/* * 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) 1989, 2010, Oracle and/or its affiliates. All rights reserved. */ /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "pkginstall.h" /* imported globals */ extern char **environ; extern char *pkgabrv; extern char *pkgname; extern char *pkgarch; extern char *pkgvers; extern char pkgwild[]; /* libadm(3LIB) */ extern char *get_install_root(void); /* quit.c */ extern sighdlrFunc_t *quitGetTrapHandler(void); extern void quitSetDstreamTmpdir(char *a_dstreamTempDir); extern void quitSetInstallStarted(boolean_t a_installStarted); extern void quitSetPkgask(boolean_t a_pkgaskFlag); extern void quitSetSilentExit(boolean_t a_silentExit); extern void quitSetUpdatingExisting(boolean_t a_updatingExisting); extern void quitSetZoneName(char *a_zoneName); /* static globals */ static char path[PATH_MAX]; static int ck_instbase(void); static int cp_pkgdirs(void); static int merg_pkginfos(struct cl_attr **pclass, struct cl_attr ***mpclass); static int merg_respfile(void); static int mv_pkgdirs(void); static int rdonly(char *p); static void ck_w_dryrun(int (*func)(), int type); static void copyright(void), usage(void); static void do_pkgask(boolean_t a_run_request_as_root); static void rm_icas(char *casdir); static void set_dryrun_dir_loc(void); static void unpack(void); void ckreturn(int retcode, char *msg); static char *ro_params[] = { "PATH", "NAME", "PKG", "PKGINST", "VERSION", "ARCH", "INSTDATE", "CATEGORY", NULL }; /* * The following variable is the name of the device to which stdin * is connected during execution of a procedure script. PROC_STDIN is * correct for all ABI compliant packages. For non-ABI-compliant * packages, the '-o' command line switch changes this to PROC_XSTDIN * to allow user interaction during these scripts. -- JST */ static char *script_in = PROC_STDIN; /* assume ABI compliance */ static char *pkgdrtarg = NULL; static char *pkgcontsrc = NULL; static int non_abi_scripts = 0; static char *respfile = NULL; static char *srcinst = NULL; static int suppressCopyright = 0; static int nointeract = 0; /* exported globals */ char *msgtext; char *pkginst = (char *)NULL; char *rw_block_size = NULL; char ilockfile[PATH_MAX]; char instdir[PATH_MAX]; char saveSpoolInstallDir[PATH_MAX]; char pkgbin[PATH_MAX]; char pkgloc[PATH_MAX]; char pkgloc_sav[PATH_MAX]; char pkgsav[PATH_MAX]; char rlockfile[PATH_MAX]; char savlog[PATH_MAX]; char tmpdir[PATH_MAX]; int dbchg; int dparts = 0; int dreboot = 0; int failflag = 0; static int askflag = 0; /* non-zero if invoked as "pkgask" */ int ireboot = 0; int maxinst = 1; int nocnflct; int nosetuid; int opresvr4 = 0; int pkgverbose = 0; int rprcflag; int warnflag = 0; struct admin adm; struct cfextra **extlist; /* pkgmap structure and other path info */ struct pkgdev pkgdev; fsblkcnt_t pkgmap_blks = 0LL; /* * this global is referenced by: * getinst - [RW] - incremented if: * - installing same instance again * - overwriting an existing instance * - not installing a new instance * quit - [RO] - if non-zero and started non-zero: * - the new /install directory and rename /install.save * - back to /install * main.c - [RO] - if non-zero: * - alter manner in which parameters are setup for scripts * - set UPDATE=yes in environment */ static int update = 0; /* Set by -O debug: debug output is enabled? */ static boolean_t debugFlag = B_FALSE; /* Set by the -G option: install packages in global zone only */ static boolean_t globalZoneOnly = B_FALSE; /* Set by -O patchPkgInstall */ static boolean_t patchPkgInstall = B_FALSE; /* Set by -O patchPkgRemoval */ static boolean_t patchPkgRemoval = B_FALSE; /* Set by -O preinstallcheck */ static boolean_t preinstallCheck = B_FALSE; /* Set by -O parent-zone-name= */ static char *parentZoneName = (char *)NULL; /* Set by -O parent-zone-type= */ static char *parentZoneType = (char *)NULL; #define DEFPATH "/sbin:/usr/sbin:/usr/bin" #define MALSIZ 4 /* best guess at likely maximum value of MAXINST */ #define LSIZE 256 /* maximum line size supported in copyright file */ #ifdef ALLOW_EXCEPTION_PKG_LIST #define SCRIPT 0 /* which exception_pkg() pkg list to use (SCRIPTS) */ #define LINK 1 /* which exception_pkg() pkg list to use (SYMLINKS) */ #endif #if !defined(TEXT_DOMAIN) /* Should be defined by cc -D */ #define TEXT_DOMAIN "SYS_TEST" #endif /* This is the text for the "-O inherited-filesystem=" option */ #define INHERITFS "inherited-filesystem=" #define INHERITFS_LEN ((sizeof (INHERITFS))-1) /* This is the text for the "-O parent-zone-name=" option */ #define PARENTZONENAME "parent-zone-name=" #define PARENTZONENAME_LEN ((sizeof (PARENTZONENAME))-1) /* This is the text for the "-O parent-zone-type=" option */ #define PARENTZONETYPE "parent-zone-type=" #define PARENTZONETYPE_LEN ((sizeof (PARENTZONETYPE))-1) static char *cpio_names[] = { "root", "root.cpio", "reloc", "reloc.cpio", "root.Z", "root.cpio.Z", "reloc.Z", "reloc.cpio.Z", 0 }; int main(int argc, char *argv[]) { VFP_T *cfTmpVfp = NULL; /* temporary */ VFP_T *pkgmapVfp; /* "../pkgmap" file */ boolean_t run_request_as_root = B_FALSE; char **np; char *abi_comp_ptr; char *abi_nm_ptr; char *abi_sym_ptr; char *admnfile = NULL; char *device; char *p; char *prog_full_name = NULL; char *pt; char *skipped = (char *)NULL; char *updated = (char *)NULL; char *vfstab_file = NULL; char *zoneName = (char *)NULL; char cbuf[MAX_PKG_PARAM_LENGTH]; char cmdbin[PATH_MAX]; char p_pkginfo[PATH_MAX]; char p_pkgmap[PATH_MAX]; char param[MAX_PKG_PARAM_LENGTH]; char script[PATH_MAX]; char altscript[PATH_MAX]; char *temp; int