/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _ELFEDIT_H #define _ELFEDIT_H #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #include /* The following are here to support use of elfedit_msg() */ #include /* EC_ macros */ #include #ifdef __cplusplus extern "C" { #endif /* * elfedit uses elfedit_printf() to produce generic output to stdout. * elfedit_msg() is used to produce error message, or specific types * of terse informational messages: * * ELFEDIT_MSG_ERR: * Issues an error to stderr. elfedit_msg() does not return * to the caller. Control returns to the outer loop in * interactive use. elfedit exits in non-interactive use. * * ELFEDIT_MSG_FATAL: * Issues an error to stderr. elfedit_msg() exits the process, * and does not return to the caller. * * ELFEDIT_MSG_USAGE: * Issues an elfedit usage message to stderr, and * returns to the caller. * * ELFEDIT_MSG_CMDUSAGE * Issues an elfedit usage message to stderr, and * does not return to the caller. * * ELFEDIT_MSG_DEBUG * If the ELFEDIT_F_DEBUG flag is set, the message * is printed to stdout, otherwise no output is produced. * elfedit_msg() returns to the caller. * * ELFEDIT_MSG_QUIET * This is a very special case, intended to handle the * case where the pager subprocess exits before we are * done producing output (the user presses 'q'). It acts * just like ELFEDIT_MSG_ERR, except that no message is * actually printed. * * In the cases where elfedit_msg() does not return to the caller, the * behavior depends on the mode of execution. If running in interactive * mode (reading from a tty), control is returned directly to the outer * elfedit control loop to read another command. If not running in interactive * mode, elfedit exits with a non-zero status. */ typedef enum { ELFEDIT_MSG_ERR = 0, ELFEDIT_MSG_FATAL = 1, ELFEDIT_MSG_USAGE = 2, ELFEDIT_MSG_CMDUSAGE = 3, ELFEDIT_MSG_DEBUG = 4, ELFEDIT_MSG_QUIET = 5 } elfedit_msg_t; /* * Information for a single ELF section. * * NOTE: sec_xshndx * A symbol table can have an associated SHT_SYMTAB_SHNDX section. This * happens when the number of sections is too large to fit in the * ELF symbol st_shndx field, which is a 16-bit value. The sec_xshndx * field will be SHN_UNDEF if there is no such section, and will be * the section index of the extended section index section assocated * with the symbol table otherwise. * * NOTE: sec_versym * Symbol table sections can have an SHT_SUNW_VERSYM section that * contains its version indices. Other types of section will have * this field set to SHN_UNDEF. */ typedef struct { Elf32_Word sec_shndx; /* Section index */ Elf_Scn *sec_scn; /* Section descriptor */ Elf32_Shdr *sec_shdr; /* Section header */ Elf_Data *sec_data; /* Data region of section */ const char *sec_name; /* Name of section */ } elfedit32_section_t; typedef struct { Elf64_Word sec_shndx; Elf_Scn *sec_scn; Elf64_Shdr *sec_shdr; Elf_Data *sec_data; const char *sec_name; } elfedit64_section_t; #ifdef _ELF64 #define elfedit_section_t elfedit64_section_t #else #define elfedit_section_t elfedit32_section_t #endif /* * We maintain extra information for symbol tables. We look them * up frequently, so we want to eliminate expensive linear searches * of the entire section header array. Also, symbol tables usually * have associated parallal sections (syminfo, versym, extended indexes, etc) * and we want to eliminate repeated linear lookups for them, as well as * the basic error checking that is necessary to ensure they match the * symbol table they're given. * * This extra information is kept in elfedit_symtab_t structs. Each field * is a section index, with SHN_UNDEF used for those that do not apply. */ typedef struct { Elf32_Word symt_shndx; /* Symbol table section index */ Elf32_Word symt_xshndx; /* Index of extended index section */ Elf32_Word symt_syminfo; /* Index of versym section */ Elf32_Word symt_versym; /* Index of versym section */ } elfedit32_symtab_t; typedef struct { Elf64_Word symt_shndx; Elf64_Word symt_xshndx; Elf64_Word symt_versym; Elf64_Word symt_syminfo; } elfedit64_symtab_t; #ifdef _ELF64 #define elfedit_symtab_t elfedit64_symtab_t #else #define elfedit_symtab_t elfedit32_symtab_t #endif /* * Information for a single ELF object. * * note: * elfedit is intended to be an expert's tool, capable of modifying * nearly everything in the file, whether or not such modifications * are a good idea. At the same time, elfedit, via libelf, relies * on the contents of the object to properly locate information in * the file. As this is the same information that elfedit allows the * user to modify, it should be obvious that the potential exists * for users to corrupt the file to the degree that elfedit itself * may fail, or produce spurious results. We allow such changes for * several reasons: * * 1) Such corruption does not happen in the most obvious and * useful operations elfedit supports, but comes as a result * of modifying fields that contain