/* * 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 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * Object file dependent support for a.out format objects. */ #include "_synonyms.h" #include /* Explicitly override M_SEGSIZE */ #include /* used in M_SROUND */ #include #include #include #include #include #include #include #include #include "_a.out.h" #include "cache_a.out.h" #include "msg.h" #include "_rtld.h" /* * Default and secure dependency search paths. */ static Pnode aout_dflt_dirs[] = { { MSG_ORIG(MSG_PTH_USR4LIB), 0, MSG_PTH_USR4LIB_SIZE, LA_SER_DEFAULT, 0, &aout_dflt_dirs[1] }, { MSG_ORIG(MSG_PTH_USRLIB), 0, MSG_PTH_USRLIB_SIZE, LA_SER_DEFAULT, 0, &aout_dflt_dirs[2] }, { MSG_ORIG(MSG_PTH_USRLCLIB), 0, MSG_PTH_USRLCLIB_SIZE, LA_SER_DEFAULT, 0, 0 } }; static Pnode aout_secure_dirs[] = { { MSG_ORIG(MSG_PTH_USR4LIB), 0, MSG_PTH_USR4LIB_SIZE, LA_SER_SECURE, 0, &aout_secure_dirs[1] }, { MSG_ORIG(MSG_PTH_USRLIB), 0, MSG_PTH_USRLIB_SIZE, LA_SER_SECURE, 0, &aout_secure_dirs[2] }, { MSG_ORIG(MSG_PTH_USRUCBLIB), 0, MSG_PTH_USRUCBLIB_SIZE, LA_SER_SECURE, 0, &aout_secure_dirs[3] }, { MSG_ORIG(MSG_PTH_USRLCLIB), 0, MSG_PTH_USRLCLIB_SIZE, LA_SER_SECURE, 0, 0 } }; /* * Defines for local functions. */ static int aout_are_u(); static ulong_t aout_entry_pt(); static Rt_map *aout_map_so(); static void aout_unmap_so(); static int aout_needed(); extern Sym *aout_lookup_sym(); static Sym *aout_find_sym(); static char *aout_get_so(); static Pnode *aout_fix_name(); static void aout_dladdr(); static Sym *aout_dlsym_handle(); static int aout_verify_vers(); /* * Functions and data accessed through indirect pointers. */ Fct aout_fct = { aout_are_u, aout_entry_pt, aout_map_so, aout_unmap_so, aout_needed, aout_lookup_sym, aout_reloc, aout_dflt_dirs, aout_secure_dirs, aout_fix_name, aout_get_so, aout_dladdr, aout_dlsym_handle, aout_verify_vers, aout_set_prot }; /* * In 4.x, a needed file or a dlopened file that was a simple file name implied * that the file be found in the present working directory. To simulate this * lookup within the elf rules it is necessary to add a proceeding `./' to the * filename. */ static Pnode * aout_fix_name(const char *name, Rt_map *clmp) { size_t len; Pnode *pnp; if ((pnp = calloc(1, sizeof (Pnode))) == 0) return (0); /* * Check for slash in name, if none, prepend "./", otherwise just * return name given. */ if (strchr(name, '/')) { len = strlen(name) + 1; if ((pnp->p_name = malloc(len)) != 0) (void) strcpy((char *)pnp->p_name, name); } else { len = strlen(name) + 3; if ((pnp->p_name = malloc(len)) != 0) (void) snprintf((char *)pnp->p_name, len, MSG_ORIG(MSG_FMT_4XPATH), name); } if (pnp->p_name) { pnp->p_len = len; pnp->p_orig = PN_SER_NEEDED; DBG_CALL(Dbg_file_fixname(LIST(clmp), pnp->p_name, name)); return (pnp); } free(pnp); return (0); } /* * Determine if we have been given an A_OUT file. Returns 1 if true. */ static int aout_are_u() { struct exec *exec; /* LINTED */ exec = (struct exec *)fmap->fm_maddr; if (fmap->fm_fsize < sizeof (exec) || (exec->a_machtype != M_SPARC) || (N_BADMAG(*exec))) { return (0); } return (1); } /* * Return the entry point the A_OUT executable. This