xref: /freebsd/share/man/man4/fdt.4 (revision ddd5b8e9b4d8957fce018c520657cdfa4ecffad3)
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31.Dd July 12, 2010
32.Dt FDT 4
33.Os
34.Sh NAME
35.Nm fdt
36.Nd Flattened Device Tree support
37.Sh SYNOPSIS
38.Cd "options FDT"
39.Cd "makeoptions FDT_DTS_FILE=<board name>.dts"
40.Cd "options FDT_DTB_STATIC"
41.Sh DESCRIPTION
42.Em Flattened Device Tree
43is a mechanism for describing computer hardware resources, which cannot be
44probed or self enumerated, in a uniform and portable way. The primary
45consumers of this technology are
46.Em embedded systems,
47where a lot of designs are based on similar chips, but have different
48assignment of pins, memory layout, addresses bindings, interrupts routing and
49other resources.
50.Pp
51Configuration data, which cannot be self discovered in run-time, has to be
52supplied from external source. The concept of a flattened device tree is a
53platform and architecture independent approach for resolving such problems.
54The idea is inherited from Open Firmware IEEE 1275 device-tree notion, and has
55been successfully adopted by the embedded industry. The scheme works in the
56following way:
57.Bl -bullet
58.It
59Hardware platform resources are
60.Em manually
61described in a human readable text source format, where all non
62self-enumerating information is gathered.
63.It
64This source description is converted
65.Em (compiled)
66into a binary object i.e. a flattened device tree
67.Em blob
68which is passed to the kernel at boot time.
69.It
70The kernel (driver) learns about hardware resources details and dependencies
71from this [externally supplied] blob, which eliminates the need for embedding
72any information about the underlying platform hardware resources in the kernel.
73.It
74The flattened device tree mechanism in principle does not depend on any
75particular first-stage bootloader or firmware features.  The only overall
76requirement for the environment is to provide a complete device tree
77description to the kernel.
78.El
79.Pp
80The
81.Nm
82layer allows any platform code in the kernel to retrieve information about
83hardware resources from a unified origin, which brings advantages to the
84embedded applications (eliminates hard-coded configuration approach, enforces
85code to be data driven and extensible) leading to easier porting and
86maintenance.
87.Sh DEFINITIONS
88.Bl -tag -width Ar
89.It Va Device tree source (DTS)
90The device tree source is a text file which describes hardware resources of a
91computer system in a human-readable form, with certain hierarchical structure
92(a tree). The default location for DTS files
93in the
94.Fx
95source repository is
96.Pa sys/boot/fdt/dts
97directory.
98.It Va Device tree blob (DTB)
99The textual device tree description (DTS file) is first converted (compiled)
100into a binary object (the device tree blob) i.e. the DTB, which is handed over
101to the final consumer (typically kernel) for parsing and processing of its
102contents.
103.It Va Device tree compiler (DTC)
104A utility program executed on the host, which transforms (compiles) a textual
105description of a device tree (DTS) into a binary object (DTB).
106.It Va Device tree bindings
107While the device tree textual description and the binary object are media to
108convey the hardware configuration information, an actual meaning and
109interpretation of the contents are defined by the device tree
110.Pa bindings .
111They are certain conventions describing definitions (encoding) of particular
112nodes in a device tree and their properties, allowed values, ranges and so on.
113Such reference conventions were provided by the legacy Open Firmware bindings,
114further supplemented by the ePAPR specification.
115.El
116.Sh "BUILDING THE WORLD"
117In order for the system to support
118.Nm
119it is required that
120.Fx
121world be built with the
122.Pa WITH_FDT
123build knob supplied either via
124.Xr src.conf 5
125or command line defined with -D.
126.Pp
127This creates the user space
128.Pa dtc
129compiler and enables
130.Nm
131support in
132.Xr loader 8 .
133.Sh "BUILDING KERNEL"
134There is a couple of options for managing
135.Nm
136support at the
137.Fx
138kernel level.
139.Bl -tag -width Ar
140.It Va options FDT
141The primary option for enabling
142.Nm
143support in the kernel. It covers all low-level and infrastructure parts of
144.Nm
145kernel support, which primarily are the
146.Xr fdtbus 4
147and
148.Xr simplebus 4
149drivers, as well as helper routines and libraries.
150.It Va makeoptions FDT_DTS_FILE=<board name>.dts
151Specifies a preferred (default) device tree source (DTS) file for a given
152kernel. The indicated DTS file will be converted (compiled) into a binary form
153along with building the kernel itself. The DTS file name is relative
154to the default location of DTS sources i.e.
155.Pa sys/boot/fdt/dts .
156This makeoption is not mandatory unless FDT_DTB_STATIC is also defined (see
157below).
158.It Va options FDT_DTB_STATIC
159Typically, the device tree blob (DTB) is a stand-alone file, physically
160separate from the kernel, but this option lets statically embed a
161DTB file into a kernel image. Note that when this is specified the
162FDT_DTS_FILE makeoption becomes mandatory (as there needs to be a DTS file
163specified in order to embed it into the kernel image).
164.El
165.Sh SEE ALSO
166.Xr fdtbus 4 ,
167.Xr openfirm 4 ,
168.Xr simplebus 4
169.Sh STANDARDS
170IEEE Std 1275: IEEE Standard for Boot (Initialization Configuration) Firmware:
171Core Requirements and Practices
172.Pq Vt Open Firmware .
173.Pp
174Power.org Standard for Embedded Power Architecture Platform Requirements
175.Pq Vt ePAPR .
176.Sh HISTORY
177The
178.Nm
179support first appeared in
180.Fx 9.0 .
181.Sh AUTHORS
182The
183.Nm
184support was developed by Semihalf under sponsorship from the FreeBSD
185Foundation. This manual page was written by
186.An Rafal Jaworowski .
187