c; int disableAttributes = 0; int err; int init_install = 0; int is_comp_arch; int live_continue = 0; int map_client = 1; int n; int nparts; int npkgs; int part; int saveSpoolInstall = 0; boolean_t cont_file_read; struct cl_attr **pclass = NULL; struct cl_attr **mergd_pclass = NULL; struct pkginfo *prvinfo; struct sigaction nact; struct sigaction oact; struct stat statb; struct statvfs64 svfsb; time_t clock; PKGserver pkgserver = NULL; /* reset contents of all default paths */ (void) memset(path, '\0', sizeof (path)); (void) memset(cmdbin, '\0', sizeof (cmdbin)); (void) memset(script, '\0', sizeof (script)); (void) memset(cbuf, '\0', sizeof (cbuf)); (void) memset(param, '\0', sizeof (param)); /* initialize locale environment */ (void) setlocale(LC_ALL, ""); (void) textdomain(TEXT_DOMAIN); /* initialize program name */ prog_full_name = argv[0]; (void) set_prog_name(argv[0]); /* tell spmi zones interface how to access package output functions */ z_set_output_functions(echo, echoDebug, progerr); /* exit if not root */ if (getuid()) { progerr(ERR_NOT_ROOT, get_prog_name()); exit(1); /* NOTREACHED */ } /* * determine how pkgmap() deals with environment variables: * - MAPALL - resolve all variables * - MAPBUILD - map only build variables * - MAPINSTALL - map only install variables * - MAPNONE - map no variables */ setmapmode(MAPINSTALL); /* set sane umask */ (void) umask(0022); /* initially no source "device" */ device = NULL; /* reset npkgs (used as pkg remaining count in quit.c) */ npkgs = 0; /* Read PKG_INSTALL_ROOT from the environment, if it's there. */ if (!set_inst_root(getenv("PKG_INSTALL_ROOT"))) { progerr(ERR_ROOT_SET); exit(1); } pkgserversetmode(DEFAULTMODE); /* parse command line options */ while ((c = getopt(argc, argv, "?Aa:B:b:Cc:D:d:eFf:GhIiMm:N:noO:p:R:r:StV:vyz")) != EOF) { switch (c) { /* * Same as pkgadd: This disables attribute checking. * It speeds up installation a little bit. */ case 'A': disableAttributes++; break; /* * Same as pkgadd: Define an installation administration * file, admin, to be used in place of the default * administration file. The token none overrides the use * of any admin file, and thus forces interaction with the * user. Unless a full path name is given, pkgadd first * looks in the current working directory for the * administration file. If the specified administration * file is not in the current working directory, pkgadd * looks in the /var/sadm/install/admin directory for the * administration file. */ case 'a': admnfile = flex_device(optarg, 0); break; /* * Same as pkgadd: control block size given to * pkginstall - block size used in read()/write() loop; * default is st_blksize from stat() of source file. */ case 'B': rw_block_size = optarg; break; /* * Same as pkgadd: location where executables needed * by procedure scripts can be found * default is /usr/sadm/install/bin. */ case 'b': if (!path_valid(optarg)) { progerr(ERR_PATH, optarg); exit(1); } if (isdir(optarg) != 0) { char *p = strerror(errno); progerr(ERR_CANNOT_USE_DIR, optarg, p); exit(1); } (void) strlcpy(cmdbin, optarg, sizeof (cmdbin)); break; /* * Same as pkgadd: This disables checksum tests on * the source files. It speeds up installation a little bit. */ case 'C': (void) checksum_off(); break; /* * Same as pkgadd: This allows designation of a * continuation file. It is the same format as a dryrun file * but it is used to take up where the dryrun left off. */ case 'c': pkgcontsrc = optarg; set_continue_mode(); set_dr_info(DR_TYPE, INSTALL_TYPE); init_contfile(pkgcontsrc); break; /* * Same as pkgadd: This allows designation of a * dryrun file. This pkgadd will create dryrun files * in the directory provided. */ case 'D': pkgdrtarg = optarg; set_dryrun_mode(); set_dr_info(DR_TYPE, INSTALL_TYPE); break; /* * Same as pkgadd: Install or copy a package from * device. device can be a full path name to a directory * or the identifiers for tape, floppy disk, or removable * disk - for example, /var/tmp or /floppy/floppy_name. * It can also be a device alias - for example, * /floppy/floppy0, or a datastream created by pkgtrans. */ case 'd': device = flex_device(optarg, 1); break; /* * Different from pkgadd: disable the 32 char name * limit extension */ case 'e': (void) set_ABI_namelngth(); break; /* * Different from pkgadd: specify file system type for * the package device. Must be used with -m. */ case 'f': pkgdev.fstyp = optarg; break; /* * Same as pkgadd: install package in global zone only. */ case 'G': globalZoneOnly = B_TRUE; break; /* * Same as pkgadd: Enable hollow package support. When * specified, for any package that has SUNW_PKG_HOLLOW=true: * Do not calculate and verify package size against target. * Do not run any package procedure or class action scripts. * Do not create any target directories. * Do not perform any script locking. * Do not install any components of any package. * Do not output any status or database update messages. */ case 'h': set_depend_pkginfo_DB(B_TRUE); break; /* * Same as pkgadd: Informs scripts that this is * an initial install by setting the environment parameter * PKG_INIT_INSTALL=TRUE for all scripts. They may use it as * they see fit, safe in the knowledge that the target * filesystem is tabula rasa. */ case 'I': init_install++; break; /* * Different from pkgadd: use by pkgask. */ case 'i': askflag++; quitSetPkgask(B_TRUE); break; /* * Same as pkgadd: Instruct pkgadd not to use the * $root_path/etc/vfstab file for determining the client's * mount points. This option assumes the mount points are * correct on the server and