/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (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 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _CTF_IMPL_H #define _CTF_IMPL_H #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #ifdef _KERNEL #include #include #include #define isspace(c) \ ((c) == ' ' || (c) == '\t' || (c) == '\n' || \ (c) == '\r' || (c) == '\f' || (c) == '\v') #define MAP_FAILED ((void *)-1) #else /* _KERNEL */ #include #include #include #include #include #include #endif /* _KERNEL */ #ifdef __cplusplus extern "C" { #endif typedef struct ctf_helem { uint_t h_name; /* reference to name in string table */ ushort_t h_type; /* corresponding type ID number */ ushort_t h_next; /* index of next element in hash chain */ } ctf_helem_t; typedef struct ctf_hash { ushort_t *h_buckets; /* hash bucket array (chain indices) */ ctf_helem_t *h_chains; /* hash chains buffer */ ushort_t h_nbuckets; /* number of elements in bucket array */ ushort_t h_nelems; /* number of elements in hash table */ uint_t h_free; /* index of next free hash element */ } ctf_hash_t; typedef struct ctf_strs { const char *cts_strs; /* base address of string table */ size_t cts_len; /* size of string table in bytes */ } ctf_strs_t; typedef struct ctf_dmodel { const char *ctd_name; /* data model name */ int ctd_code; /* data model code */ size_t ctd_pointer; /* size of void * in bytes */ size_t ctd_char; /* size of char in bytes */ size_t ctd_short; /* size of short in bytes */ size_t ctd_int; /* size of int in bytes */ size_t ctd_long; /* size of long in bytes */ } ctf_dmodel_t; typedef struct ctf_lookup { const char *ctl_prefix; /* string prefix for this lookup */ size_t ctl_len; /* length of prefix string in bytes */ ctf_hash_t *ctl_hash; /* pointer to hash table for lookup */ } ctf_lookup_t; typedef struct ctf_fileops { ushort_t (*ctfo_get_kind)(ushort_t); ushort_t (*ctfo_get_root)(ushort_t); ushort_t (*ctfo_get_vlen)(ushort_t); } ctf_fileops_t; typedef struct ctf_list { struct ctf_list *l_prev; /* previous pointer or tail pointer */ struct ctf_list *l_next; /* next pointer or head pointer */ } ctf_list_t; typedef enum { CTF_PREC_BASE, CTF_PREC_POINTER, CTF_PREC_ARRAY, CTF_PREC_FUNCTION, CTF_PREC_MAX } ctf_decl_prec_t; typedef struct ctf_decl_node { ctf_list_t cd_list; /* linked list pointers */ ctf_id_t cd_type; /* type identifier */ uint_t cd_kind; /* type kind */ uint_t cd_n; /* type dimension if array */ } ctf_decl_node_t; typedef struct ctf_decl { ctf_list_t cd_nodes[CTF_PREC_MAX]; /* declaration node stacks */ int cd_order[CTF_PREC_MAX]; /* storage order of decls */ ctf_decl_prec_t cd_qualp; /* qualifier precision */ ctf_decl_prec_t cd_ordp; /* ordered precision */ char *cd_buf; /* buffer for output */ char *cd_ptr; /* buffer location */ char *cd_end; /* buffer limit */ size_t cd_len; /* buffer space required */ int cd_err; /* saved error value */ } ctf_decl_t; typedef struct ctf_dmdef { ctf_list_t dmd_list; /* list forward/back pointers */ char *dmd_name; /* name of this member */ ctf_id_t dmd_type; /* type of this member (for sou) */ ulong_t dmd_offset; /* offset of this member in bits (for sou) */ int dmd_value; /* value of this member (for enum) */ } ctf_dmdef_t; typedef struct ctf_dtdef { ctf_list_t dtd_list; /* list forward/back pointers */ char *dtd_name; /* name associated with definition (if any) */ ctf_id_t dtd_type; /* type identifier for this definition */ ctf_type_t dtd_data; /* type node (see ) */ union { ctf_list_t dtu_members; /* struct, union, or enum */ ctf_arinfo_t dtu_arr; /* array */ ctf_encoding_t dtu_enc; /* integer or float */ ctf_id_t *dtu_argv; /* function */ } dtd_u; } ctf_dtdef_t; typedef struct ctf_bundle { ctf_file_t *ctb_file; /* CTF container handle */ ctf_id_t ctb_type; /* CTF type