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762 lines
26 KiB
762 lines
26 KiB
Device Tree Compiler Manual |
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=========================== |
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I - "dtc", the device tree compiler |
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1) Obtaining Sources |
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1.1) Submitting Patches |
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2) Description |
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3) Command Line |
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4) Source File |
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4.1) Overview |
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4.2) Properties |
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4.3) Labels and References |
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II - The DT block format |
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1) Header |
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2) Device tree generalities |
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3) Device tree "structure" block |
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4) Device tree "strings" block |
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III - libfdt |
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IV - Utility Tools |
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1) convert-dtsv0 -- Conversion to Version 1 |
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1) fdtdump |
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I - "dtc", the device tree compiler |
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=================================== |
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1) Sources |
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Source code for the Device Tree Compiler can be found at git.kernel.org. |
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The upstream repository is here: |
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git://git.kernel.org/pub/scm/utils/dtc/dtc.git |
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https://git.kernel.org/pub/scm/utils/dtc/dtc.git |
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The gitweb interface for the upstream repository is: |
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https://git.kernel.org/cgit/utils/dtc/dtc.git/ |
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1.1) Submitting Patches |
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Patches should be sent to the maintainers: |
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David Gibson <david@gibson.dropbear.id.au> |
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Jon Loeliger <loeliger@gmail.com> |
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and CCed to <devicetree-compiler@vger.kernel.org>. |
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2) Description |
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The Device Tree Compiler, dtc, takes as input a device-tree in |
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a given format and outputs a device-tree in another format. |
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Typically, the input format is "dts", a human readable source |
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format, and creates a "dtb", or binary format as output. |
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The currently supported Input Formats are: |
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- "dtb": "blob" format. A flattened device-tree block with |
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header in one binary blob. |
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- "dts": "source" format. A text file containing a "source" |
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for a device-tree. |
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- "fs" format. A representation equivalent to the output of |
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/proc/device-tree where nodes are directories and |
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properties are files. |
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The currently supported Output Formats are: |
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- "dtb": "blob" format |
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- "dts": "source" format |
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- "asm": assembly language file. A file that can be sourced |
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by gas to generate a device-tree "blob". That file can |
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then simply be added to your Makefile. Additionally, the |
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assembly file exports some symbols that can be used. |
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- "yaml": DT encoded in YAML format. This representation is an |
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intermediate format used for validation tools. |
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3) Command Line |
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The syntax of the dtc command line is: |
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dtc [options] [<input_filename>] |
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Options: |
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<input_filename> |
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The name of the input source file. If no <input_filename> |
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or "-" is given, stdin is used. |
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-b <number> |
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Set the physical boot cpu. |
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-f |
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Force. Try to produce output even if the input tree has errors. |
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-h |
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Emit a brief usage and help message. |
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-I <input_format> |
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The source input format, as listed above. |
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-o <output_filename> |
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The name of the generated output file. Use "-" for stdout. |
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-O <output_format> |
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The generated output format, as listed above. |
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-d <dependency_filename> |
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Generate a dependency file during compilation. |
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-q |
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Quiet: -q suppress warnings, -qq errors, -qqq all |
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-R <number> |
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Make space for <number> reserve map entries |
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Relevant for dtb and asm output only. |
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-@ |
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Generates a __symbols__ node at the root node of the resulting blob |
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for any node labels used, and for any local references using phandles |
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it also generates a __local_fixups__ node that tracks them. |
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When using the /plugin/ tag all unresolved label references to |
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be tracked in the __fixups__ node, making dynamic resolution possible. |
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-A |
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Generate automatically aliases for all node labels. This is similar to |
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the -@ option (the __symbols__ node contain identical information) but |
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the semantics are slightly different since no phandles are automatically |
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generated for labeled nodes. |
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-S <bytes> |
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Ensure the blob at least <bytes> long, adding additional |
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space if needed. |
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-v |
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Print DTC version and exit. |
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-V <output_version> |
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Generate output conforming to the given <output_version>. |
