/* * 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. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #include #include #include #include #include "machdep.h" #include "sgs.h" #include "conv.h" #include "_crle.h" #include "msg.h" /* * Establish an association between a filter and filtee. Both the filter and * filtee already exist in the internal hash table, since auditing registers * objects (la_objopen()) before it registers filters (la_objfilter()). */ static int filter(Crle_desc *crle, const char *filter, const char *str, const char *filtee) { Hash_ent * fltrent, * flteent; Flt_desc * flt; Listnode * lnp; /* * Locate the filter. Mark the underlying object as the filter to * reflect that no matter how it is referenced, it's a filter. */ if ((fltrent = get_hash(crle->c_strtbl, (Addr)filter, 0, HASH_FND_ENT)) == 0) return (1); if ((fltrent = get_hash(crle->c_strtbl, (Addr)fltrent->e_obj->o_path, 0, HASH_FND_ENT)) == 0) return (1); fltrent->e_obj->o_flags |= RTC_OBJ_FILTER; /* * Locate the filtee. Mark the referencing object as the filtee, as * this is the object referenced by the filter. */ if ((flteent = get_hash(crle->c_strtbl, (Addr)filtee, 0, HASH_FND_ENT)) == 0) return (1); flteent->e_flags |= RTC_OBJ_FILTEE; /* * Traverse the filter list using the filters real name. If ld.so.1 * inspects the resulting configuration file for filters, it's the * objects real name that will be used (PATHNAME()). */ for (LIST_TRAVERSE(&(crle->c_flt), lnp, flt)) { /* * Determine whether this filter and filtee string pair already * exist. */ if ((strcmp(flt->f_fent->e_obj->o_path, fltrent->e_obj->o_path) != 0) && (strcmp(flt->f_str, str) != 0)) continue; /* * Add this filtee additional association. */ if (list_append(&(flt->f_filtee), flteent) == 0) return (1); crle->c_fltenum++; return (0); } /* * This is a new filter descriptor. Add this new filtee association. */ if (((flt = malloc(sizeof (Flt_desc))) == 0) || ((flt->f_strsz = strlen(str) + 1) == 0) || ((flt->f_str = malloc(flt->f_strsz)) == 0)) { int err = errno; (void) fprintf(stderr, MSG_INTL(MSG_SYS_MALLOC), crle->c_name, strerror(err)); return (1); } if ((list_append(&(crle->c_flt), flt) == 0) || (list_append(&(flt->f_filtee), flteent) == 0)) return (1); flt->f_fent = fltrent; (void) memcpy((void *)flt->f_str, (void *)str, flt->f_strsz); crle->c_strsize += flt->f_strsz; crle->c_fltrnum += 1; crle->c_fltenum += 2; /* Account for null filtee desc. */ return (0); } /* * Establish the dependencies of an ELF object and add them to the internal * configuration information. This information is gathered by using libcrle.so.1 * as an audit library - this is akin to using ldd(1) only simpler. */ int depend(Crle_desc *crle, const char *name, Half flags, GElf_Ehdr *ehdr) { const char *exename; const char *preload; int fildes[2], pid; /* * If we're dealing with a dynamic executable we'll execute it, * otherwise we'll preload the shared object with one of the lddstub's. */ if (ehdr->e_type == ET_EXEC) { exename = name; preload = 0; } else { exename = conv_lddstub(crle->c_class); preload = name; } /* * Set up a pipe through which the audit library will write the * dependencies. */ if (pipe(fildes) == -1) { int err = errno; (void) fprintf(stderr, MSG_INTL(MSG_SYS_PIPE), crle->c_name, strerror(err)); return (1); } /* * Fork ourselves to run our executable and collect its dependencies. */ if ((pid = fork()) == -1) { int err = errno; (void) fprintf(stderr, MSG_INTL(MSG_SYS_FORK), crle->c_name, strerror(err)); return (1); } if (pid) { /* * Parent. Read each dependency from the audit library. The read * side of the pipe is attached to stdio to make obtaining the * individual dependencies easier. */ int error = 0, status; FILE *fd; char buffer[PATH_MAX]; (void) close(fildes[1]); if ((fd = fdopen(fildes[0], MSG_ORIG(MSG_STR_READ))) != NULL) { char *str; while (fgets(buffer, PATH_MAX, fd) != NULL) { /* * Make sure we recognize the message, remove * the newline (which allowed fgets() use) and * register the name; */ if (strncmp(MSG_ORIG(MSG_AUD_PRF), buffer, MSG_AUD_PRF_SIZE)) continue; str = strrchr(buffer, '\n'); *str = '\0'; str = buffer + MSG_AUD_PRF_SIZE; if (strncmp(MSG_ORIG(MSG_AUD_DEPEND), str, MSG_AUD_DEPEND_SIZE) == 0) { /* * Process any dependencies. */ str += MSG_AUD_DEPEND_SIZE; if ((error = inspect(crle, str, (flags & ~RTC_OBJ_GROUP))) != 0) break; } else if (strncmp(MSG_ORIG(MSG_AUD_FILTER), str, MSG_AUD_FILTER_SIZE) == 0) { char *_flt, *_str; /* * Process any filters. */ _flt = str += MSG_AUD_FILTER_SIZE; _str = strchr(str, ':'); *_str++ = '\0'; str = _str++; str = strrchr(str, ')'); *str++ = '\0'; str++; if ((error = filter(crle, _flt, _str, str)) != 0) break; } } } else error = errno; while (wait(&status) != pid) ; if (status) { if (WIFSIGNALED(status)) { (void) fprintf(stderr, MSG_INTL(MSG_SYS_EXEC), crle->c_name, exename, (WSIGMASK & status), ((status & WCOREFLG) ? MSG_INTL(MSG_SYS_CORE) : MSG_ORIG(MSG_STR_EMPTY))); } error = status; } (void) fclose(fd); return (error); } else { char efds[MSG_ENV_AUD_FD_SIZE + 10]; char epld[PATH_MAX]; char eldf[PATH_MAX]; (void) close(fildes[0]); /* * Child. Set up environment variables to enable and identify * auditing. Initialize CRLE_FD and LD_FLAGS strings. */ (void) snprintf(efds, (MSG_ENV_AUD_FD_SIZE + 10), MSG_ORIG(MSG_ENV_AUD_FD), fildes[1]); (void) snprintf(eldf, PATH_MAX, MSG_ORIG(MSG_ENV_LD_FLAGS)); /* * If asked to dump a group of dependencies make sure any * lazily-loaded objects get processed - (append loadavail to * LD_FLAGS=confgen). */ if (flags & RTC_OBJ_GROUP) (void) strcat(eldf, MSG_ORIG(MSG_LDFLG_LOADAVAIL)); /* * Put LD_PRELOAD= in the environment if necessary. */ if (preload) { (void) snprintf(epld, PATH_MAX, MSG_ORIG(MSG_ENV_LD_PRELOAD), preload); } /* * Put strings in the environment for exec(). * NOTE, use of automatic variables for construction of the * environment variables is legitimate here, as they are local * to the child process and are established solely for exec(). */ if ((putenv(efds) != 0) || (putenv(crle->c_audit) != 0) || (putenv(eldf) != 0) || (preload && (putenv(epld) != 0))) { int err = errno; (void) fprintf(stderr, MSG_INTL(MSG_SYS_PUTENV), crle->c_name, strerror(err)); return (1); } if (execlp(exename, exename, 0) == -1) { _exit(errno); /* NOTREACHED */ } } return (0); }