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< &{/path/to/node} >
A phandle reference does not require a label on the target node. An example of referring to a node directly is

interrupt-parent = < &{/soc/pic@10000000} >;

Note that no whitespace is allowed between '{' and '}'.

For a more complete explaination of how this is used, see Device_Tree_Mysteries.

Deleting nodes and properties
Node can be deleted with the /delete-node/ directive.

Properties can be deleted with the /delete-property/ directive.

Examples of syntax in a source file and resulting output from dtc are:

$ cat test_delete_syntax_B.dts

/dts-v1/;

/ {

node-1@1 { node-1-pa = "abc"; };

node-2@2 { node-2-pa = "def"; };

node-3@3 { node-3-pa = "ghi"; node-3-pb = "jkl"; };

node-4@4 { node-4-pa = "mno"; };

node_5_label: node-5@5 { node-5-pa = "pqr"; };

};

/ {

node-2@2 { /delete-property/ node-2-pa; };

node-3@3 { /delete-property/ node-3-pa; };

/delete-node/ node-4@4;

};

/delete-node/ &node_5_label;

/ {

node-4@4 { node-4-pc = "stu"; node-4-pd = "vwx"; };

};

$ dtc -O dts test_delete_syntax_A.dts /dts-v1/;

/ {

node-1@1 { node-1-pa = "abc"; };

node-2@2 { };

node-3@3 { node-3-pb = "jkl"; }; };

$ cat test_delete_syntax_A.dts

/dts-v1/;

/ {

node-1@1 { node-1-pa = "abc"; };

node-2@2 { node-2-pa = "def"; };

node-3@3 { node-3-pa = "ghi"; node-3-pb = "jkl"; };

node-4@4 { node-4-pa = "mno"; };

node_5_label: node-5@5 { node-5-pa = "pqr"; };

};

/ {

node-2@2 { /delete-property/ node-2-pa; };

node-3@3 { /delete-property/ node-3-pa; };

/delete-node/ node-4@4;

};

/delete-node/ &node_5_label;

$ dtc -O dts test_delete_syntax_B.dts /dts-v1/;

/ {

node-1@1 { node-1-pa = "abc"; };

node-2@2 { };

node-3@3 { node-3-pb = "jkl"; };

node-4@4 { node-4-pc = "stu"; node-4-pd = "vwx"; }; };

Overlays
Overlay support in the dtc compiler and in the Linux kernel is under development and may change from what appears here.

Things that may be currently visible in out of tree locations are: Some overlay related syntax is:
 * /plugin/ directive
 * __overlay__ node
 * __symbols__ node
 * __fixups__ node
 * __local_fixups__ node

The node names that begin with an underscore should be considered to be internal implentation of overlay information and should not be hand coded Do not hand code node names that begin with an underscore in a dts source file. They will be automatically generated by the dtc compiler. Some of them do currently appear in dts source files since the dtc compiler has not fully implemented the features needed to avoid the hand coding.

The overlay related syntax requires the dtc compiler in Linux 4.12 or later, with the "-@" option.

In the future, dtc may be modified to disallow node names beginning with an underscore in device tree source files, or possibly use a command line flag to allow or disallow node names beginning with an underscore.

conditional node compilation
This feature is not available in the Linux kernel version of dtc as of 4.16. It will probably be present starting in 4.18.

The '/omit-if-no-ref/' keyword is used to inform dtc to delete a node from the output devicetree if there are no references to the node.

Example usage from the dtc testcase tests/omit-no-ref.dts: /dts-v1/; / {       test-phandle = <&node3>; test-path = &node4; /omit-if-no-ref/ node1: node1 { bar = ; };       node2: node2 { foo = ; };       node3: node3 { test = "test"; };       node4: node4 { test; }; }; /omit-if-no-ref/ &node2; /omit-if-no-ref/ &node3; /omit-if-no-ref/ &node4;

Resulting trimmed devicetree:

$ dtc -O dts tests/omit-no-ref.dts /dts-v1/; / {       test-phandle = ; test-path = "/node4"; node3: node3 { test = "test"; phandle = ; };       node4: node4 { test; }; };

From the commit message: commit 4038fd90056e81f9a9dc107570431e4e20e526bd Date:  Thu May 3 22:27:26 2018 +0200 dtc: add ability to make nodes conditional on them being referenced A number of platforms have a need to reduce the number of DT nodes, mostly because of two similar constraints: the size of the DT blob, and the time it takes to parse it. As the DT is used in more and more SoCs, and by more projects, some constraints start to appear in bootloaders running from SRAM with an   order of magnitude of 10kB. A typical DT is in the same order of   magnitude, so any effort to reduce the blob size is welcome in such an    environment. Some platforms also want to reach very fast boot time, and the time it   takes to parse a typical DT starts to be noticeable. Both of these issues can be mitigated by reducing the number of nodes in   the DT. The biggest provider of nodes is usually the pin controller and its subnodes, usually one for each valid pin configuration in a given SoC. Obviously, a single, fixed, set of these nodes will be used by a given board, so we can introduce a node property that will tell the DT   compiler to drop the nodes when they are not referenced in the tree, and as such wouldn't be useful in the targetted system.