mirror of
https://github.com/AsahiLinux/u-boot
synced 2024-12-12 14:23:00 +00:00
83d290c56f
When U-Boot started using SPDX tags we were among the early adopters and there weren't a lot of other examples to borrow from. So we picked the area of the file that usually had a full license text and replaced it with an appropriate SPDX-License-Identifier: entry. Since then, the Linux Kernel has adopted SPDX tags and they place it as the very first line in a file (except where shebangs are used, then it's second line) and with slightly different comment styles than us. In part due to community overlap, in part due to better tag visibility and in part for other minor reasons, switch over to that style. This commit changes all instances where we have a single declared license in the tag as both the before and after are identical in tag contents. There's also a few places where I found we did not have a tag and have introduced one. Signed-off-by: Tom Rini <trini@konsulko.com>
571 lines
20 KiB
Python
571 lines
20 KiB
Python
#!/usr/bin/python
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# SPDX-License-Identifier: GPL-2.0+
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#
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# Copyright (C) 2017 Google, Inc
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# Written by Simon Glass <sjg@chromium.org>
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#
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"""Device tree to platform data class
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This supports converting device tree data to C structures definitions and
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static data.
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"""
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import collections
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import copy
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import sys
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import fdt
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import fdt_util
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# When we see these properties we ignore them - i.e. do not create a structure member
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PROP_IGNORE_LIST = [
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'#address-cells',
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'#gpio-cells',
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'#size-cells',
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'compatible',
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'linux,phandle',
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"status",
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'phandle',
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'u-boot,dm-pre-reloc',
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'u-boot,dm-tpl',
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'u-boot,dm-spl',
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]
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# C type declarations for the tyues we support
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TYPE_NAMES = {
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fdt.TYPE_INT: 'fdt32_t',
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fdt.TYPE_BYTE: 'unsigned char',
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fdt.TYPE_STRING: 'const char *',
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fdt.TYPE_BOOL: 'bool',
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fdt.TYPE_INT64: 'fdt64_t',
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}
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STRUCT_PREFIX = 'dtd_'
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VAL_PREFIX = 'dtv_'
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# This holds information about a property which includes phandles.
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#
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# max_args: integer: Maximum number or arguments that any phandle uses (int).
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# args: Number of args for each phandle in the property. The total number of
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# phandles is len(args). This is a list of integers.
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PhandleInfo = collections.namedtuple('PhandleInfo', ['max_args', 'args'])
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def conv_name_to_c(name):
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"""Convert a device-tree name to a C identifier
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This uses multiple replace() calls instead of re.sub() since it is faster
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(400ms for 1m calls versus 1000ms for the 're' version).
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Args:
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name: Name to convert
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Return:
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String containing the C version of this name
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"""
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new = name.replace('@', '_at_')
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new = new.replace('-', '_')
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new = new.replace(',', '_')
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new = new.replace('.', '_')
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return new
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def tab_to(num_tabs, line):
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"""Append tabs to a line of text to reach a tab stop.
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Args:
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num_tabs: Tab stop to obtain (0 = column 0, 1 = column 8, etc.)
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line: Line of text to append to
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Returns:
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line with the correct number of tabs appeneded. If the line already
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extends past that tab stop then a single space is appended.
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"""
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if len(line) >= num_tabs * 8:
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return line + ' '
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return line + '\t' * (num_tabs - len(line) // 8)
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def get_value(ftype, value):
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"""Get a value as a C expression
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For integers this returns a byte-swapped (little-endian) hex string
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For bytes this returns a hex string, e.g. 0x12
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For strings this returns a literal string enclosed in quotes
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For booleans this return 'true'
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Args:
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type: Data type (fdt_util)
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value: Data value, as a string of bytes
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"""
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if ftype == fdt.TYPE_INT:
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return '%#x' % fdt_util.fdt32_to_cpu(value)
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elif ftype == fdt.TYPE_BYTE:
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return '%#x' % ord(value[0])
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elif ftype == fdt.TYPE_STRING:
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return '"%s"' % value
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elif ftype == fdt.TYPE_BOOL:
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return 'true'
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elif ftype == fdt.TYPE_INT64:
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return '%#x' % value
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def get_compat_name(node):
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"""Get a node's first compatible string as a C identifier
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Args:
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node: Node object to check
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Return:
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Tuple:
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C identifier for the first compatible string
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List of C identifiers for all the other compatible strings
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(possibly empty)
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"""
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compat = node.props['compatible'].value
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aliases = []
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if isinstance(compat, list):
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compat, aliases = compat[0], compat[1:]
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return conv_name_to_c(compat), [conv_name_to_c(a) for a in aliases]
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class DtbPlatdata(object):
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"""Provide a means to convert device tree binary data to platform data
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The output of this process is C structures which can be used in space-
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constrained encvironments where the ~3KB code overhead of device tree
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code is not affordable.