it behaves consistently with * Solaris 2.5 and earlier releases. */ case 'M': map_client = 0; break; /* * Different from pkgadd: specify device to use for package * source. */ case 'm': pkgdev.mount = optarg; pkgdev.rdonly++; pkgdev.mntflg++; break; /* * Different from pkgadd: specify program name to use * for messages. */ case 'N': (void) set_prog_name(optarg); break; /* * Same as pkgadd: installation occurs in * non-interactive mode. Suppress output of the list of * installed files. The default mode is interactive. */ case 'n': nointeract++; (void) echoSetFlag(B_FALSE); break; /* * Almost same as pkgadd: the -O option allows the behavior * of the package tools to be modified. Recognized options: * -> debug * ---> enable debugging output * -> preinstallcheck * ---> perform a "pre installation" check of the specified * ---> package - suppress all regular output and cause a * ---> series of one or more "name=value" pair format lines * ---> to be output that describes the "installability" of * ---> the specified package * -> enable-hollow-package-support * --> Enable hollow package support. When specified, for any * --> package that has SUNW_PKG_HOLLOW=true: * --> Do not calculate and verify package size against target * --> Do not run any package procedure or class action scripts * --> Do not create or remove any target directories * --> Do not perform any script locking * --> Do not install or uninstall any components of any package * --> Do not output any status or database update messages */ case 'O': for (p = strtok(optarg, ","); p != (char *)NULL; p = strtok(NULL, ",")) { /* process debug option */ if (strcmp(p, "debug") == 0) { /* set debug flag/enable debug output */ if (debugFlag == B_TRUE) { smlSetVerbose(B_TRUE); } debugFlag = B_TRUE; (void) echoDebugSetFlag(debugFlag); /* debug info on arguments to pkgadd */ for (n = 0; n < argc && argv[n]; n++) { echoDebug(DBG_ARG, n, argv[n]); } continue; } /* process enable-hollow-package-support opt */ if (strcmp(p, "enable-hollow-package-support") == 0) { set_depend_pkginfo_DB(B_TRUE); continue; } /* process inherited-filesystem= option */ if (strncmp(p, INHERITFS, INHERITFS_LEN) == 0) { if (z_add_inherited_file_system( p+INHERITFS_LEN) == B_FALSE) { progerr(ERR_NOSUCH_INHERITED, p+INHERITFS_LEN); quit(1); /* NOTREACHED */ } continue; } /* process preinstallcheck option */ if (strcmp(p, "preinstallcheck") == 0) { preinstallCheck = B_TRUE; nointeract++; /* -n */ suppressCopyright++; /* -S */ quitSetSilentExit(B_TRUE); continue; } /* process addzonename option */ if (strcmp(p, "addzonename") == 0) { /* * set zone name to add to messages; * first look in the current environment * and use the default package zone name * if it is set; otherwise, use the name * of the current zone */ zoneName = getenv(PKG_ZONENAME_VARIABLE); if ((zoneName == (char *)NULL) || (*zoneName == '\0')) { zoneName = z_get_zonename(); } if (zoneName != (char *)NULL) { if (*zoneName != '\0') { quitSetZoneName( zoneName); } else { zoneName = (char *)NULL; } } continue; } /* * If this is a patch installation * then call setPatchUpdate(). */ if (strcmp(p, "patchPkgInstall") == 0) { setPatchUpdate(); patchPkgInstall = B_TRUE; continue; } /* * If this is a patch removal * then call setPatchUpdate() and set * patchPkgRemoval flag. */ if (strcmp(p, "patchPkgRemoval") == 0) { setPatchUpdate(); patchPkgRemoval = B_TRUE; continue; } /* process parent-zone-name option */ if (strncmp(p, PARENTZONENAME, PARENTZONENAME_LEN) == 0) { parentZoneName = p+PARENTZONENAME_LEN; continue; } /* process parent-zone-type option */ if (strncmp(p, PARENTZONETYPE, PARENTZONETYPE_LEN) == 0) { parentZoneType = p+PARENTZONETYPE_LEN; continue; } if (strncmp(p, PKGSERV_MODE, PKGSERV_MODE_LEN) == 0) { pkgserversetmode(pkgparsemode(p + PKGSERV_MODE_LEN)); continue; } /* option not recognized - issue warning */ progerr(ERR_INVALID_O_OPTION, p); continue; } break; /* * Different from pkgadd: This is an old non-ABI package */ case 'o': non_abi_scripts++; break; /* * Different from pkgadd: specify number of parts to package. */ case 'p': dparts = ds_getinfo(optarg); break; /* * Same as pkgadd: Define the full path name of a * directory to use as the root_path. All files, * including package system information files, are * relocated to a directory tree starting in the specified * root_path. The root_path may be specified when * installing to a client from a server (for example, * /export/root/client1). */ case 'R': if (!set_inst_root(optarg)) { progerr(ERR_ROOT_CMD); exit(1); } break; /* * Same as pkgadd: Identify a file or directory which * contains output from a previous pkgask(1M) * session. This file supplies the interaction responses * that would be requested by the package in interactive * mode. response must be a full pathname. */ case 'r': respfile = flex_device(optarg, 2); break; /* * Same as pkgadd: suppress copyright notice being * output during installation. */ case 'S': suppressCopyright++; break; /* * Same as pkgadd: disable save spool area creation; * do not spool any partial package contents, that is, * suppress the creation and population of the package save * spool area (var/sadm/pkg/PKG/save/pspool/PKG). */ case 't': disable_spool_create(); break; /* * Same as pkgadd: Specify an alternative fs_file to map * the client's file systems. For example, used in * situations where the $root_path/etc/vfstab file is * non-existent or unreliable. Informs the pkginstall * portion to mount up a client filesystem based upon the * supplied vfstab-like file of stable format. */ case 