/* * 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 (c) 1988 AT&T */ /* All Rights Reserved */ /* * Copyright (c) 1990, 2010, Oracle and/or its affiliates. All rights reserved. */ #ifndef _DECL_H #define _DECL_H #include #include #include <_libelf.h> #include #include #ifdef __cplusplus extern "C" { #endif typedef struct Member Member; typedef struct Memlist Memlist; typedef struct Memident Memident; typedef struct Dnode Dnode; typedef struct Snode32 Snode32; typedef struct Snode64 Snode64; /* * Data alignment * An elf file is defined to have its structures aligned on * appropriate boundaries. The following type lets the * library test whether the file's alignment meets its own * constraints in memory. This assumes every machine uses * an alignment that is no greater than an object's size. * The pointer isn't relevant for the file, but the code uses * it to get memory alignment. ANSI C void * holds any pointer, * making it appropriate here. */ typedef union { Elf32_Word w; Elf32_Addr a; Elf32_Off o; } Elf32; typedef union { Elf64_Xword x; Elf64_Word w; Elf64_Addr a; Elf64_Off o; Elf_Void *p; } Elf64; /* * Memory allocation * Structures are obtained several ways: file mapping, * malloc(), from the user. A status bit in the structures * tells whether an object was obtained with malloc() and * therefore should be released with free(). The bits * named ...ALLOC indicate this. */ /* * Data descriptor * db_data must be first in the Dnode structure, because * &db_data must == &Dnode. * * db_buf is a pointer to an allocated buffer. The same value * goes into db_data.d_buf originally, but the user can touch * it. If the data buffer is not to be freed, db_buf is null. * * When "reading" an input file's buffer, the data are left * alone until needed. When they've been converted to internal * form, the READY flag is set. * * db_raw points to a parallel raw buffer. Raw buffers * have null db_raw. */ struct Dnode { Elf_Data db_data; Elf_Scn *db_scn; /* section parent */ Dnode *db_next; Dnode *db_raw; /* raw data */ off_t db_off; /* orig file offset, 0 o/w */ size_t db_fsz; /* orig file size, 0 o/w */ size_t db_shsz; /* orig shdr size, 0 o/w */ size_t db_osz; /* output size for update */ Elf_Void *db_buf; /* allocated data buffer */ unsigned db_uflags; /* user flags: ELF_F_... */ unsigned db_myflags; /* internal flags: DBF_... */ Elf64_Off db_xoff; /* extended offset for 32-bit Elf64 */ }; #define DBF_ALLOC 0x1 /* applies to Dnode itself */ #define DBF_READY 0x2 /* buffer ready */ /* * Section descriptor * These are sometimes allocated in a block. If the SF_ALLOC * bit is set in the flags, the Scn address may be passed to free. * The caller must first follow the s_next list to the next freeable * node, because free can clobber the s_next value in the block. */ struct Elf_Scn { mutex_t s_mutex; Elf_Scn *s_next; /* next section */ Elf *s_elf; /* parent file */ Dnode *s_hdnode; /* head Dnode */ Dnode *s_tlnode; /* tail Dnode */ Elf_Void *s_shdr; /* Elf32 or Elf64 scn header */ size_t s_index; /* section index */ int s_err; /* for delaying data error */ unsigned s_shflags; /* user shdr flags */ unsigned s_uflags; /* user flags */ unsigned s_myflags; /* SF_... */ Dnode s_dnode; /* every scn needs one */ }; NOTE(MUTEX_PROTECTS_DATA(Elf_Scn::s_mutex, Elf_Scn Dnode Elf_Data)) NOTE(SCHEME_PROTECTS_DATA("Scn lock held", Elf_Data)) NOTE(SCHEME_PROTECTS_DATA("Scn lock