is always zero. */ static ulong_t aout_entry_pt() { return (0); } /* * Unmap a given A_OUT shared object from the address space. */ static void aout_unmap_so(Rt_map *lmp) { Mmap *immap = MMAPS(lmp); (void) munmap(immap->m_vaddr, immap->m_msize); } /* * Dummy versioning interface - real functionality is only applicable to elf. */ static int aout_verify_vers() { return (1); } /* * Search through the dynamic section for DT_NEEDED entries and perform one * of two functions. If only the first argument is specified then load the * defined shared object, otherwise add the link map representing the * defined link map the the dlopen list. */ static int aout_needed(Lm_list *lml, Aliste lmco, Rt_map *clmp) { void *need; for (need = &TEXTBASE(clmp)[AOUTDYN(clmp)->v2->ld_need]; need != &TEXTBASE(clmp)[0]; need = &TEXTBASE(clmp)[((Lnk_obj *)(need))->lo_next]) { Rt_map *nlmp; char *name; Pnode *pnp; name = &TEXTBASE(clmp)[((Lnk_obj *)(need))->lo_name]; if (((Lnk_obj *)(need))->lo_library) { /* * If lo_library field is not NULL then this needed * library was linked in using the "-l" option. * Thus we need to rebuild the library name before * trying to load it. */ Pnode *dir, *dirlist = (Pnode *)0; char *file; size_t len; /* * Allocate name length plus 20 for full library name. * lib.so.. = 7 + (2 * short) + NULL = 7 + 12 + 1 = 20 */ len = strlen(name) + 20; if ((file = malloc(len)) == 0) return (0); (void) snprintf(file, len, MSG_ORIG(MSG_FMT_4XLIB), name, ((Lnk_obj *)(need))->lo_major, ((Lnk_obj *)(need))->lo_minor); DBG_CALL(Dbg_libs_find(lml, file)); /* * We need to determine what filename will match the * the filename specified (ie, a libc.so.1.2 may match * to a libc.so.1.3). It's the real pathname that is * recorded in the link maps. If we are presently * being traced, skip this pathname generation so * that we fall through into load_so() to print the * appropriate diagnostics. I don't like this at all. */ if (lml->lm_flags & LML_FLG_TRC_ENABLE) name = file; else { char *path = (char *)0; for (dir = get_next_dir(&dirlist, clmp, 0); dir; dir = get_next_dir(&dirlist, clmp, 0)) { if (dir->p_name == 0) continue; if (path = aout_get_so(dir->p_name, file)) break; } if (!path) { eprintf(lml, ERR_FATAL, MSG_INTL(MSG_SYS_OPEN), file, strerror(ENOENT)); return (0); } name = path; } if ((pnp = expand_paths(clmp, name, PN_SER_NEEDED, 0)) == 0) return (0); } else { /* * If the library is specified as a pathname, see if * it must be fixed to specify the current working * directory (ie. libc.so.1.2 -> ./libc.so.1.2). */ if ((pnp = aout_fix_name(name, clmp)) == 0) return (0); } DBG_CALL(Dbg_file_needed(clmp, name)); nlmp = load_one(lml, lmco, pnp, clmp, MODE(clmp), 0, 0); remove_pnode(pnp); if (((nlmp == 0) || (bind_one(clmp, nlmp, BND_NEEDED) == 0)) && ((lml->lm_flags & LML_FLG_TRC_ENABLE) == 0)) return (0); } return (1); } static Sym * aout_symconvert(struct nlist *sp) { static Sym sym; sym.st_value = sp->n_value; sym.st_size = 0; sym.st_info = 0; sym.st_other = 0; switch (sp->n_type) { case N_EXT + N_ABS: sym.st_shndx = SHN_ABS; break; case N_COMM: sym.st_shndx = SHN_COMMON; break; case N_EXT + N_UNDF: sym.st_shndx = SHN_UNDEF; break; default: sym.st_shndx = 0; break; } return (&sym); } /* * Process a.out format commons. */ static struct nlist * aout_find_com(struct nlist *sp, const char *name) { static struct rtc_symb *rtcp = 0; struct rtc_symb *rs, * trs; const char *sl; char *cp; /* * See if common is already allocated. */ trs = rtcp; while (trs) { sl = name; cp = trs->rtc_sp->n_un.n_name; while (*sl == *cp++) if (*sl++ == '\0') return (trs->rtc_sp); trs = trs->rtc_next; } /* * If we got here, common is not already allocated so allocate it. */ if ((rs = malloc(sizeof (struct rtc_symb))) == 0) return (0); if ((rs->rtc_sp = malloc(sizeof (struct nlist))) == 0) return (0); trs = rtcp; rtcp = rs; rs->rtc_next = trs; *(rs->rtc_sp) = *sp; if ((rs->rtc_sp->n_un.n_name = malloc(strlen(name) + 1)) == 0) return (0); (void) strcpy(rs->rtc_sp->n_un.n_name, name); rs->rtc_sp->n_type = N_COMM; if ((rs->rtc_sp->n_value = (long)calloc(rs->rtc_sp->n_value, 1)) == 0) return (0); return (rs->rtc_sp); } /* * Find a.out format symbol in the specified link map. Unlike the sister * elf routine we re-calculate the symbols hash value for each link map * we're looking at. */ static struct nlist * aout_findsb(const char *aname, Rt_map *lmp, int flag) { const char *name = aname; char *cp; struct fshash *p; int i; struct nlist *sp; ulong_t hval = 0; #define HASHMASK 0x7fffffff #define RTHS 126 /* * The name passed to us is in ELF format, thus it is necessary to * map this back to the A_OUT format to compute the hash value (see * mapping rules in aout_lookup_sym()). Basically the symbols are * mapped according to whether a leading `.' exists. * * elf symbol a.out symbol * i. .bar -> .bar (LKUP_LDOT) * ii. .nuts -> nuts * iii. foo -> _foo */ if (*name == '.') { if (!(flag & LKUP_LDOT)) name++; } else hval = '_'; while (*name) hval = (hval << 1) + *name++; hval = hval & HASHMASK; i = hval % (AOUTDYN(lmp)->v2->ld_buckets == 0 ? RTHS : AOUTDYN(lmp)->v2->ld_buckets); p = LM2LP(lmp)->lp_hash + i; if (p->fssymbno != -1) do { sp = &LM2LP(lmp)->lp_symtab[p->fssymbno]; cp = &LM2LP(lmp)->lp_symstr[sp->n_un.n_strx]; name = aname; if (*name == '.') { if (!(flag & LKUP_LDOT)) name++; } else { cp++; } while (*name == *cp++) { if (*name++ == '\0') return (sp); /* found */ } if (p->next == 0) return (0); /* not found */ else continue; } while ((p = &LM2LP(lmp)->lp_hash[p->next]) != 0); return (0); } /* * The symbol name we have been asked to look up is in A_OUT format, this * symbol is mapped to the appropriate ELF format which is the standard by * which symbols are passed around ld.so.1. The symbols are mapped * according to whether a leading `_' or `.' exists. * * a.out symbol elf symbol * i. _foo -> foo * ii. .bar -> .bar (LKUP_LDOT) * iii. nuts -> .nuts */ Sym * aout_lookup_sym(Slookup *slp, Rt_map **dlmp, uint_t *binfo) { char name[PATH_MAX]; Slookup sl = *slp; DBG_CALL(Dbg_syms_lookup_aout(LIST(slp->sl_imap), slp->sl_name)); if (*sl.sl_name == '_') ++sl.sl_name; else if (*sl.sl_name == '.') sl.sl_flags |= LKUP_LDOT; else { name[0] = '.'; (void) strcpy(&name[1], sl.sl_name); sl.sl_name = name; } /* * Call the generic lookup routine to cycle