| blob | 3ddec9bc4947b2ad4ba5345e39c101136774ca14 |
2 Dynamic section .*
3 #...
4 0x00000003 \(PLTGOT\) 0x10202000
5 #...
6 0x70000013 \(MIPS_GOTSYM\) 0x1f
7 0x00000014 \(PLTREL\) REL
8 0x00000017 \(JMPREL\) 0x10005000
9 0x00000002 \(PLTRELSZ\) 224 \(bytes\)
10 0x70000032 \(MIPS_PLTGOT\) 0x10200000
11 #...
12 Relocation section '\.rel\.dyn' .*
13 # All symbols are referenced by a .word in the .data section, so pointer
14 # equality matters. If a PLT is needed to satisfy a direct call or %lo
15 # relocation, the symbol should have a nonzero value and there should be
16 # no dynamic relocations against it. The only relocations here are for
17 # undefined 0-value symbols. Note that unlike x86, we do not create a PLT
18 # for the uncalled symbol 'f' in order to maintain backward compatibility
19 # with pre-PLT ld.sos.
20 Offset Info Type Sym\.Value Sym\. Name
21 00000000 00000000 R_MIPS_NONE
22 10201028 00001f03 R_MIPS_REL32 00000000 f_iu_ic
23 10201008 00002003 R_MIPS_REL32 00000000 f_ic
24 10201020 00002103 R_MIPS_REL32 00000000 f_iu
25 10201000 00002203 R_MIPS_REL32 00000000 f
27 Relocation section '\.rel\.plt' .*
28 Offset Info Type Sym\.Value Sym\. Name
29 10200008 [^ ]+ R_MIPS_JUMP_SLOT 10100020 f_lo_iu
30 1020000c [^ ]+ R_MIPS_JUMP_SLOT 10100030 f_lo_iu_du_dc
31 10200010 [^ ]+ R_MIPS_JUMP_SLOT 10100040 f_lo_du_ic_dc
32 10200014 [^ ]+ R_MIPS_JUMP_SLOT 10100050 f_du_dc
33 10200018 [^ ]+ R_MIPS_JUMP_SLOT 10100191 f_lo_iu_dc
34 1020001c [^ ]+ R_MIPS_JUMP_SLOT 10100060 f_iu_du_ic
35 10200020 [^ ]+ R_MIPS_JUMP_SLOT 10100070 f_lo_du_ic
36 10200024 [^ ]+ R_MIPS_JUMP_SLOT 101001a1 f_iu_dc
37 10200028 [^ ]+ R_MIPS_JUMP_SLOT 10100080 f_lo_iu_ic
38 1020002c [^ ]+ R_MIPS_JUMP_SLOT 10100090 f_lo_ic
39 10200030 [^ ]+ R_MIPS_JUMP_SLOT 101000a0 f_lo_du_dc
40 10200034 [^ ]+ R_MIPS_JUMP_SLOT 101000b0 f_du
41 10200038 [^ ]+ R_MIPS_JUMP_SLOT 101000c0 f_du_ic_dc
42 1020003c [^ ]+ R_MIPS_JUMP_SLOT 101000d0 f_du_ic
43 10200040 [^ ]+ R_MIPS_JUMP_SLOT 101000e0 f_iu_du_dc
44 10200044 [^ ]+ R_MIPS_JUMP_SLOT 101001e1 f_lo_dc
45 10200048 [^ ]+ R_MIPS_JUMP_SLOT 101000f0 f_iu_du
46 1020004c [^ ]+ R_MIPS_JUMP_SLOT 10100100 f_lo_iu_du
47 10200050 [^ ]+ R_MIPS_JUMP_SLOT 101001f1 f_dc
48 10200054 [^ ]+ R_MIPS_JUMP_SLOT 10100201 f_ic_dc
49 10200058 [^ ]+ R_MIPS_JUMP_SLOT 10100110 f_lo_du
50 1020005c [^ ]+ R_MIPS_JUMP_SLOT 10100211 f_iu_ic_dc
51 10200060 [^ ]+ R_MIPS_JUMP_SLOT 10100120 f_iu_du_ic_dc
52 10200064 [^ ]+ R_MIPS_JUMP_SLOT 10100231 f_lo_iu_ic_dc
53 10200068 [^ ]+ R_MIPS_JUMP_SLOT 10100130 f_lo_iu_du_ic
54 1020006c [^ ]+ R_MIPS_JUMP_SLOT 10100140 f_lo_iu_du_ic_dc
55 10200070 [^ ]+ R_MIPS_JUMP_SLOT 10100251 f_lo_ic_dc
56 10200074 [^ ]+ R_MIPS_JUMP_SLOT 10100150 f_lo
58 Symbol table '\.dynsym' .*
59 Num: Value Size Type Bind Vis Ndx Name
60 0: 00000000 0 NOTYPE LOCAL DEFAULT UND
61 # All symbols have their address taken, so PLT symbols need to have a nonzero
62 # value. They must also have STO_MIPS_PLT in order to distinguish them from
63 # old-style lazy-binding stubs).