held", Elf32_Shdr Elf32_Sym)) NOTE(READ_ONLY_DATA(Elf_Scn::s_elf)) NOTE(READ_ONLY_DATA(Dnode::db_scn)) /* * Designates whether or not we are in a threaded_app. */ extern int *_elf_libc_threaded; #define elf_threaded (_elf_libc_threaded && *_elf_libc_threaded) #ifdef __lock_lint #define SCNLOCK(x) (void) mutex_lock(&((Elf_Scn *)x)->s_mutex); #else #define SCNLOCK(x) \ if (elf_threaded) \ (void) mutex_lock(&((Elf_Scn *)x)->s_mutex); #endif #ifdef __lock_lint #define SCNUNLOCK(x) (void) mutex_unlock(&((Elf_Scn *)x)->s_mutex); #else #define SCNUNLOCK(x) \ if (elf_threaded) \ (void) mutex_unlock(&((Elf_Scn *)x)->s_mutex); #endif #ifdef __lock_lint #define UPGRADELOCKS(e, s)\ (void) mutex_unlock(&((Elf_Scn *)s)->s_mutex); \ (void) rw_unlock(&((Elf *)e)->ed_rwlock); \ (void) rw_wrlock(&((Elf *)e)->ed_rwlock); #else #define UPGRADELOCKS(e, s)\ if (elf_threaded) { \ (void) mutex_unlock(&((Elf_Scn *)s)->s_mutex); \ (void) rw_unlock(&((Elf *)e)->ed_rwlock); \ (void) rw_wrlock(&((Elf *)e)->ed_rwlock); \ } #endif #ifdef __lock_lint #define DOWNGRADELOCKS(e, s)\ (void) rw_unlock(&((Elf *)e)->ed_rwlock); \ (void) rw_rdlock(&((Elf *)e)->ed_rwlock); \ (void) mutex_lock(&((Elf_Scn *)s)->s_mutex); #else #define DOWNGRADELOCKS(e, s)\ if (elf_threaded) { \ (void) rw_unlock(&((Elf *)e)->ed_rwlock); \ (void) rw_rdlock(&((Elf *)e)->ed_rwlock); \ (void) mutex_lock(&((Elf_Scn *)s)->s_mutex); \ } #endif #ifdef __lock_lint #define READLOCKS(e, s) \ (void) rw_rdlock(&((Elf *)e)->ed_rwlock); \ (void) mutex_lock(&((Elf_Scn *)s)->s_mutex); #else #define READLOCKS(e, s) \ if (elf_threaded) { \ (void) rw_rdlock(&((Elf *)e)->ed_rwlock); \ (void) mutex_lock(&((Elf_Scn *)s)->s_mutex); \ } #endif #ifdef __lock_lint #define READUNLOCKS(e, s) \ (void) mutex_unlock(&((Elf_Scn *)s)->s_mutex); \ (void) rw_unlock(&((Elf *)e)->ed_rwlock); #else #define READUNLOCKS(e, s) \ if (elf_threaded) { \ (void) mutex_unlock(&((Elf_Scn *)s)->s_mutex); \ (void) rw_unlock(&((Elf *)e)->ed_rwlock); \ } #endif #define SF_ALLOC 0x1 /* applies to Scn */ #define SF_READY 0x2 /* has section been cooked */ struct Snode32 { Elf_Scn sb_scn; /* must be first */ Elf32_Shdr sb_shdr; }; struct Snode64 { Elf_Scn sb_scn; /* must be first */ Elf64_Shdr sb_shdr; }; /* * A file's status controls how the library can use file data. * This is important to keep "raw" operations and "cooked" * operations from interfering with each other. * * A file's status is "fresh" until something touches it. * If the first thing is a raw operation, we freeze the data * and force all cooking operations to make a copy. If the * first operation cooks, raw operations use the file system. */ typedef enum { ES_FRESH = 0, /* unchanged */ ES_COOKED, /* translated */ ES_FROZEN /* raw, can't be translated */ } Status; /* * Elf descriptor * The major handle between user code and the library. * * Descriptors can have parents: archive members reference * the archive itself. Relevant "offsets:" * * ed_baseoff The file offset, relative to zero, to the first * byte in the file. For all files, this gives * the lseek(fd, ed_baseoff, 0) value. * * ed_memoff The offset from the beginning of the nesting file * to the bytes of a member. For an archive member, * this is the offset from the beginning of the * archive to the member bytes (not the hdr). If an * archive member slides, memoff changes. * * ed_siboff Similar to ed_memoff, this gives the offset from * the beginning of the