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1c87d68c91
Add a 16-bytes buffer to allow storing a 128-bit UUID value in an ACPI table. Signed-off-by: Gal Hammer <ghammer@redhat.com> Reviewed-by: Paolo Bonzini <pbonzini@redhat.com> Reviewed-by: Michael S. Tsirkin <mst@redhat.com> Signed-off-by: Michael S. Tsirkin <mst@redhat.com>
368 lines
13 KiB
Python
Executable File
368 lines
13 KiB
Python
Executable File
#!/usr/bin/python
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# Copyright (C) 2011 Red Hat, Inc., Michael S. Tsirkin <mst@redhat.com>
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#
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation; either version 2 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License along
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# with this program; if not, see <http://www.gnu.org/licenses/>.
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# Process mixed ASL/AML listing (.lst file) produced by iasl -l
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# Locate and execute ACPI_EXTRACT directives, output offset info
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#
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# Documentation of ACPI_EXTRACT_* directive tags:
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#
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# These directive tags output offset information from AML for BIOS runtime
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# table generation.
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# Each directive is of the form:
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# ACPI_EXTRACT_<TYPE> <array_name> <Operator> (...)
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# and causes the extractor to create an array
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# named <array_name> with offset, in the generated AML,
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# of an object of a given type in the following <Operator>.
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#
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# A directive must fit on a single code line.
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#
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# Object type in AML is verified, a mismatch causes a build failure.
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#
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# Directives and operators currently supported are:
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# ACPI_EXTRACT_NAME_DWORD_CONST - extract a Dword Const object from Name()
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# ACPI_EXTRACT_NAME_WORD_CONST - extract a Word Const object from Name()
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# ACPI_EXTRACT_NAME_BYTE_CONST - extract a Byte Const object from Name()
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# ACPI_EXTRACT_METHOD_STRING - extract a NameString from Method()
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# ACPI_EXTRACT_NAME_STRING - extract a NameString from Name()
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# ACPI_EXTRACT_PROCESSOR_START - start of Processor() block
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# ACPI_EXTRACT_PROCESSOR_STRING - extract a NameString from Processor()
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# ACPI_EXTRACT_PROCESSOR_END - offset at last byte of Processor() + 1
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# ACPI_EXTRACT_PKG_START - start of Package block
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#
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# ACPI_EXTRACT_ALL_CODE - create an array storing the generated AML bytecode
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#
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# ACPI_EXTRACT is not allowed anywhere else in code, except in comments.
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import re;
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import sys;
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import fileinput;
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aml = []
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asl = []
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output = {}
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debug = ""
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class asl_line:
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line = None
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lineno = None
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aml_offset = None
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def die(diag):
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sys.stderr.write("Error: %s; %s\n" % (diag, debug))
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sys.exit(1)
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#Store an ASL command, matching AML offset, and input line (for debugging)
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def add_asl(lineno, line):
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l = asl_line()
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l.line = line
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l.lineno = lineno
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l.aml_offset = len(aml)
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asl.append(l)
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#Store an AML byte sequence
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#Verify that offset output by iasl matches # of bytes so far
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def add_aml(offset, line):
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o = int(offset, 16);
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# Sanity check: offset must match size of code so far
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if (o != len(aml)):
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die("Offset 0x%x != 0x%x" % (o, len(aml)))
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# Strip any trailing dots and ASCII dump after "
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line = re.sub(r'\s*\.*\s*".*$',"", line)
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# Strip traling whitespace
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line = re.sub(r'\s+$',"", line)
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# Strip leading whitespace
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line = re.sub(r'^\s+',"", line)
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# Split on whitespace
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code = re.split(r'\s+', line)
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for c in code:
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# Require a legal hex number, two digits
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if (not(re.search(r'^[0-9A-Fa-f][0-9A-Fa-f]$', c))):
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die("Unexpected octet %s" % c);
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aml.append(int(c, 16));
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# Process aml bytecode array, decoding AML
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def aml_pkglen_bytes(offset):
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# PkgLength can be multibyte. Bits 8-7 give the # of extra bytes.
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pkglenbytes = aml[offset] >> 6;
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return pkglenbytes + 1
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def aml_pkglen(offset):
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pkgstart = offset
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pkglenbytes = aml_pkglen_bytes(offset)
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pkglen = aml[offset] & 0x3F
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# If multibyte, first nibble only uses bits 0-3
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if ((pkglenbytes > 1) and (pkglen & 0x30)):
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die("PkgLen bytes 0x%x but first nibble 0x%x expected 0x0X" %
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(pkglen, pkglen))
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offset += 1
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pkglenbytes -= 1
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for i in range(pkglenbytes):
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pkglen |= aml[offset + i] << (i * 8 + 4)
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if (len(aml) < pkgstart + pkglen):
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die("PckgLen 0x%x at offset 0x%x exceeds AML size 0x%x" %
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(pkglen, offset, len(aml)))
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return pkglen
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# Given method offset, find its NameString offset
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def aml_method_string(offset):
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#0x14 MethodOp PkgLength NameString MethodFlags TermList
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if (aml[offset] != 0x14):
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die( "Method offset 0x%x: expected 0x14 actual 0x%x" %
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(offset, aml[offset]));
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offset += 1;
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pkglenbytes = aml_pkglen_bytes(offset)
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offset += pkglenbytes;
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return offset;
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# Given name offset, find its NameString offset
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def aml_name_string(offset):
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#0x08 NameOp NameString DataRef
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if (aml[offset] != 0x08):
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die( "Name offset 0x%x: expected 0x08 actual 0x%x" %
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(offset, aml[offset]));
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offset += 1
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# Block Name Modifier. Skip it.