through the specified * link maps. */ return (lookup_sym(&sl, dlmp, binfo)); } /* * Symbol lookup for an a.out format module. */ static Sym * aout_find_sym(Slookup *slp, Rt_map **dlmp, uint_t *binfo) { const char *name = slp->sl_name; Rt_map *ilmp = slp->sl_imap; struct nlist *sp; DBG_CALL(Dbg_syms_lookup(ilmp, name, MSG_ORIG(MSG_STR_AOUT))); if (sp = aout_findsb(name, ilmp, slp->sl_flags)) { if (sp->n_value != 0) { /* * is it a common? */ if (sp->n_type == (N_EXT + N_UNDF)) { if ((sp = aout_find_com(sp, name)) == 0) return ((Sym *)0); } *dlmp = ilmp; *binfo |= DBG_BINFO_FOUND; return (aout_symconvert(sp)); } } return ((Sym *)0); } /* * Map in an a.out format object. * Takes an open file descriptor for the object to map and * its pathname; returns a pointer to a Rt_map structure * for this object, or 0 on error. */ static Rt_map * aout_map_so(Lm_list *lml, Aliste lmco, const char *pname, const char *oname, int fd) { struct exec *exec; /* working area for object headers */ caddr_t addr; /* mmap result temporary */ struct link_dynamic *ld; /* dynamic pointer of object mapped */ size_t size; /* size of object */ Rt_map *lmp; /* link map created */ int err; struct nlist *nl; /* * Map text and allocate enough address space to fit the whole * library. Note that we map enough to catch the first symbol * in the symbol table and thereby avoid an "lseek" & "read" * pair to pick it up. */ /* LINTED */ exec = (struct exec *)fmap->fm_maddr; size = max(SIZE(*exec), N_SYMOFF(*exec) + sizeof (struct nlist)); if ((addr = mmap(0, size, (PROT_READ | PROT_EXEC), MAP_PRIVATE, fd, 0)) == MAP_FAILED) { err = errno; eprintf(lml, ERR_FATAL, MSG_INTL(MSG_SYS_MMAP), pname, strerror(err)); return (0); } /* * Grab the first symbol entry while we've got it mapped aligned * to file addresses. We assume that this symbol describes the * object's link_dynamic. */ /* LINTED */ nl = (struct nlist *)&addr[N_SYMOFF(*exec)]; /* LINTED */ ld = (struct link_dynamic *)&addr[nl->n_value]; /* * Map the initialized data portion of the file to the correct * point in the range of allocated addresses. This will leave * some portion of the data segment "doubly mapped" on machines * where the text/data relocation alignment is not on a page * boundaries. However, leaving the file mapped has the double * advantage of both saving the munmap system call and of leaving * us a contiguous chunk of address space devoted to the object -- * in case we need to unmap it all later. */ if (mmap((caddr_t)(addr + M_SROUND(exec->a_text)), (int)exec->a_data, (PROT_READ | PROT_WRITE | PROT_EXEC), (MAP_FIXED | MAP_PRIVATE), fd, (off_t)exec->a_text) == MAP_FAILED) { err = errno; eprintf(lml, ERR_FATAL, MSG_INTL(MSG_SYS_MMAP), pname, strerror(err)); return (0); } /* * Allocate pages for the object's bss, if necessary. */ if (exec->a_bss != 0) { if (dz_map(lml, addr + M_SROUND(exec->a_text) + exec->a_data, (int)exec->a_bss, PROT_READ | PROT_WRITE | PROT_EXEC, MAP_FIXED | MAP_PRIVATE) == MAP_FAILED) goto error; } /* * Create link map structure for newly mapped shared object. */ ld->v2 = (struct link_dynamic_2 *)((int)ld->v2 + (int)addr); if (!