xref: /openbmc/u-boot/dts/Kconfig (revision c68c03f5)
1#
2# Device Tree Control
3#
4
5config SUPPORT_OF_CONTROL
6	bool
7
8config DTC
9	bool
10
11menu "Device Tree Control"
12	depends on SUPPORT_OF_CONTROL
13
14config OF_CONTROL
15	bool "Run-time configuration via Device Tree"
16	select DTC
17	help
18	  This feature provides for run-time configuration of U-Boot
19	  via a flattened device tree.
20
21config OF_BOARD_FIXUP
22	bool "Board-specific manipulation of Device Tree"
23	help
24	  In certain circumstances it is necessary to be able to modify
25	  U-Boot's device tree (e.g. to delete device from it). This option
26	  make the Device Tree writeable and provides a board-specific
27	  "board_fix_fdt" callback (called during pre-relocation time), which
28	  enables the board initialization to modifiy the Device Tree. The
29	  modified copy is subsequently used by U-Boot after relocation.
30
31config SPL_OF_CONTROL
32	bool "Enable run-time configuration via Device Tree in SPL"
33	depends on SPL && OF_CONTROL
34	help
35	  Some boards use device tree in U-Boot but only have 4KB of SRAM
36	  which is not enough to support device tree. Enable this option to
37	  allow such boards to be supported by U-Boot SPL.
38
39config TPL_OF_CONTROL
40	bool "Enable run-time configuration via Device Tree in TPL"
41	depends on TPL && OF_CONTROL
42	help
43	  Some boards use device tree in U-Boot but only have 4KB of SRAM
44	  which is not enough to support device tree. Enable this option to
45	  allow such boards to be supported by U-Boot TPL.
46
47config OF_LIVE
48	bool "Enable use of a live tree"
49	depends on OF_CONTROL
50	help
51	  Normally U-Boot uses a flat device tree which saves space and
52	  avoids the need to unpack the tree before use. However a flat
53	  tree does not support modifcation from within U-Boot since it
54	  can invalidate driver-model device tree offsets. This option
55	  enables a live tree which is available after relocation,
56	  and can be adjusted as needed.
57
58choice
59	prompt "Provider of DTB for DT control"
60	depends on OF_CONTROL
61
62config OF_SEPARATE
63	bool "Separate DTB for DT control"
64	depends on !SANDBOX
65	help
66	  If this option is enabled, the device tree will be built and
67	  placed as a separate u-boot.dtb file alongside the U-Boot image.
68
69config OF_EMBED
70	bool "Embedded DTB for DT control"
71	help
72	  If this option is enabled, the device tree will be picked up and
73	  built into the U-Boot image. This is suitable for local debugging
74	  and development only and is not recommended for production devices.
75	  Boards in the mainline U-Boot tree should not use it.
76
77config OF_BOARD
78	bool "Provided by the board at runtime"
79	depends on !SANDBOX
80	help
81	  If this option is enabled, the device tree will be provided by
82	  the board at runtime if the board supports it, instead of being
83	  bundled with the image.
84
85config OF_HOSTFILE
86	bool "Host filed DTB for DT control"
87	depends on SANDBOX
88	help
89	  If this option is enabled, DTB will be read from a file on startup.
90	  This is only useful for Sandbox.  Use the -d flag to U-Boot to
91	  specify the file to read.
92
93endchoice
94
95config DEFAULT_DEVICE_TREE
96	string "Default Device Tree for DT control"
97	depends on OF_CONTROL
98	help
99	  This option specifies the default Device Tree used for DT control.
100	  It can be overridden from the command line:
101	  $ make DEVICE_TREE=<device-tree-name>
102
103config OF_LIST
104	string "List of device tree files to include for DT control"
105	depends on SPL_LOAD_FIT || MULTI_DTB_FIT
106	default DEFAULT_DEVICE_TREE
107	help
108	  This option specifies a list of device tree files to use for DT
109	  control. These will be packaged into a FIT. At run-time, U-boot
110	  or SPL will select the correct DT to use by examining the
111	  hardware (e.g. reading a board ID value). This is a list of
112	  device tree files (without the directory or .dtb suffix)
113	  separated by <space>.
114
115
116config DTB_RESELECT
117	bool "Support swapping dtbs at a later point in boot"
118	depends on MULTI_DTB_FIT
119	help
120	  It is possible during initial boot you may need to use a generic
121	  dtb until you can fully determine the board your running on. This
122	  config allows boards to implement a function at a later point
123	  during boot to switch to the "correct" dtb.
124
125config MULTI_DTB_FIT
126	bool "Support embedding several DTBs in a FIT image for u-boot"
127	help
128	  This option provides hooks to allow U-boot to parse an
129	  appended FIT image and enable board specific code to then select
130	  the correct DTB to be used. Use this if you need to support
131	  multiple DTBs but don't use the SPL.
132
133
134config SPL_MULTI_DTB_FIT
135	depends on SPL_LOAD_FIT && SPL_OF_CONTROL && !SPL_OF_PLATDATA
136	bool "Support embedding several DTBs in a FIT image for the SPL"
137	help
138	  This option provides the SPL with the ability to select its own
139	  DTB at runtime from an appended FIT image containing several DTBs.
140	  This allows using the same SPL binary on multiple platforms.
141	  The primary purpose is to handle different versions of
142	  the same platform without tweaking the platform code if the
143	  differences can be expressed in the DTBs (common examples are: bus
144	  capabilities, pad configurations).