64 #
65 # A MIPS16 PLT should only be used as the symbol value if the function has
66 # a direct MIPS16 caller (dc) and no direct MIPS caller (du).
67 .*: 10100020 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_lo_iu
68 .*: 10100030 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_lo_iu_du_dc
69 #...
70 .*: 10100040 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_lo_du_ic_dc
71 .*: 10100050 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_du_dc
72 .*: 10100191 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_lo_iu_dc
73 .*: 10100060 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_iu_du_ic
74 .*: 10100070 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_lo_du_ic
75 .*: 101001a1 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_iu_dc
76 .*: 10100080 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_lo_iu_ic
77 .*: 10100090 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_lo_ic
78 .*: 101000a0 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_lo_du_dc
79 .*: 101000b0 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_du
80 .*: 101000c0 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_du_ic_dc
81 .*: 101000d0 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_du_ic
82 .*: 101000e0 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_iu_du_dc
83 .*: 101001e1 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_lo_dc
84 .*: 101000f0 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_iu_du
85 .*: 10100100 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_lo_iu_du
86 .*: 101001f1 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_dc
87 .*: 10100201 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_ic_dc
88 .*: 10100110 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_lo_du
89 .*: 10100211 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_iu_ic_dc
90 .*: 10100120 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_iu_du_ic_dc
91 #...
92 .*: 10100231 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_lo_iu_ic_dc
93 .*: 10100130 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_lo_iu_du_ic
94 .*: 10100140 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_lo_iu_du_ic_dc
95 .*: 10100251 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_lo_ic_dc
96 .*: 10100150 0 FUNC GLOBAL DEFAULT \[MIPS PLT\] UND f_lo
97 # The start of the GOT-mapped area. This should only contain functions that
98 # are accessed purely via the traditional psABI scheme. Since the functions
99 # have their addresses taken, they cannot use a lazy-binding stub.
100 # The symbol values are therefore all zero.
101 31: 00000000 0 FUNC GLOBAL DEFAULT UND f_iu_ic
102 32: 00000000 0 FUNC GLOBAL DEFAULT UND f_ic
103 33: 00000000 0 FUNC GLOBAL DEFAULT UND f_iu
104 34: 00000000 0 FUNC GLOBAL DEFAULT UND f
106 Symbol table '\.symtab' .*
107 #...
108 Hex dump of section '\.data':
109 0x10201000 (00000000|00000000) (101001f1|f1011010) (00000000|00000000) (10100201|01021010) .*
110 0x10201010 (101000b0|b0001010) (10100050|50001010) (101000d0|d0001010) (101000c0|c0001010) .*
111 0x10201020 (00000000|00000000) (101001a1|a1011010) (00000000|00000000) (10100211|11021010) .*
112 0x10201030 (101000f0|f0001010) (101000e0|e0001010) (10100060|60001010) (10100120|20011010) .*
113 0x10201040 (10100150|50011010) (101001e1|e1011010) (10100090|90001010) (10100251|51021010) .*
114 0x10201050 (10100110|10011010) (101000a0|a0001010) (10100070|70001010) (10100040|40001010) .*
115 0x10201060 (10100020|20001010) (10100191|91011010) (10100080|80001010) (10100231|31021010) .*
116 0x10201070 (10100100|00011010) (10100030|30001010) (10100130|30011010) (10100140|40011010) .*
119 Primary GOT:
120 Canonical gp value: 10209ff0
122 Reserved entries:
123 Address Access Initial Purpose
124 10202000 -32752\(gp\) 00000000 Lazy resolver
125 10202004 -32748\(gp\) 80000000 Module pointer \(GNU extension\)
127 # See the disassembly output for the meaning of each entry.
