1 /* 2 * CDDL HEADER START 3 * 4 * The contents of this file are subject to the terms of the 5 * Common Development and Distribution License, Version 1.0 only 6 * (the "License"). You may not use this file except in compliance 7 * with the License. 8 * 9 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 10 * or http://www.opensolaris.org/os/licensing. 11 * See the License for the specific language governing permissions 12 * and limitations under the License. 13 * 14 * When distributing Covered Code, include this CDDL HEADER in each 15 * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 16 * If applicable, add the following below this CDDL HEADER, with the 17 * fields enclosed by brackets "[]" replaced with your own identifying 18 * information: Portions Copyright [yyyy] [name of copyright owner] 19 * 20 * CDDL HEADER END 21 */ 22 /* 23 * Copyright 2005 Sun Microsystems, Inc. All rights reserved. 24 * Use is subject to license terms. 25 */ 26 /* 27 * Copyright (c) 2012, Joyent, Inc. All rights reserved. 28 */ 29 30 /* 31 * This header file defines the interfaces available from the CTF debugger 32 * library, libctf, and an equivalent kernel module. This API can be used by 33 * a debugger to operate on data in the Compact ANSI-C Type Format (CTF). 34 * This is NOT a public interface, although it may eventually become one in 35 * the fullness of time after we gain more experience with the interfaces. 36 * 37 * In the meantime, be aware that any program linked with this API in this 38 * release of Solaris is almost guaranteed to break in the next release. 39 * 40 * In short, do not user this header file or the CTF routines for any purpose. 41 */ 42 43 #ifndef _CTF_API_H 44 #define _CTF_API_H 45 46 #include <sys/types.h> 47 #include <sys/param.h> 48 #include <sys/elf.h> 49 #include <sys/ctf.h> 50 51 #ifdef __cplusplus 52 extern "C" { 53 #endif 54 55 /* 56 * Clients can open one or more CTF containers and obtain a pointer to an 57 * opaque ctf_file_t. Types are identified by an opaque ctf_id_t token. 58 * These opaque definitions allow libctf to evolve without breaking clients. 59 */ 60 typedef struct ctf_file ctf_file_t; 61 typedef long ctf_id_t; 62 63 /* 64 * If the debugger needs to provide the CTF library with a set of raw buffers 65 * for use as the CTF data, symbol table, and string table, it can do so by 66 * filling in ctf_sect_t structures and passing them to ctf_bufopen(): 67 */ 68 typedef struct ctf_sect { 69 const char *cts_name; /* section name (if any) */ 70 ulong_t cts_type; /* section type (ELF SHT_... value) */ 71 ulong_t cts_flags; /* section flags (ELF SHF_... value) */ 72 const void *cts_data; /* pointer to section data */ 73 size_t cts_size; /* size of data in bytes */ 74 size_t cts_entsize; /* size of each section entry (symtab only) */ 75 off64_t cts_offset; /* file offset of this section (if any) */ 76 } ctf_sect_t; 77 78 /* 79 * Encoding information for integers, floating-point values, and certain other 80 * intrinsics can be obtained by calling ctf_type_encoding(), below. The flags 81 * field will contain values appropriate for the type defined in <sys/ctf.h>. 