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Properties:
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_fdt: Fdt object, referencing the device tree
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_dtb_fname: Filename of the input device tree binary file
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_valid_nodes: A list of Node object with compatible strings
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_include_disabled: true to include nodes marked status = "disabled"
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_outfile: The current output file (sys.stdout or a real file)
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_lines: Stashed list of output lines for outputting in the future
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"""
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def __init__(self, dtb_fname, include_disabled):
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self._fdt = None
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self._dtb_fname = dtb_fname
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self._valid_nodes = None
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self._include_disabled = include_disabled
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self._outfile = None
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self._lines = []
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self._aliases = {}
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def setup_output(self, fname):
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"""Set up the output destination
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Once this is done, future calls to self.out() will output to this
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file.
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Args:
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fname: Filename to send output to, or '-' for stdout
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"""
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if fname == '-':
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self._outfile = sys.stdout
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else:
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self._outfile = open(fname, 'w')
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def out(self, line):
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"""Output a string to the output file
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Args:
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line: String to output
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"""
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self._outfile.write(line)
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def buf(self, line):
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"""Buffer up a string to send later
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Args:
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line: String to add to our 'buffer' list
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"""
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self._lines.append(line)
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def get_buf(self):
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"""Get the contents of the output buffer, and clear it
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Returns:
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The output buffer, which is then cleared for future use
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"""
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lines = self._lines
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self._lines = []
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return lines
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def out_header(self):
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"""Output a message indicating that this is an auto-generated file"""
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self.out('''/*
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* DO NOT MODIFY
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*
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* This file was generated by dtoc from a .dtb (device tree binary) file.
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*/
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''')
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def get_phandle_argc(self, prop, node_name):
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"""Check if a node contains phandles
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We have no reliable way of detecting whether a node uses a phandle
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or not. As an interim measure, use a list of known property names.
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Args:
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prop: Prop object to check
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Return:
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Number of argument cells is this is a phandle, else None
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"""
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if prop.name in ['clocks']:
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val = prop.value
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if not isinstance(val, list):
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val = [val]
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i = 0
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max_args = 0
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args = []
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while i < len(val):
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phandle = fdt_util.fdt32_to_cpu(val[i])
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target = self._fdt.phandle_to_node.get(phandle)
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if not target:
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raise ValueError("Cannot parse '%s' in node '%s'" %
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(prop.name, node_name))
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prop_name = '#clock-cells'
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cells = target.props.get(prop_name)
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if not cells:
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raise ValueError("Node '%s' has no '%s' property" %
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(target.name, prop_name))
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num_args = fdt_util.fdt32_to_cpu(cells.value)
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max_args = max(max_args, num_args)
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args.append(num_args)
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i += 1 + num_args
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return PhandleInfo(max_args, args)
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return None
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def scan_dtb(self):
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"""Scan the device tree to obtain a tree of nodes and properties
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Once this is done, self._fdt.GetRoot() can be called to obtain the
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device tree root node, and progress from there.
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"""
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self._fdt = fdt.FdtScan(self._dtb_fname)
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def scan_node(self, root):
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"""Scan a node and subnodes to build a tree of node and phandle info
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This adds each node to self._valid_nodes.
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Args:
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root: Root node for scan
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"""
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for node in root.subnodes:
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if 'compatible' in node.props:
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status = node.props.get('status')
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if (not self._include_disabled and not status or
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status.value != 'disabled'):
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self._valid_nodes.append(node)
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# recurse to handle any subnodes
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self.scan_node(node)
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def scan_tree(self):
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"""Scan the device tree for useful information
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This fills in the following properties:
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_valid_nodes: A list of nodes we wish to consider include in the
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platform data
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"""
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self._valid_nodes = []
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return self.scan_node(self._fdt.GetRoot())
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@staticmethod
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def get_num_cells(node):
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"""Get the number of cells in addresses and sizes for this node
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Args:
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node: Node to check
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Returns:
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Tuple:
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Number of address cells for this node
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Number of size cells for this node
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"""
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parent = node.parent
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na, ns = 2, 2
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if parent:
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na_prop = parent.props.get('#address-cells')
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ns_prop = parent.props.get('#size-cells')
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if na_prop:
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na = fdt_util.fdt32_to_cpu(na_prop.value)
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if ns_prop:
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ns = fdt_util.fdt32_to_cpu(ns_prop.value)
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return na, ns
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def scan_reg_sizes(self):
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"""Scan for 64-bit 'reg' properties and update the values
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This finds 'reg' properties with 64-bit data and converts the value to
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an array of 64-values. This allows it to be output in a way that the
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C code can read.