size and offset information * used to navigate the file. Non-ELF developers have * little practical reason to change such things. * * 2) Producing a corrupt ELF file can be very useful * for R&D and/or testing purposes. * * 3) ELF is sufficiently complex that no absolute guarantees can * be made about "safe" operations, beyond the basic * and obvious things that are of practical use. * * One way we protect ourselves is via the information cached in * the elfedit_obj_state_t structure at startup. By using this * information, rather than constantly fetching it via libelf, * we protect ourselves against many user changes, such as changing the * program or section header offsets, or similar size/position fields. * * Of course, we make no assurances that that we will be able to * read the resulting file in a subsequent session. */ typedef struct { const char *os_file; /* Path to ELF file */ int os_fd; /* Open file descriptor */ Elf *os_elf; /* ELF descriptor */ Elf32_Ehdr *os_ehdr; /* ELF header */ Elf32_Word os_dynndx; /* Index of dynamic section */ size_t os_shstrndx; /* Index of section header */ /* string table section */ size_t os_shnum; /* # of sections in file */ elfedit32_section_t *os_secarr; /* Section data */ size_t os_phnum; /* # of program headers */ Elf32_Phdr *os_phdr; /* Program header array */ size_t os_symtabnum; /* # items in os_symtab[] */ elfedit32_symtab_t *os_symtab; /* Array of symbol tbl info */ } elfedit32_obj_state_t; typedef struct { const char *os_file; int os_fd; Elf *os_elf; Elf64_Ehdr *os_ehdr; Elf64_Word os_dynndx; size_t os_shstrndx; size_t os_shnum; elfedit64_section_t *os_secarr; size_t os_phnum; Elf64_Phdr *os_phdr; size_t os_symtabnum; elfedit64_symtab_t *os_symtab; } elfedit64_obj_state_t; #ifdef _ELF64 #define elfedit_obj_state_t elfedit64_obj_state_t #else #define elfedit_obj_state_t elfedit32_obj_state_t #endif /* * Bit values for editor state. */ typedef enum { ELFEDIT_F_AUTOPRINT = 1, /* Print informational text about edits */ ELFEDIT_F_DEBUG = 2, /* Print informational text about operations */ ELFEDIT_F_READONLY = 4, /* File is processed readonly */ } elfedit_flag_t; /* * Type used to represent the output style for printing ELF values. * * DEFAULT - Output is in 'elfdump' style, designed for human eyes. * Headers, and additional information are shown. * SIMPLE - Output is simple, consisting only of the target item. * Integer values are shown as symbolic constants when possible, * and integers otherwise. * NUM - Like SIMPLE, except integer values are always shown as * integer constants, and strings are shown as the integer * offset into the string table. */ typedef enum { ELFEDIT_OUTSTYLE_DEFAULT = 0, ELFEDIT_OUTSTYLE_SIMPLE = 1, ELFEDIT_OUTSTYLE_NUM = 2 } elfedit_outstyle_t; /* * The elfedit_module_t, and the types it references, are defined * by loadable elfedit modules, and used by elfedit. These structures * need to communicate internationalized strings for elfedit to print. * * We want to leave the choice of internationalization APIs, as well as * the decision about whether or not to even to it to the individual * modules. Hence, we do not use a simple (const char *) pointer to * communicate potentially internationalized strings. Instead, we define * elfedit_i18nhdl_t, an opaque type guaranteed to be large enough * to hold a pointer. Each module casts the handle needed to access the * string to this type. Each module also supplies a function * (mod_i18nhdl_to_str field of elfedit_module_t) that given one * of these opaque keys, will return a (const char *) pointer to the * actual string, for elfedit to print. * * If the underlying module doesn't want to implement i18n support, * all it has to do is cast the strings to elfedit_i18nhdl_t and * back. */ typedef uintptr_t elfedit_i18nhdl_t; /* * Macro to handle casting international string "handles" to the * elfedit_i18nhdl_t opaque type. */ #define ELFEDIT_I18NHDL(_i18n_str_ref) ((elfedit_i18nhdl_t)_i18n_str_ref) /* * Return values from command functions */ typedef enum { ELFEDIT_CMDRET_NONE = 0, /* Nothing to report */ ELFEDIT_CMDRET_MOD = 1, /* Command modified output ELF file */ ELFEDIT_CMDRET_FLUSH = 2 /* Output file flushed: elf_update() */ } elfedit_cmdret_t; /* * Prototype of an implementation function for an edit command. Note that * commands do not return a status: * - Success is indicated by a normal return. * - The command indicates a fatal error by calling elfedit_msg() with the * ELFEDIT_MSG_ERR type, in which case execution does not return * to the command, and the elfedit command loop knows that an * error occurred. * - The command is responsible for using the standard libelf * mechanisms to indicate when changes have been made to * the ELF file. */ typedef elfedit_cmdret_t elfedit32_cmd_func_t(elfedit32_obj_state_t *state, int argc, const char *argv[]); typedef elfedit_cmdret_t elfedit64_cmd_func_t(elfedit64_obj_state_t *state, int