parent setting up a suitable address space, so |
| 766 | that dev_read_addr() works correctly, then make sure that the parent device |
| 767 | has its setup code in ofdata_to_platdata(). If it has it in the probe method, |
| 768 | then you cannot call dev_read_addr() from the child device's |
| 769 | ofdata_to_platdata() method. Move it to probe() instead. Buses like PCI can |
| 770 | fall afoul of this rule. |
| 771 | |
| 772 | Activation/probe |
| 773 | ^^^^^^^^^^^^^^^^ |
| 774 | |
| 775 | When a device needs to be used, U-Boot activates it, by first reading ofdata |
| 776 | as above and then following these steps (see device_probe()): |
| 777 | |
| 778 | 1. All parent devices are probed. It is not possible to activate a device |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 779 | unless its predecessors (all the way up to the root device) are activated. |
| 780 | This means (for example) that an I2C driver will require that its bus |
| 781 | be activated. |
| 782 | |
Simon Glass | b0dcc87 | 2020-04-05 15:38:19 -0600 | [diff] [blame] | 783 | 2. The device's sequence number is assigned, either the requested one |
Simon Glass | 5a66a8f | 2014-07-23 06:55:12 -0600 | [diff] [blame] | 784 | (assuming no conflicts) or the next available one if there is a conflict |
| 785 | or nothing particular is requested. |
| 786 | |
Simon Glass | b0dcc87 | 2020-04-05 15:38:19 -0600 | [diff] [blame] | 787 | 4. The device's probe() method is called. This should do anything that |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 788 | is required by the device to get it going. This could include checking |
| 789 | that the hardware is actually present, setting up clocks for the |
| 790 | hardware and setting up hardware registers to initial values. The code |
| 791 | in probe() can access: |
| 792 | |
| 793 | - platform data in dev->platdata (for configuration) |
| 794 | - private data in dev->priv (for run-time state) |
| 795 | - uclass data in dev->uclass_priv (for things the uclass stores |
| 796 | about this device) |
| 797 | |
| 798 | Note: If you don't use priv_auto_alloc_size then you will need to |
| 799 | allocate the priv space here yourself. The same applies also to |
| 800 | platdata_auto_alloc_size. Remember to free them in the remove() method. |
| 801 | |
Simon Glass | b0dcc87 | 2020-04-05 15:38:19 -0600 | [diff] [blame] | 802 | 5. The device is marked 'activated' |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 803 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 804 | 10. The uclass's post_probe() method is called, if one exists. This may |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 805 | cause the uclass to do some housekeeping to record the device as |
| 806 | activated and 'known' by the uclass. |
| 807 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 808 | Running stage |
| 809 | ^^^^^^^^^^^^^ |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 810 | |
| 811 | The device is now activated and can be used. From now until it is removed |
| 812 | all of the above structures are accessible. The device appears in the |
| 813 | uclass's list of devices (so if the device is in UCLASS_GPIO it will appear |
| 814 | as a device in the GPIO uclass). This is the 'running' state of the device. |
| 815 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 816 | Removal stage |
| 817 | ^^^^^^^^^^^^^ |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 818 | |
| 819 | When the device is no-longer required, you can call device_remove() to |
| 820 | remove it. This performs the probe steps in reverse: |
| 821 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 822 | 1. The uclass's pre_remove() method is called, if one exists. This may |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 823 | cause the uclass to do some housekeeping to record the device as |
| 824 | deactivated and no-longer 'known' by the uclass. |
| 825 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 826 | 2. All the device's children are removed. It is not permitted to have |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 827 | an active child device with a non-active parent. This means that |
| 828 | device_remove() is called for all the children recursively at this point. |
| 829 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 830 | 3. The device's remove() method is called. At this stage nothing has been |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 831 | deallocated so platform data, private data and the uclass data will all |
| 832 | still be present. This is where the hardware can be shut down. It is |
| 833 | intended that the device be completely inactive at this point, For U-Boot |
| 834 | to be sure that no hardware is running, it should be enough to remove |
| 835 | all devices. |
| 836 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 837 | 4. The device memory is freed (platform data, private data, uclass data, |
Simon Glass | e59f458 | 2014-07-23 06:55:20 -0600 | [diff] [blame] | 838 | parent data). |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 839 | |