(lmp = aout_new_lm(lml, pname, oname, ld, addr, size, lmco))) goto error; return (lmp); /* * Error returns: close off file and free address space. */ error: (void) munmap((caddr_t)addr, size); return (0); } /* * Create a new Rt_map structure for an a.out format object and * initializes all values. */ Rt_map * aout_new_lm(Lm_list *lml, const char *pname, const char *oname, struct link_dynamic *ld, caddr_t addr, size_t size, Aliste lmco) { Rt_map *lmp; caddr_t offset; DBG_CALL(Dbg_file_aout(lml, pname, (ulong_t)ld, (ulong_t)addr, (ulong_t)size, lml->lm_lmidstr, lmco)); /* * Allocate space for the link-map and private a.out information. Once * these are allocated and initialized, we can use remove_so(0, lmp) to * tear down the link-map should any failures occur. */ if ((lmp = calloc(sizeof (Rt_map), 1)) == 0) return (0); if ((AOUTPRV(lmp) = calloc(sizeof (Rt_aoutp), 1)) == 0) { free(lmp); return (0); } if ((((Rt_aoutp *)AOUTPRV(lmp))->lm_lpd = calloc(sizeof (struct ld_private), 1)) == 0) { free(AOUTPRV(lmp)); free(lmp); return (0); } /* * All fields not filled in were set to 0 by calloc. */ ORIGNAME(lmp) = PATHNAME(lmp) = NAME(lmp) = (char *)pname; ADDR(lmp) = (ulong_t)addr; MSIZE(lmp) = (ulong_t)size; SYMINTP(lmp) = aout_find_sym; FCT(lmp) = &aout_fct; LIST(lmp) = lml; THREADID(lmp) = rt_thr_self(); OBJFLTRNDX(lmp) = FLTR_DISABLED; SORTVAL(lmp) = -1; /* * Specific settings for a.out format. */ if (lml->lm_head == 0) { offset = (caddr_t)MAIN_BASE; FLAGS(lmp) |= FLG_RT_FIXED; } else offset = addr; ETEXT(lmp) = (ulong_t)&offset[ld->v2->ld_text]; /* * Create a mapping descriptor to describe the whole object as a single * mapping. */ if ((MMAPS(lmp) = calloc(2, sizeof (Mmap))) == 0) return (0); MMAPS(lmp)->m_vaddr = offset; /* LINTED */ MMAPS(lmp)->m_msize = max(SIZE(*(struct exec *)offset), N_SYMOFF((*(struct exec *)offset)) + sizeof (struct nlist)); MMAPS(lmp)->m_fsize = MMAPS(lmp)->m_msize; MMAPCNT(lmp) = 1; /* * Fill in all AOUT information. */ AOUTDYN(lmp) = ld; if ((RPATH(lmp) = (char *)&offset[ld->v2->ld_rules]) == offset) RPATH(lmp) = 0; LM2LP(lmp)->lp_symbol_base = addr; /* LINTED */ LM2LP(lmp)->lp_plt = (struct jbind *)(&addr[JMPOFF(ld)]); LM2LP(lmp)->lp_rp = /* LINTED */ (struct relocation_info *)(&offset[RELOCOFF(ld)]); /* LINTED */ LM2LP(lmp)->lp_hash = (struct fshash *)(&offset[HASHOFF(ld)]); /* LINTED */ LM2LP(lmp)->lp_symtab = (struct nlist *)(&offset[SYMOFF(ld)]); LM2LP(lmp)->lp_symstr = &offset[STROFF(ld)]; LM2LP(lmp)->lp_textbase = offset; LM2LP(lmp)->lp_refcnt++; LM2LP(lmp)->lp_dlp = NULL; if (rtld_flags & RT_FL_RELATIVE) FLAGS1(lmp) |= FL1_RT_RELATIVE; if ((CONDVAR(lmp) = rt_cond_create()) == 0) { remove_so(0, lmp); return (0); } if (oname && ((append_alias((lmp), oname, 0)) == 0)) { remove_so(0, lmp); return (0); } /* * Add the mapped object to the end of the link map list. */ lm_append(lml, lmco, lmp); return (lmp); } /* * Function to correct protection settings. * Segments are all mapped initially with permissions as given in * the segment header, but we need to turn on write permissions * on a text segment if there are any relocations against that segment, * and them turn write permission back off again before