identifier */ ctf_dtdef_t *ctb_dtd; /* CTF dynamic type definition (if any) */ } ctf_bundle_t; /* * The ctf_file is the structure used to represent a CTF container to library * clients, who see it only as an opaque pointer. Modifications can therefore * be made freely to this structure without regard to client versioning. The * ctf_file_t typedef appears in and declares a forward tag. * * NOTE: ctf_update() requires that everything inside of ctf_file either be an * immediate value, a pointer to dynamically allocated data *outside* of the * ctf_file itself, or a pointer to statically allocated data. If you add a * pointer to ctf_file that points to something within the ctf_file itself, * you must make corresponding changes to ctf_update(). */ struct ctf_file { const ctf_fileops_t *ctf_fileops; /* version-specific file operations */ ctf_sect_t ctf_data; /* CTF data from object file */ ctf_sect_t ctf_symtab; /* symbol table from object file */ ctf_sect_t ctf_strtab; /* string table from object file */ ctf_hash_t ctf_structs; /* hash table of struct types */ ctf_hash_t ctf_unions; /* hash table of union types */ ctf_hash_t ctf_enums; /* hash table of enum types */ ctf_hash_t ctf_names; /* hash table of remaining type names */ ctf_lookup_t ctf_lookups[5]; /* pointers to hashes for name lookup */ ctf_strs_t ctf_str[2]; /* array of string table base and bounds */ const uchar_t *ctf_base; /* base of CTF header + uncompressed buffer */ const uchar_t *ctf_buf; /* uncompressed CTF data buffer */ size_t ctf_size; /* size of CTF header + uncompressed data */ uint_t *ctf_sxlate; /* translation table for symtab entries */ ulong_t ctf_nsyms; /* number of entries in symtab xlate table */ uint_t *ctf_txlate; /* translation table for type IDs */ ushort_t *ctf_ptrtab; /* translation table for pointer-to lookups */ ulong_t ctf_typemax; /* maximum valid type ID number */ const ctf_dmodel_t *ctf_dmodel; /* data model pointer (see above) */ struct ctf_file *ctf_parent; /* parent CTF container (if any) */ const char *ctf_parlabel; /* label in parent container (if any) */ const char *ctf_parname; /* basename of parent (if any) */ uint_t ctf_refcnt; /* reference count (for parent links) */ uint_t ctf_flags; /* libctf flags (see below) */ int ctf_errno; /* error code for most recent error */ int ctf_version; /* CTF data version */ ctf_list_t ctf_dtdefs; /* list of dynamic type definitions */ size_t ctf_dtstrlen; /* total length of dynamic type strings */ ulong_t ctf_dtnextid; /* next dynamic type id to assign */ ulong_t ctf_dtoldid; /* oldest id that has been committed */ void *ctf_specific; /* data for ctf_get/setspecific */ }; #define LCTF_INDEX_TO_TYPEPTR(fp, i) \ ((ctf_type_t *)((uintptr_t)(fp)->ctf_buf + (fp)->ctf_txlate[(i)])) #define LCTF_INFO_KIND(fp, info) ((fp)->ctf_fileops->ctfo_get_kind(info)) #define LCTF_INFO_ROOT(fp, info) ((fp)->ctf_fileops->ctfo_get_root(info)) #define LCTF_INFO_VLEN(fp, info) ((fp)->ctf_fileops->ctfo_get_vlen(info)) #define LCTF_MMAP 0x0001 /* libctf should munmap buffers on close */ #define LCTF_CHILD 0x0002 /* CTF container is a child */ #define LCTF_RDWR 0x0004 /* CTF container is writable */ #define LCTF_DIRTY 0x0008 /* CTF container has been modified */ #define ECTF_BASE 1000 /* base value for libctf errnos */ enum { ECTF_FMT = ECTF_BASE, /* file is not in CTF or ELF format */ ECTF_ELFVERS, /* ELF version is more recent than libctf */ ECTF_CTFVERS, /* CTF version is more recent than libctf */ ECTF_ENDIAN, /* data is different endian-ness than lib */ ECTF_SYMTAB, /* symbol table uses invalid entry size */ ECTF_SYMBAD, /* symbol table data buffer invalid */ ECTF_STRBAD, /* string table data buffer invalid */ ECTF_CORRUPT, /* file data corruption detected */ ECTF_NOCTFDATA, /* ELF file does not contain