| 840 | Note: Because the platform data for a U_BOOT_DEVICE() is defined with a |
| 841 | static pointer, it is not de-allocated during the remove() method. For |
| 842 | a device instantiated using the device tree data, the platform data will |
| 843 | be dynamically allocated, and thus needs to be deallocated during the |
| 844 | remove() method, either: |
| 845 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 846 | - if the platdata_auto_alloc_size is non-zero, the deallocation |
| 847 | happens automatically within the driver model core; or |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 848 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 849 | - when platdata_auto_alloc_size is 0, both the allocation (in probe() |
| 850 | or preferably ofdata_to_platdata()) and the deallocation in remove() |
| 851 | are the responsibility of the driver author. |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 852 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 853 | 5. The device sequence number is set to -1, meaning that it no longer |
Simon Glass | 5a66a8f | 2014-07-23 06:55:12 -0600 | [diff] [blame] | 854 | has an allocated sequence. If the device is later reactivated and that |
| 855 | sequence number is still free, it may well receive the name sequence |
| 856 | number again. But from this point, the sequence number previously used |
| 857 | by this device will no longer exist (think of SPI bus 2 being removed |
| 858 | and bus 2 is no longer available for use). |
| 859 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 860 | 6. The device is marked inactive. Note that it is still bound, so the |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 861 | device structure itself is not freed at this point. Should the device be |
| 862 | activated again, then the cycle starts again at step 2 above. |
| 863 | |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 864 | Unbind stage |
| 865 | ^^^^^^^^^^^^ |
Simon Glass | 22ec136 | 2014-06-11 23:29:55 -0600 | [diff] [blame] | 866 | |
| 867 | The device is unbound. This is the step that actually destroys the device. |
| 868 | If a parent has children these will be destroyed first. After this point |
| 869 | the device does not exist and its memory has be deallocated. |
| 870 | |
| 871 | |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 872 | Data Structures |
| 873 | --------------- |
| 874 | |
| 875 | Driver model uses a doubly-linked list as the basic data structure. Some |
| 876 | nodes have several lists running through them. Creating a more efficient |
| 877 | data structure might be worthwhile in some rare cases, once we understand |
| 878 | what the bottlenecks are. |
| 879 | |
| 880 | |
| 881 | Changes since v1 |
| 882 | ---------------- |
| 883 | |
| 884 | For the record, this implementation uses a very similar approach to the |
| 885 | original patches, but makes at least the following changes: |
| 886 | |
Chris Packham | 34e4a2e | 2014-06-07 10:35:55 +1200 | [diff] [blame] | 887 | - Tried to aggressively remove boilerplate, so that for most drivers there |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 888 | is little or no 'driver model' code to write. |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 889 | - Moved some data from code into data structure - e.g. store a pointer to |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 890 | the driver operations structure in the driver, rather than passing it |
| 891 | to the driver bind function. |
Simon Glass | ae7f451 | 2014-06-11 23:29:45 -0600 | [diff] [blame] | 892 | - Rename some structures to make them more similar to Linux (struct udevice |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 893 | instead of struct instance, struct platdata, etc.) |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 894 | - Change the name 'core' to 'uclass', meaning U-Boot class. It seems that |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 895 | this concept relates to a class of drivers (or a subsystem). We shouldn't |
| 896 | use 'class' since it is a C++ reserved word, so U-Boot class (uclass) seems |
| 897 | better than 'core'. |
Heiko Schocher | 54c5d08 | 2014-05-22 12:43:05 +0200 | [diff] [blame] | 898 | - Remove 'struct driver_instance' and just use a single 'struct udevice'. |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 899 | This removes a level of indirection that doesn't seem necessary. |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 900 | - Built in device tree support, to avoid the need for platdata |
| 901 | - Removed the concept of driver relocation, and just make it possible for |
Bin Meng | ed205e6 | 2019-07-18 00:33:49 -0700 | [diff] [blame] | 902 | the new driver (created after relocation) to access the old driver data. |
| 903 | I feel that relocation is a very special case and will only apply to a few |
| 904 | drivers, many of which can/will just re-init anyway. So the overhead of |