145
146config SPL_OF_LIST
147	string "List of device tree files to include for DT control in SPL"
148	depends on SPL_MULTI_DTB_FIT
149	default OF_LIST
150	help
151	  This option specifies a list of device tree files to use for DT
152	  control in the SPL. These will be packaged into a FIT. At run-time,
153	  the SPL will select the correct DT to use by examining the
154	  hardware (e.g. reading a board ID value). This is a list of
155	  device tree files (without the directory or .dtb suffix)
156	  separated by <space>.
157
158choice
159	prompt "SPL OF LIST compression"
160	depends on SPL_MULTI_DTB_FIT
161	default SPL_MULTI_DTB_FIT_LZO
162
163config SPL_MULTI_DTB_FIT_LZO
164	bool "LZO"
165	depends on SYS_MALLOC_F
166	select SPL_LZO
167	help
168	  Compress the FIT image containing the DTBs available for the SPL
169	  using LZO compression. (requires lzop on host).
170
171config SPL_MULTI_DTB_FIT_GZIP
172	bool "GZIP"
173	depends on SYS_MALLOC_F
174	select SPL_GZIP
175	help
176	  Compress the FIT image containing the DTBs available for the SPL
177	  using GZIP compression. (requires gzip on host)
178
179config SPL_MULTI_DTB_FIT_NO_COMPRESSION
180	bool "No compression"
181	help
182	  Do not compress the FIT image containing the DTBs available for the SPL.
183	  Use this options only if LZO is not available and the DTBs are very small.
184endchoice
185
186choice
187	prompt "Location of uncompressed DTBs "
188	depends on (SPL_MULTI_DTB_FIT_GZIP || SPL_MULTI_DTB_FIT_LZO)
189	default SPL_MULTI_DTB_FIT_DYN_ALLOC if SYS_MALLOC_F
190
191config SPL_MULTI_DTB_FIT_DYN_ALLOC
192	bool "Dynamically allocate the memory"
193	depends on SYS_MALLOC_F
194
195config SPL_MULTI_DTB_FIT_USER_DEFINED_AREA
196	bool "User-defined location"
197endchoice
198
199config SPL_MULTI_DTB_FIT_UNCOMPRESS_SZ
200	hex "Size of memory reserved to uncompress the DTBs"
201	depends on (SPL_MULTI_DTB_FIT_GZIP || SPL_MULTI_DTB_FIT_LZO)
202	default 0x8000
203	help
204	   This is the size of this area where the DTBs are uncompressed.
205	   If this area is dynamically allocated, make sure that
206	   SPL_SYS_MALLOC_F_LEN is big enough to contain it.
207
208config SPL_MULTI_DTB_FIT_USER_DEF_ADDR
209	hex "Address of memory where dtbs are uncompressed"
210	depends on SPL_MULTI_DTB_FIT_USER_DEFINED_AREA
211	help
212	   the FIT image containing the DTBs is uncompressed in an area defined
213	   at compilation time. This is the address of this area. It must be
214	   aligned on 2-byte boundary.
215
216config OF_SPL_REMOVE_PROPS
217	string "List of device tree properties to drop for SPL"
218	depends on SPL_OF_CONTROL
219	default "interrupt-parent" if SPL_PINCTRL && SPL_CLK
220	default "clocks clock-names interrupt-parent" if SPL_PINCTRL
221	default "pinctrl-0 pinctrl-names interrupt-parent" if SPL_CLK
222	default "pinctrl-0 pinctrl-names clocks clock-names interrupt-parent"
223	help
224	  Since SPL normally runs in a reduced memory space, the device tree
225	  is cut down to only what is needed to load and start U-Boot. Only
226	  nodes marked with the property "u-boot,dm-pre-reloc" will be
227	  included. In addition, some properties are not used by U-Boot and
228	  can be discarded. This option defines the list of properties to
229	  discard.
230
231config SPL_OF_PLATDATA
232	bool "Generate platform data for use in SPL"
233	depends on SPL_OF_CONTROL
234	help
235	  For very constrained SPL environments the overhead of decoding
236	  device tree nodes and converting their contents into platform data
237	  is too large. This overhead includes libfdt code as well as the
238	  device tree contents itself. The latter is fairly compact, but the
239	  former can add 3KB or more to a Thumb 2 Image.
240
241	  This option enables generation of platform data from the device
242	  tree as C code. This code creates devices using U_BOOT_DEVICE()
243	  declarations. The benefit is that it allows driver code to access
244	  the platform data directly in C structures, avoidin the libfdt
245	  overhead.
246
247	  This option works by generating C structure declarations for each
248	  compatible string, then adding platform data and U_BOOT_DEVICE
249	  declarations for each node. See README.platdata for more
250	  information.
251
252config TPL_OF_PLATDATA
253	bool "Generate platform data for use in TPL"
254	depends on TPL_OF_CONTROL
255	help
256	  For very constrained SPL environments the overhead of decoding
257	  device tree nodes and converting their contents into platform data
258	  is too large. This overhead includes libfdt code as well as the
259	  device tree contents itself. The latter is fairly compact, but the
260	  former can add 3KB or more to a Thumb 2 Image.
261
262	  This option enables generation of platform data from the device
263	  tree as C code. This code creates devices using U_BOOT_DEVICE()
264	  declarations. The benefit is that it allows driver code to access
265	  the platform data directly in C structures, avoidin the libfdt
266	  overhead.
267
268	  This option works by generating C structure declarations for each
269	  compatible string, then adding platform data and U_BOOT_DEVICE
270	  declarations for each node. See README.platdata for more
271	  information.
272
273endmenu
274
275config MKIMAGE_DTC_PATH
276	string "Path to dtc binary for use within mkimage"
277	default "dtc"
278	help
279	  The mkimage host tool will, in order to generate FIT images make
280	  calls to the dtc application in order to create the output.  In
281	  some cases the system dtc may not support all required features
282	  and the path to a different version should be given here.
283