CTF data */ ECTF_NOCTFBUF, /* buffer does not contain CTF data */ ECTF_NOSYMTAB, /* symbol table data is not available */ ECTF_NOPARENT, /* parent CTF container is not available */ ECTF_DMODEL, /* data model mismatch */ ECTF_MMAP, /* failed to mmap a data section */ ECTF_ZMISSING, /* decompression library not installed */ ECTF_ZINIT, /* failed to initialize decompression library */ ECTF_ZALLOC, /* failed to allocate decompression buffer */ ECTF_DECOMPRESS, /* failed to decompress CTF data */ ECTF_STRTAB, /* string table for this string is missing */ ECTF_BADNAME, /* string offset is corrupt w.r.t. strtab */ ECTF_BADID, /* invalid type ID number */ ECTF_NOTSOU, /* type is not a struct or union */ ECTF_NOTENUM, /* type is not an enum */ ECTF_NOTSUE, /* type is not a struct, union, or enum */ ECTF_NOTINTFP, /* type is not an integer or float */ ECTF_NOTARRAY, /* type is not an array */ ECTF_NOTREF, /* type does not reference another type */ ECTF_NAMELEN, /* buffer is too small to hold type name */ ECTF_NOTYPE, /* no type found corresponding to name */ ECTF_SYNTAX, /* syntax error in type name */ ECTF_NOTFUNC, /* symtab entry does not refer to a function */ ECTF_NOFUNCDAT, /* no func info available for function */ ECTF_NOTDATA, /* symtab entry does not refer to a data obj */ ECTF_NOTYPEDAT, /* no type info available for object */ ECTF_NOLABEL, /* no label found corresponding to name */ ECTF_NOLABELDATA, /* file does not contain any labels */ ECTF_NOTSUP, /* feature not supported */ ECTF_NOENUMNAM, /* enum element name not found */ ECTF_NOMEMBNAM, /* member name not found */ ECTF_RDONLY, /* CTF container is read-only */ ECTF_DTFULL, /* CTF type is full (no more members allowed) */ ECTF_FULL, /* CTF container is full */ ECTF_DUPMEMBER, /* duplicate member name definition */ ECTF_CONFLICT /* conflicting type definition present */ }; extern ssize_t ctf_get_ctt_size(const ctf_file_t *, const ctf_type_t *, ssize_t *, ssize_t *); extern const ctf_type_t *ctf_lookup_by_id(ctf_file_t **, ctf_id_t); extern int ctf_hash_create(ctf_hash_t *, ulong_t); extern int ctf_hash_insert(ctf_hash_t *, ctf_file_t *, ushort_t, uint_t); extern ctf_helem_t *ctf_hash_lookup(ctf_hash_t *, ctf_file_t *, const char *, size_t); extern uint_t ctf_hash_size(const ctf_hash_t *); extern void ctf_hash_destroy(ctf_hash_t *); #define ctf_list_prev(elem) ((void *)(((ctf_list_t *)(elem))->l_prev)) #define ctf_list_next(elem) ((void *)(((ctf_list_t *)(elem))->l_next)) extern void ctf_list_append(ctf_list_t *, void *); extern void ctf_list_prepend(ctf_list_t *, void *); extern void ctf_list_delete(ctf_list_t *, void *); extern void ctf_decl_init(ctf_decl_t *, char *, size_t); extern void ctf_decl_fini(ctf_decl_t *); extern void ctf_decl_push(ctf_decl_t *, ctf_file_t *, ctf_id_t); extern void ctf_decl_sprintf(ctf_decl_t *, const char *, ...); extern const char *ctf_strraw(ctf_file_t *, uint_t); extern const char *ctf_strptr(ctf_file_t *, uint_t); extern ctf_file_t *ctf_set_open_errno(int *, int); extern long ctf_set_errno(ctf_file_t *, int); extern const void *ctf_sect_mmap(ctf_sect_t *, int); extern void ctf_sect_munmap(const ctf_sect_t *); extern void *ctf_data_alloc(size_t); extern void ctf_data_free(void *, size_t); extern void ctf_data_protect(void *, size_t); extern void *ctf_alloc(size_t); extern void ctf_free(void *, size_t); extern char *ctf_strdup(const char *); extern const char *ctf_strerror(int); extern void ctf_dprintf(const char *, ...); extern void *ctf_zopen(int *); extern const char _CTF_SECTION[]; /* name of CTF ELF section */ extern const char _CTF_NULLSTR[]; /* empty string */ extern int _libctf_version; /* library client version */ extern int _libctf_debug; /* debugging messages enabled */ #ifdef __cplusplus } #endif #endif /* _CTF_IMPL_H */