1 menu "Generic Driver Options"
6 This config option enables Driver Model. This brings in the core
7 support, including scanning of platform data on start-up. If
8 CONFIG_OF_CONTROL is enabled, the device tree will be scanned also
12 bool "Enable Driver Model for SPL"
15 Enable driver model in SPL. You will need to provide a
16 suitable malloc() implementation. If you are not using the
17 full malloc() enabled by CFG_SYS_SPL_MALLOC_START,
18 consider using CONFIG_SPL_SYS_MALLOC_SIMPLE. In that case you
19 must provide CONFIG_SPL_SYS_MALLOC_F_LEN to set the size.
20 In most cases driver model will only allocate a few uclasses
21 and devices in SPL, so 1KB should be enough. See
22 CONFIG_SPL_SYS_MALLOC_F_LEN for more details on how to enable it.
25 bool "Enable Driver Model for TPL"
28 Enable driver model in TPL. You will need to provide a
29 suitable malloc() implementation. If you are not using the
30 full malloc() enabled by CFG_SYS_SPL_MALLOC_START,
31 consider using CONFIG_TPL_SYS_MALLOC_SIMPLE. In that case you
32 must provide CONFIG_SPL_SYS_MALLOC_F_LEN to set the size.
33 In most cases driver model will only allocate a few uclasses
34 and devices in SPL, so 1KB should be enough. See
35 CONFIG_SPL_SYS_MALLOC_F_LEN for more details on how to enable it.
36 Disable this for very small implementations.
39 bool "Enable Driver Model for VPL"
43 Enable driver model in VPL. You will need to provide a
44 suitable malloc() implementation. If you are not using the
45 full malloc() enabled by CFG_SYS_SPL_MALLOC_START,
46 consider using CONFIG_SPL_SYS_MALLOC_SIMPLE.
49 bool "Enable warnings in driver model"
53 Enable this to see warnings related to driver model.
55 Warnings may help with debugging, such as when expected devices do
56 not bind correctly. If the option is disabled, dm_warn() is compiled
57 out - it will do nothing when called.
60 bool "Enable warnings in driver model wuth SPL"
63 Enable this to see warnings related to driver model in SPL
65 The dm_warn() function can use up quite a bit of space for its
66 strings. By default this is disabled for SPL builds to save space.
68 Warnings may help with debugging, such as when expected devices do
69 not bind correctly. If the option is disabled, dm_warn() is compiled
70 out - it will do nothing when called.
73 bool "Enable debug messages in driver model core"
76 Say Y here if you want to compile in debug messages in DM core.
79 bool "Collect and show driver model stats"
83 Enable this to collect and display memory statistics about driver
84 model. This can help to figure out where all the memory is going and
85 to find optimisations.
87 To display the memory stats, use the 'dm mem' command.
90 bool "Collect and show driver model stats in SPL"
93 Enable this to collect and display memory statistics about driver
94 model. This can help to figure out where all the memory is going and
95 to find optimisations.
97 The stats are displayed just before SPL boots to the next phase.
99 config DM_DEVICE_REMOVE
100 bool "Support device removal"
104 We can save some code space by dropping support for removing a
107 Note that this may have undesirable results in the USB subsystem as
108 it causes unplugged devices to linger around in the dm-tree, and it
109 causes USB host controllers to not be stopped when booting the OS.
112 bool "Support events with driver model"
113 depends on DM && EVENT
116 This enables support for generating events related to driver model
117 operations, such as prbing or removing a device. Subsystems can
118 register a 'spy' function that is called when the event occurs.
120 config SPL_DM_DEVICE_REMOVE
121 bool "Support device removal in SPL"
124 We can save some code space by dropping support for removing a
125 device. This is not normally required in SPL, so by default this
126 option is disabled for SPL.
129 bool "Support stdio registration"
133 Normally serial drivers register with stdio so that they can be used
134 as normal output devices. In SPL we don't normally use stdio, so
135 we can omit this feature.
138 bool "Support numbered aliases in device tree"
142 Most boards will have a '/aliases' node containing the path to
143 numbered devices (e.g. serial0 = &serial0). This feature can be
144 disabled if it is not required.
146 config SPL_DM_SEQ_ALIAS
147 bool "Support numbered aliases in device tree in SPL"
150 Most boards will have a '/aliases' node containing the path to
151 numbered devices (e.g. serial0 = &serial0). This feature can be
152 disabled if it is not required, to save code space in SPL.
154 config VPL_DM_SEQ_ALIAS
155 bool "Support numbered aliases in device tree in VPL"
159 Most boards will have a '/aliases' node containing the path to
160 numbered devices (e.g. serial0 = &serial0). This feature can be
161 disabled if it is not required, to save code space in VPL.
163 config SPL_DM_INLINE_OFNODE
164 bool "Inline some ofnode functions which are seldom used in SPL"
168 This applies to several ofnode functions (see ofnode.h) which are
169 seldom used. Inlining them can help reduce code size.