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"""
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for node in self._valid_nodes:
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reg = node.props.get('reg')
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if not reg:
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continue
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na, ns = self.get_num_cells(node)
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total = na + ns
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if reg.type != fdt.TYPE_INT:
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raise ValueError("Node '%s' reg property is not an int")
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if len(reg.value) % total:
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raise ValueError("Node '%s' reg property has %d cells "
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'which is not a multiple of na + ns = %d + %d)' %
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(node.name, len(reg.value), na, ns))
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reg.na = na
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reg.ns = ns
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if na != 1 or ns != 1:
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reg.type = fdt.TYPE_INT64
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i = 0
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new_value = []
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val = reg.value
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if not isinstance(val, list):
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val = [val]
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while i < len(val):
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addr = fdt_util.fdt_cells_to_cpu(val[i:], reg.na)
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i += na
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size = fdt_util.fdt_cells_to_cpu(val[i:], reg.ns)
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i += ns
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new_value += [addr, size]
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reg.value = new_value
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def scan_structs(self):
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"""Scan the device tree building up the C structures we will use.
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Build a dict keyed by C struct name containing a dict of Prop
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object for each struct field (keyed by property name). Where the
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same struct appears multiple times, try to use the 'widest'
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property, i.e. the one with a type which can express all others.
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Once the widest property is determined, all other properties are
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updated to match that width.
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"""
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structs = {}
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for node in self._valid_nodes:
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node_name, _ = get_compat_name(node)
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fields = {}
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# Get a list of all the valid properties in this node.
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for name, prop in node.props.items():
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if name not in PROP_IGNORE_LIST and name[0] != '#':
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fields[name] = copy.deepcopy(prop)
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# If we've seen this node_name before, update the existing struct.
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if node_name in structs:
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struct = structs[node_name]
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for name, prop in fields.items():
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oldprop = struct.get(name)
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if oldprop:
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oldprop.Widen(prop)
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else:
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struct[name] = prop
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# Otherwise store this as a new struct.
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else:
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structs[node_name] = fields
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upto = 0
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for node in self._valid_nodes:
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node_name, _ = get_compat_name(node)
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struct = structs[node_name]
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for name, prop in node.props.items():
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if name not in PROP_IGNORE_LIST and name[0] != '#':
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prop.Widen(struct[name])
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upto += 1
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struct_name, aliases = get_compat_name(node)
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for alias in aliases:
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self._aliases[alias] = struct_name
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return structs
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def scan_phandles(self):
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"""Figure out what phandles each node uses
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We need to be careful when outputing nodes that use phandles since
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they must come after the declaration of the phandles in the C file.
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Otherwise we get a compiler error since the phandle struct is not yet
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declared.
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This function adds to each node a list of phandle nodes that the node
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depends on. This allows us to output things in the right order.
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"""
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for node in self._valid_nodes:
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node.phandles = set()
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for pname, prop in node.props.items():
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if pname in PROP_IGNORE_LIST or pname[0] == '#':
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continue
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info = self.get_phandle_argc(prop, node.name)
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if info:
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if not isinstance(prop.value, list):
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prop.value = [prop.value]
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# Process the list as pairs of (phandle, id)
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pos = 0
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for args in info.args:
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phandle_cell = prop.value[pos]
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phandle = fdt_util.fdt32_to_cpu(phandle_cell)
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target_node = self._fdt.phandle_to_node[phandle]
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node.phandles.add(target_node)
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pos += 1 + args
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def generate_structs(self, structs):
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"""Generate struct defintions for the platform data
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This writes out the body of a header file consisting of structure
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definitions for node in self._valid_nodes. See the documentation in
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README.of-plat for more information.
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"""
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self.out_header()
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self.out('#include <stdbool.h>\n')
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self.out('#include <linux/libfdt.h>\n')
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# Output the struct definition
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for name in sorted(structs):
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self.out('struct %s%s {\n' % (STRUCT_PREFIX, name))
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for pname in sorted(structs[name]):
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prop = structs[name][pname]
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info = self.get_phandle_argc(prop, structs[name])
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if info:
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# For phandles, include a reference to the target
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struct_name = 'struct phandle_%d_arg' % info.max_args
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self.out('\t%s%s[%d]' % (tab_to(2, struct_name),
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conv_name_to_c(prop.name),
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len(info.args)))
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else:
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ptype = TYPE_NAMES[prop.type]
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self.out('\t%s%s' % (tab_to(2, ptype),
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conv_name_to_c(prop.name)))
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if isinstance(prop.value, list):
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self.out('[%d]' % len(prop.value))
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self.out(';\n')
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self.out('};\n')
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for alias, struct_name in self._aliases.iteritems():
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self.out('#define %s%s %s%s\n'% (STRUCT_PREFIX, alias,
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STRUCT_PREFIX, struct_name))
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def output_node(self, node):
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"""Output the C code for a node
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Args:
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node: node to output
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"""
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struct_name, _ = get_compat_name(node)
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var_name = conv_name_to_c(node.name)
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self.buf('static struct %s%s %s%s = {\n' %
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(STRUCT_PREFIX, struct_name, VAL_PREFIX, var_name))
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for pname, prop in node.props.items():
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if pname in PROP_IGNORE_LIST or pname[0] == '#':
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continue
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member_name = conv_name_to_c(prop.name)
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self.buf('\t%s= ' % tab_to(3, '.' + member_name))
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# Special handling for lists
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if isinstance(prop.value, list):
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self.buf('{')
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vals = []
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# For phandles, output a reference to the platform data
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# of the target node.