'V': vfstab_file = flex_device(optarg, 2); map_client = 1; break; /* * Same as pkgadd: Trace all of the scripts that get * executed by pkgadd, located in the pkginst/install * directory. This option is used for debugging the * procedural and non-procedural scripts */ case 'v': pkgverbose++; break; /* * Different from pkgadd: process this package using * old non-ABI symlinks */ case 'y': set_nonABI_symlinks(); break; /* * Same as pkgadd: perform fresh install from * package save spool area. When set, the package contents * are installed from the package spool save area instead * of from the package root area, so that the original * source packages are not required to install the * package. If the -h option is also specified and the * package is hollow, then this option is ignored. When -z * is specified: * - Editable files are installed from the package instance * save area. * - Volatile files are installed from the package instance * save area. * - Executable and data files are installed from the final * installed location as specified in the pkgmap file. * - Installation scripts are run from the package spool * save area. */ case 'z': saveSpoolInstall++; break; /* * unrecognized option */ default: usage(); /*NOTREACHED*/ /* * Although usage() calls a noreturn function, * needed to add return (1); so that main() would * pass compilation checks. The statement below * should never be executed. */ return (1); } } /* * ******************************************************************** * validate command line options * ******************************************************************** */ /* set "debug echo" flag according to setting of "-O debug" option */ (void) echoDebugSetFlag(debugFlag); (void) log_set_verbose(debugFlag); /* output entry debugging information */ if (z_running_in_global_zone()) { echoDebug(DBG_ENTRY_IN_GZ, prog_full_name); } else { echoDebug(DBG_ENTRY_IN_LZ, prog_full_name, getzoneid(), z_get_zonename()); } if (in_continue_mode() && !in_dryrun_mode()) { progerr(ERR_LIVE_CONTINUE_NOT_SUPPORTED); usage(); /*NOTREACHED*/ } /* pkgask requires a response file */ if (askflag && (respfile == NULL)) { usage(); /*NOTREACHED*/ } /* if device specified, set appropriate device in pkgdev */ if (device) { if (pkgdev.mount) { pkgdev.bdevice = device; } else { pkgdev.cdevice = device; } } /* if file system type specified, must have a device to mount */ if (pkgdev.fstyp && !pkgdev.mount) { progerr(ERR_F_REQUIRES_M); usage(); /*NOTREACHED*/ } /* BEGIN DATA GATHERING PHASE */ /* * Get the mount table info and store internally. */ cont_file_read = B_FALSE; if (in_continue_mode()) { int error; cont_file_read = read_continuation(&error); if (error == -1) { quit(99); /*NOTREACHED*/ } if (!in_dryrun_mode()) { live_continue = 1; } } /* Read the mount table if not done in continuation mode */ if (!cont_file_read) { if (get_mntinfo(map_client, vfstab_file)) { quit(99); /*NOTREACHED*/ } } /* * This function defines the standard /var/... directories used later * to construct the paths to the various databases. */ set_PKGpaths(get_inst_root()); /* * If this is being installed on a client whose /var filesystem is * mounted in some odd way, remap the administrative paths to the * real filesystem. This could be avoided by simply mounting up the * client now; but we aren't yet to the point in the process where * modification of the filesystem is permitted. */ if (is_an_inst_root()) { int fsys_value; fsys_value = fsys(get_PKGLOC()); if (use_srvr_map_n(fsys_value)) set_PKGLOC(server_map(get_PKGLOC(), fsys_value)); fsys_value = fsys(get_PKGADM()); if (use_srvr_map_n(fsys_value)) set_PKGADM(server_map(get_PKGADM(), fsys_value)); } /* * Initialize pkginfo PKGSAV entry, just in case we dryrun to * somewhere else. */ set_infoloc(get_PKGLOC()); /* pull off directory and package name from end of command line */ switch (argc-optind) { case 0: /* missing directory and package instance */ progerr(ERR_MISSING_DIR_AND_PKG); usage(); /*NOTREACHED*/ case 1: /* missing package instance */ progerr(ERR_MISSING_PKG_INSTANCE); usage(); /*NOTREACHED*/ case 2: /* just right! */ pkgdev.dirname = argv[optind++]; srcinst = argv[optind++]; break; default: /* too many args! */ progerr(ERR_TOO_MANY_CMD_ARGS); usage(); break; } (void) pkgparam(NULL, NULL); /* close up prior pkg file if needed */ /* * Initialize installation admin parameters by reading * the adminfile. */ if (!askflag && !live_continue) { echoDebug(DBG_PKGINSTALL_ADMINFILE, admnfile ? admnfile : ""); setadminFile(admnfile); } /* * about to perform first operation that could be modified by the * preinstall check option - if preinstall check is selected (that is, * only gathering dependencies), then output a debug message to * indicate that the check is beginning. Also turn echo() output * off and set various other flags. */ if (preinstallCheck == B_TRUE) { (void) echoSetFlag(B_FALSE); echoDebug(DBG_PKGINSTALL_PREINSCHK, pkginst ? pkginst : (srcinst ? srcinst : ""), zoneName ? zoneName : "global"); cksetPreinstallCheck(B_TRUE); cksetZoneName(zoneName); /* inform quit that the install has started */ quitSetInstallStarted(B_TRUE); } /* * validate the "rscriptalt" admin file setting * The rscriptalt admin file parameter may be set to either * RSCRIPTALT_ROOT or RSCRIPTALT_NOACCESS: * --> If rscriptalt is not set, or is set to RSCRIPTALT_NOACCESS, * --> or is set to any value OTHER than RSCRIPTALT_ROOT, then * --> assume that the parameter is set to RSCRIPTALT_NOACCESS * If rscriptalt is set to RSCRIPTALT_ROOT, then run request scripts * as the "root" user if user "install" is not defined. * Otherwise, assume rscriptalt is set to RSCRIPTALT_NOACCESS, and run * request scripts as the "alternative" user if user "install" is not * defined, as appropriate for the current setting of the NONABI_SCRIPTS * environment variable. */ if (ADMSET(RSCRIPTALT)) { p = adm.RSCRIPTALT; echoDebug(DBG_PKGINSTALL_RSCRIPT_SET_TO, RSCRIPTALT_KEYWORD, p); if (strcasecmp(p, RSCRIPTALT_ROOT) == 0) { /* rscriptalt=root */ run_request_as_root = B_TRUE; } else if (strcasecmp(p, RSCRIPTALT_NOACCESS) == 0) { /* rscriptalt=noaccess */ run_request_as_root = B_FALSE; } else { /* rscriptalt=??? */ logerr(WRN_RSCRIPTALT_BAD, RSCRIPTALT_KEYWORD, p, RSCRIPTALT_ROOT, RSCRIPTALT_NOACCESS); logerr(WRN_RSCRIPTALT_USING, RSCRIPTALT_KEYWORD, RSCRIPTALT_NOACCESS); run_request_as_root = B_FALSE; } } else { /* rscriptalt not set - assume rscriptalt=noaccess */ echoDebug(DBG_PKGINSTALL_RSCRIPT_NOT_SET, RSCRIPTALT_KEYWORD); run_request_as_root = B_FALSE; } echoDebug(DBG_PKGINSTALL_RSCRIPT_IS_ROOT, run_request_as_root); /* * hook SIGINT and SIGHUP interrupts into quit.c's trap handler */ /* hold SIGINT/SIGHUP interrupts */ (void) sighold(SIGHUP); (void) sighold(SIGINT); /* connect quit.c:trap() to SIGINT */ nact.sa_handler = quitGetTrapHandler(); nact.sa_flags = SA_RESTART; (void) sigemptyset(&nact.sa_mask); (void) sigaction(SIGINT, &nact, &oact); /* connect quit.c:trap() to SIGHUP */ nact.sa_handler = quitGetTrapHandler(); nact.sa_flags = SA_RESTART; (void) sigemptyset(&nact.sa_mask); (void) sigaction(SIGHUP, &nact, &oact); /* release hold on signals */ (void) sigrelse(SIGHUP); (void) sigrelse(SIGINT); /* * create required /var... directories if they do not exist; * this function will call quit(99) if any required path cannot * be created. */ ckdirs(); tzset(); /* * create path to temporary directory "installXXXXXX" - if TMPDIR * environment variable is set, create the directory in $TMPDIR; * otherwise, create the directory in P_tmpdir. */ pt = getenv("TMPDIR"); (void) snprintf(tmpdir, sizeof (tmpdir), "%s/installXXXXXX", ((pt != (char *)NULL) && (*pt != '\0')) ? pt : P_tmpdir); echoDebug(DBG_PKGINSTALL_TMPDIR, tmpdir); if ((mktemp(tmpdir) == NULL) || mkdir(tmpdir, 0771)) { progerr(ERR_MKDIR, tmpdir); quit(99); /*NOTREACHED*/ } /* * if the package device is a file containing a package stream, * unpack the stream into a temporary directory */ if ((isdir(pkgdev.dirname) != 0) && (pkgdev.cdevice == (char *)NULL) && (pkgdev.bdevice == (char *)NULL) && (isfile((char *)NULL, pkgdev.dirname) == 0)) { char *idsName = (char *)NULL; char *pkgnames[2]; char *device = pkgdev.dirname; boolean_t b; echoDebug(DBG_PKGINSTALL_DS_ISFILE, pkgdev.dirname); /* * validate the package source device - return pkgdev info that * describes the package source device. */ if (devtype(device, &pkgdev)) { progerr(ERR_BAD_DEVICE, device); quit(99); /* NOTREACHED */ } /* generate the list of packages to verify */ pkgnames[0] = srcinst; pkgnames[1] = (char *)NULL; b = open_package_datastream(1, pkgnames, (char *)NULL, pkgdev.dirname, (int *)NULL, &idsName, tmpdir, &pkgdev, 1); if (b == B_FALSE) { progerr(ERR_CANNOT_OPEN_PKG_STREAM, pkgdev.dirname ? pkgdev.dirname : "?"); quit(99); /*NOTREACHED*/ } /* make sure temporary directory is removed on exit */ quitSetDstreamTmpdir(pkgdev.dirname); /* unpack the package instance from the data stream */ b = unpack_package_from_stream(idsName, srcinst, pkgdev.dirname); if (b == B_FALSE) { progerr(ERR_CANNOT_UNPACK_PKGSTRM, srcinst ? srcinst : "?", idsName ? idsName : "?", pkgdev.dirname ? pkgdev.dirname : "?"); quit(99); /*NOTREACHED*/ } /* close the datastream - no longer needed */ echoDebug(DBG_CLOSING_STREAM, idsName, pkgdev.dirname); (void) ds_close(1); } if (snprintf(instdir, PATH_MAX, "%s/%s", pkgdev.dirname, srcinst) >= PATH_MAX) { progerr(ERR_SNPRINTF, instdir); quit(99); /*NOTREACHED*/ } zoneName = getenv(PKG_ZONENAME_VARIABLE); /* * If the environment has a CLIENT_BASEDIR, that takes precedence * over anything we will construct. We need to save it here because * in three lines, the current environment goes away. */ (void) set_env_cbdir(); /* copy over environ */ getuserlocale(); /* * current environment has been read; clear environment out * so putparam() can be used to populate the new environment * to be passed to any executables/scripts. */ environ = NULL; /* write parent condition information to environment */ putConditionInfo(parentZoneName, parentZoneType); putuserlocale(); if (init_install) { putparam("PKG_INIT_INSTALL", "TRUE"); } if (is_an_inst_root()) { export_client_env(get_inst_root()); } if (zoneName != (char *)NULL) { putparam(PKG_ZONENAME_VARIABLE, zoneName); } putparam("INST_DATADIR", pkgdev.dirname); if (non_abi_scripts) { putparam("NONABI_SCRIPTS", "TRUE"); } if (nonABI_symlinks()) { putparam("PKG_NONABI_SYMLINKS", "TRUE"); } if (get_ABI_namelngth()) { putparam("PKG_ABI_NAMELENGTH", "TRUE"); } /* establish path and oambase */ if (cmdbin[0] == '\0') { (void) strlcpy(cmdbin, PKGBIN, sizeof (cmdbin)); } (void) snprintf(path, sizeof (path), "%s:%s", DEFPATH, cmdbin); putparam("PATH", path); putparam("OAMBASE", OAMBASE); (void) snprintf(p_pkginfo, sizeof (p_pkginfo), "%s/%s", instdir, PKGINFO); (void) snprintf(p_pkgmap, sizeof (p_pkgmap), "%s/%s", instdir, PKGMAP); /* Read the environment (from pkginfo or '-e') ... */ abi_nm_ptr = getenv("PKG_ABI_NAMELENGTH"); /* Disable the 32 char name limit extension */ if (abi_nm_ptr && strncasecmp(abi_nm_ptr, "TRUE", 4) == 0) { (void) set_ABI_namelngth(); } /* * This tests the pkginfo and