/* * 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" #include #include #include #include #include #include #include #include #include #include #include "sgs.h" #include "rtc.h" #include "conv.h" #include "_crle.h" #include "msg.h" /* * Display the command line required to regenerate the configuration file. * * Under normal mode the command is printed on one line to make it more * available for grep(1) use. Under verbose mode the command is separated * into each argument (a little more readable perhaps when the arguments are * numerous of have long pathnames). * * Note that for version 1 configuration files we never used to generate any * command-line information, and as the attempt to do so is only a best effort * don't bother printing anything. */ static void printcmd(Crle_desc * crle, Rtc_head * head, List * cmdline) { Listnode *lnp; const char *fmto, *fmtb, *fmtm, *fmte; char *cmd; int output = 0; if (crle->c_flags & CRLE_VERBOSE) { fmto = MSG_INTL(MSG_DMP_CMD_ONE_V); fmtb = MSG_INTL(MSG_DMP_CMD_BGN_V); fmtm = MSG_INTL(MSG_DMP_CMD_MID_V); fmte = MSG_INTL(MSG_DMP_CMD_END_V); } else if (head->ch_version > RTC_VER_ONE) { fmto = MSG_INTL(MSG_DMP_CMD_ONE); fmtb = MSG_INTL(MSG_DMP_CMD_BGN); fmtm = MSG_INTL(MSG_DMP_CMD_MID); fmte = MSG_INTL(MSG_DMP_CMD_END); } else { (void) printf(MSG_ORIG(MSG_STR_NL)); return; } (void) printf(MSG_INTL(MSG_DMP_CMD_TITLE)); for (LIST_TRAVERSE(cmdline, lnp, cmd)) { if (output++ == 0) { if (lnp->next) (void) printf(fmtb, cmd); else (void) printf(fmto, cmd); } else { if (lnp->next) (void) printf(fmtm, cmd); else (void) printf(fmte, cmd); } } } /* * Establish the argument required to generate the associated object. */ static const char * getformat(Half flags) { if (flags & RTC_OBJ_ALTER) { if (flags & RTC_OBJ_DUMP) { if (flags & RTC_OBJ_GROUP) return (MSG_ORIG(MSG_CMD_DUMPGRP)); else return (MSG_ORIG(MSG_CMD_DUMPIND)); } else { if (flags & RTC_OBJ_OPTINAL) return (MSG_ORIG(MSG_CMD_OPTIONAL)); else return (MSG_ORIG(MSG_CMD_ALTER)); } } else { if (flags & RTC_OBJ_GROUP) return (MSG_ORIG(MSG_CMD_GRP)); else return (MSG_ORIG(MSG_CMD_IND)); } } /* * Fabricate a system default search path. If an update is requested, and * new search paths are specified while no configuration file exists, or if a * configuration file does exist but doesn't specify this particular search * path, create any system defaults. The intent is to allow * "crle -u -l/usr/local/lib" and have this append the search path to the * system default, rather than have the user have to determine and specify * this default themselves. */ static int fablib(Crle_desc * crle, int flag) { const char *path; char **list; switch (flag) { case CRLE_EDLIB: #if M_CLASS == ELFCLASS64 #ifndef SGS_PRE_UNIFIED_PROCESS path = MSG_ORIG(MSG_PTH_NEWDLP_64); #else path = MSG_ORIG(MSG_PTH_OLDDLP_64); #endif #else #ifndef SGS_PRE_UNIFIED_PROCESS path = MSG_ORIG(MSG_PTH_NEWDLP); #else path = MSG_ORIG(MSG_PTH_OLDDLP); #endif #endif list = &crle->c_edlibpath; break; case CRLE_ESLIB: #if M_CLASS == ELFCLASS64 #ifndef SGS_PRE_UNIFIED_PROCESS path = MSG_ORIG(MSG_PTH_NEWTD_64); #else