171 config TPL_DM_INLINE_OFNODE
172 bool "Inline some ofnode functions which are seldom used in TPL"
176 This applies to several ofnode functions (see ofnode.h) which are
177 seldom used. Inlining them can help reduce code size.
180 bool "Support per-device DMA constraints"
183 Enable this to extract per-device DMA constraints, only supported on
184 device-tree systems for now. This is needed in order translate
185 addresses on systems where different buses have different views of
186 the physical address space.
189 bool "Support register maps"
192 Hardware peripherals tend to have one or more sets of registers
193 which can be accessed to control the hardware. A register map
194 models this with a simple read/write interface. It can in principle
195 support any bus type (I2C, SPI) but so far this only supports
196 direct memory access.
199 bool "Support register maps in SPL"
202 Hardware peripherals tend to have one or more sets of registers
203 which can be accessed to control the hardware. A register map
204 models this with a simple read/write interface. It can in principle
205 support any bus type (I2C, SPI) but so far this only supports
206 direct memory access.
209 bool "Support register maps in TPL"
212 Hardware peripherals tend to have one or more sets of registers
213 which can be accessed to control the hardware. A register map
214 models this with a simple read/write interface. It can in principle
215 support any bus type (I2C, SPI) but so far this only supports
216 direct memory access.
219 bool "Support register maps in VPL"
222 Hardware peripherals tend to have one or more sets of registers
223 which can be accessed to control the hardware. A register map
224 models this with a simple read/write interface. It can in principle
225 support any bus type (I2C, SPI) but so far this only supports
226 direct memory access.
229 bool "Support system controllers"
232 Many SoCs have a number of system controllers which are dealt with
233 as a group by a single driver. Some common functionality is provided
234 by this uclass, including accessing registers via regmap and
235 assigning a unique number to each.
238 bool "Support system controllers in SPL"
239 depends on SPL_REGMAP
241 Many SoCs have a number of system controllers which are dealt with
242 as a group by a single driver. Some common functionality is provided
243 by this uclass, including accessing registers via regmap and
244 assigning a unique number to each.
247 bool "Support system controllers in TPL"
248 depends on TPL_REGMAP
250 Many SoCs have a number of system controllers which are dealt with
251 as a group by a single driver. Some common functionality is provided
252 by this uclass, including accessing registers via regmap and
253 assigning a unique number to each.
256 bool "Support system controllers in VPL"
257 depends on VPL_REGMAP
259 Many SoCs have a number of system controllers which are dealt with
260 as a group by a single driver. Some common functionality is provided
261 by this uclass, including accessing registers via regmap and
262 assigning a unique number to each.
265 bool "Managed device resources"
268 This option enables the Managed device resources core support.
269 Device resources managed by the devres framework are automatically
270 released whether initialization fails half-way or the device gets
273 If this option is disabled, devres functions fall back to
274 non-managed variants. For example, devres_alloc() to kzalloc(),
275 devm_kmalloc() to kmalloc(), etc.
278 bool "Managed device resources debugging functions"
281 If this option is enabled, devres debug messages are printed.
282 Also, a function is available to dump a list of device resources.
283 Select this if you are having a problem with devres or want to
284 debug resource management for a managed device.
286 If you are unsure about this, Say N here.
289 bool "Support simple-bus driver"
290 depends on DM && OF_CONTROL
293 Supports the 'simple-bus' driver, which is used on some systems.
295 config SPL_SIMPLE_BUS
296 bool "Support simple-bus driver in SPL"
297 depends on SPL_DM && SPL_OF_CONTROL
300 Supports the 'simple-bus' driver, which is used on some systems
303 config SIMPLE_BUS_CORRECT_RANGE
304 bool "Decode the 'simple-bus' <range> by honoring the #address-cells and #size-cells"
305 depends on SIMPLE_BUS
308 Decoding the 'simple-bus' <range> by honoring the #address-cells
309 and #size-cells of parent/child bus. If unset, #address-cells of
310 parent bus is assumed to be 1, #address-cells and #size-cells of
311 child bus is also assumed to be 1, to save some spaces of using
312 an advanced API to decode the <range>, which benefits SPL image
313 builds that have size limits.
315 If you are unsure about this, Say N here.
318 bool "Support simple-pm-bus driver"
319 depends on DM && OF_CONTROL && CLK && POWER_DOMAIN
321 Supports the 'simple-pm-bus' driver, which is used for busses that
322 have power domains and/or clocks which need to be enabled before use.
325 bool "Translate addresses using fdt_translate_address"
326 depends on DM && OF_CONTROL
329 If this option is enabled, the reg property will be translated
330 using the fdt_translate_address() function. This is necessary
331 on some platforms (e.g. MVEBU) using complex "ranges"
332 properties in many nodes. As this translation is not handled
333 correctly in the default simple_bus_translate() function.