argc, const char *argv[]); #ifdef _ELF64 #define elfedit_cmd_func_t elfedit64_cmd_func_t #else #define elfedit_cmd_func_t elfedit32_cmd_func_t #endif /* * An elfedit command (elfedit_cmd_t) has a cmd_cpl field that * can be set to a command completion function. If such a function * is present (non-NULL), and the user presses the tab key at the * command line while the cursor is at a plain (non option) argument, * elfedit calls the function, passing it all the tokens up through * the one needing completion. The function can use elfedit_cpl_match() * to enter possible alternatives. Additionally, there are helper * functions built on top of elfedit_cpl_match() that simplify common cases. * * elfedit_cpl_ato[iu]() - enter matches from elfedit_ato[iu]_sym_t * mappings. * elfedit_cpl_atoconst() - Enter matches for well known constants * elfedit_cpl_command() - enter matches for all known commands * elfedit_cpl_mod() - enter matches for all known modules. * * The completion function is passed the following arguments: * * obj_state - Object state. Will be NULL if elfedit session does not * have an active object. The completion function must test * the pointer before using it. * cpldata - Completion data, to be passed to elfedit_cpl_match() * or the helper functions built on it to register alternative * strings. * argc, argv - The tokens from the start of the line throught * the one needing completion, which will always * be cmdcpl_argv[cmdcpl_argc - 1]. * num_opt - A count of the optional arguments (those starting with * '-' at the beginning of argv. This means that argv[num_opt] * is the first plain argument, and the 1-based positional * number of the plain argument for which command completion * is needed is (argc - num_opt). */ typedef void elfedit32_cmdcpl_func_t(elfedit32_obj_state_t *state, void *cpldata, int argc, const char *argv[], int num_opt); typedef void elfedit64_cmdcpl_func_t(elfedit64_obj_state_t *state, void *cpldata, int argc, const char *argv[], int num_opt); #ifdef _ELF64 #define elfedit_cmdcpl_func_t elfedit64_cmdcpl_func_t #else #define elfedit_cmdcpl_func_t elfedit32_cmdcpl_func_t #endif /* * Command option/argument descriptor. These structures * are used to represent each option and plain argument accepted * by a command, via the cmd_opt and cmd_args fields in the * command definition (elfedit_cmd_t). Each descriptor consists * of a name, a help string (formatted for display via sys:help), * and a flags field that conveys extra information about the * item: * * ELFEDIT_CMDOA_F_OPT * The item is optional. This flag is implicit for options * and need only be set for plain arguments. * * ELFEDIT_CMDOA_F_VALUE * The item has a value, which is found in the following * item. This flag only has meaning for options, and should * not be set for plain arguments. The descriptor for the * value is found in the next array element, and only the * oa_name field is used (the other should be set t 0). * * ELFEDIT_CMDOA_F_MULT * More than one of the specified items may be specified * * ELFEDIT_CMDOA_F_INHERIT * This is an item for which a common definition exists. * Elfedit will substitute the standard values for the * name, help text, and flags. This enforces consistency * in documentation, plus it is easier for the module author. * When ELFEDIT_CMDOA_F_INHERIT is set: * - oa_name should be set to one of the ELFEDIT_STDOA_ * values to specifiy which standard item is being * inherited. * - oa_help must be set to NULL. * - It is an error to set any other flags with * ELFEDIT_CMDOA_F_INHERIT. * - oa_idmask and oa_excmask are used in the normal way. * * The oa_idmask and oa_excmask fields are used to identify options, * and to support mutual exclusion (when two or more options cannot be * used together). They are ignored for arguments, and should be set to 0. * oa_idmask is used to uniquely identify each item. When elfedit_getopt() * matches an option, it returns the value of oa_idmask to the caller to * indicate which option was matched. elfedit enforces the following rules * for oa_idmask, and will refuse to load a module that does not follow them: * - The value of oa_idmask must be 0, or have a value that * is a power of 2 (i.e. only has one bit set). * - Each item that sets a non-0 value for oa_idmask must have * a unique value. * - If oa_idmask is 0, oa_excmask must be 0 also. * - oa_excmask is set to 0 if an item is not mutually exclusive * to any other item. Otherwise, it should set the bit * values representing the items it is mutually exclusive to. * - An oa_idmask value of 0 can be used for any item that * the module does not need to identify, and which * is not mutually exclusive to any other item. * As elfedit_getopt() processes items, it maintains a bitmask combining the * oa_idmask fields of all the options already seen. For each option, it uses * oa_excmask to check for conflicts. * * note: elfedit enforces the rule that options