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By default the most recent version is generated. |
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Relevant for dtb and asm output only. |
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The <output_version> defines what version of the "blob" format will be |
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generated. Supported versions are 1, 2, 3, 16 and 17. The default is |
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always the most recent version and is likely the highest number. |
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Additionally, dtc performs various sanity checks on the tree. |
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4) Device Tree Source file |
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4.1) Overview |
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Here is a very rough overview of the layout of a DTS source file: |
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sourcefile: versioninfo plugindecl list_of_memreserve devicetree |
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memreserve: label 'memreserve' ADDR ADDR ';' |
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| label 'memreserve' ADDR '-' ADDR ';' |
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devicetree: '/' nodedef |
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versioninfo: '/' 'dts-v1' '/' ';' |
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plugindecl: '/' 'plugin' '/' ';' |
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| /* empty */ |
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nodedef: '{' list_of_property list_of_subnode '}' ';' |
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property: label PROPNAME '=' propdata ';' |
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propdata: STRING |
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| '<' list_of_cells '>' |
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| '[' list_of_bytes ']' |
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subnode: label nodename nodedef |
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That structure forms a hierarchical layout of nodes and properties |
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rooted at an initial node as: |
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/ { |
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} |
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Both classic C style and C++ style comments are supported. |
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Source files may be directly included using the syntax: |
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/include/ "filename" |
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4.2) Properties |
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Properties are named, possibly labeled, values. Each value |
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is one of: |
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- A null-teminated C-like string, |
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- A numeric value fitting in 32 bits, |
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- A list of 32-bit values |
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- A byte sequence |
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Here are some example property definitions: |
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- A property containing a 0 terminated string |
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property1 = "string_value"; |
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- A property containing a numerical 32-bit hexadecimal value |
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property2 = <1234abcd>; |
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- A property containing 3 numerical 32-bit hexadecimal values |
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property3 = <12345678 12345678 deadbeef>; |
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- A property whose content is an arbitrary array of bytes |
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property4 = [0a 0b 0c 0d de ea ad be ef]; |
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Node may contain sub-nodes to obtain a hierarchical structure. |
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For example: |
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- A child node named "childnode" whose unit name is |
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"childnode at address". It in turn has a string property |
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called "childprop". |
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childnode@address { |
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childprop = "hello\n"; |
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}; |
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By default, all numeric values are hexadecimal. Alternate bases |
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may be specified using a prefix "d#" for decimal, "b#" for binary, |
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and "o#" for octal. |
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Strings support common escape sequences from C: "\n", "\t", "\r", |
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"\(octal value)", "\x(hex value)". |
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4.3) Labels and References |
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Labels may be applied to nodes or properties. Labels appear |
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before a node name, and are referenced using an ampersand: &label. |
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Absolute node path names are also allowed in node references. |
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In this example, a node is labeled "mpic" and then referenced: |
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mpic: interrupt-controller@40000 { |
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... |
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}; |
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ethernet-phy@3 { |
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interrupt-parent = <&mpic>; |
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... |
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}; |
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And used in properties, labels may appear before or after any value: |
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randomnode { |
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prop: string = data: "mystring\n" data_end: ; |
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... |
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}; |
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II - The DT block format |
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======================== |
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This chapter defines the format of the flattened device-tree |
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passed to the kernel. The actual content of the device tree |
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are described in the kernel documentation in the file |
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linux-2.6/Documentation/powerpc/booting-without-of.txt |
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You can find example of code manipulating that format within |
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the kernel. For example, the file: |
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including arch/powerpc/kernel/prom_init.c |
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will generate a flattened device-tree from the Open Firmware |
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representation. Other utilities such as fs2dt, which is part of |
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the kexec tools, will generate one from a filesystem representation. |
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Some bootloaders such as U-Boot provide a bit more support by |
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using the libfdt code. |
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For booting the kernel, the device tree block has to be in main memory. |
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It has to be accessible in both real mode and virtual mode with no |
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mapping other than main memory. If you are writing a simple flash |
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bootloader, it should copy the block to RAM before passing it to |
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the kernel. |
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1) Header |
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--------- |
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The kernel is entered with r3 pointing to an area of memory that is |