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if (aml[offset] == 0x5c or aml[offset] == 0x5e):
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offset += 1
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return offset;
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# Given data offset, find variable length byte buffer offset
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def aml_data_buffer(offset, length):
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#0x11 PkgLength BufferSize ByteList
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if (length > 63):
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die( "Name offset 0x%x: expected a one byte PkgLength (length<=63)" %
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(offset));
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expect = [0x11, length+3, 0x0A, length]
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if (aml[offset:offset+4] != expect):
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die( "Name offset 0x%x: expected %s actual %s" %
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(offset, expect, aml[offset:offset+4]))
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return offset + len(expect)
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# Given data offset, find dword const offset
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def aml_data_dword_const(offset):
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#0x08 NameOp NameString DataRef
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if (aml[offset] != 0x0C):
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die( "Name offset 0x%x: expected 0x0C actual 0x%x" %
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(offset, aml[offset]));
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return offset + 1;
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# Given data offset, find word const offset
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def aml_data_word_const(offset):
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#0x08 NameOp NameString DataRef
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if (aml[offset] != 0x0B):
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die( "Name offset 0x%x: expected 0x0B actual 0x%x" %
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(offset, aml[offset]));
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return offset + 1;
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# Given data offset, find byte const offset
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def aml_data_byte_const(offset):
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#0x08 NameOp NameString DataRef
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if (aml[offset] != 0x0A):
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die( "Name offset 0x%x: expected 0x0A actual 0x%x" %
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(offset, aml[offset]));
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return offset + 1;
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# Find name'd buffer
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def aml_name_buffer(offset, length):
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return aml_data_buffer(aml_name_string(offset) + 4, length)
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# Given name offset, find dword const offset
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def aml_name_dword_const(offset):
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return aml_data_dword_const(aml_name_string(offset) + 4)
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# Given name offset, find word const offset
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def aml_name_word_const(offset):
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return aml_data_word_const(aml_name_string(offset) + 4)
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# Given name offset, find byte const offset
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def aml_name_byte_const(offset):
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return aml_data_byte_const(aml_name_string(offset) + 4)
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def aml_device_start(offset):
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#0x5B 0x82 DeviceOp PkgLength NameString
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if ((aml[offset] != 0x5B) or (aml[offset + 1] != 0x82)):
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die( "Name offset 0x%x: expected 0x5B 0x82 actual 0x%x 0x%x" %
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(offset, aml[offset], aml[offset + 1]));
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return offset
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def aml_device_string(offset):
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#0x5B 0x82 DeviceOp PkgLength NameString
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start = aml_device_start(offset)
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offset += 2
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pkglenbytes = aml_pkglen_bytes(offset)
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offset += pkglenbytes
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return offset
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def aml_device_end(offset):
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start = aml_device_start(offset)
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offset += 2
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pkglenbytes = aml_pkglen_bytes(offset)
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pkglen = aml_pkglen(offset)
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return offset + pkglen
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def aml_processor_start(offset):
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#0x5B 0x83 ProcessorOp PkgLength NameString ProcID
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if ((aml[offset] != 0x5B) or (aml[offset + 1] != 0x83)):
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die( "Name offset 0x%x: expected 0x5B 0x83 actual 0x%x 0x%x" %
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(offset, aml[offset], aml[offset + 1]));
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return offset
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def aml_processor_string(offset):
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#0x5B 0x83 ProcessorOp PkgLength NameString ProcID
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start = aml_processor_start(offset)
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offset += 2
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pkglenbytes = aml_pkglen_bytes(offset)
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offset += pkglenbytes
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return offset
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def aml_processor_end(offset):
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start = aml_processor_start(offset)
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offset += 2
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pkglenbytes = aml_pkglen_bytes(offset)
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pkglen = aml_pkglen(offset)
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return offset + pkglen
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def aml_package_start(offset):
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offset = aml_name_string(offset) + 4
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# 0x12 PkgLength NumElements PackageElementList
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if (aml[offset] != 0x12):
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die( "Name offset 0x%x: expected 0x12 actual 0x%x" %
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(offset, aml[offset]));
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offset += 1
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return offset + aml_pkglen_bytes(offset) + 1
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lineno = 0
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for line in fileinput.input():
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# Strip trailing newline
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line = line.rstrip();
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# line number and debug string to output in case of errors
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lineno = lineno + 1
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debug = "input line %d: %s" % (lineno, line)
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#ASL listing: space, then line#, then ...., then code
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pasl = re.compile('^\s+([0-9]+)(:\s\s|\.\.\.\.)\s*')
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m = pasl.search(line)
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if (m):
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add_asl(lineno, pasl.sub("", line));
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# AML listing: offset in hex, then ...., then code
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paml = re.compile('^([0-9A-Fa-f]+)(:\s\s|\.\.\.\.)\s*')
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m = paml.search(line)
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if (m):
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add_aml(m.group(1), paml.sub("", line))
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# Now go over code
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# Track AML offset of a previous non-empty ASL command
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prev_aml_offset = -1
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for i in range(len(asl)):
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debug = "input line %d: %s" % (asl[i].lineno, asl[i].line)
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l = asl[i].line
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# skip if not an extract directive
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a = len(re.findall(r'ACPI_EXTRACT', l))
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if (not a):
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# If not empty, store AML offset. Will be used for sanity checks
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# IASL seems to put {}. at random places in the listing.