nesting file to the following * sibling's header (not the sibling's bytes). This * value is necessary, because of archive sliding. * * ed_nextoff For an archive, this gives the offset of the next * member to process on elf_begin. That is, * (ed_ident + ed_nextoff) gives pointer to member hdr. * * Keeping these absolute and relative offsets allows nesting of * files, including archives within archives, etc. The only current * nesting file is archive, but others might be supported. * * ed_image This is a pointer to the base memory image holding * the file. Library code assumes the image is aligned * to a boundary appropriate for any object. This must * be true, because we get an image only from malloc * or mmap, both of which guarantee alignment. */ struct Elf { rwlock_t ed_rwlock; Elf *ed_parent; /* archive parent */ int ed_activ; /* activation count */ int ed_fd; /* file descriptor */ Status ed_status; /* file's memory status */ off_t ed_baseoff; /* base file offset, zero based */ size_t ed_memoff; /* offset within archive */ size_t ed_siboff; /* sibling offset with archive */ size_t ed_nextoff; /* next archive member hdr offset */ char *ed_image; /* pointer to file image */ size_t ed_imagesz; /* # bytes in ed_image */ char *ed_wrimage; /* pointer to output image */ size_t ed_wrimagesz; /* # bytes in ed_wrimagesz */ char *ed_ident; /* file start, getident() bytes */ size_t ed_identsz; /* # bytes for getident() */ char *ed_raw; /* raw file ptr */ size_t ed_fsz; /* file size */ unsigned *ed_vm; /* virtual memory map */ size_t ed_vmsz; /* # regions in vm */ unsigned ed_encode; /* data encoding */ unsigned ed_version; /* file version */ int ed_class; /* file class */ Elf_Kind ed_kind; /* file type */ Elf_Void *ed_ehdr; /* Elf{32,64}_Ehdr elf header */ Elf_Void *ed_phdr; /* Elf{32,64}_Phdr phdr table */ size_t ed_phdrsz; /* sizeof phdr table */ Elf_Void *ed_shdr; /* Elf{32,64}_Shdr shdr table */ Elf_Scn *ed_hdscn; /* head scn */ Elf_Scn *ed_tlscn; /* tail scn */ size_t ed_scntabsz; /* number sects. alloc. in table */ Memlist *ed_memlist; /* list of archive member nodes */ Member *ed_armem; /* archive member header */ Elf_Void *ed_arsym; /* archive symbol table */ size_t ed_arsymsz; /* archive symbol table size */ size_t ed_arsymoff; /* archive symbol table hdr offset */ char *ed_arstr; /* archive string table */ size_t ed_arstrsz; /* archive string table size */ size_t ed_arstroff; /* archive string table hdr offset */ unsigned ed_myflags; /* EDF_... */ unsigned ed_ehflags; /* ehdr flags */ unsigned ed_phflags; /* phdr flags */ unsigned ed_uflags; /* elf descriptor flags */ }; NOTE(RWLOCK_PROTECTS_DATA(Elf::ed_rwlock, Elf)) NOTE(RWLOCK_COVERS_LOCKS(Elf::ed_rwlock, Elf_Scn::s_mutex)) #ifdef __lock_lint #define ELFRLOCK(e) (void) rw_rdlock(&((Elf *)e)->ed_rwlock); #else #define ELFRLOCK(e) \ if (elf_threaded) \ (void) rw_rdlock(&((Elf *)e)->ed_rwlock); #endif #ifdef __lock_lint #define ELFWLOCK(e) (void) rw_wrlock(&((Elf *)e)->ed_rwlock); #else #define ELFWLOCK(e) \ if (elf_threaded) \ (void) rw_wrlock(&((Elf *)e)->ed_rwlock); #endif #ifdef __lock_lint #define ELFUNLOCK(e) (void) rw_unlock(&((Elf *)e)->ed_rwlock); #else #define ELFUNLOCK(e) \ if (elf_threaded) \ (void) rw_unlock(&((Elf *)e)->ed_rwlock); #endif #define EDF_ASALLOC 0x1 /* applies to ed_arsym */ #define EDF_EHALLOC 0x2 /* applies to ed_ehdr */ #define EDF_PHALLOC 0x4 /* applies to ed_phdr */ #define