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roughly described in include/asm-powerpc/prom.h by the structure |
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boot_param_header: |
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struct boot_param_header { |
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u32 magic; /* magic word OF_DT_HEADER */ |
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u32 totalsize; /* total size of DT block */ |
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u32 off_dt_struct; /* offset to structure */ |
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u32 off_dt_strings; /* offset to strings */ |
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u32 off_mem_rsvmap; /* offset to memory reserve map */ |
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u32 version; /* format version */ |
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u32 last_comp_version; /* last compatible version */ |
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/* version 2 fields below */ |
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u32 boot_cpuid_phys; /* Which physical CPU id we're |
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booting on */ |
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/* version 3 fields below */ |
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u32 size_dt_strings; /* size of the strings block */ |
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/* version 17 fields below */ |
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u32 size_dt_struct; /* size of the DT structure block */ |
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}; |
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Along with the constants: |
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/* Definitions used by the flattened device tree */ |
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#define OF_DT_HEADER 0xd00dfeed /* 4: version, |
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4: total size */ |
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#define OF_DT_BEGIN_NODE 0x1 /* Start node: full name |
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*/ |
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#define OF_DT_END_NODE 0x2 /* End node */ |
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#define OF_DT_PROP 0x3 /* Property: name off, |
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size, content */ |
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#define OF_DT_END 0x9 |
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All values in this header are in big endian format, the various |
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fields in this header are defined more precisely below. All "offset" |
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values are in bytes from the start of the header; that is from the |
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value of r3. |
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- magic |
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This is a magic value that "marks" the beginning of the |
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device-tree block header. It contains the value 0xd00dfeed and is |
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defined by the constant OF_DT_HEADER |
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- totalsize |
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This is the total size of the DT block including the header. The |
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"DT" block should enclose all data structures defined in this |
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chapter (who are pointed to by offsets in this header). That is, |
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the device-tree structure, strings, and the memory reserve map. |
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- off_dt_struct |
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This is an offset from the beginning of the header to the start |
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of the "structure" part the device tree. (see 2) device tree) |
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- off_dt_strings |
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This is an offset from the beginning of the header to the start |
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of the "strings" part of the device-tree |
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- off_mem_rsvmap |
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This is an offset from the beginning of the header to the start |
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of the reserved memory map. This map is a list of pairs of 64- |
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bit integers. Each pair is a physical address and a size. The |
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list is terminated by an entry of size 0. This map provides the |
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kernel with a list of physical memory areas that are "reserved" |
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and thus not to be used for memory allocations, especially during |
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early initialization. The kernel needs to allocate memory during |
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boot for things like un-flattening the device-tree, allocating an |
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MMU hash table, etc... Those allocations must be done in such a |
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way to avoid overriding critical things like, on Open Firmware |
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capable machines, the RTAS instance, or on some pSeries, the TCE |
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tables used for the iommu. Typically, the reserve map should |
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contain _at least_ this DT block itself (header,total_size). If |
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you are passing an initrd to the kernel, you should reserve it as |
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well. You do not need to reserve the kernel image itself. The map |
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should be 64-bit aligned. |
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- version |
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This is the version of this structure. Version 1 stops |
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here. Version 2 adds an additional field boot_cpuid_phys. |
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Version 3 adds the size of the strings block, allowing the kernel |
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to reallocate it easily at boot and free up the unused flattened |
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structure after expansion. Version 16 introduces a new more |
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"compact" format for the tree itself that is however not backward |
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compatible. Version 17 adds an additional field, size_dt_struct, |
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allowing it to be reallocated or moved more easily (this is |
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particularly useful for bootloaders which need to make |
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adjustments to a device tree based on probed information). You |
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should always generate a structure of the highest version defined |
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at the time of your implementation. Currently that is version 17, |
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unless you explicitly aim at being backward compatible. |
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- last_comp_version |
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Last compatible version. This indicates down to what version of |
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the DT block you are backward compatible. For example, version 2 |
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is backward compatible with version 1 (that is, a kernel build |
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for version 1 will be able to boot with a version 2 format). You |
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should put a 1 in this field if you generate a device tree of |
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version 1 to 3, or 16 if you generate a tree of version 16 or 17 |
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using the new unit name format. |
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- boot_cpuid_phys |
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This field only exist on version 2 headers. It indicate which |
