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comparison src/share/vm/utilities/elfFuncDescTable.hpp @ 18041:52b4284cb496

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Merge with jdk8u20-b26
author Gilles Duboscq <duboscq@ssw.jku.at>
date Wed, 15 Oct 2014 16:02:50 +0200
parents e7cbc95179c4
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17606:45d7b2c7029d 18041:52b4284cb496
1 /*
2 * Copyright (c) 1997, 2013, Oracle and/or its affiliates. All rights reserved.
3 * Copyright 2012, 2013 SAP AG. All rights reserved.
4 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
5 *
6 * This code is free software; you can redistribute it and/or modify it
7 * under the terms of the GNU General Public License version 2 only, as
8 * published by the Free Software Foundation.
9 *
10 * This code is distributed in the hope that it will be useful, but WITHOUT
11 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
12 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
13 * version 2 for more details (a copy is included in the LICENSE file that
14 * accompanied this code).
15 *
16 * You should have received a copy of the GNU General Public License version
17 * 2 along with this work; if not, write to the Free Software Foundation,
18 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
19 *
20 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
21 * or visit www.oracle.com if you need additional information or have any
22 * questions.
23 *
24 */
25
26 #ifndef SHARE_VM_UTILITIES_ELF_FUNC_DESC_TABLE_HPP
27 #define SHARE_VM_UTILITIES_ELF_FUNC_DESC_TABLE_HPP
28
29 #if !defined(_WINDOWS) && !defined(__APPLE__)
30
31
32 #include "memory/allocation.hpp"
33 #include "utilities/decoder.hpp"
34 #include "utilities/elfFile.hpp"
35
36 /*
37
38 On PowerPC-64 (and other architectures like for example IA64) a pointer to a
39 function is not just a plain code address, but instead a pointer to a so called
40 function descriptor (which is simply a structure containing 3 pointers).
41 This fact is also reflected in the ELF ABI for PowerPC-64.
42
43 On architectures like x86 or SPARC, the ELF symbol table contains the start
44 address and size of an object. So for example for a function object (i.e. type
45 'STT_FUNC') the symbol table's 'st_value' and 'st_size' fields directly
46 represent the starting address and size of that function. On PPC64 however, the
47 symbol table's 'st_value' field only contains an index into another, PPC64
48 specific '.opd' (official procedure descriptors) section, while the 'st_size'
49 field still holds the size of the corresponding function. In order to get the
50 actual start address of a function, it is necessary to read the corresponding
51 function descriptor entry in the '.opd' section at the corresponding index and
52 extract the start address from there.
53
54 That's exactly what this 'ElfFuncDescTable' class is used for. If the HotSpot
55 runs on a PPC64 machine, and the corresponding ELF files contains an '.opd'
56 section (which is actually mandatory on PPC64) it will be read into an object
57 of type 'ElfFuncDescTable' just like the string and symbol table sections.
58 Later on, during symbol lookup in 'ElfSymbolTable::lookup()' this function
59 descriptor table will be used if available to find the real function address.
60
61 All this is how things work today (2013) on contemporary Linux distributions
62 (i.e. SLES 10) and new version of GCC (i.e. > 4.0). However there is a history,
63 and it goes like this:
64
65 In SLES 9 times (sometimes before GCC 3.4) gcc/ld on PPC64 generated two
66 entries in the symbol table for every function. The value of the symbol with
67 the name of the function was the address of the function descriptor while the
68 dot '.' prefixed name was reserved to hold the actual address of that function
69 (http://refspecs.linuxfoundation.org/ELF/ppc64/PPC-elf64abi-1.9.html#FUNC-DES).
70
71 For a C-function 'foo' this resulted in two symbol table entries like this
72 (extracted from the output of 'readelf -a <lib.so>'):
73
74 Section Headers:
75 [ 9] .text PROGBITS 0000000000000a20 00000a20
76 00000000000005a0 0000000000000000 AX 0 0 16
77 [21] .opd PROGBITS 00000000000113b8 000013b8
78 0000000000000138 0000000000000000 WA 0 0 8
79
80 Symbol table '.symtab' contains 86 entries:
81 Num: Value Size Type Bind Vis Ndx Name
82 76: 00000000000114c0 24 FUNC GLOBAL DEFAULT 21 foo
83 78: 0000000000000bb0 76 FUNC GLOBAL DEFAULT 9 .foo
84
85 You can see now that the '.foo' entry actually points into the '.text' segment
86 ('Ndx'=9) and its value and size fields represent the functions actual address
87 and size. On the other hand, the entry for plain 'foo' points into the '.opd'
88 section ('Ndx'=21) and its value and size fields are the index into the '.opd'
89 section and the size of the corresponding '.opd' section entry (3 pointers on
90 PPC64).
91
92 These so called 'dot symbols' were dropped around gcc 3.4 from GCC and BINUTILS,
93 see http://gcc.gnu.org/ml/gcc-patches/2004-08/msg00557.html.
94 But nevertheless it may still be necessary to support both formats because we
95 either run on an old system or because it is possible at any time that functions
96 appear in the stack trace which come from old-style libraries.
97
98 Therefore we not only have to check for the presence of the function descriptor
99 table during symbol lookup in 'ElfSymbolTable::lookup()'. We additionally have
100 to check that the symbol table entry references the '.opd' section. Only in
101 that case we can resolve the actual function address from there. Otherwise we
102 use the plain 'st_value' field from the symbol table as function address. This
103 way we can also lookup the symbols in old-style ELF libraries (although we get
104 the 'dotted' versions in that case). However, if present, the 'dot' will be
105 conditionally removed on PPC64 from the symbol in 'ElfDecoder::demangle()' in
106 decoder_linux.cpp.
107
108 Notice that we can not reliably get the function address from old-style
109 libraries because the 'st_value' field of the symbol table entries which point
110 into the '.opd' section denote the size of the corresponding '.opd' entry and
111 not that of the corresponding function. This has changed for the symbol table
112 entries in new-style libraries as described at the beginning of this
113 documentation.
114
115 */
116
117 class ElfFuncDescTable: public CHeapObj<mtInternal> {
118 friend class ElfFile;
119 public:
120 ElfFuncDescTable(FILE* file, Elf_Shdr shdr, int index);
121 ~ElfFuncDescTable();
122
123 // return the function address for the function descriptor at 'index' or NULL on error
124 address lookup(Elf_Word index);
125
126 int get_index() { return m_index; };
127
128 NullDecoder::decoder_status get_status() { return m_status; };
129
130 protected:
131 // holds the complete function descriptor section if
132 // we can allocate enough memory
133 address* m_funcDescs;
134
135 // file contains string table
136 FILE* m_file;
137
138 // section header
139 Elf_Shdr m_shdr;
140
141 // The section index of this function descriptor (i.e. '.opd') section in the ELF file
142 int m_index;
143
144 NullDecoder::decoder_status m_status;
145 };
146
147 #endif // !_WINDOWS && !__APPLE__
148
149 #endif // SHARE_VM_UTILITIES_ELF_FUNC_DESC_TABLE_HPP