path = MSG_ORIG(MSG_PTH_OLDTD_64); #endif #else #ifndef SGS_PRE_UNIFIED_PROCESS path = MSG_ORIG(MSG_PTH_NEWTD); #else path = MSG_ORIG(MSG_PTH_OLDTD); #endif #endif list = &crle->c_eslibpath; break; case CRLE_ADLIB: path = MSG_ORIG(MSG_PTH_AOUTDLP); list = &crle->c_adlibpath; break; case CRLE_ASLIB: path = MSG_ORIG(MSG_PTH_AOUTTD); list = &crle->c_aslibpath; break; default: return (1); } return (addlib(crle, list, path)); } /* * Establish the flags required to generate the associated object. Actually * the flags are already part of the object being inspected from the present * configuration file, but instead of using them all, which can cause some * unsuspected propagation down the inspect() family, only use those flags that * would have been contributed from crle()'s calls to inspect. */ static Half getflags(Half flags) { flags &= (RTC_OBJ_ALTER | RTC_OBJ_DUMP | RTC_OBJ_GROUP | RTC_OBJ_OPTINAL); return (flags | RTC_OBJ_CMDLINE); } /* * Dump a configuration files information. This routine is very close to the * scanconfig() in libcrle. */ static INSCFG_RET scanconfig(Crle_desc * crle, Addr addr) { Rtc_id *id; Rtc_head *head; Rtc_dir *dirtbl; Rtc_file *filetbl; Rtc_obj *objtbl, * obj; Word *hash, * chain; const char *strtbl; int ndx, bkts; List cmdline = { 0 }; char _cmd[PATH_MAX], * cmd; char _objdir[PATH_MAX], * objdir = 0; /* * If there is an Rtc_id present, the Rtc_head follows it. * Otherwise, it is at the top. */ if (RTC_ID_TEST(addr)) { id = (Rtc_id *) addr; addr += sizeof (*id); /* Rtc_head follows */ } else { id = NULL; /* * When updating an existing config file that is lacking * the Rtc_id block, don't put one into the resulting file. */ crle->c_flags &= ~CRLE_ADDID; } head = (Rtc_head *) addr; /* * The rest of the configuration file can only be examined by * a program of the same ELFCLASS, byte order, and hardware * architecture as the one that created it. */ #ifdef _ELF64 /* 64-bit program with an existing 32-bit file? Abort. */ if (!(head->ch_cnflags & RTC_HDR_64)) { (void) fprintf(stderr, MSG_INTL(MSG_ARG_CLASS), crle->c_name, crle->c_confil); return (INSCFG_RET_FAIL); } #else /* 32-bit program with an existing 64-bit file? Restart. */ if (head->ch_cnflags & RTC_HDR_64) return (INSCFG_RET_NEED64); #endif /* * Now that the ELFCLASS has been settled, ensure that the * byte order and hardware match. Unlike ELFCLASS, where restarting * the other version is an option, we cannot work around a mismatch * of these attributes. */ if (id) { /* Rtc_id is present */ /* * Was the file produced by compatible hardware? * ELFCLASS doesn't matter here, because we can * adjust for that, but byte order and machine type do. */ if ((id->id_data != M_DATA) || (id->id_machine != M_MACH)) { (void) fprintf(stderr, MSG_INTL(MSG_ARG_WRONGARCH), crle->c_name, crle->c_confil, conv_ehdr_data(id->id_data, CONV_FMT_ALTFILE), conv_ehdr_mach(id->id_machine, CONV_FMT_ALTFILE), conv_ehdr_data(M_DATA, CONV_FMT_ALTFILE), conv_ehdr_mach(M_MACH, CONV_FMT_ALTFILE)); return (INSCFG_RET_FAIL); } } /* LINTED */ objtbl = (Rtc_obj *)(CAST_PTRINT(char *, head->ch_obj) + addr); strtbl = (const char *)(CAST_PTRINT(char *, head->ch_str) + addr); /* * If the configuration file has a version higher than we * recognise, we face two issues: * (1) Updates are not possible because we have no * way to recognise or propagate the new features. * This has to be a fatal error. * (2) Printing has the risk that we may have been * handed something other than a real config file, as * well as the fact that we can't display the information * for the new features. So, we print a warning, but * continue on to do the best we can with it. */ if (head->ch_version > RTC_VER_CURRENT) { if (crle->c_flags & CRLE_UPDATE) { (void) fprintf(stderr, MSG_INTL(MSG_ARG_UPDATEVER), crle->c_name, crle->c_confil, head->ch_version, RTC_VER_CURRENT); return (INSCFG_RET_FAIL); } else { (void) fprintf(stderr, MSG_INTL(MSG_ARG_PRINTVER), crle->c_name, crle->c_confil, head->ch_version, RTC_VER_CURRENT); } } /* * If this is a version 1 configuration file we can't generate accurate * update information, or the command-line used to create the file. */ if (head->ch_version == RTC_VER_ONE) { (void) printf(MSG_INTL(MSG_ARG_UPDATE), crle->c_name, crle->c_confil, head->ch_version); } if (!(crle->c_flags & CRLE_UPDATE) && (head->ch_cnflags & RTC_HDR_64)) { /* * Construct the original command line argument. */ cmd = strcpy(alloca(MSG_CMD_64_SIZE + 1), MSG_ORIG(MSG_CMD_64)); if (list_append(&cmdline, cmd) == 0) return (INSCFG_RET_FAIL); } /* * Start analyzing the configuration files header information. */ if ((crle->c_flags & CRLE_UPDATE) == 0) { const char *fmt; if (head->ch_dlflags) fmt = conv_dl_flag(head->ch_dlflags, 0); else fmt = MSG_ORIG(MSG_STR_EMPTY); (void) printf(MSG_INTL(MSG_DMP_HEAD), head->ch_version, crle->c_confil, fmt); /* * If the file has an id block, show the information */ if (id) printf(MSG_INTL(MSG_DMP_PLATFORM), conv_ehdr_class(id->id_class, CONV_FMT_ALTFILE), conv_ehdr_data(id->id_data, CONV_FMT_ALTFILE), conv_ehdr_mach(id->id_machine, CONV_FMT_ALTFILE)); /* * Construct the original command line argument. */ (void) snprintf(_cmd, PATH_MAX, MSG_ORIG(MSG_CMD_CONF), crle->c_confil); cmd = strcpy(alloca(strlen(_cmd) + 1), _cmd); if (list_append(&cmdline, cmd) == 0) return (INSCFG_RET_FAIL); /* * Construct any -f usage. */ if (head->ch_dlflags && (head->ch_dlflags != RTLD_REL_RELATIVE)) { (void) snprintf(_cmd, PATH_MAX, MSG_ORIG(MSG_CMD_FLAGS), conv_dl_flag(head->ch_dlflags, 1)); cmd = strcpy(alloca(strlen(_cmd) + 1), _cmd); if (list_append(&cmdline, cmd) == 0) return (INSCFG_RET_FAIL); } } else { /* * Establish any -f usage. */ if (head->ch_dlflags && (head->ch_dlflags != RTLD_REL_RELATIVE)) crle->c_dlflags = head->ch_dlflags; } /* * Determine if this configuration file is only applicable to a specific * application. */ if (head->ch_app) { char *alter; obj = (Rtc_obj *)(head->ch_app + addr); /* * Determine the output directory for the files * alternative name. */ alter = (char *)(strtbl + obj->co_alter); (void) strcpy(_objdir, alter); alter = strrchr(_objdir, '/'); *alter = '\0'; crle->c_objdir = objdir = _objdir; if (crle->c_flags & CRLE_UPDATE) { if (inspect(crle, (strtbl + obj->co_name), (RTC_OBJ_DUMP | RTC_OBJ_ALTER | RTC_OBJ_GROUP | RTC_OBJ_CMDLINE)) != 0) return (INSCFG_RET_FAIL); } else { (void) printf(MSG_INTL(MSG_DMP_APP), (strtbl + obj->co_alter), (strtbl + obj->co_name)); /* * Construct the original command line arguments. */ (void) snprintf(_cmd, PATH_MAX, MSG_ORIG(MSG_CMD_OUTPUT), crle->c_objdir); cmd = strcpy(alloca(strlen(_cmd) + 1), _cmd); if (list_append(&cmdline, cmd) == 0) return (INSCFG_RET_FAIL); (void) snprintf(_cmd, PATH_MAX, MSG_ORIG(MSG_CMD_DUMPGRP), (strtbl + obj->co_name)); cmd = strcpy(alloca(strlen(_cmd) + 1), _cmd); if (list_append(&cmdline, cmd) == 0) return (INSCFG_RET_FAIL); } } /* * Analyze any alternative library path and trusted directory entries. */ if (head->ch_edlibpath) { const char *str; str = (const char *)(head->ch_edlibpath + addr); if (crle->c_flags & CRLE_UPDATE) { crle->c_flags &= ~CRLE_AOUT; #ifndef SGS_PRE_UNIFIED_PROCESS if ((head->ch_cnflags & RTC_HDR_UPM) == 0) { if (head->ch_cnflags & RTC_HDR_64) str = conv_config_upm(str, MSG_ORIG(MSG_PTH_OLDDLP_64), MSG_ORIG(MSG_PTH_UPDLP_64), MSG_PTH_UPDLP_64_SIZE); else str = conv_config_upm(str, MSG_ORIG(MSG_PTH_OLDDLP), MSG_ORIG(MSG_PTH_UPDLP), MSG_PTH_UPDLP_SIZE); } #endif if (addlib(crle, &crle->c_edlibpath, str) != 0) return (INSCFG_RET_FAIL); } else { (void) printf(MSG_INTL(MSG_DMP_DLIBPTH), MSG_ORIG(MSG_STR_ELF), str); (void) snprintf(_cmd, PATH_MAX, MSG_ORIG(MSG_CMD_EDLIB), str); cmd = strcpy(alloca(strlen(_cmd) + 1), _cmd); if (list_append(&cmdline, cmd) == 0) return (INSCFG_RET_FAIL); } } else { if (crle->c_flags & CRLE_UPDATE) { if (crle->c_flags & CRLE_EDLIB) { /* * If we've been asked to update a configuration * file, and no existing default ELF search * path exists, but the user is going to add new * entries, fabricate the system defaults so * that the users get added to them. */ if (fablib(crle, CRLE_EDLIB) != 0) return (INSCFG_RET_FAIL); } } else { /* * Indicate any system default. */ #if M_CLASS == ELFCLASS64 #ifndef SGS_PRE_UNIFIED_PROCESS (void) printf(MSG_INTL(MSG_DEF_NEWDLP_64)); #else (void) printf(MSG_INTL(MSG_DEF_OLDDLP_64)); #endif #else #ifndef SGS_PRE_UNIFIED_PROCESS (void) printf(MSG_INTL(MSG_DEF_NEWDLP)); #else (void) printf(MSG_INTL(MSG_DEF_OLDDLP)); #endif #endif } } if (head->ch_eslibpath) { const char *str; str = (const char *)(head->ch_eslibpath + addr); if (crle->c_flags & CRLE_UPDATE) { crle->c_flags &= ~CRLE_AOUT; #ifndef SGS_PRE_UNIFIED_PROCESS if ((head->ch_cnflags & RTC_HDR_UPM) == 0) { if (head->ch_cnflags & RTC_HDR_64) str = conv_config_upm(str, MSG_ORIG(MSG_PTH_OLDTD_64), MSG_ORIG(MSG_PTH_UPTD_64), MSG_PTH_UPTD_64_SIZE); else str = conv_config_upm(str, MSG_ORIG(MSG_PTH_OLDTD), MSG_ORIG(MSG_PTH_UPTD), MSG_PTH_UPTD_SIZE); } #endif if (addlib(crle, &crle->c_eslibpath, str) != 0) return (INSCFG_RET_FAIL); } else { (void) printf(MSG_INTL(MSG_DMP_TLIBPTH), MSG_ORIG(MSG_STR_ELF), str); (void) snprintf(_cmd, PATH_MAX, MSG_ORIG(MSG_CMD_ESLIB), str); cmd = strcpy(alloca(strlen(_cmd) + 1), _cmd); if (list_append(&cmdline, cmd) == 0) return (INSCFG_RET_FAIL); } } else { if (crle->c_flags & CRLE_UPDATE) { if (crle->c_flags & CRLE_ESLIB) { /* * If we've been asked to update a configuration * file, and no existing default ELF secure * path exists, but the user is going to add new * entries, fabricate the system defaults so * that the users get added to them. */ if (fablib(crle, CRLE_ESLIB) != 0) return (INSCFG_RET_FAIL); } } else { /* * Indicate any system default. */ #if M_CLASS == ELFCLASS64 #ifndef SGS_PRE_UNIFIED_PROCESS (void) printf(MSG_INTL(MSG_DEF_NEWTD_64)); #else (void) printf(MSG_INTL(MSG_DEF_OLDTD_64)); #endif #else #ifndef SGS_PRE_UNIFIED_PROCESS (void) printf(MSG_INTL(MSG_DEF_NEWTD)); #else (void) printf(MSG_INTL(MSG_DEF_OLDTD)); #endif #endif } } if (head->ch_adlibpath) { const char *str; str = (const char *)(head->ch_adlibpath + addr); if (crle->c_flags & CRLE_UPDATE) { crle->c_flags |= CRLE_AOUT; if (addlib(crle, &crle->c_adlibpath, str) != 0) return (INSCFG_RET_FAIL); } else { (void) printf(MSG_INTL(MSG_DMP_DLIBPTH), MSG_ORIG(MSG_STR_AOUT), str); (void) snprintf(_cmd, PATH_MAX, MSG_ORIG(MSG_CMD_ADLIB), str); cmd = strcpy(alloca(strlen(_cmd) + 1), _cmd); if (list_append(&cmdline, cmd) == 0) return (INSCFG_RET_FAIL); } } else { if (crle->c_flags & CRLE_UPDATE) { if (crle->c_flags & CRLE_ADLIB) { /* * If we've been asked to update a configuration * file, and no existing default AOUT search * path exists, but the user is going to add new * entries, fabricate the system defaults so * that the users get added to them. */ if (fablib(crle, CRLE_ADLIB) != 0) return (INSCFG_RET_FAIL); } } else if (crle->c_flags & CRLE_AOUT) { /* * Indicate any system default. */ (void) printf(MSG_INTL(MSG_DEF_AOUTDLP)); } } if (head->ch_aslibpath) { const char *str; str = (const char *)(head->ch_aslibpath + addr); if (crle->c_flags & CRLE_UPDATE) { crle->c_flags |= CRLE_AOUT; if (addlib(crle, &crle->c_aslibpath, str) != 0) return (INSCFG_RET_FAIL); } else { (void) printf(MSG_INTL(MSG_DMP_TLIBPTH), MSG_ORIG(MSG_STR_AOUT), str); (void) snprintf(_cmd, PATH_MAX, MSG_ORIG(MSG_CMD_ASLIB), str); cmd = strcpy(alloca(strlen(_cmd) + 1), _cmd); if (list_append(&cmdline, cmd) == 0) return (INSCFG_RET_FAIL); } } else { if (crle->c_flags & CRLE_UPDATE) { if (crle->c_flags & CRLE_ASLIB) { /* * If we've been asked to update a configuration * file, and no existing default AOUT secure * path exists, but the user is going to add new * entries, fabricate the system defaults so * that the users get added to them. */ if (fablib(crle, CRLE_ASLIB) != 0) return (INSCFG_RET_FAIL); } } else if (crle->c_flags & CRLE_AOUT) { /* * Indicate any system default. */ (void) printf(MSG_INTL(MSG_DEF_AOUTTD)); } } /* * Display any environment variables. */ if ((head->ch_version >= RTC_VER_THREE) && head->ch_env) { Rtc_env * envtbl; if ((crle->c_flags & CRLE_UPDATE) == 0) (void) printf(MSG_INTL(MSG_ENV_TITLE)); for (envtbl = (Rtc_env *)(head->ch_env + addr); envtbl->env_str; envtbl++) { const char *str; str = (const char *)(envtbl->env_str + addr); if (crle->c_flags & CRLE_UPDATE) { if (addenv(crle, str, (envtbl->env_flags | RTC_ENV_CONFIG)) == 0) return (INSCFG_RET_FAIL); } else { const char *pfmt, *sfmt; if (envtbl->env_flags & RTC_ENV_PERMANT) { pfmt = MSG_INTL(MSG_ENV_PRM); sfmt = MSG_ORIG(MSG_CMD_PRMENV); } else { pfmt = MSG_INTL(MSG_ENV_RPL); sfmt = MSG_ORIG(MSG_CMD_RPLENV); } (void) printf(pfmt, str); (void) snprintf(_cmd, PATH_MAX, sfmt, str); cmd = strcpy(alloca(strlen(_cmd) + 1), _cmd); if (list_append(&cmdline, cmd) == 0) return (INSCFG_RET_FAIL); } } } /* * Display any filter/filtee associations. */ if ((head->ch_version >= RTC_VER_FOUR) && head->ch_fltr) { if ((crle->c_flags & CRLE_UPDATE) == 0) { Rtc_fltr * fltrtbl; Rtc_flte * fltetbl; /* LINTED */ fltrtbl = (Rtc_fltr *) (CAST_PTRINT(char *, head->ch_fltr) + addr); /* LINTED */ fltetbl = (Rtc_flte *) (CAST_PTRINT(char *, head->ch_flte) + addr); (void) printf(MSG_INTL(MSG_FLT_TITLE)); while (fltrtbl->fr_filter) { Rtc_flte *_fltetbl; /* * Print the filter and filtee string pair. */ (void) printf(MSG_INTL(MSG_FLT_FILTER), (strtbl + fltrtbl->fr_filter), (strtbl + fltrtbl->fr_string)); /* * Print each filtee. */ /* LINTED */ for (_fltetbl = (Rtc_flte *)((char *)fltetbl + fltrtbl->fr_filtee); _fltetbl->fe_filtee; _fltetbl++) { (void) printf(MSG_INTL(MSG_FLT_FILTEE), (strtbl + _fltetbl->fe_filtee)); } fltrtbl++; } } } /* * Display any memory reservations required for any alternative * objects. */ if (head->ch_resbgn && ((crle->c_flags & CRLE_UPDATE) == 0)) (void) printf(MSG_INTL(MSG_DMP_RESV), head->ch_resbgn, head->ch_resend, (head->ch_resend - head->ch_resbgn)); /* * If there's no hash table there's nothing else to process. */ if (head->ch_hash == 0) { if ((crle->c_flags & CRLE_UPDATE) == 0) printcmd(crle, head, &cmdline); return (INSCFG_RET_OK); } /* * Traverse the directory and filename arrays. */ for (dirtbl = (Rtc_dir *)(head->ch_dir + addr); dirtbl->cd_obj; dirtbl++) { struct stat status; Rtc_obj *dobj; const char *str; dobj = (Rtc_obj *)(dirtbl->cd_obj + addr); filetbl = (Rtc_file *)(dirtbl->cd_file + addr); str = strtbl + dobj->co_name; /* * Simplify recreation by using any command-line directories. * If we're dealing with a version 1 configuration file use * every directory. */ if ((dobj->co_flags & RTC_OBJ_CMDLINE) || (head->ch_version == RTC_VER_ONE)) { if (crle->c_flags & CRLE_UPDATE) { if (inspect(crle, str, getflags(dobj->co_flags)) != 0) return (INSCFG_RET_FAIL); if ((dobj->co_flags & (RTC_OBJ_NOEXIST | RTC_OBJ_ALTER)) == RTC_OBJ_NOEXIST) continue; } else { /* LINTED */ (void) snprintf(_cmd, PATH_MAX, getformat(dobj->co_flags), str); cmd = strcpy(alloca(strlen(_cmd) + 1), _cmd); if (list_append(&cmdline, cmd) == 0) return (INSCFG_RET_FAIL); } } /* * If this isn't an update print the directory name. If the * directory has no entries (possible if the directory is a * symlink to another directory, in which case we record the * real path also), don't bother printing it unless we're in * verbose mode. */ if ((crle->c_flags & CRLE_UPDATE) == 0) { if ((dobj->co_flags & (RTC_OBJ_NOEXIST | RTC_OBJ_ALTER)) == RTC_OBJ_NOEXIST) { (void) printf(MSG_INTL(MSG_DMP_DIR_2), str); continue; } else if (filetbl->cf_obj || (crle->c_flags & CRLE_VERBOSE)) (void) printf(MSG_INTL(MSG_DMP_DIR_1), str); } /* * Under verbose mode validate any real directory entry - the * same test will be carried out by ld.so.1. */ if (((crle->c_flags & CRLE_UPDATE) == 0) && (crle->c_flags & CRLE_VERBOSE) && (dobj->co_flags & RTC_OBJ_REALPTH)) { if (stat(str, &status) != 0) { int err = errno; (void) printf(MSG_INTL(MSG_DMP_STAT), str, strerror(err)); } else if (status.st_mtime != dobj->co_info) { (void) printf(MSG_INTL(MSG_DMP_DCMP), str); } } for (; filetbl->cf_obj; filetbl++) { Rtc_obj * fobj; Half flags; fobj = (Rtc_obj *)(filetbl->cf_obj + addr); str = strtbl + fobj->co_name; flags = fobj->co_flags; /* * Only update individual files that were originally * specified on the command-line. Or, if this is a * version 1 configuration file use every file that * isn't part of an all-entries directory. */ if (((flags & RTC_OBJ_CMDLINE) && ((fobj->co_flags & RTC_OBJ_APP) == 0)) || ((head->ch_version == RTC_VER_ONE) && ((dobj->co_flags & RTC_OBJ_ALLENTS) == 0))) { char *alter = 0, altdir[PATH_MAX]; /* * Determine whether this file requires an * alternative, and if so, and we haven't * already an alternative in affect, create one. */ if (fobj->co_flags & RTC_OBJ_ALTER) { alter = (char *)(strtbl + fobj->co_alter); (void) strcpy(altdir, alter); alter = strrchr(altdir, '/'); *alter = '\0'; if ((objdir == 0) || (strcmp(objdir, altdir) != 0)) { (void) strcpy(_objdir, altdir); crle->c_objdir = alter = objdir = _objdir; } else alter = 0; } if (crle->c_flags & CRLE_UPDATE) { if (inspect(crle, str, getflags(flags)) != 0) return (INSCFG_RET_FAIL); continue; } if (alter) { (void) snprintf(_cmd, PATH_MAX, MSG_ORIG(MSG_CMD_OUTPUT), crle->c_objdir); cmd = strcpy(alloca(strlen(_cmd) + 1), _cmd); if (list_append(&cmdline, cmd) == 0) return (INSCFG_RET_FAIL); } /* LINTED */ (void) snprintf(_cmd, PATH_MAX, getformat(flags), str); cmd = strcpy(alloca(strlen(_cmd) + 1), _cmd); if (list_append(&cmdline, cmd) == 0) return (INSCFG_RET_FAIL); } if (crle->c_flags & CRLE_UPDATE) continue; /* * Although we record both full pathnames and their * simple filenames (basename), only print the simple * names unless we're under verbose mode. */ if ((strchr(str, '/') == 0) || (crle->c_flags & CRLE_VERBOSE)) { if (fobj->co_flags & RTC_OBJ_ALTER) (void) printf(MSG_INTL(MSG_DMP_FILE_2), str, (strtbl + fobj->co_alter)); else (void) printf(MSG_INTL(MSG_DMP_FILE_1), str); } /* * Under verbose mode validate any real file entry - the * same test will be carried out by ld.so.1. */ if ((crle->c_flags & CRLE_VERBOSE) && (fobj->co_flags & RTC_OBJ_REALPTH)) { if (stat(str, &status) != 0) { int err = errno; (void) printf(MSG_INTL(MSG_DMP_STAT), str, strerror(err)); } else if (status.st_size != fobj->co_info) { (void) printf(MSG_INTL(MSG_DMP_FCMP), str); } } } } if ((crle->c_flags & CRLE_UPDATE) == 0) printcmd(crle, head, &cmdline); if ((crle->c_flags & CRLE_VERBOSE) == 0) return (INSCFG_RET_OK); /* * If we've in verbose mode scan the hash list. */ /* LINTED */ hash = (Word *)(CAST_PTRINT(char *, head->ch_hash) + addr); bkts = hash[0]; chain = &hash[2 + bkts]; hash += 2; (void) printf(MSG_INTL(MSG_DMP_HASH)); /* * Scan the hash buckets looking for valid entries. */ for (ndx = 0; ndx < bkts; ndx++, hash++) { Rtc_obj *obj; const char *str; Word _ndx; if (*hash == 0) continue; obj = objtbl + *hash; str = strtbl + obj->co_name; (void) printf(MSG_INTL(MSG_DMP_HASHENT_1), obj->co_id, ndx, str, conv_config_obj(obj->co_flags)); /* * Determine whether there are other objects chained to this * bucket. */ for (_ndx = chain[*hash]; _ndx; _ndx = chain[_ndx]) { obj = objtbl + _ndx; str = strtbl + obj->co_name; (void) printf(MSG_INTL(MSG_DMP_HASHENT_2), obj->co_id, str, conv_config_obj(obj->co_flags)); } } (void) printf(MSG_ORIG(MSG_STR_NL)); return (INSCFG_RET_OK); } INSCFG_RET inspectconfig(Crle_desc * crle) { INSCFG_RET error; int fd; Addr addr; struct stat status; const char *caller = crle->c_name, *file = crle->c_confil; /* * Open the configuration file, determine its size and map it in. */ if ((fd = open(file, O_RDONLY, 0)) == -1) { int err = errno; if ((err == ENOENT)) { /* * To allow an update (-u) from scratch, fabricate any * default search and secure paths that the user * intends to add to. */ if (crle->c_flags & CRLE_UPDATE) { if (crle->c_flags & CRLE_EDLIB) { if (fablib(crle, CRLE_EDLIB)) return (1); } if (crle->c_flags & CRLE_ESLIB) { if (fablib(crle, CRLE_ESLIB)) return (1); } if (crle->c_flags & CRLE_ADLIB) { if (fablib(crle, CRLE_ADLIB)) return (1); } if (crle->c_flags & CRLE_ASLIB) { if (fablib(crle, CRLE_ASLIB)) return (1); } return (0); } else if (crle->c_flags & CRLE_CONFDEF) { const char *fmt1, *fmt2; /* * Otherwise if the user is inspecting a default * configuration file that doesn't exist inform * them and display the ELF defaults. */ (void) printf(MSG_INTL(MSG_DEF_NOCONF), file); if (crle->c_flags & CRLE_AOUT) { fmt1 = MSG_INTL(MSG_DEF_AOUTDLP); fmt2 = MSG_INTL(MSG_DEF_AOUTTD); } else { #if M_CLASS == ELFCLASS64 #ifndef SGS_PRE_UNIFIED_PROCESS fmt1 = MSG_INTL(MSG_DEF_NEWDLP_64); fmt2 = MSG_INTL(MSG_DEF_NEWTD_64); #else fmt1 = MSG_INTL(MSG_DEF_OLDDLP_64); fmt2 = MSG_INTL(MSG_DEF_OLDTD_64); #endif #else #ifndef SGS_PRE_UNIFIED_PROCESS fmt1 = MSG_INTL(MSG_DEF_NEWDLP); fmt2 = MSG_INTL(MSG_DEF_NEWTD); #else fmt1 = MSG_INTL(MSG_DEF_OLDDLP); fmt2 = MSG_INTL(MSG_DEF_OLDTD); #endif #endif } (void) printf(fmt1); (void) printf(fmt2); return (0); } } /* * Otherwise there's an error condition in accessing the file. */ (void) fprintf(stderr, MSG_INTL(MSG_SYS_OPEN), caller, file, strerror(err)); return (1); } (void) fstat(fd, &status); if (status.st_size < sizeof (Rtc_head)) { (void) close(fd); (void) fprintf(stderr, MSG_INTL(MSG_COR_TRUNC), caller, file); return (1); } if ((addr = (Addr)mmap(0, status.st_size, PROT_READ, MAP_SHARED, fd, 0)) == (Addr)MAP_FAILED) { int err = errno; (void) fprintf(stderr, MSG_INTL(MSG_SYS_MMAP), caller, file, strerror(err)); (void) close(fd); return (1); } (void) close(fd); /* * Print the contents of the configuration file. */ error = scanconfig(crle, addr); (void) munmap((void *)addr, status.st_size); return (error); }