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physical CPU ID is calling the kernel entry point. This is used, |
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among others, by kexec. If you are on an SMP system, this value |
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should match the content of the "reg" property of the CPU node in |
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the device-tree corresponding to the CPU calling the kernel entry |
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point (see further chapters for more information on the required |
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device-tree contents) |
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- size_dt_strings |
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This field only exists on version 3 and later headers. It |
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gives the size of the "strings" section of the device tree (which |
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starts at the offset given by off_dt_strings). |
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- size_dt_struct |
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This field only exists on version 17 and later headers. It gives |
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the size of the "structure" section of the device tree (which |
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starts at the offset given by off_dt_struct). |
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So the typical layout of a DT block (though the various parts don't |
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need to be in that order) looks like this (addresses go from top to |
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bottom): |
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------------------------------ |
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r3 -> | struct boot_param_header | |
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------------------------------ |
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| (alignment gap) (*) | |
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------------------------------ |
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| memory reserve map | |
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------------------------------ |
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| (alignment gap) | |
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------------------------------ |
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| | |
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| device-tree structure | |
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| | |
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------------------------------ |
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| (alignment gap) | |
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------------------------------ |
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| device-tree strings | |
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-----> ------------------------------ |
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| |
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--- (r3 + totalsize) |
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(*) The alignment gaps are not necessarily present; their presence |
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and size are dependent on the various alignment requirements of |
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the individual data blocks. |
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2) Device tree generalities |
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--------------------------- |
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This device-tree itself is separated in two different blocks, a |
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structure block and a strings block. Both need to be aligned to a 4 |
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byte boundary. |
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First, let's quickly describe the device-tree concept before detailing |
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the storage format. This chapter does _not_ describe the detail of the |
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required types of nodes & properties for the kernel, this is done |
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later in chapter III. |
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The device-tree layout is strongly inherited from the definition of |
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the Open Firmware IEEE 1275 device-tree. It's basically a tree of |
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nodes, each node having two or more named properties. A property can |
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have a value or not. |
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It is a tree, so each node has one and only one parent except for the |
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root node who has no parent. |
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A node has 2 names. The actual node name is generally contained in a |
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property of type "name" in the node property list whose value is a |
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zero terminated string and is mandatory for version 1 to 3 of the |
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format definition (as it is in Open Firmware). Version 16 makes it |
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optional as it can generate it from the unit name defined below. |
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There is also a "unit name" that is used to differentiate nodes with |
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the same name at the same level, it is usually made of the node |
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names, the "@" sign, and a "unit address", which definition is |
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specific to the bus type the node sits on. |
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The unit name doesn't exist as a property per-se but is included in |
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the device-tree structure. It is typically used to represent "path" in |
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the device-tree. More details about the actual format of these will be |
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below. |
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The kernel powerpc generic code does not make any formal use of the |
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unit address (though some board support code may do) so the only real |
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requirement here for the unit address is to ensure uniqueness of |
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the node unit name at a given level of the tree. Nodes with no notion |
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of address and no possible sibling of the same name (like /memory or |
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/cpus) may omit the unit address in the context of this specification, |
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or use the "@0" default unit address. The unit name is used to define |
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a node "full path", which is the concatenation of all parent node |
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unit names separated with "/". |
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The root node doesn't have a defined name, and isn't required to have |
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a name property either if you are using version 3 or earlier of the |
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format. It also has no unit address (no @ symbol followed by a unit |
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address). The root node unit name is thus an empty string. The full |
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path to the root node is "/". |
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Every node which actually represents an actual device (that is, a node |
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which isn't only a virtual "container" for more nodes, like "/cpus" |
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is) is also required to have a "device_type" property indicating the |
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type of node . |
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Finally, every node that can be referenced from a property in another |
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node is required to have a "linux,phandle" property. Real open |
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firmware implementations provide a unique "phandle" value for every |