pkgmap files for validity and * puts all delivered pkginfo variables (except for PATH) into * our environment. This is where a delivered pkginfo BASEDIR * would come from. See set_basedirs() below. */ if (pkgenv(srcinst, p_pkginfo, p_pkgmap)) { quit(1); /*NOTREACHED*/ } echo("\n%s(%s) %s", pkgname, pkgarch, pkgvers); /* * If this script was invoked by 'pkgask', just * execute request script and quit (do_pkgask()). */ if (askflag) { do_pkgask(run_request_as_root); } /* validate package contents file */ if (vcfile() == 0) { quit(99); } /* if not in dryrun mode aquire packaging lock */ if (!in_dryrun_mode()) { /* acquire the package lock - at install initialization */ if (!lockinst(get_prog_name(), srcinst, "install-initial")) { quit(99); /*NOTREACHED*/ } } /* * Now do all the various setups based on ABI compliance */ /* Read the environment (from pkginfo or '-o') ... */ abi_comp_ptr = getenv("NONABI_SCRIPTS"); /* Read the environment (from pkginfo or '-y') ... */ abi_sym_ptr = getenv("PKG_NONABI_SYMLINKS"); /* bug id 4244631, not ABI compliant */ if (abi_comp_ptr && strncasecmp(abi_comp_ptr, "TRUE", 4) == 0) { script_in = PROC_XSTDIN; non_abi_scripts = 1; } #ifdef ALLOW_EXCEPTION_PKG_LIST /* * ********************************************************************* * this feature is removed starting with Solaris 10 - there is no built * in list of packages that should be run "the old way" * ********************************************************************* */ else if (exception_pkg(srcinst, SCRIPT)) { /* * Until on1095, set it from exception package names as * well. */ putparam("NONABI_SCRIPTS", "TRUE"); script_in = PROC_XSTDIN; non_abi_scripts = 1; } #endif /* Set symlinks to be processed the old way */ if (abi_sym_ptr && strncasecmp(abi_sym_ptr, "TRUE", 4) == 0) { set_nonABI_symlinks(); } /* * ********************************************************************* * this feature is removed starting with Solaris 10 - there is no built * in list of packages that should be run "the old way" * ********************************************************************* */ #ifdef ALLOW_EXCEPTION_PKG_LIST else if (exception_pkg(srcinst, LINK)) { /* Until 2.9, set it from the execption list */ putparam("PKG_NONABI_SYMLINKS", "TRUE"); set_nonABI_symlinks(); } #endif /* * At this point, script_in, non_abi_scripts & the environment are * all set correctly for the ABI status of the package. */ if (pt = getenv("MAXINST")) { maxinst = atol(pt); } /* * See if were are installing a package that only wants to update * the database or only install files associated with CAS's. We * only check the PKG_HOLLOW_VARIABLE variable if told to do so by * the caller. */ if (is_depend_pkginfo_DB()) { pt = getenv(PKG_HOLLOW_VARIABLE); if ((pt != NULL) && (strncasecmp(pt, "true", 4) == 0)) { echoDebug(DBG_PKGREMOVE_HOLLOW_ENABLED); if (disableAttributes) { disable_attribute_check(); } /* * this is a hollow package and hollow package support * is enabled -- override admin settings to suppress * checks that do not make sense since no scripts will * be executed and no files will be installed. */ setadminSetting("conflict", "nocheck"); setadminSetting("setuid", "nocheck"); setadminSetting("action", "nocheck"); setadminSetting("partial", "nocheck"); setadminSetting("space", "nocheck"); setadminSetting("authentication", "nocheck"); } else { echoDebug(DBG_PKGREMOVE_HOLLOW_DISABLED); set_depend_pkginfo_DB(B_FALSE); } } /* * if performing a fresh install to a non-global zone, and doing * more than just updating the package database (that is, the * package to install is NOT "hollow"), then set the global flag * that directs installation is from partially spooled packages * (that is, packages installed in the global zone). */ if (saveSpoolInstall && (!is_depend_pkginfo_DB())) { set_partial_inst(); } else { saveSpoolInstall = 0; } /* * verify that we are not trying to install an * INTONLY package with no interaction */ if (pt = getenv("INTONLY")) { if (askflag || nointeract) { progerr(ERR_INTONLY, pkgabrv ? pkgabrv : "?"); quit(1); /*NOTREACHED*/ } } if (!suppressCopyright && !pkgdev.cdevice) { copyright(); } /* * inspect the system to determine if any instances of the * package being installed already exist on the system */ prvinfo = (struct pkginfo *)calloc(MALSIZ, sizeof (struct pkginfo)); if (prvinfo == NULL) { progerr(ERR_MEMORY, errno); quit(99); /*NOTREACHED*/ } for (;;) { if (pkginfo(&prvinfo[npkgs], pkgwild, NULL, NULL)) { if ((errno == ESRCH) || (errno == ENOENT)) { break; } progerr(ERR_SYSINFO, errno); quit(99); /*NOTREACHED*/ } if ((++npkgs % MALSIZ) == 0) { prvinfo = (struct pkginfo *)realloc(prvinfo, (npkgs+MALSIZ) * sizeof (struct pkginfo)); if (prvinfo == NULL) { progerr(ERR_MEMORY, errno); quit(99); /*NOTREACHED*/ } } } /* * Determine the correct package instance based on how many packages are * already installed. If there are none (npkgs == 0), getinst() just * returns the package abbreviation. Otherwise, getinst() interacts with * the user (or reads the admin file) to determine if an instance which * is already installed should be overwritten, or possibly install a new * instance of this package */ pkginst = getinst(&update, prvinfo, npkgs, preinstallCheck); /* set "update flag" if updating an existing instance of this package */ if (update) { setUpdate(); } /* * Need to force UPDATE to be NULL in case a patch has been applied * before creating a zone. Some pkgs (SUNWcsr) already spooled * to the zone, check the value of UPDATE in their postinstall script. * After a pkg has been patched UPDATE