consist of a '-' * character followed by at least one character when a module * is loaded. */ typedef enum { ELFEDIT_CMDOA_F_OPT = 1, /* Item is optional */ ELFEDIT_CMDOA_F_VALUE = 2, /* Item has a value arg following */ ELFEDIT_CMDOA_F_MULT = 4, /* More than one are allowed */ ELFEDIT_CMDOA_F_INHERIT = 8, /* Inherit definition: See above */ } elfedit_cmd_oa_flag_t; typedef u_longlong_t elfedit_cmd_oa_mask_t; typedef struct { const char *oa_name; /* Name of option */ elfedit_i18nhdl_t oa_help; /* Help text for option */ elfedit_cmd_oa_flag_t oa_flags; /* Additional attributes */ elfedit_cmd_oa_mask_t oa_idmask; /* Unique id, returned by */ /* elfedit_getopt */ /* for use by caller */ elfedit_cmd_oa_mask_t oa_excmask; /* Mutual exclusion mask */ } elfedit_cmd_optarg_t; /* * These values define the standard options and arguments that a module * can inherit using the ELFEDIT_CMDOA_F_INHERIT flag (described above). * New items must be added at the end --- reordering the list will * require all modules to be rebuilt. * * Note: 0 cannot be used as a ELFEDIT_STDOA_ value, because a NULL * value of oa_name is used to terminate argument and options lists. * Therefore, these values start at 1. */ #define ELFEDIT_STDOA_OPT_O ((const char *) 1) /* -o ostyle */ #define ELFEDIT_STDOA_OPT_AND ((const char *) 2) /* -and */ #define ELFEDIT_STDOA_OPT_CMP ((const char *) 3) /* -cmp */ #define ELFEDIT_STDOA_OPT_OR ((const char *) 4) /* -or */ #define ELFEDIT_NUM_STDOA 4 /* # of ELFEDIT_STDOA_ definitions */ /* * Definition of a command * * This structure includes an elfedit_cmd_func_t pointer, which has * different definitions for different ELFCLASS. Rather than needlessly * complicate the code with three versions of this type, and any * type that uses it, we simply use the GenericClass type. elfedit * will always cast this to the correct type before calling a module. * * cmd_name is an array of pointers to the names for the command. * The "primary" name should always be first, followed by any alias * names. The final element of the array must be a NULL pointer, * which terminates the list. Every command is required to have at * least one name, so code is allowed to assume that the first element * of cmd_name is non-NULL, and contains the primary name. * * Many modules provide a "default" command, which is a command * that is run if only the module name is specified, followed * by a colon (i.e. "sym:"). The way this is implemented is to * give the desired default command an empty string as an alias. * Note that the primary name cannot be an empty string, only the * alias name. * * cmd_opts and cmd_args are each an array of elfedit_cmd_argdesc_t * structures, that describe the options and plain arguments accepted * by the command. These arrays are used to general help text for * the commands. The cmd_opts array is also used to provide command * completion for options. Both of these arrays are terminated by * a final NULL element (all fields zero). */ typedef struct { elfedit32_cmd_func_t *cmd_func; /* Implementation */ elfedit32_cmdcpl_func_t *cmd_cplfunc; /* Completion function */ const char **cmd_name; /* Cmd names (null term.) */ elfedit_i18nhdl_t cmd_desc; /* Short desc. of cmd purpose */ elfedit_i18nhdl_t cmd_help; /* Help text for the command */ elfedit_cmd_optarg_t *cmd_opt; /* Options */ elfedit_cmd_optarg_t *cmd_args; /* Plain arguments */ } elfedit32_cmd_t; typedef struct { elfedit64_cmd_func_t *cmd_func; elfedit64_cmdcpl_func_t *cmd_cplfunc; const char **cmd_name; elfedit_i18nhdl_t cmd_desc; elfedit_i18nhdl_t cmd_help; elfedit_cmd_optarg_t *cmd_opt; elfedit_cmd_optarg_t *cmd_args; } elfedit64_cmd_t; #ifdef _ELF64 #define elfedit_cmd_t elfedit64_cmd_t #else #define elfedit_cmd_t elfedit32_cmd_t #endif /* * elfedit modules version themselves so that we can alter the definition * of elfedit_module_t in a backward compatible way. */ typedef enum { ELFEDIT_VER_NONE = 0, ELFEDIT_VER_CURRENT = 1, ELFEDIT_VER_NUM = 2 } elfedit_module_version_t; /* * Each module returns a pointer to an elfedit_module_t, describing * what commands the module provides. * * Note: mod_cmds is a NULL terminated array of command defs. This * means that the final element in the array should have all of its * fields set to NULL. * * The mod_i18nhdl_to_str function pointer is explained above * with the definition of elfedit_i18nhdl_t. */ typedef const char *(* elfedit_mod_i18nhdl_to_str_func_t)(elfedit_i18nhdl_t); typedef struct { elfedit_module_version_t mod_version; /* version */ const char *mod_name; /* Name of module */ elfedit_i18nhdl_t mod_desc; /* Short desc. of mod purpose */ elfedit32_cmd_t *mod_cmds; /* Array of command defs */ /* i18n -> (char *) fcn */ elfedit_mod_i18nhdl_to_str_func_t mod_i18nhdl_to_str; } elfedit32_module_t; typedef struct { elfedit_module_version_t mod_version; const char *mod_name; elfedit_i18nhdl_t mod_desc; elfedit64_cmd_t *mod_cmds; elfedit_mod_i18nhdl_to_str_func_t