EDF_SHALLOC 0x8 /* applies to ed_shdr */ #define EDF_COFFAOUT 0x10 /* original file was coff a.out */ #define EDF_RAWALLOC 0x20 /* applies to ed_raw */ #define EDF_READ 0x40 /* file can be read */ #define EDF_WRITE 0x80 /* file can be written */ #define EDF_MEMORY 0x100 /* file opened via elf_memory() */ #define EDF_ASTRALLOC 0x200 /* applies to ed_arstr */ #define EDF_MPROTECT 0x400 /* applies to slideable archives */ #define EDF_IMALLOC 0x800 /* wrimage dynamically allocated */ #define EDF_WRALLOC 0x1000 /* wrimage is to by dyn allocated */ #define EDF_ARSYM64 0x2000 /* archive symbol table is 64-bit format */ typedef enum { OK_YES = 0, OK_NO = ~0 } Okay; #define _(a) a /* * Max size for an Elf error message string */ #define MAXELFERR 1024 /* * General thread management macros */ #ifdef __lock_lint #define ELFACCESSDATA(a, b) \ (void) mutex_lock(&_elf_globals_mutex); \ a = b; \ (void) mutex_unlock(&_elf_globals_mutex); #else #define ELFACCESSDATA(a, b) \ if (elf_threaded) { \ (void) mutex_lock(&_elf_globals_mutex); \ a = b; \ (void) mutex_unlock(&_elf_globals_mutex); \ } else \ a = b; #endif #ifdef __lock_lint #define ELFRWLOCKINIT(lock) \ (void) rwlock_init((lock), USYNC_THREAD, 0); #else #define ELFRWLOCKINIT(lock) \ if (elf_threaded) { \ (void) rwlock_init((lock), USYNC_THREAD, 0); \ } #endif #ifdef __lock_lint #define ELFMUTEXINIT(lock) \ (void) mutex_init(lock, USYNC_THREAD, 0); #else #define ELFMUTEXINIT(lock) \ if (elf_threaded) { \ (void) mutex_init(lock, USYNC_THREAD, 0); \ } #endif extern Member *_elf_armem(Elf *, char *, size_t); extern void _elf_arinit(Elf *); extern Okay _elf_cook(Elf *); extern Okay _elf_cookscn(Elf_Scn * s); extern Okay _elf32_cookscn(Elf_Scn * s); extern Okay _elf64_cookscn(Elf_Scn * s); extern Dnode *_elf_dnode(void); extern Elf_Data *_elf_locked_getdata(Elf_Scn *, Elf_Data *); extern size_t _elf32_entsz(Elf *elf, Elf32_Word, unsigned); extern size_t _elf64_entsz(Elf *elf, Elf64_Word, unsigned); extern Okay _elf_inmap(Elf *); extern char *_elf_outmap(int, size_t, unsigned *); extern size_t _elf_outsync(int, char *, size_t, unsigned); extern size_t _elf32_msize(Elf_Type, unsigned); extern size_t _elf64_msize(Elf_Type, unsigned); extern Elf_Type _elf32_mtype(Elf *, Elf32_Word, unsigned); extern Elf_Type _elf64_mtype(Elf *, Elf64_Word, unsigned); extern char *_elf_read(int, off_t, size_t); extern Snode32 *_elf32_snode(void); extern Snode64 *_elf64_snode(void); extern void _elf_unmap(char *, size_t); extern Okay _elf_vm(Elf *, size_t, size_t); extern int _elf32_ehdr(Elf *, int); extern int _elf32_phdr(Elf *, int); extern int _elf32_shdr(Elf *, int); extern int _elf64_ehdr(Elf *, int); extern int _elf64_phdr(Elf *, int); extern int _elf64_shdr(Elf *, int); extern int _elf_byte; extern const Elf32_Ehdr _elf32_ehdr_init; extern const Elf64_Ehdr _elf64_ehdr_init; extern unsigned _elf_encode; extern _elf_execfill_func_t *_elf_execfill_func; extern void _elf_seterr(Msg, int); extern const Snode32 _elf32_snode_init; extern const Snode64 _elf64_snode_init; extern const Dnode _elf_dnode_init; extern unsigned _elf_work; extern mutex_t _elf_globals_mutex; extern off_t _elf64_update(Elf * elf, Elf_Cmd cmd); extern int _elf64_swap_wrimage(Elf *elf); /* CSTYLED */ NOTE(MUTEX_PROTECTS_DATA(_elf_globals_mutex, \ _elf_byte _elf32_ehdr_init _elf64_ehdr_init _elf_encode \ _elf_snode_init _elf_work)) #ifdef __cplusplus } #endif #endif /* _DECL_H */