82 */ 83 typedef struct ctf_encoding { 84 uint_t cte_format; /* data format (CTF_INT_* or CTF_FP_* flags) */ 85 uint_t cte_offset; /* offset of value in bits */ 86 uint_t cte_bits; /* size of storage in bits */ 87 } ctf_encoding_t; 88 89 typedef struct ctf_membinfo { 90 ctf_id_t ctm_type; /* type of struct or union member */ 91 ulong_t ctm_offset; /* offset of member in bits */ 92 } ctf_membinfo_t; 93 94 typedef struct ctf_arinfo { 95 ctf_id_t ctr_contents; /* type of array contents */ 96 ctf_id_t ctr_index; /* type of array index */ 97 uint_t ctr_nelems; /* number of elements */ 98 } ctf_arinfo_t; 99 100 typedef struct ctf_funcinfo { 101 ctf_id_t ctc_return; /* function return type */ 102 uint_t ctc_argc; /* number of typed arguments to function */ 103 uint_t ctc_flags; /* function attributes (see below) */ 104 } ctf_funcinfo_t; 105 106 typedef struct ctf_lblinfo { 107 ctf_id_t ctb_typeidx; /* last type associated with the label */ 108 } ctf_lblinfo_t; 109 110 #define CTF_FUNC_VARARG 0x1 /* function arguments end with varargs */ 111 112 /* 113 * Functions that return integer status or a ctf_id_t use the following value 114 * to indicate failure. ctf_errno() can be used to obtain an error code. 115 */ 116 #define CTF_ERR (-1L) 117 118 /* 119 * The CTF data model is inferred to be the caller's data model or the data 120 * model of the given object, unless ctf_setmodel() is explicitly called. 121 */ 122 #define CTF_MODEL_ILP32 1 /* object data model is ILP32 */ 123 #define CTF_MODEL_LP64 2 /* object data model is LP64 */ 124 #ifdef _LP64 125 #define CTF_MODEL_NATIVE CTF_MODEL_LP64 126 #else 127 #define CTF_MODEL_NATIVE CTF_MODEL_ILP32 128 #endif 129 130 /* 131 * Dynamic CTF containers can be created using ctf_create(). The ctf_add_* 132 * routines can be used to add new definitions to the dynamic container. 133 * New types are labeled as root or non-root to determine whether they are 134 * visible at the top-level program scope when subsequently doing a lookup. 135 */ 136 #define CTF_ADD_NONROOT 0 /* type only visible in nested scope */ 137 #define CTF_ADD_ROOT 1 /* type visible at top-level scope */ 138 139 /* 140 * These typedefs are used to define the signature for callback functions 141 * that can be used with the iteration and visit functions below: 142 */ 143 typedef int ctf_visit_f(const char *, ctf_id_t, ulong_t, int, void *); 144 typedef int ctf_member_f(const char *, ctf_id_t, ulong_t, void *); 145 typedef int ctf_enum_f(const char *, int, void *); 146 typedef int ctf_type_f(ctf_id_t, void *); 147 typedef int ctf_label_f(const char *, const ctf_lblinfo_t *, void *); 148 149 extern ctf_file_t *ctf_bufopen(const ctf_sect_t *, const ctf_sect_t *, 150 const ctf_sect_t *, int *); 151 extern ctf_file_t *ctf_fdopen(int, int *); 152 extern ctf_file_t *ctf_open(const char *, int *); 153 extern ctf_file_t *ctf_create(int *); 154 extern void ctf_close(ctf_file_t *); 155 156 extern ctf_file_t *ctf_parent_file(ctf_file_t *); 157 extern const char *ctf_parent_name(ctf_file_t *); 158 159 extern int ctf_import(ctf_file_t *, ctf_file_t *); 160 extern int ctf_setmodel(ctf_file_t *, int); 161 extern int ctf_getmodel(ctf_file_t *); 162 163 extern void ctf_setspecific(ctf_file_t *, void *); 164 extern void *ctf_getspecific(ctf_file_t *); 165 166 extern int ctf_errno(ctf_file_t *); 167 extern const char *ctf_errmsg(int); 168 extern int ctf_version(int); 169 170 extern int ctf_func_info(ctf_file_t *, ulong_t, ctf_funcinfo_t *); 171 extern int ctf_func_args(ctf_file_t *, ulong_t, uint_t, ctf_id_t *); 172 173 extern ctf_id_t ctf_lookup_by_name(ctf_file_t *, const char *); 174 extern ctf_id_t ctf_lookup_by_symbol(ctf_file_t *, ulong_t); 175 176 extern ctf_id_t ctf_type_resolve(ctf_file_t *, ctf_id_t); 177 extern ssize_t ctf_type_lname(ctf_file_t *, ctf_id_t, char *, size_t); 178 extern char *ctf_type_name(ctf_file_t *, ctf_id_t, char *, size_t); 179 extern ssize_t ctf_type_size(ctf_file_t *, ctf_id_t); 180 extern ssize_t ctf_type_align(ctf_file_t *, ctf_id_t); 181 extern int ctf_type_kind(ctf_file_t *, ctf_id_t); 182 extern ctf_id_t ctf_type_reference(ctf_file_t *, ctf_id_t); 183 extern ctf_id_t ctf_type_pointer(ctf_file_t *, ctf_id_t); 184 extern int ctf_type_encoding(ctf_file_t *, ctf_id_t, ctf_encoding_t *); 185 extern int ctf_type_visit(ctf_file_t *, ctf_id_t, ctf_visit_f *, void *); 186 extern int ctf_type_cmp(ctf_file_t *, ctf_id_t, ctf_file_t *, ctf_id_t); 187 extern int ctf_type_compat(ctf_file_t *, ctf_id_t, ctf_file_t *, ctf_id_t); 188 189 extern int ctf_member_info(ctf_file_t *, ctf_id_t, const char *, 190 ctf_membinfo_t *); 191 extern int ctf_array_info(ctf_file_t *, ctf_id_t, ctf_arinfo_t *); 192 193 extern const char *ctf_enum_name(ctf_file_t *, ctf_id_t, int); 194 extern int ctf_enum_value(ctf_file_t *, ctf_id_t, const char *, int *); 195 196 extern const char *ctf_label_topmost(ctf_file_t *); 197 extern int ctf_label_info(ctf_file_t *, const char *, ctf_lblinfo_t *); 198 199 extern int ctf_member_iter(ctf_file_t *, ctf_id_t, ctf_member_f *, void *); 200 extern int ctf_enum_iter(ctf_file_t *, ctf_id_t, ctf_enum_f *, void *); 201 extern int ctf_type_iter(ctf_file_t *, ctf_type_f *, void *); 202 extern int ctf_label_iter(ctf_file_t *, ctf_label_f *, void *); 203 204 extern ctf_id_t ctf_add_array(ctf_file_t *, uint_t, const ctf_arinfo_t *); 205 extern ctf_id_t ctf_add_const(ctf_file_t *, uint_t, ctf_id_t); 206 extern ctf_id_t ctf_add_enum(ctf_file_t *, uint_t, const char *); 207 extern ctf_id_t ctf_add_float(ctf_file_t *, uint_t, 208 const char *, const ctf_encoding_t *); 209 extern ctf_id_t ctf_add_forward(ctf_file_t *, uint_t, const char *, uint_t); 210 extern ctf_id_t ctf_add_function(ctf_file_t *, uint_t, 211 const ctf_funcinfo_t *, const ctf_id_t *); 212 extern ctf_id_t ctf_add_integer(ctf_file_t *, uint_t, 213 const char *, const ctf_encoding_t *); 214 extern ctf_id_t ctf_add_pointer(ctf_file_t *, uint_t, ctf_id_t); 215 extern ctf_id_t ctf_add_type(ctf_file_t *, ctf_file_t *, ctf_id_t); 216 extern ctf_id_t ctf_add_typedef(ctf_file_t *, uint_t, const char *, ctf_id_t); 217 extern ctf_id_t ctf_add_restrict(ctf_file_t *, uint_t, ctf_id_t); 218 extern ctf_id_t ctf_add_struct(ctf_file_t *, uint_t, const char *); 219 extern ctf_id_t ctf_add_union(ctf_file_t *, uint_t, const char *); 220 extern ctf_id_t ctf_add_volatile(ctf_file_t *, uint_t, ctf_id_t); 221 222 extern int ctf_add_enumerator(ctf_file_t *, ctf_id_t, const char *, int); 223 extern int ctf_add_member(ctf_file_t *, ctf_id_t, const char *, ctf_id_t); 224 225 extern int ctf_set_array(ctf_file_t *, ctf_id_t, const ctf_arinfo_t *); 226 227 extern int ctf_delete_type(ctf_file_t *, ctf_id_t); 228 229 extern int ctf_update(ctf_file_t *); 230 extern int ctf_discard(ctf_file_t *); 231 extern int ctf_write(ctf_file_t *, int); 232 233 #ifdef _KERNEL 234 235 struct module; 236 extern ctf_file_t *ctf_modopen(struct module *, int *); 237 238 #endif 239 240 #ifdef __cplusplus 241 } 242 #endif 243 244 #endif /* _CTF_API_H */ 245