returning control * to the program. This function turns the permission on or off depending * on the value of the argument. */ int aout_set_prot(Rt_map *lmp, int permission) { int prot; /* protection setting */ caddr_t et; /* cached _etext of object */ size_t size; /* size of text segment */ DBG_CALL(Dbg_file_prot(lmp, permission)); et = (caddr_t)ETEXT(lmp); size = M_PROUND((ulong_t)(et - TEXTBASE(lmp))); prot = PROT_READ | PROT_EXEC | permission; if (mprotect((caddr_t)TEXTBASE(lmp), size, prot) == -1) { int err = errno; eprintf(LIST(lmp), ERR_FATAL, MSG_INTL(MSG_SYS_MPROT), NAME(lmp), strerror(err)); return (0); } return (1); } /* * Build full pathname of shared object from the given directory name and * filename. */ static char * aout_get_so(const char *dir, const char *file) { struct db *dbp; char *path = NULL; if (dbp = lo_cache(dir)) { path = ask_db(dbp, file); } return (path); } /* * Determine the symbol location of an address within a link-map. Look for * the nearest symbol (whoes value is less than or equal to the required * address). This is the object specific part of dladdr(). */ static void aout_dladdr(ulong_t addr, Rt_map *lmp, Dl_info *dlip, void **info, int flags) { ulong_t ndx, cnt, base, _value; struct nlist *sym, *_sym; cnt = ((int)LM2LP(lmp)->lp_symstr - (int)LM2LP(lmp)->lp_symtab) / sizeof (struct nlist); sym = LM2LP(lmp)->lp_symtab; if (FLAGS(lmp) & FLG_RT_FIXED) base = 0; else base = ADDR(lmp); for (_sym = 0, _value = 0, ndx = 0; ndx < cnt; ndx++, sym++) { ulong_t value; if (sym->n_type == (N_EXT + N_UNDF)) continue; value = sym->n_value + base; if (value > addr) continue; if (value < _value) continue; _sym = sym; _value = value; if (value == addr) break; } if (_sym) { int _flags = flags & RTLD_DL_MASK; /* * The only way we can create a symbol entry is to use * aout_symconvert(), however this results in us pointing to * static data that could be overridden. In addition the AOUT * symbol format doesn't give us everything an ELF symbol does. * So, unless we get convinced otherwise, don't bother returning * a symbol entry for AOUT's. */ if (_flags == RTLD_DL_SYMENT) *info = 0; else if (_flags == RTLD_DL_LINKMAP) *info = (void *)lmp; dlip->dli_sname = &LM2LP(lmp)->lp_symstr[_sym->n_un.n_strx]; dlip->dli_saddr = (void *)_value; } } /* * Continue processing a dlsym request. Lookup the required symbol in each * link-map specified by the handle. Note, that because this lookup is against * individual link-maps we don't need to supply a starting link-map to the * lookup routine (see lookup_sym():analyze.c). */ Sym * aout_dlsym_handle(Grp_hdl * ghp, Slookup *slp, Rt_map **_lmp, uint_t *binfo) { Sym *sym; char buffer[PATH_MAX]; Slookup sl; buffer[0] = '_'; (void) strcpy(&buffer[1], slp->sl_name); if ((sym = dlsym_handle(ghp, slp, _lmp, binfo)) != 0) return (sym); /* * Symbol not found as supplied. However, most of our symbols will * be in the "C" name space, where the implementation prepends a "_" * to the symbol as it emits it. Therefore, attempt to find the * symbol with the "_" prepend. */ sl = *slp; sl.sl_name = (const char *)buffer; return (dlsym_handle(ghp, &sl, _lmp, binfo)); }