335 If this option is not enabled, simple_bus_translate() will be
336 used for the address translation. This function is faster and
337 smaller in size than fdt_translate_address().
339 config SPL_OF_TRANSLATE
340 bool "Translate addresses using fdt_translate_address in SPL"
341 depends on SPL_DM && SPL_OF_CONTROL
343 If this option is enabled, the reg property will be translated
344 using the fdt_translate_address() function. This is necessary
345 on some platforms (e.g. MVEBU) using complex "ranges"
346 properties in many nodes. As this translation is not handled
347 correctly in the default simple_bus_translate() function.
349 If this option is not enabled, simple_bus_translate() will be
350 used for the address translation. This function is faster and
351 smaller in size than fdt_translate_address().
353 config TPL_OF_TRANSLATE
354 bool "Translate addresses using fdt_translate_address in TPL"
355 depends on TPL_DM && TPL_OF_CONTROL
357 If this option is enabled, the reg property will be translated
358 using the fdt_translate_address() function. This is necessary
359 on some platforms (e.g. MVEBU) using complex "ranges"
360 properties in many nodes. As this translation is not handled
361 correctly in the default simple_bus_translate() function.
363 If this option is not enabled, simple_bus_translate() will be
364 used for the address translation. This function is faster and
365 smaller in size than fdt_translate_address()
367 config VPL_OF_TRANSLATE
368 bool "Translate addresses using fdt_translate_address in SPL"
369 depends on SPL_DM && VPL_OF_CONTROL
371 If this option is enabled, the reg property will be translated
372 using the fdt_translate_address() function. This is necessary
373 on some platforms (e.g. MVEBU) using complex "ranges"
374 properties in many nodes. As this translation is not handled
375 correctly in the default simple_bus_translate() function.
377 If this option is not enabled, simple_bus_translate() will be
378 used for the address translation. This function is faster and
379 smaller in size than fdt_translate_address().
381 config TRANSLATION_OFFSET
382 bool "Platforms specific translation offset"
383 depends on DM && OF_CONTROL
385 Some platforms need a special address translation. Those
386 platforms (e.g. mvebu in SPL) can configure a translation
387 offset by enabling this option and setting the translation_offset
388 variable in the GD in their platform- / board-specific code.
392 depends on OF_TRANSLATE
394 Is this option is enabled then support for the ISA bus will
395 be included for addresses read from DT. This is something that
396 should be known to be required or not based upon the board
397 being targeted, and whether or not it makes use of an ISA bus.
399 The bus is matched based upon its node name equalling "isa". The
400 busses #address-cells should equal 2, with the first cell being
401 used to hold flags & flag 0x1 indicating that the address range
402 should be accessed using I/O port in/out accessors. The second
403 cell holds the offset into ISA bus address space. The #size-cells
404 property should equal 1, and of course holds the size of the
405 address range used by a device.
407 If this option is not enabled then support for the ISA bus is
408 not included and any such busses used in DT will be treated as
409 typical simple-bus compatible busses. This will lead to
410 mistranslation of device addresses, so ensure that this is
411 enabled if your board does include an ISA bus.
413 config DM_DEV_READ_INLINE
415 default y if !OF_LIVE
417 config OFNODE_MULTI_TREE
418 bool "Allow the ofnode interface to access any tree"
419 default y if EVENT && !DM_DEV_READ_INLINE && !DM_INLINE_OFNODE
421 Normally U-Boot makes use of its control FDT, the one used to bind
422 devices and provide options. In some cases, U-Boot must also process
423 a separate FDT, e.g. one provided by the operating system, which
424 needs additions to the /chosen node.
426 This works fine with live tree (OF_LIVE), but with flat tree the
427 offset provided in ofnode is only useful with the control FDT. This
428 option adds a 'tree ID' to the offset, so that multiple trees can
429 be used. Call oftree_from_fdt() to register a new tree.
431 config OFNODE_MULTI_TREE_MAX
432 int "Maximum number of FDTs"
434 depends on OFNODE_MULTI_TREE
437 Sets the maximum number of device trees which can be used with the
438 ofnode interface when using flat trees (OF_LIVE). This is only
439 available in U-Boot proper and only after relocation.
442 bool "Support ACPI table generation in driver model"
443 default y if SANDBOX || (GENERATE_ACPI_TABLE && !QEMU)
446 This option enables generation of ACPI tables using driver-model
447 devices. It adds a new operation struct to each driver, to support
448 things like generating device-specific tables and returning the ACPI
452 bool "Include bounce buffer API"
454 Some peripherals support DMA from a subset of physically
455 addressable memory only. To support such peripherals, the
456 bounce buffer API uses a temporary buffer: it copies data
457 to/from DMA regions while managing cache operations.
459 A second possible use of bounce buffers is their ability to
460 provide aligned buffers for DMA operations.