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# Ignore any non-words for the purpose of this test.
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m = re.search(r'\w+', l)
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if (m):
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prev_aml_offset = asl[i].aml_offset
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continue
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if (a > 1):
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die("Expected at most one ACPI_EXTRACT per line, actual %d" % a)
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mext = re.search(r'''
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^\s* # leading whitespace
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/\*\s* # start C comment
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(ACPI_EXTRACT_\w+) # directive: group(1)
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\s+ # whitspace separates directive from array name
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(\w+) # array name: group(2)
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\s*\*/ # end of C comment
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\s*$ # trailing whitespace
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''', l, re.VERBOSE)
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if (not mext):
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die("Stray ACPI_EXTRACT in input")
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# previous command must have produced some AML,
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# otherwise we are in a middle of a block
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if (prev_aml_offset == asl[i].aml_offset):
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die("ACPI_EXTRACT directive in the middle of a block")
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directive = mext.group(1)
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array = mext.group(2)
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offset = asl[i].aml_offset
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if (directive == "ACPI_EXTRACT_ALL_CODE"):
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if array in output:
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die("%s directive used more than once" % directive)
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output[array] = aml
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continue
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if (directive == "ACPI_EXTRACT_NAME_BUFFER8"):
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offset = aml_name_buffer(offset, 8)
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elif (directive == "ACPI_EXTRACT_NAME_BUFFER16"):
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offset = aml_name_buffer(offset, 16)
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elif (directive == "ACPI_EXTRACT_NAME_DWORD_CONST"):
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offset = aml_name_dword_const(offset)
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elif (directive == "ACPI_EXTRACT_NAME_WORD_CONST"):
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offset = aml_name_word_const(offset)
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elif (directive == "ACPI_EXTRACT_NAME_BYTE_CONST"):
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offset = aml_name_byte_const(offset)
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elif (directive == "ACPI_EXTRACT_NAME_STRING"):
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offset = aml_name_string(offset)
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elif (directive == "ACPI_EXTRACT_METHOD_STRING"):
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offset = aml_method_string(offset)
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elif (directive == "ACPI_EXTRACT_DEVICE_START"):
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offset = aml_device_start(offset)
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elif (directive == "ACPI_EXTRACT_DEVICE_STRING"):
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offset = aml_device_string(offset)
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elif (directive == "ACPI_EXTRACT_DEVICE_END"):
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offset = aml_device_end(offset)
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elif (directive == "ACPI_EXTRACT_PROCESSOR_START"):
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offset = aml_processor_start(offset)
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elif (directive == "ACPI_EXTRACT_PROCESSOR_STRING"):
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offset = aml_processor_string(offset)
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elif (directive == "ACPI_EXTRACT_PROCESSOR_END"):
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offset = aml_processor_end(offset)
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elif (directive == "ACPI_EXTRACT_PKG_START"):
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offset = aml_package_start(offset)
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else:
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die("Unsupported directive %s" % directive)
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if array not in output:
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output[array] = []
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output[array].append(offset)
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debug = "at end of file"
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def get_value_type(maxvalue):
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#Use type large enough to fit the table
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if (maxvalue >= 0x10000):
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return "int"
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elif (maxvalue >= 0x100):
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return "short"
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else:
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return "char"
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# Pretty print output
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for array in output.keys():
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otype = get_value_type(max(output[array]))
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odata = []
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for value in output[array]:
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odata.append("0x%x" % value)
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sys.stdout.write("static unsigned %s %s[] = {\n" % (otype, array))
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sys.stdout.write(",\n".join(odata))
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sys.stdout.write('\n};\n');
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