mod_i18nhdl_to_str; } elfedit64_module_t; #ifdef _ELF64 #define elfedit_module_t elfedit64_module_t #else #define elfedit_module_t elfedit32_module_t #endif /* * Each module is a sharable library, expected to provide a single global * function, named elfedit_init(), with the following prototype. */ typedef elfedit_module_t *elfedit_init_func_t(elfedit_module_version_t version); /* * Core elfedit functions exported for use by modules */ extern void elfedit_command_usage(void); extern void elfedit_cpl_command(void *cpldata); extern void elfedit_cpl_match(void *cpldata, const char *str, int casefold); extern void elfedit_elferr(const char *file, const char *libelf_rtn_name); extern elfedit_flag_t elfedit_flags(void); extern void *elfedit_malloc(const char *item_name, size_t size); extern void elfedit_msg(elfedit_msg_t type, const char *format, ...); extern elfedit_outstyle_t elfedit_outstyle(void); extern void elfedit_pager_init(void); extern void elfedit_printf(const char *format, ...); extern void *elfedit_realloc(const char *item_name, void *ptr, size_t size); extern void elfedit_write(const void *ptr, size_t size); /* * Core elfedit functions exported for use by sys: module only */ extern void elfedit_cpl_module(void *cpldata, int load_all_modules); /* * elfedit modules are expected to define two functions, one for * each ELFCLASS. Define a generic name for this function, based on * the class being supported by the including module. */ #ifdef _ELF64 #define elfedit_init elfedit64_init #else #define elfedit_init elfedit32_init #endif /* * It is common to search the dynamic section for specific elements. * Structures of this type are used to represent the contents of such * elements in a systematic way. The elfedit_dyn_elt_init() function * is used to prepare these strucutres for use. */ typedef struct { int dn_seen; /* True if this item has been seen */ Elf32_Word dn_ndx; /* Index of item in dynamic array */ Elf32_Dyn dn_dyn; /* Contents of dynamic item */ } elfedit32_dyn_elt_t; typedef struct { int dn_seen; Elf64_Word dn_ndx; Elf64_Dyn dn_dyn; } elfedit64_dyn_elt_t; #ifdef _ELF64 #define elfedit_dyn_elt_t elfedit64_dyn_elt_t #else #define elfedit_dyn_elt_t elfedit32_dyn_elt_t #endif /* * The elfedit_atoi() and elfedit_atoui() functions can optionally * accept an array of these structures, giving symbolic names that * will be accepted instead of numeric codes. If such an array is * present, the supplied string has it's leading and trailing whitespace * removed and is then compared to the list, and if there is a match, * the corresponding integer value is returned. * * The final array element must have its name field set to NULL. */ typedef u_longlong_t elfedit_atoui_t; typedef struct { const char *sym_name; elfedit_atoui_t sym_value; } elfedit_atoui_sym_t; typedef longlong_t elfedit_atoi_t; typedef struct { const char *sym_name; elfedit_atoi_t sym_value; } elfedit_atoi_sym_t; /* * The elfedit_atoconst*() functions are built on top of the atoui routines. * These routines accept an elfedit_const_t code instead of a * pointer to an elfedit_atoui_sym_t array, and use internally * predefined tables of elfedit_atoui_sym_t in order to do the desired * mappings. elfedit modules are encouraged to use these standard * tables instead of defining their own elfedit_atoui_sym_t arrays. * * note: * - The values assigned here must be in agreement with the * sym_table[] array defined in elfconst.c. * - Once defined, these values must not change. Reordering the * list will require all modules to be rebuilt, and will * break backward compatability. New items should be * added to the end. */ typedef enum { ELFEDIT_CONST_OUTSTYLE = 0, /* elfedit output styles */ ELFEDIT_CONST_OUTSTYLE_MO = 1, /* ostyles with -o prefix */ ELFEDIT_CONST_BOOL = 2, /* boolean names */ ELFEDIT_CONST_SHN = 3, /* ELF SHN_ section indexes */ ELFEDIT_CONST_SHT = 4, /* ELF SHT_ section types */ ELFEDIT_CONST_SHT_STRTAB = 5, /* ELF SHT_STRTAB */ ELFEDIT_CONST_SHT_ALLSYMTAB = 6, /* ELF SHT_ symbol table */ /* section types */ ELFEDIT_CONST_SHT_SYMTAB = 7, /* ELF SHT_SYMTAB */ ELFEDIT_CONST_SHT_DYNSYM = 8, /* ELF SHT_DYNSYM */ ELFEDIT_CONST_SHT_LDYNSYM = 9, /* ELF SHT_SUNW_LDYNSYM */ ELFEDIT_CONST_DT = 10, /* Dynamic tags: DT_ */ ELFEDIT_CONST_DF = 11, /* DT_FLAGS bits */ ELFEDIT_CONST_DF_P1 = 12, /* DF_POSFLAG_1 bits */ ELFEDIT_CONST_DF_1 = 13, /* DT_FLAGS_1 bits */ ELFEDIT_CONST_DTF_1 = 14, /* DT_FEATURE_1 bits */ ELFEDIT_CONST_EI = 15, /* ELF header e_ident indexes */ ELFEDIT_CONST_ET = 16, /* Ehdr obj type */ ELFEDIT_CONST_ELFCLASS = 17, /* Ehdr wordsize (32,64) */ ELFEDIT_CONST_ELFDATA = 18, /* Ehdr endian */ ELFEDIT_CONST_EF = 19, /* Ehdr flags */ ELFEDIT_CONST_EV = 20, /* Ehdr version */ ELFEDIT_CONST_EM = 21, /* Ehdr machine */ ELFEDIT_CONST_ELFOSABI = 22, /* Ehdr ABI */ ELFEDIT_CONST_PT = 23, /* Phdr type */ ELFEDIT_CONST_PF = 24, /* Phdr flags */ ELFEDIT_CONST_SHF = 25, /* Shdr flags */ ELFEDIT_CONST_STB = 26, /* Sym binding */ ELFEDIT_CONST_STT = 27, /* Sym type */ ELFEDIT_CONST_STV = 28, /* Sym visibility */ ELFEDIT_CONST_SYMINFO_BT = 29, /* Syminfo boundto */ ELFEDIT_CONST_SYMINFO_FLG = 30, /* Syminfo flags */ ELFEDIT_CONST_CA = 31, /* Capabilities tags: CA_ */ ELFEDIT_CONST_AV_386 = 32, /* X86 hardware caps */ ELFEDIT_CONST_AV_SPARC = 33, /* sparc hardware caps */ ELFEDIT_CONST_SF1_SUNW = 34, /* software capabilities */ } elfedit_const_t; /* * Given an elfedit_const_t, return the array of elfedit_atoui_sym_t * entries that it represents. */ extern elfedit_atoui_sym_t *elfedit_const_to_atoui(elfedit_const_t const_type); /* * Return the elfedit_atoui_t array that corresponds to the * CA_SUNW_HW_1 hardware capabiliies field for a given * machine type. */ extern elfedit_atoui_sym_t *elfedit_mach_sunw_hw1_to_atoui(int mach); /* * ato[u]i and const routines, used to turn strings into numeric values, * with support for mapping symbol names to numbers, and range checking. */ extern elfedit_atoi_t elfedit_atoi(const char *str, const elfedit_atoi_sym_t *sym); extern elfedit_atoui_t elfedit_atoui(const char *str, const elfedit_atoui_sym_t *sym); extern elfedit_atoui_t elfedit_atoconst(const char *str, elfedit_const_t const_type); extern int elfedit_atoi2(const char *str, const elfedit_atoi_sym_t *sym, elfedit_atoi_t *v); extern int elfedit_atoui2(const char *str, const elfedit_atoui_sym_t *sym, elfedit_atoui_t *); extern int elfedit_atoconst2(const char *str, elfedit_const_t const_type, elfedit_atoui_t *); extern elfedit_atoi_t elfedit_atoi_range(const char *str, const char *item_name, elfedit_atoi_t min, elfedit_atoi_t max, const elfedit_atoi_sym_t *sym); extern elfedit_atoui_t elfedit_atoui_range(const char *str, const char *item_name, elfedit_atoui_t min, elfedit_atoui_t max, const elfedit_atoui_sym_t *sym); extern elfedit_atoui_t elfedit_atoconst_range(const char *str, const char *item_name, elfedit_atoui_t min, elfedit_atoui_t max, elfedit_const_t const_type); extern int elfedit_atoi_range2(const char *str, elfedit_atoi_t min, elfedit_atoi_t max, const elfedit_atoi_sym_t *sym, elfedit_atoi_t *v); extern int elfedit_atoui_range2(const char *str, elfedit_atoui_t min, elfedit_atoui_t max, const elfedit_atoui_sym_t *sym, elfedit_atoui_t *v); extern int elfedit_atoconst_range2(const char *str, elfedit_atoui_t min, elfedit_atoui_t max, elfedit_const_t const_type, elfedit_atoui_t *v); extern const char *elfedit_atoi_value_to_str(const elfedit_atoi_sym_t *sym, elfedit_atoi_t value, int required); extern const char *elfedit_atoui_value_to_str(const elfedit_atoui_sym_t *sym, elfedit_atoui_t value, int required); extern const char *elfedit_atoconst_value_to_str(elfedit_const_t const_type, elfedit_atoui_t value, int required); extern void elfedit_cpl_atoi(void *cpldata, const elfedit_atoi_sym_t *sym); extern void elfedit_cpl_atoui(void *cpldata, const elfedit_atoui_sym_t *sym); extern void elfedit_cpl_atoconst(void *cpldata, elfedit_const_t const_type); /* * Convenience functions built on top of the ato[u]i routines. */ extern int elfedit_atobool(const char *str, const char *item_name); extern elfedit_atoui_t elfedit_atoshndx(const char *str, size_t shnum); /* * elfedit provides a getopt utility for use by the module commands. * elfedit_getopt_state_t is the state block used by elfedit_getopt(). * elfedit_getopt_ret_t is the definition of the values returned to * the user by elfedit_getopt() when an option is matched. Elfedit * getopt processing is done as follows: * * 1) The caller initializes an elfedit_getopt_state_t struct via * a call to elfedit_getopt_init(). The contents of this structure * must not be accessed by the caller, as they are all private and * subject to change. * 2) Repeated calls are made to elfedit_getopt(), as long as it returns * a non-NULL pointer to an elfedit_getopt_ret_t structure. If the * matched option has a value (ELFEDIT_CMDOA_F_VALUE), then the gor_value * field contains the pointer to the string. Otherwise, gor_value is NULL. * 3) As elfedit_getopt() consumes optional arguments from the argc/argv * passed to elfedit_getopt_init(), it adjusts argc/argc to skip over * them. Once elfedit_getopt() returns NULL to indicate that there are no * more options to match, argc/argv have been adjusted so that they * reference the plain arguments. */ typedef struct { elfedit_cmd_oa_mask_t gor_idmask; /* oa_idmask from matching */ /* elfedit_cmd_optarg_t. Can be */ /* used to quickly identify opt */ const char *gor_value; /* Opt value if ELFEDIT_CMDOA_F_VALUE */ /* Otherwise, NULL */ } elfedit_getopt_ret_t; typedef struct { int *go_argc; /* Pointer to # of options */ const char ***go_argv; /* Ptr to array of opt strs */ elfedit_cmd_optarg_t *go_optarg; /* Array of allowed options */ elfedit_cmd_oa_mask_t go_idmask; /* Combined id masks of all */ /* seen options */ int go_done; /* True if last