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1 /*
2  * This file is part of ltrace.
3  * Copyright (C) 2006,2010,2012,2013 Petr Machata, Red Hat Inc.
4  * Copyright (C) 2010 Zachary T Welch
5  * Copyright (C) 2001,2004,2007,2009 Juan Cespedes
6  * Copyright (C) 2006 Ian Wienand
7  *
8  * This program is free software; you can redistribute it and/or
9  * modify it under the terms of the GNU General Public License as
10  * published by the Free Software Foundation; either version 2 of the
11  * License, or (at your option) any later version.
12  *
13  * This program is distributed in the hope that it will be useful, but
14  * WITHOUT ANY WARRANTY; without even the implied warranty of
15  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
16  * General Public License for more details.
17  *
18  * You should have received a copy of the GNU General Public License
19  * along with this program; if not, write to the Free Software
20  * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA
21  * 02110-1301 USA
22  */
23 
24 #ifndef LTRACE_ELF_H
25 #define LTRACE_ELF_H
26 
27 #include <gelf.h>
28 #include <stdlib.h>
29 #include <callback.h>
30 
31 #include "forward.h"
32 #include "sysdep.h"
33 #include "vect.h"
34 
35 /* XXX Ok, the original idea was to separate the low-level ELF data
36  * from the abstract "struct library" object, but we use some of the
37  * following extensively in the back end.  Not all though.  So what we
38  * use should be move to struct library, and the rest of this
39  * structure maybe could be safely hidden in .c.  How to integrate the
40  * arch-specific bits into struct library is unclear as of now.  */
41 struct ltelf {
42 	int fd;
43 	Elf *elf;
44 	GElf_Ehdr ehdr;
45 	Elf_Data *dynsym;
46 	size_t dynsym_count;
47 	const char *dynstr;
48 	GElf_Addr plt_addr;
49 	GElf_Word plt_flags;
50 	size_t plt_size;
51 	Elf_Data *plt_data;
52 
53 	/* Vector of GElf_Rela with PLT relocations.  */
54 	struct vect plt_relocs;
55 
56 	Elf_Data *symtab;
57 	const char *strtab;
58 	const char *soname;
59 	size_t symtab_count;
60 	Elf_Data *opd;
61 	GElf_Addr *opd_addr;
62 	size_t opd_size;
63 	GElf_Addr dyn_addr;
64 	size_t dyn_sz;
65 	GElf_Addr bias;
66 	GElf_Addr entry_addr;
67 	GElf_Addr base_addr;
68 	struct arch_ltelf_data arch;
69 };
70 
71 int ltelf_init(struct ltelf *lte, const char *filename);
72 void ltelf_destroy(struct ltelf *lte);
73 
74 /* XXX is it possible to put breakpoints in VDSO and VSYSCALL
75  * pseudo-libraries?  For now we assume that all libraries can be
76  * opened via a filesystem.  BASE is ignored for ET_EXEC files.  */
77 int ltelf_read_library(struct library *lib, struct process *proc,
78 		       const char *filename, GElf_Addr bias);
79 
80 /* Create a library object representing the main binary.  The entry
81  * point address is stored to *ENTRYP.  */
82 struct library *ltelf_read_main_binary(struct process *proc, const char *path);
83 
84 /* This is called for every PLT relocation R in ELF file LTE, that
85  * ltrace is about to add to a library constructed in process PROC.
86  * The corresponding PLT entry is for symbol called NAME, and it's
87  * I-th relocation in the file.  *RET shall be initialized and
88  * symbol(s) corresponding to the given PLT entry will be added to the
89  * front.  Returns 0 for success, or a negative value for failures.
90  *
91  * This calls os_elf_add_plt_entry and arch_elf_add_plt_entry in the
92  * background (see backend.h for documentation).  The arch callback is
93  * called first.  If it returns PLT_DEFAULT, the os callback is called
94  * next.  If that returns PLT_DEFAULT, default_elf_add_plt_entry is
95  * called.  */
96 int elf_add_plt_entry(struct process *proc, struct ltelf *lte,
97 		      const char *name, GElf_Rela *rela, size_t idx,
98 		      struct library_symbol **ret);
99 
100 /* Create a default PLT entry.  This can be used instead (or in
101  * addition to) returning PLT_DEFAULT from arch_elf_add_plt_entry.