128 Local entries:
129 Address Access Initial
130 10202008 -32744\(gp\) 10100201
131 1020200c -32740\(gp\) 101000d0
132 10202010 -32736\(gp\) 101000c0
133 10202014 -32732\(gp\) 10100211
134 10202018 -32728\(gp\) 10100060
135 1020201c -32724\(gp\) 10100120
136 10202020 -32720\(gp\) 10100090
137 10202024 -32716\(gp\) 10100251
138 10202028 -32712\(gp\) 10100070
139 1020202c -32708\(gp\) 10100040
140 10202030 -32704\(gp\) 10100080
141 10202034 -32700\(gp\) 10100231
142 10202038 -32696\(gp\) 10100130
143 1020203c -32692\(gp\) 10100140
144 10202040 -32688\(gp\) 101001a1
145 10202044 -32684\(gp\) 101000f0
146 10202048 -32680\(gp\) 101000e0
147 1020204c -32676\(gp\) 10100020
148 10202050 -32672\(gp\) 10100191
149 10202054 -32668\(gp\) 10100100
150 10202058 -32664\(gp\) 10100030
152 Global entries:
153 Address Access Initial Sym\.Val\. Type Ndx Name
154 1020205c -32660\(gp\) 00000000 00000000 FUNC UND f_iu_ic
155 10202060 -32656\(gp\) 00000000 00000000 FUNC UND f_ic
156 10202064 -32652\(gp\) 00000000 00000000 FUNC UND f_iu
157 10202068 -32648\(gp\) 00000000 00000000 FUNC UND f
160 PLT GOT:
162 Reserved entries:
163 Address Initial Purpose
164 10200000 00000000 PLT lazy resolver
165 10200004 00000000 Module pointer
167 Entries:
168 Address Initial Sym\.Val\. Type Ndx Name
169 10200008 10100000 10100020 FUNC UND f_lo_iu
170 1020000c 10100000 10100030 FUNC UND f_lo_iu_du_dc
171 10200010 10100000 10100040 FUNC UND f_lo_du_ic_dc
172 10200014 10100000 10100050 FUNC UND f_du_dc
173 10200018 10100000 10100191 FUNC UND f_lo_iu_dc
174 1020001c 10100000 10100060 FUNC UND f_iu_du_ic
175 10200020 10100000 10100070 FUNC UND f_lo_du_ic
176 10200024 10100000 101001a1 FUNC UND f_iu_dc
177 10200028 10100000 10100080 FUNC UND f_lo_iu_ic
178 1020002c 10100000 10100090 FUNC UND f_lo_ic
179 10200030 10100000 101000a0 FUNC UND f_lo_du_dc
180 10200034 10100000 101000b0 FUNC UND f_du
181 10200038 10100000 101000c0 FUNC UND f_du_ic_dc
182 1020003c 10100000 101000d0 FUNC UND f_du_ic
183 10200040 10100000 101000e0 FUNC UND f_iu_du_dc
184 10200044 10100000 101001e1 FUNC UND f_lo_dc
185 10200048 10100000 101000f0 FUNC UND f_iu_du
186 1020004c 10100000 10100100 FUNC UND f_lo_iu_du
187 10200050 10100000 101001f1 FUNC UND f_dc
188 10200054 10100000 10100201 FUNC UND f_ic_dc
189 10200058 10100000 10100110 FUNC UND f_lo_du
190 1020005c 10100000 10100211 FUNC UND f_iu_ic_dc
191 10200060 10100000 10100120 FUNC UND f_iu_du_ic_dc
192 10200064 10100000 10100231 FUNC UND f_lo_iu_ic_dc
193 10200068 10100000 10100130 FUNC UND f_lo_iu_du_ic
194 1020006c 10100000 10100140 FUNC UND f_lo_iu_du_ic_dc
195 10200070 10100000 10100251 FUNC UND f_lo_ic_dc
196 10200074 10100000 10100150 FUNC UND f_lo