| 905 | dealing with this might not be worth it. |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 906 | - Implemented a GPIO system, trying to keep it simple |
| 907 | |
| 908 | |
Simon Glass | 00606d7 | 2014-07-23 06:55:03 -0600 | [diff] [blame] | 909 | Pre-Relocation Support |
| 910 | ---------------------- |
| 911 | |
| 912 | For pre-relocation we simply call the driver model init function. Only |
Bin Meng | 1a6bd47 | 2018-10-24 06:36:40 -0700 | [diff] [blame] | 913 | drivers marked with DM_FLAG_PRE_RELOC or the device tree 'u-boot,dm-pre-reloc' |
| 914 | property are initialised prior to relocation. This helps to reduce the driver |
| 915 | model overhead. This flag applies to SPL and TPL as well, if device tree is |
| 916 | enabled (CONFIG_OF_CONTROL) there. |
| 917 | |
| 918 | Note when device tree is enabled, the device tree 'u-boot,dm-pre-reloc' |
| 919 | property can provide better control granularity on which device is bound |
| 920 | before relocation. While with DM_FLAG_PRE_RELOC flag of the driver all |
| 921 | devices with the same driver are bound, which requires allocation a large |
| 922 | amount of memory. When device tree is not used, DM_FLAG_PRE_RELOC is the |
| 923 | only way for statically declared devices via U_BOOT_DEVICE() to be bound |
| 924 | prior to relocation. |
Simon Glass | 00606d7 | 2014-07-23 06:55:03 -0600 | [diff] [blame] | 925 | |
Heiko Stübner | 27326c7 | 2017-02-18 19:46:21 +0100 | [diff] [blame] | 926 | It is possible to limit this to specific relocation steps, by using |
| 927 | the more specialized 'u-boot,dm-spl' and 'u-boot,dm-tpl' flags |
Simon Glass | 06f9446 | 2018-10-01 12:22:18 -0600 | [diff] [blame] | 928 | in the device tree node. For U-Boot proper you can use 'u-boot,dm-pre-proper' |
| 929 | which means that it will be processed (and a driver bound) in U-Boot proper |
| 930 | prior to relocation, but will not be available in SPL or TPL. |
Heiko Stübner | 27326c7 | 2017-02-18 19:46:21 +0100 | [diff] [blame] | 931 | |
Patrick Delaunay | 54e1223 | 2019-05-21 19:19:13 +0200 | [diff] [blame] | 932 | To reduce the size of SPL and TPL, only the nodes with pre-relocation properties |
| 933 | ('u-boot,dm-pre-reloc', 'u-boot,dm-spl' or 'u-boot,dm-tpl') are keept in their |
| 934 | device trees (see README.SPL for details); the remaining nodes are always bound. |
| 935 | |
Simon Glass | 00606d7 | 2014-07-23 06:55:03 -0600 | [diff] [blame] | 936 | Then post relocation we throw that away and re-init driver model again. |
| 937 | For drivers which require some sort of continuity between pre- and |
| 938 | post-relocation devices, we can provide access to the pre-relocation |
| 939 | device pointers, but this is not currently implemented (the root device |
| 940 | pointer is saved but not made available through the driver model API). |
| 941 | |
| 942 | |
Simon Glass | 38687ae | 2014-11-10 17:16:54 -0700 | [diff] [blame] | 943 | SPL Support |
| 944 | ----------- |
| 945 | |
| 946 | Driver model can operate in SPL. Its efficient implementation and small code |
| 947 | size provide for a small overhead which is acceptable for all but the most |
| 948 | constrained systems. |
| 949 | |
| 950 | To enable driver model in SPL, define CONFIG_SPL_DM. You might want to |
| 951 | consider the following option also. See the main README for more details. |
| 952 | |
| 953 | - CONFIG_SYS_MALLOC_SIMPLE |
| 954 | - CONFIG_DM_WARN |
| 955 | - CONFIG_DM_DEVICE_REMOVE |
| 956 | - CONFIG_DM_STDIO |
| 957 | |
| 958 | |
| 959 | Enabling Driver Model |
| 960 | --------------------- |
| 961 | |
| 962 | Driver model is being brought into U-Boot gradually. As each subsystems gets |
| 963 | support, a uclass is created and a CONFIG to enable use of driver model for |
| 964 | that subsystem. |
| 965 | |
| 966 | For example CONFIG_DM_SERIAL enables driver model for serial. With that |
| 967 | defined, the old serial support is not enabled, and your serial driver must |
| 968 | conform to driver model. With that undefined, the old serial support is |
| 969 | enabled and driver model is not available for serial. This means that when |
| 970 | you convert a driver, you must either convert all its boards, or provide for |
| 971 | the driver to be compiled both with and without driver model (generally this |
| 972 | is not very hard). |
| 973 | |
| 974 | See the main README for full details of the available driver model CONFIG |
| 975 | options. |
| 976 | |
| 977 | |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 978 | Things to punt for later |
| 979 | ------------------------ |
| 980 | |
Simon Glass | 65c7053 | 2014-02-26 15:59:17 -0700 | [diff] [blame] | 981 | Uclasses are statically numbered at compile time. It would be possible to |
| 982 | change this to dynamic numbering, but then we would require some sort of |
| 983 | lookup service, perhaps searching by name. This is slightly less efficient |
| 984 | so has been left out for now. One small advantage of dynamic numbering might |
| 985 | be fewer merge conflicts in uclass-id.h. |