exists statically in the * pkginfo file and this value must be reset when installing a zone. */ if (saveSpoolInstall != 0 && !isPatchUpdate() && !isUpdate()) { putparam("UPDATE", ""); } /* inform quit() if updating existing or installing new instance */ quitSetUpdatingExisting(update ? B_TRUE : B_FALSE); if (respfile) { (void) set_respfile(respfile, pkginst, RESP_RO); } (void) snprintf(pkgloc, sizeof (pkgloc), "%s/%s", get_PKGLOC(), pkginst); (void) snprintf(pkgbin, sizeof (pkgbin), "%s/install", pkgloc); (void) snprintf(pkgsav, sizeof (pkgsav), "%s/save", pkgloc); if (snprintf(saveSpoolInstallDir, PATH_MAX, "%s/pspool/%s", pkgsav, pkginst) < 0) { progerr(ERR_SNPRINTF, saveSpoolInstallDir); quit(99); /*NOTREACHED*/ } (void) snprintf(ilockfile, sizeof (ilockfile), "%s/!I-Lock!", pkgloc); (void) snprintf(rlockfile, sizeof (rlockfile), "%s/!R-Lock!", pkgloc); (void) snprintf(savlog, sizeof (savlog), "%s/logs/%s", get_PKGADM(), pkginst); putparam("PKGINST", pkginst); putparam("PKGSAV", pkgsav); /* * Be sure request script has access to PKG_INSTALL_ROOT if there is * one */ put_path_params(); if (!map_client) { putparam("PKG_NO_UNIFIED", "TRUE"); } /* * This maps the client filesystems into the server's space. */ if (map_client && !mount_client()) { logerr(MSG_MANMOUNT); } /* * If this is an UPDATE then either this is exactly the same version * and architecture of an installed package or a different package is * intended to entirely replace an installed package of the same name * with a different VERSION or ARCH string. * Don't merge any databases if only gathering dependencies. */ if ((preinstallCheck == B_FALSE) && (update)) { /* * If this version and architecture is already installed, * merge the installed and installing parameters and inform * all procedure scripts by defining UPDATE in the * environment. */ if (is_samepkg()) { /* * If it's the same ARCH and VERSION, then a merge * and copy operation is necessary. */ if (n = merg_pkginfos(pclass, &mergd_pclass)) { quit(n); /*NOTREACHED*/ } if (n = cp_pkgdirs()) { quit(n); /*NOTREACHED*/ } } else { /* * If it's a different ARCH and/or VERSION then this * is an "instance=overwrite" situation. The * installed base needs to be confirmed and the * package directories renamed. */ if (n = ck_instbase()) { quit(n); /*NOTREACHED*/ } if (n = mv_pkgdirs()) { quit(n); /*NOTREACHED*/ } } putparam("UPDATE", "yes"); } if (in_dryrun_mode()) { set_dryrun_dir_loc(); } if (preinstallCheck == B_FALSE) { /* * Determine if the package has been partially installed on or * removed from this system. */ ck_w_dryrun(ckpartial, PARTIAL); /* * make sure current runlevel is appropriate */ ck_w_dryrun(ckrunlevel, RUNLEVEL); } else { int r; /* * Just gathering dependencies - determine if the package has * been partially installed on or removed from this system and * output information to stdout */ r = ckpartial(); (void) fprintf(stdout, "ckpartialinstall=%d\n", r == 8 ? 1 : 0); (void) fprintf(stdout, "ckpartialremove=%d\n", r == 9 ? 1 : 0); /* * make sure current runlevel is appropriate */ r = ckrunlevel(); (void) fprintf(stdout, "ckrunlevel=%d\n", r); } if (pkgdev.cdevice) { /* get first volume which contains info files */ unpack(); if (!suppressCopyright) { copyright(); } } /* update the lock - at the request script */ lockupd("request"); /* * If no response file has been provided, initialize response file by * executing any request script provided by this package. Initialize * the response file if not gathering dependencies only. */ if ((!rdonly_respfile()) && (preinstallCheck == B_FALSE)) { (void) snprintf(path, sizeof (path), "%s/%s", instdir, REQUEST_FILE); n = reqexec(update, path, non_abi_scripts, run_request_as_root); if (in_dryrun_mode()) { set_dr_info(REQUESTEXITCODE, n); } ckreturn(n, ERR_REQUEST); } /* * Look for all parameters in response file which begin with a * capital letter, and place them in the environment. */ if ((is_a_respfile()) && (preinstallCheck == B_FALSE)) { if (n = merg_respfile()) { quit(n); /*NOTREACHED*/ } } /* * Run a checkinstall script if one is provided by the package. * Don't execute checkinstall script if we are only updating the DB. * Don't execute checkinstall script if only gathering dependencies. */ /* update the lock - at the checkinstall script */ lockupd("checkinstall"); /* Execute checkinstall script if one is provided. */ (void) snprintf(script, sizeof (script), "%s/install/checkinstall", instdir); if (access(script, F_OK) != 0) { /* no script present */ echoDebug(DBG_PKGINSTALL_COC_NONE, pkginst, script, zoneName ? zoneName : "global"); } else if (is_depend_pkginfo_DB()) { /* updating db only: skip checkinstall script */ echoDebug(DBG_PKGINSTALL_COC_DBUPD, pkginst, script, zoneName ? zoneName : "global"); } else if (preinstallCheck == B_TRUE) { /* only gathering dependencies: skip checkinstall script */ echoDebug(DBG_PKGINSTALL_COC_NODEL, pkginst, script, zoneName ? zoneName : "global"); } else { /* script present and ok to run: run the script */ if (zoneName == (char *)NULL) { echo(MSG_PKGINSTALL_EXECOC_GZ); echoDebug(DBG_PKGINSTALL_EXECOC_GZ, pkginst, script); } else { echo(MSG_PKGINSTALL_EXECOC_LZ, zoneName); echoDebug(DBG_PKGINSTALL_EXECOC_LZ, pkginst, script, zoneName); } n = chkexec(update, script); if (in_dryrun_mode()) { set_dr_info(CHECKEXITCODE, n); } if (n == 3) { echo(WRN_CHKINSTALL); ckreturn(4, NULL); } else if (n == 7) { /* access returned error */ progerr(ERR_CHKINSTALL_NOSCRIPT, script); ckreturn(4, ERR_CHKINSTALL); } else { ckreturn(n, ERR_CHKINSTALL); } } /* * Now that the internal