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a12a73b664
The fdt_addr_t and phys_addr_t size have been decoupled. A 32bit CPU can expect 64-bit data from the device tree parser, so use dev_read_addr_ptr instead of the dev_read_addr function in the various files in the drivers directory that cast to a pointer. As we are there also streamline the error response to -EINVAL on return. Signed-off-by: Johan Jonker <jbx6244@gmail.com> Reviewed-by: Simon Glass <sjg@chromium.org>
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329 lines
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ReStructuredText
.. SPDX-License-Identifier: GPL-2.0+
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.. sectionauthor:: Simon Glass <sjg@chromium.org>
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Live Device Tree
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================
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Introduction
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------------
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Traditionally U-Boot has used a 'flat' device tree. This means that it
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reads directly from the device tree binary structure. It is called a flat
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device tree because nodes are listed one after the other, with the
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hierarchy detected by tags in the format.
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This document describes U-Boot's support for a 'live' device tree, meaning
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that the tree is loaded into a hierarchical data structure within U-Boot.
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Motivation
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----------
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The flat device tree has several advantages:
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- it is the format produced by the device tree compiler, so no translation
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is needed
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- it is fairly compact (e.g. there is no need for pointers)
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- it is accessed by the libfdt library, which is well tested and stable
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However the flat device tree does have some limitations. Adding new
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properties can involve copying large amounts of data around to make room.
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The overall tree has a fixed maximum size so sometimes the tree must be
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rebuilt in a new location to create more space. Even if not adding new
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properties or nodes, scanning the tree can be slow. For example, finding
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the parent of a node is a slow process. Reading from nodes involves a
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small amount parsing which takes a little time.
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Driver model scans the entire device tree sequentially on start-up which
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avoids the worst of the flat tree's limitations. But if the tree is to be
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modified at run-time, a live tree is much faster. Even if no modification
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is necessary, parsing the tree once and using a live tree from then on
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seems to save a little time.
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Implementation
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--------------
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In U-Boot a live device tree ('livetree') is currently supported only
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after relocation. Therefore we need a mechanism to specify a device
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tree node regardless of whether it is in the flat tree or livetree.
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The 'ofnode' type provides this. An ofnode can point to either a flat tree
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node (when the live tree node is not yet set up) or a livetree node. The
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caller of an ofnode function does not need to worry about these details.
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The main users of the information in a device tree are drivers. These have
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a 'struct udevice \*' which is attached to a device tree node. Therefore it
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makes sense to be able to read device tree properties using the
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'struct udevice \*', rather than having to obtain the ofnode first.
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The 'dev_read\_...()' interface provides this. It allows properties to be
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easily read from the device tree using only a device pointer. Under the
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hood it uses ofnode so it works with both flat and live device trees.
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Enabling livetree
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-----------------
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CONFIG_OF_LIVE enables livetree. When this option is enabled, the flat
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tree will be used in SPL and before relocation in U-Boot proper. Just
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before relocation a livetree is built, and this is used for U-Boot proper
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after relocation.
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Most checks for livetree use CONFIG_IS_ENABLED(OF_LIVE). This means that
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for SPL, the CONFIG_SPL_OF_LIVE option is checked. At present this does
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not exist, since SPL does not support livetree.
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Porting drivers
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---------------
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Many existing drivers use the fdtdec interface to read device tree
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properties. This only works with a flat device tree. The drivers should be
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converted to use the dev_read_() interface.
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For example, the old code may be like this:
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.. code-block:: c
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struct udevice *bus;
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const void *blob = gd->fdt_blob;
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int node = dev_of_offset(bus);
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i2c_bus->regs = (struct i2c_ctlr *)devfdt_get_addr(dev);
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plat->frequency = fdtdec_get_int(blob, node, "spi-max-frequency", 500000);
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The new code is:
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.. code-block:: c
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struct udevice *bus;
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i2c_bus->regs = dev_read_addr_ptr(dev);
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plat->frequency = dev_read_u32_default(bus, "spi-max-frequency", 500000);
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The dev_read\_...() interface is more convenient and works with both the
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flat and live device trees. See include/dm/read.h for a list of functions.
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Where properties must be read from sub-nodes or other nodes, you must fall
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back to using ofnode. For example, for old code like this:
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.. code-block:: c
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const void *blob = gd->fdt_blob;
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int subnode;
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fdt_for_each_subnode(subnode, blob, dev_of_offset(dev)) {
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freq = fdtdec_get_int(blob, node, "spi-max-frequency", 500000);
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...
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}
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you should use:
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.. code-block:: c
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ofnode subnode;
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ofnode_for_each_subnode(subnode, dev_ofnode(dev)) {
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freq = ofnode_read_u32(node, "spi-max-frequency", 500000);
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...
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}
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Useful ofnode functions
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-----------------------
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The internal data structures of the livetree are defined in include/dm/of.h :
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:struct device_node: holds information about a device tree node
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:struct property: holds information about a property within a node
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Nodes have pointers to their first property, their parent, their first child
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and their sibling. This allows nodes to be linked together in a hierarchical
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tree.
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Properties have pointers to the next property. This allows all properties of
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a node to be linked together in a chain.
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It should not be necessary to use these data structures in normal code. In
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particular, you should refrain from using functions which access the livetree
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directly, such as of_read_u32(). Use ofnode functions instead, to allow your
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code to work with a flat tree also.
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Some conversion functions are used internally. Generally these are not needed
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for driver code. Note that they will not work if called in the wrong context.