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node that the "prom_init()" trampoline code turns into |
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"linux,phandle" properties. However, this is made optional if the |
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flattened device tree is used directly. An example of a node |
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referencing another node via "phandle" is when laying out the |
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interrupt tree which will be described in a further version of this |
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document. |
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This "linux, phandle" property is a 32-bit value that uniquely |
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identifies a node. You are free to use whatever values or system of |
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values, internal pointers, or whatever to generate these, the only |
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requirement is that every node for which you provide that property has |
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a unique value for it. |
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Here is an example of a simple device-tree. In this example, an "o" |
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designates a node followed by the node unit name. Properties are |
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presented with their name followed by their content. "content" |
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represents an ASCII string (zero terminated) value, while <content> |
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represents a 32-bit hexadecimal value. The various nodes in this |
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example will be discussed in a later chapter. At this point, it is |
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only meant to give you a idea of what a device-tree looks like. I have |
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purposefully kept the "name" and "linux,phandle" properties which |
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aren't necessary in order to give you a better idea of what the tree |
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looks like in practice. |
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/ o device-tree |
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|- name = "device-tree" |
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|- model = "MyBoardName" |
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|- compatible = "MyBoardFamilyName" |
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|- #address-cells = <2> |
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|- #size-cells = <2> |
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|- linux,phandle = <0> |
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| |
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o cpus |
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| | - name = "cpus" |
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| | - linux,phandle = <1> |
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| | - #address-cells = <1> |
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| | - #size-cells = <0> |
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| | |
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| o PowerPC,970@0 |
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| |- name = "PowerPC,970" |
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| |- device_type = "cpu" |
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| |- reg = <0> |
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| |- clock-frequency = <5f5e1000> |
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| |- 64-bit |
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| |- linux,phandle = <2> |
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| |
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o memory@0 |
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| |- name = "memory" |
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| |- device_type = "memory" |
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| |- reg = <00000000 00000000 00000000 20000000> |
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| |- linux,phandle = <3> |
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| |
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o chosen |
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|- name = "chosen" |
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|- bootargs = "root=/dev/sda2" |
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|- linux,phandle = <4> |
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This tree is almost a minimal tree. It pretty much contains the |
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minimal set of required nodes and properties to boot a linux kernel; |
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that is, some basic model information at the root, the CPUs, and the |
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physical memory layout. It also includes misc information passed |
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through /chosen, like in this example, the platform type (mandatory) |
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and the kernel command line arguments (optional). |
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The /cpus/PowerPC,970@0/64-bit property is an example of a |
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property without a value. All other properties have a value. The |
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significance of the #address-cells and #size-cells properties will be |
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explained in chapter IV which defines precisely the required nodes and |
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properties and their content. |
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3) Device tree "structure" block |
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The structure of the device tree is a linearized tree structure. The |
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"OF_DT_BEGIN_NODE" token starts a new node, and the "OF_DT_END_NODE" |
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ends that node definition. Child nodes are simply defined before |
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"OF_DT_END_NODE" (that is nodes within the node). A 'token' is a 32 |
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bit value. The tree has to be "finished" with a OF_DT_END token |
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Here's the basic structure of a single node: |
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* token OF_DT_BEGIN_NODE (that is 0x00000001) |
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* for version 1 to 3, this is the node full path as a zero |
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terminated string, starting with "/". For version 16 and later, |
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this is the node unit name only (or an empty string for the |
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root node) |
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* [align gap to next 4 bytes boundary] |
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* for each property: |
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* token OF_DT_PROP (that is 0x00000003) |
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* 32-bit value of property value size in bytes (or 0 if no |
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value) |
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* 32-bit value of offset in string block of property name |
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* property value data if any |
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* [align gap to next 4 bytes boundary] |
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* [child nodes if any] |
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* token OF_DT_END_NODE (that is 0x00000002) |
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So the node content can be summarized as a start token, a full path, |
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a list of properties, a list of child nodes, and an end token. Every |
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child node is a full node structure itself as defined above. |
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NOTE: The above definition requires that all property definitions for |
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a particular node MUST precede any subnode definitions for that node. |
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Although the structure would not be ambiguous if properties and |
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subnodes were intermingled, the kernel parser requires that the |