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info = self.get_phandle_argc(prop, node.name)
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if info:
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# Process the list as pairs of (phandle, id)
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pos = 0
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for args in info.args:
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phandle_cell = prop.value[pos]
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phandle = fdt_util.fdt32_to_cpu(phandle_cell)
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target_node = self._fdt.phandle_to_node[phandle]
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name = conv_name_to_c(target_node.name)
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arg_values = []
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for i in range(args):
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arg_values.append(str(fdt_util.fdt32_to_cpu(prop.value[pos + 1 + i])))
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pos += 1 + args
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vals.append('\t{&%s%s, {%s}}' % (VAL_PREFIX, name,
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', '.join(arg_values)))
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for val in vals:
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self.buf('\n\t\t%s,' % val)
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else:
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for val in prop.value:
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vals.append(get_value(prop.type, val))
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# Put 8 values per line to avoid very long lines.
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for i in xrange(0, len(vals), 8):
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if i:
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self.buf(',\n\t\t')
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self.buf(', '.join(vals[i:i + 8]))
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self.buf('}')
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else:
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self.buf(get_value(prop.type, prop.value))
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self.buf(',\n')
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self.buf('};\n')
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|
|
# Add a device declaration
|
|
self.buf('U_BOOT_DEVICE(%s) = {\n' % var_name)
|
|
self.buf('\t.name\t\t= "%s",\n' % struct_name)
|
|
self.buf('\t.platdata\t= &%s%s,\n' % (VAL_PREFIX, var_name))
|
|
self.buf('\t.platdata_size\t= sizeof(%s%s),\n' % (VAL_PREFIX, var_name))
|
|
self.buf('};\n')
|
|
self.buf('\n')
|
|
|
|
self.out(''.join(self.get_buf()))
|
|
|
|
def generate_tables(self):
|
|
"""Generate device defintions for the platform data
|
|
|
|
This writes out C platform data initialisation data and
|
|
U_BOOT_DEVICE() declarations for each valid node. Where a node has
|
|
multiple compatible strings, a #define is used to make them equivalent.
|
|
|
|
See the documentation in doc/driver-model/of-plat.txt for more
|
|
information.
|
|
"""
|
|
self.out_header()
|
|
self.out('#include <common.h>\n')
|
|
self.out('#include <dm.h>\n')
|
|
self.out('#include <dt-structs.h>\n')
|
|
self.out('\n')
|
|
nodes_to_output = list(self._valid_nodes)
|
|
|
|
# Keep outputing nodes until there is none left
|
|
while nodes_to_output:
|
|
node = nodes_to_output[0]
|
|
# Output all the node's dependencies first
|
|
for req_node in node.phandles:
|
|
if req_node in nodes_to_output:
|
|
self.output_node(req_node)
|
|
nodes_to_output.remove(req_node)
|
|
self.output_node(node)
|
|
nodes_to_output.remove(node)
|
|
|
|
|
|
def run_steps(args, dtb_file, include_disabled, output):
|
|
"""Run all the steps of the dtoc tool
|
|
|
|
Args:
|
|
args: List of non-option arguments provided to the problem
|
|
dtb_file: Filename of dtb file to process
|
|
include_disabled: True to include disabled nodes
|
|
output: Name of output file
|
|
"""
|
|
if not args:
|
|
raise ValueError('Please specify a command: struct, platdata')
|
|
|
|
plat = DtbPlatdata(dtb_file, include_disabled)
|
|
plat.scan_dtb()
|
|
plat.scan_tree()
|
|
plat.scan_reg_sizes()
|
|
plat.setup_output(output)
|
|
structs = plat.scan_structs()
|
|
plat.scan_phandles()
|
|
|
|
for cmd in args[0].split(','):
|
|
if cmd == 'struct':
|
|
plat.generate_structs(structs)
|
|
elif cmd == 'platdata':
|
|
plat.generate_tables()
|
|
else:
|
|
raise ValueError("Unknown command '%s': (use: struct, platdata)" %
|
|
cmd)
|