option seen */ const char *go_sglgrp; /* Group of 1-letter opts */ elfedit_getopt_ret_t go_ret; /* Data returned to user */ } elfedit_getopt_state_t; /* * getopt related routines */ extern void elfedit_getopt_init(elfedit_getopt_state_t *, int *, const char ***); extern elfedit_getopt_ret_t *elfedit_getopt(elfedit_getopt_state_t *); /* * Additional utility functions exported for use by modules */ extern void elfedit_array_elts_delete(const char *name_str, void *data_start, size_t entsize, size_t num_ent, size_t start_ndx, size_t cnt); extern void elfedit_array_elts_move(const char *name_str, void *data_start, size_t entsize, size_t num_ent, size_t srcndx, size_t dstndx, size_t cnt, void *scr_item); extern int elfedit_bits_set(u_longlong_t v, int sizeof_orig_v); extern void elfedit32_dyn_elt_init(elfedit32_dyn_elt_t *dyn_elt); extern void elfedit64_dyn_elt_init(elfedit64_dyn_elt_t *dyn_elt); extern void elfedit32_dyn_elt_save(elfedit32_dyn_elt_t *elt, Elf32_Word ndx, Elf32_Dyn *dyn); extern void elfedit64_dyn_elt_save(elfedit64_dyn_elt_t *elt, Elf64_Word ndx, Elf64_Dyn *dyn); const char *elfedit32_dyn_offset_to_str(elfedit32_section_t *strsec, elfedit32_dyn_elt_t *dynelt); const char *elfedit64_dyn_offset_to_str(elfedit64_section_t *strsec, elfedit64_dyn_elt_t *dynelt); extern int elfedit32_dynstr_getpad(elfedit32_section_t *dynsec, elfedit32_dyn_elt_t *dyn_strpad); extern int elfedit64_dynstr_getpad(elfedit64_section_t *dynsec, elfedit64_dyn_elt_t *dyn_strpad); extern Elf32_Word elfedit32_dynstr_insert(elfedit32_section_t *dynsec, elfedit32_section_t *strsec, elfedit32_dyn_elt_t *dyn_strpad, const char *str); extern Elf64_Word elfedit64_dynstr_insert(elfedit64_section_t *dynsec, elfedit64_section_t *strsec, elfedit64_dyn_elt_t *dyn_strpad, const char *str); extern void elfedit32_modified_data(elfedit32_section_t *s); extern void elfedit64_modified_data(elfedit64_section_t *s); extern void elfedit32_modified_ehdr(elfedit32_obj_state_t *obj_state); extern void elfedit64_modified_ehdr(elfedit64_obj_state_t *obj_state); extern void elfedit32_modified_phdr(elfedit32_obj_state_t *obj_state); extern void elfedit64_modified_phdr(elfedit64_obj_state_t *obj_state); extern void elfedit32_modified_shdr(elfedit32_section_t *s); extern void elfedit64_modified_shdr(elfedit64_section_t *s); extern Elf32_Word elfedit32_name_to_shndx(elfedit32_obj_state_t *obj_state, const char *shnam); extern Elf64_Word elfedit64_name_to_shndx(elfedit64_obj_state_t *obj_state, const char *shnam); extern Elf32_Word elfedit32_type_to_shndx(elfedit32_obj_state_t *obj_state, Elf32_Word shtype); extern Elf64_Word elfedit64_type_to_shndx(elfedit64_obj_state_t *obj_state, Elf64_Word shtype); extern int elfedit32_name_to_symndx(elfedit32_section_t *symsec, elfedit32_section_t *strsec, const char *name, elfedit_msg_t msg_type, Elf32_Word *ret_symndx); extern int elfedit64_name_to_symndx(elfedit64_section_t *symsec, elfedit64_section_t *strsec, const char *name, elfedit_msg_t msg_type, Elf64_Word *ret_symndx); extern const char *elfedit32_offset_to_str(elfedit32_section_t *strsec, Elf32_Word offset, elfedit_msg_t msg_type, int debug_msg); extern const char *elfedit64_offset_to_str(elfedit64_section_t *strsec, Elf64_Word offset, elfedit_msg_t msg_type, int debug_msg); extern int elfedit32_sec_findstr(elfedit32_section_t *sec, Elf32_Word tail_ign, const char *str, Elf32_Word *ret_offset); extern int elfedit64_sec_findstr(elfedit64_section_t *sec, Elf64_Word tail_ign, const char *str, Elf64_Word *ret_offset); extern elfedit32_section_t *elfedit32_sec_getcap( elfedit32_obj_state_t *obj_state, Elf32_Cap **cap, Elf32_Word *num); extern elfedit64_section_t *elfedit64_sec_getcap( elfedit64_obj_state_t *obj_state, Elf64_Cap **cap, Elf64_Word *num); extern elfedit32_section_t *elfedit32_sec_getdyn( elfedit32_obj_state_t *obj_state, Elf32_Dyn **dyn, Elf32_Word *num); extern elfedit64_section_t *elfedit64_sec_getdyn( elfedit64_obj_state_t *obj_state, Elf64_Dyn **dyn, Elf64_Word *num); extern elfedit32_section_t *elfedit32_sec_getstr( elfedit32_obj_state_t *obj_state, Elf32_Word shndx); extern elfedit64_section_t *elfedit64_sec_getstr( elfedit64_obj_state_t *obj_state, Elf64_Word shndx); extern elfedit32_section_t *elfedit32_sec_getsyminfo( elfedit32_obj_state_t *obj_state, Elf32_Syminfo **syminfo, Elf32_Word *num); extern elfedit64_section_t *elfedit64_sec_getsyminfo( elfedit64_obj_state_t *obj_state, Elf64_Syminfo **syminfo, Elf64_Word *num); extern elfedit32_section_t *elfedit32_sec_getsymtab( elfedit32_obj_state_t *obj_state, int by_index, Elf32_Word index, const char *name, Elf32_Sym **sym, Elf32_Word *num, elfedit32_symtab_t **aux_info); extern elfedit64_section_t *elfedit64_sec_getsymtab( elfedit64_obj_state_t *obj_state, int by_index, Elf64_Word index, const char *name, Elf64_Sym **sym, Elf64_Word *num, elfedit64_symtab_t **aux_info); extern elfedit32_section_t *elfedit32_sec_getversym( elfedit32_obj_state_t *obj_state, elfedit32_section_t *symsec, Elf32_Versym **versym, Elf32_Word *num); extern elfedit64_section_t *elfedit64_sec_getversym( elfedit64_obj_state_t *obj_state, elfedit64_section_t *symsec, Elf64_Versym **versym, Elf64_Word *num); extern elfedit32_section_t *elfedit32_sec_getxshndx( elfedit32_obj_state_t *obj_state, elfedit32_section_t *symsec, Elf32_Word **xshndx, Elf32_Word *num); extern elfedit64_section_t *elfedit64_sec_getxshndx( elfedit64_obj_state_t *obj_state, elfedit64_section_t *symsec, Elf64_Word **xshndx, Elf64_Word *num); extern int elfedit32_sec_issymtab(elfedit32_section_t *sec, int issue_err, elfedit_atoui_sym_t **atoui_list); extern int elfedit64_sec_issymtab(elfedit64_section_t *sec, int issue_err, elfedit_atoui_sym_t **atoui_list); extern const char *elfedit32_sec_msgprefix(elfedit32_section_t *sec); extern const char *elfedit64_sec_msgprefix(elfedit64_section_t *sec); extern const char *elfedit32_shndx_to_name(elfedit32_obj_state_t *obj_state, Elf32_Word shndx); extern const char *elfedit64_shndx_to_name(elfedit64_obj_state_t *obj_state, Elf64_Word shndx); extern Elf32_Word elfedit32_strtab_insert(elfedit32_obj_state_t *obj_state, elfedit32_section_t *strsec, elfedit32_section_t *dynsec, const char *str); extern Elf64_Word elfedit64_strtab_insert(elfedit64_obj_state_t *obj_state, elfedit64_section_t *strsec, elfedit64_section_t *dynsec, const char *str); extern void elfedit32_strtab_insert_test(elfedit32_obj_state_t *obj_state, elfedit32_section_t *strsec, elfedit32_section_t *dynsec, const char *str); extern void elfedit64_strtab_insert_test(elfedit64_obj_state_t *obj_state, elfedit64_section_t *strsec, elfedit64_section_t *dynsec, const char *str); extern Elf32_Word elfedit32_type_to_shndx(elfedit32_obj_state_t *obj_state, Elf32_Word shtype); extern Elf64_Word elfedit64_type_to_shndx(elfedit64_obj_state_t *obj_state, Elf64_Word shtype); /* * Map the generic names for each of the ELFCLASS specific routines * above to reference the proper routine for the current compilation. */ #ifdef _ELF64 #define elfedit_dyn_elt_init elfedit64_dyn_elt_init #define elfedit_dyn_elt_save elfedit64_dyn_elt_save #define elfedit_dyn_offset_to_str elfedit64_dyn_offset_to_str #define elfedit_dynstr_getpad elfedit64_dynstr_getpad #define elfedit_dynstr_insert elfedit64_dynstr_insert #define elfedit_modified_data elfedit64_modified_data #define elfedit_modified_ehdr elfedit64_modified_ehdr #define elfedit_modified_phdr elfedit64_modified_phdr #define elfedit_modified_shdr elfedit64_modified_shdr #define elfedit_name_to_shndx elfedit64_name_to_shndx #define elfedit_name_to_symndx elfedit64_name_to_symndx #define elfedit_offset_to_str elfedit64_offset_to_str #define elfedit_sec_findstr elfedit64_sec_findstr #define elfedit_sec_getcap elfedit64_sec_getcap #define elfedit_sec_getdyn elfedit64_sec_getdyn #define elfedit_sec_getstr elfedit64_sec_getstr #define elfedit_sec_getsyminfo elfedit64_sec_getsyminfo #define elfedit_sec_getsymtab elfedit64_sec_getsymtab #define elfedit_sec_getversym elfedit64_sec_getversym #define elfedit_sec_getxshndx elfedit64_sec_getxshndx #define elfedit_sec_issymtab elfedit64_sec_issymtab #define elfedit_shndx_to_name elfedit64_shndx_to_name #define elfedit_sec_msgprefix elfedit64_sec_msgprefix #define elfedit_strtab_insert elfedit64_strtab_insert #define elfedit_strtab_insert_test elfedit64_strtab_insert_test #define elfedit_type_to_shndx elfedit64_type_to_shndx #else #define elfedit_dyn_elt_init elfedit32_dyn_elt_init #define elfedit_dyn_elt_save elfedit32_dyn_elt_save #define elfedit_dyn_offset_to_str elfedit32_dyn_offset_to_str #define elfedit_dynstr_getpad elfedit32_dynstr_getpad #define elfedit_dynstr_insert elfedit32_dynstr_insert #define elfedit_modified_data elfedit32_modified_data #define elfedit_modified_ehdr elfedit32_modified_ehdr #define elfedit_modified_phdr elfedit32_modified_phdr #define elfedit_modified_shdr elfedit32_modified_shdr #define elfedit_name_to_shndx elfedit32_name_to_shndx #define elfedit_name_to_symndx elfedit32_name_to_symndx #define elfedit_offset_to_str elfedit32_offset_to_str #define elfedit_sec_findstr elfedit32_sec_findstr #define elfedit_sec_getcap elfedit32_sec_getcap #define elfedit_sec_getdyn elfedit32_sec_getdyn #define elfedit_sec_getstr elfedit32_sec_getstr #define elfedit_sec_getsyminfo elfedit32_sec_getsyminfo #define elfedit_sec_getsymtab elfedit32_sec_getsymtab #define elfedit_sec_getversym elfedit32_sec_getversym #define elfedit_sec_getxshndx elfedit32_sec_getxshndx #define elfedit_sec_issymtab elfedit32_sec_issymtab #define elfedit_shndx_to_name elfedit32_shndx_to_name #define elfedit_sec_msgprefix elfedit32_sec_msgprefix #define elfedit_strtab_insert elfedit32_strtab_insert #define elfedit_strtab_insert_test elfedit32_strtab_insert_test #define elfedit_type_to_shndx elfedit32_type_to_shndx #endif #ifdef __cplusplus } #endif #endif /* _ELFEDIT_H */