102  * RET shall be initialized, the created symbol will be added to the
103  * beginning of the linked list at *RET.  This function doesn't add
104  * the symbol to LTE.  arch_elf_add_plt_entry has the chance to adjust
105  * symbol internals to its liking, and then return either PLT_DEFAULT
106  * or PLT_OK.  */
107 int default_elf_add_plt_entry(struct process *proc, struct ltelf *lte,
108 			      const char *a_name, GElf_Rela *rela, size_t ndx,
109 			      struct library_symbol **ret);
110 
111 Elf_Data *elf_loaddata(Elf_Scn *scn, GElf_Shdr *shdr);
112 
113 /* The following three look for sections based on various criteria.
114  * They return 0 if there was no error, or a negative value if there
115  * was.  If the section was found, it is returned in *TGT_SEC, and the
116  * header is stored to TGT_SHDR.  If it wasn't found, *TGT_SEC is set
117  * to NULL.  */
118 int elf_get_section_covering(struct ltelf *lte, GElf_Addr addr,
119 			     Elf_Scn **tgt_sec, GElf_Shdr *tgt_shdr);
120 int elf_get_section_type(struct ltelf *lte, GElf_Word type,
121 			 Elf_Scn **tgt_sec, GElf_Shdr *tgt_shdr);
122 int elf_get_section_named(struct ltelf *lte, const char *name,
123 			  Elf_Scn **tgt_sec, GElf_Shdr *tgt_shdr);
124 
125 /* Iterate through all symbols in LTE.  See callback.h for notes on
126  * iteration interfaces.  START_AFTER is 0 in initial call.  */
127 struct elf_each_symbol_t {
128 	unsigned restart;
129 	int status;
130 } elf_each_symbol(struct ltelf *lte, unsigned start_after,
131 		  enum callback_status (*cb)(GElf_Sym *symbol,
132 					     const char *name,
133 					     void *data),
134 		  void *data);
135 
136 /* Read relocations from relocation section SCN with header SHDR and
137  * add them to RELA_VEC, which is a vector of GElf_Rela.  Return 0 on
138  * success, or a negative value on failure.  */
139 int elf_read_relocs(struct ltelf *lte, Elf_Scn *scn, GElf_Shdr *shdr,
140 		    struct vect *rela_vec);
141 
142 /* Read a given DT_ TAG from LTE.  Value is returned in *VALUEP.
143  * Returns 0 on success or a negative value on failure.  */
144 int elf_load_dynamic_entry(struct ltelf *lte, int tag, GElf_Addr *valuep);
145 
146 /* Read, respectively, 1, 2, 4, or 8 bytes from Elf data at given
147  * OFFSET, and store it in *RETP.  Returns 0 on success or a negative
148  * value if there's not enough data.  */
149 int elf_read_u8(Elf_Data *data, GElf_Xword offset, uint8_t *retp);
150 int elf_read_u16(Elf_Data *data, GElf_Xword offset, uint16_t *retp);
151 int elf_read_u32(Elf_Data *data, GElf_Xword offset, uint32_t *retp);
152 int elf_read_u64(Elf_Data *data, GElf_Xword offset, uint64_t *retp);
153 
154 /* Read at most 64-bit quantity recorded in an ULEB128 variable-length
155  * encoding.  */
156 int elf_read_uleb128(Elf_Data *data, GElf_Xword offset, uint64_t *retp);
157 
158 /* These are same as above, but update *OFFSET with the width
159  * of read datum.  */
160 int elf_read_next_u8(Elf_Data *data, GElf_Xword *offset, uint8_t *retp);
161 int elf_read_next_u16(Elf_Data *data, GElf_Xword *offset, uint16_t *retp);
162 int elf_read_next_u32(Elf_Data *data, GElf_Xword *offset, uint32_t *retp);
163 int elf_read_next_u64(Elf_Data *data, GElf_Xword *offset, uint64_t *retp);
164 int elf_read_next_uleb128(Elf_Data *data, GElf_Xword *offset, uint64_t *retp);
165 
166 /* Return whether there's AMOUNT more bytes after OFFSET in DATA.  */
167 int elf_can_read_next(Elf_Data *data, GElf_Xword offset, GElf_Xword amount);
168 
169 #if __WORDSIZE == 32
170 #define PRI_ELF_ADDR		PRIx32
171 #define GELF_ADDR_CAST(x)	(void *)(uint32_t)(x)
172 #else
173 #define PRI_ELF_ADDR		PRIx64
174 #define GELF_ADDR_CAST(x)	(void *)(x)
175 #endif
176 
177 #endif
178