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For example it is invalid to call ofnode_to_no() when a flat tree is being
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used. Similarly it is not possible to call ofnode_to_offset() on a livetree
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node.
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ofnode_to_np():
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converts ofnode to struct device_node *
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ofnode_to_offset():
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converts ofnode to offset
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no_to_ofnode():
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converts node pointer to ofnode
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offset_to_ofnode():
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converts offset to ofnode
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Other useful functions:
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of_live_active():
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returns true if livetree is in use, false if flat tree
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ofnode_valid():
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return true if a given node is valid
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ofnode_is_np():
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returns true if a given node is a livetree node
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ofnode_equal():
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compares two ofnodes
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ofnode_null():
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returns a null ofnode (for which ofnode_valid() returns false)
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Phandles
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--------
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There is full phandle support for live tree. All functions make use of
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struct ofnode_phandle_args, which has an ofnode within it. This supports both
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livetree and flat tree transparently. See for example
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ofnode_parse_phandle_with_args().
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Reading addresses
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-----------------
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You should use dev_read_addr() and friends to read addresses from device-tree
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nodes.
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fdtdec
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------
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The existing fdtdec interface will eventually be retired. Please try to avoid
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using it in new code.
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Modifying the livetree
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----------------------
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This is supported in a limited way, with ofnode_write_prop() and related
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functions.
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The unflattening algorithm results in a single block of memory being
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allocated for the whole tree. When writing new properties, these are
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allocated new memory outside that block. When the block is freed, the
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allocated properties remain. This can result in a memory leak.
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The solution to this leak would be to add a flag for properties (and nodes when
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support is provided for adding those) that indicates that they should be
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freed. Then the tree can be scanned for these 'separately allocated' nodes and
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properties before freeing the memory block.
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The ofnode_write\_...() functions also support writing to the flat tree. Care
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should be taken however, since this can change the position of node names and
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properties in the flat tree, thus affecting the live tree. Generally this does
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not matter, since when we fire up the live tree we don't ever use the flat tree
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again. But in the case of tests, this can cause a problem.
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The sandbox tests typically run with OF_LIVE enabled but with the actual live
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tree either present or absent. This is to make sure that the flat tree functions
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work correctly even with OF_LIVE is enabled. But if a test modifies the flat
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device tree, then the live tree can become invalid. Any live tree tests that run
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after that point will use a corrupted tree, e.g. with an incorrect property name
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or worse. To deal with this we take a copy of the device tree and restore it
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after any test that modifies it. Note that this copy is not made on other
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boards, only sandbox.
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Multiple livetrees
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------------------
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The livetree implementation was originally designed for use with the control
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FDT. This means that the FDT fix-ups (ft_board_setup() and the like, must use
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a flat tree.
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It would be helpful to use livetree for fixups, since adding a lot of nodes and
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properties would involve less memory copying and be more efficient. As a step
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towards this, an `oftree` type has been introduced. It is normally set to
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oftree_default() but can be set to other values using oftree_from_fdt().
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So long as OF_LIVE is disabled, it is possible to do fixups using the ofnode
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interface. The OF_LIVE support required addition of the flattening step at the
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end.
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See dm_test_ofnode_root() for some examples. The oftree_from_fdt() function
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causes a flat device tree to be 'registered' such that it can be used by the
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ofnode interface.
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Internal implementation
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-----------------------
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The dev_read\_...() functions have two implementations. When
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CONFIG_DM_DEV_READ_INLINE is enabled, these functions simply call the ofnode
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functions directly. This is useful when livetree is not enabled. The ofnode
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functions call ofnode_is_np(node) which will always return false if livetree
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is disabled, just falling back to flat tree code.
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This optimisation means that without livetree enabled, the dev_read\_...() and
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ofnode interfaces do not noticeably add to code size.
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The CONFIG_DM_DEV_READ_INLINE option defaults to enabled when livetree is
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disabled.
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Most livetree code comes directly from Linux and is modified as little as
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possible. This is deliberate since this code is fairly stable and does what
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we want. Some features (such as get/put) are not supported. Internal macros
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take care of removing these features silently.
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Within the of_access.c file there are pointers to the alias node, the chosen
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node and the stdout-path alias.
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Errors
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------
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With a flat device tree, libfdt errors are returned (e.g. -FDT_ERR_NOTFOUND).
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For livetree normal 'errno' errors are returned (e.g. -ENOTFOUND). At present
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the ofnode and dev_read\_...() functions return either one or other type of
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error. This is clearly not desirable. Once tests are added for all the
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functions this can be tidied up.
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Adding new access functions
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---------------------------
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Adding a new function for device-tree access involves the following steps:
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- Add two dev_read() functions:
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- inline version in the read.h header file, which calls an ofnode function
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- standard version in the read.c file (or perhaps another file), which
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also calls an ofnode function
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The implementations of these functions can be the same. The purpose
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of the inline version is purely to reduce code size impact.
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- Add an ofnode function. This should call ofnode_is_np() to work out
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whether a livetree or flat tree is used. For the livetree it should
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call an of\_...() function. For the flat tree it should call an
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fdt\_...() function. The livetree version will be optimised out at
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compile time if livetree is not enabled.
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- Add an of\_...() function for the livetree implementation. If a similar
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function is available in Linux, the implementation should be taken
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from there and modified as little as possible (generally not at all).
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Future work
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-----------
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Live tree support was introduced in U-Boot 2017.07. Some possible enhancements
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are:
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- support for livetree in SPL and before relocation (if desired)
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- freeing leaked memory caused by writing new nodes / property values to the
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livetree (ofnode_write_prop())
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