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properties come first (up until at least 2.6.22). Any tools |
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manipulating a flattened tree must take care to preserve this |
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constraint. |
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4) Device tree "strings" block |
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In order to save space, property names, which are generally redundant, |
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are stored separately in the "strings" block. This block is simply the |
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whole bunch of zero terminated strings for all property names |
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concatenated together. The device-tree property definitions in the |
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structure block will contain offset values from the beginning of the |
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strings block. |
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III - libfdt |
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============ |
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This library should be merged into dtc proper. |
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This library should likely be worked into U-Boot and the kernel. |
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IV - Utility Tools |
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================== |
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1) convert-dtsv0 -- Conversion to Version 1 |
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convert-dtsv0 is a small utility program which converts (DTS) |
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Device Tree Source from the obsolete version 0 to version 1. |
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Version 1 DTS files are marked by line "/dts-v1/;" at the top of the file. |
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The syntax of the convert-dtsv0 command line is: |
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convert-dtsv0 [<input_filename ... >] |
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Each file passed will be converted to the new /dts-v1/ version by creating |
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a new file with a "v1" appended the filename. |
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Comments, empty lines, etc. are preserved. |
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2) fdtdump -- Flat Device Tree dumping utility |
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The fdtdump program prints a readable version of a flat device tree file. |
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The syntax of the fdtdump command line is: |
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fdtdump [options] <DTB-file-name> |
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Where options are: |
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-d,--debug Dump debug information while decoding the file |
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-s,--scan Scan for an embedded fdt in given file |
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3) fdtoverlay -- Flat Device Tree overlay applicator |
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The fdtoverlay applies an arbitrary number of FDT overlays to a base FDT blob |
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to a given output file. |
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The syntax of the fdtoverlay command line is: |
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fdtoverlay -i <base-blob> -o <output-blob> <overlay-blob0> [<overlay-blob1> ...] |
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Where options are: |
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-i, --input Input base DT blob |
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-o, --output Output DT blob |
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-v, --verbose Verbose message output |
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4 ) fdtget -- Read properties from device tree |
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This command can be used to obtain individual values from the device tree in a |
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nicely formatted way. You can specify multiple nodes to display (when using -p) |
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or multiple node/property pairs (when not using -p). For the latter, each |
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property is displayed on its own line, with a space between each cell within |
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the property. |
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The syntax of the fdtget command is: |
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fdtget <options> <dt file> [<node> <property>]... |
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fdtget -p <options> <dt file> [<node> ]... |
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where options are: |
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<type> s=string, i=int, u=unsigned, x=hex, r=raw |
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Optional modifier prefix: |
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hh or b=byte, h=2 byte, l=4 byte (default) |
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Options: -[t:pld:hV] |
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-t, --type <arg> Type of data |
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-p, --properties List properties for each node |
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-l, --list List subnodes for each node |
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-d, --default <arg> Default value to display when the property is missing |
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-h, --help Print this help and exit |
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-V, --version Print version and exit |
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If -t is not provided, fdtget will try to figure out the type, trying to detect |
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strings, string lists and the size of each value in the property. This is |
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similar to how fdtdump works, and uses the same heuristics. |
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5 ) fdtput - Write properties to a device tree |
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The syntax of the fdtput command is: |
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fdtput <options> <dt file> <node> <property> [<value>...] |
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fdtput -c <options> <dt file> [<node>...] |
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fdtput -r <options> <dt file> [<node>...] |
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fdtput -d <options> <dt file> <node> [<property>...] |
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Options are: |
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<type> s=string, i=int, u=unsigned, x=hex |
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Optional modifier prefix: |
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hh or b=byte, h=2 byte, l=4 byte (default) |
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-c, --create Create nodes if they don't already exist |
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-r, --remove Delete nodes (and any subnodes) if they already exist |
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-d, --delete Delete properties if they already exist |
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-p, --auto-path Automatically create nodes as needed for the node path |
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-t, --type <arg> Type of data |
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-v, --verbose Display each value decoded from command line |
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-h, --help Print this help and exit |
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-V, --version Print version and exit |
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The option determines which usage is selected and therefore the operation that |
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is performed. The first usage adds or updates properties; the rest are used to |
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create/delete nodes and delete properties. |
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For the first usage, the command line arguments are joined together into a |
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single value which is written to the property. The -t option is required so |
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that fdtput knows how to decode its arguments.
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