data structures are initialized, we can * initialize the dryrun files (which may be the same files). */ if (pkgdrtarg) { init_dryrunfile(pkgdrtarg); } /* * Look for all parameters in response file which begin with a * capital letter, and place them in the environment. */ if (is_a_respfile()) { if (n = merg_respfile()) { quit(n); /*NOTREACHED*/ } } /* update the lock - doing analysis */ lockupd("analysis"); /* * Determine package base directory and client base directory * if appropriate. Then encapsulate them for future retrieval. */ if ((err = set_basedirs(isreloc(instdir), adm.basedir, pkginst, nointeract)) != 0) { quit(err); /*NOTREACHED*/ } /* * Create the base directory if specified. * Don't create if we are only updating the DB. * Don't create if only gathering dependencies. */ if (!is_depend_pkginfo_DB() && !preinstallCheck && is_a_basedir()) { mkbasedir(!nointeract, get_basedir()); echo(MSG_BASE_USED, get_basedir()); } /* * Store PKG_INSTALL_ROOT, BASEDIR & CLIENT_BASEDIR in our * environment for later use by procedure scripts. */ put_path_params(); /* * the following two checks are done in the corresponding * ck() routine, but are repeated here to avoid re-processing * the database if we are administered to not include these * processes */ if (ADM(setuid, "nochange")) { nosetuid++; /* Clear setuid/gid bits. */ } if (ADM(conflict, "nochange")) { nocnflct++; /* Don't install conflicting files. */ } /* * Get the filesystem space information for the filesystem on which * the "contents" file resides. */ svfsb.f_bsize = 8192; svfsb.f_frsize = 1024; if (statvfs64(get_PKGADM(), &svfsb) == -1) { int lerrno = errno; if (!access(get_PKGADM(), F_OK)) { progerr(ERR_PKGINSTALL_STATVFS, get_PKGADM(), strerror(errno)); logerr("(errno %d)", lerrno); quit(99); /*NOTREACHED*/ } } /* * Get the number of blocks used by the pkgmap, ocfile() * needs this to properly determine its space requirements. */ if (stat(p_pkgmap, &statb) == -1) { progerr(ERR_PKGINSTALL_STATOF, p_pkgmap, strerror(errno)); quit(99); /*NOTREACHED*/ } pkgmap_blks = nblk(statb.st_size, svfsb.f_bsize, svfsb.f_frsize); /* * Merge information in memory with the "contents" file; this creates * a temporary version of the "contents" file. Note that in dryrun * mode, we still need to record the contents file data somewhere, * but we do it in the dryrun directory. */ if (in_dryrun_mode()) { if (n = set_cfdir(pkgdrtarg)) { quit(n); /*NOTREACHED*/ } } else { if (n = set_cfdir(NULL)) { quit(n); /*NOTREACHED*/ } } if (!ocfile(&pkgserver, &cfTmpVfp, pkgmap_blks)) { quit(99); /*NOTREACHED*/ } /* * if cpio is being used, tell pkgdbmerg since attributes will * have to be check and repaired on all file and directories */ for (np = cpio_names; *np != NULL; np++) { (void) snprintf(path, sizeof (path), "%s/%s", instdir, *np); if (iscpio(path, &is_comp_arch)) { is_WOS_arch(); break; } } /* Establish the class list and the class attributes. */ cl_sets(getenv("CLASSES")); find_CAS(I_ONLY, pkgbin, instdir); if (vfpOpen(&pkgmapVfp, p_pkgmap, "r", VFP_NEEDNOW) != 0) { progerr(ERR_PKGMAP, p_pkgmap); quit(99); /*NOTREACHED*/ } /* * This modifies the path list entries in memory to reflect * how they should look after the merg is complete */ nparts = sortmap(&extlist, pkgmapVfp, pkgserver, cfTmpVfp, zoneName); if ((n = files_installed()) > 0) { if (n > 1) { echo(MSG_INST_MANY, n); } else { echo(MSG_INST_ONE, n); } } /* * Check ulimit requirement (provided in pkginfo). The purpose of * this limit is to terminate pathological file growth resulting from * file edits in scripts. It does not apply to files in the pkgmap * and it does not apply to any database files manipulated by the * installation service. */ if (pt = getenv("ULIMIT")) { if (assign_ulimit(pt) == -1) { progerr(ERR_BADULIMIT, pt); quit(99); /*NOTREACHED*/ } putparam("PKG_ULIMIT", "TRUE"); } /* * If only gathering dependencies, check and output status of all * remaining dependencies and exit. */ if (preinstallCheck == B_TRUE) { /* update the lock file - final checking */ lockupd("preinstallcheck"); /* verify package information files are not corrupt */ (void) fprintf(stdout, "ckpkgfiles=%d\n", ckpkgfiles()); /* verify package dependencies */ (void) fprintf(stdout, "ckdepend=%d\n", ckdepend()); /* Check space requirements */ (void) fprintf(stdout, "ckspace=%d\n", ckspace()); /* * Determine if any objects provided by this package conflict * with the files of previously installed packages. */ (void) fprintf(stdout, "ckconflict=%d\n", ckconflct()); /* * Determine if any objects provided by this package will be * installed with setuid or setgid enabled. */ (void) fprintf(stdout, "cksetuid=%d\n", cksetuid()); /* * Determine if any packaging scripts provided with this package * will execute as a priviledged user. */ (void) fprintf(stdout, "ckpriv=%d\n", ckpriv()); /* Verify neccessary package installation directories exist */ (void) fprintf(stdout, "ckpkgdirs=%d\n", ckpkgdirs()); /* * ****** preinstall check done - exit ****** */ echoDebug(DBG_PKGINSTALL_PREINSCHK_OK); quit(0); /*NOTREACHED*/ } /* * Not gathering dependencies only, proceed to check dependencies * and continue with the package installation operation. */ /* * verify package information files are not corrupt */ ck_w_dryrun(ckpkgfiles, PKGFILES); /* * verify package dependencies */ ck_w_dryrun(ckdepend, DEPEND); /* * Check space requirements. */ ck_w_dryrun(ckspace, SPACE); /* * Determine if any objects provided by this package conflict with * the files of previously installed packages. */ ck_w_dryrun(ckconflct, CONFLICT); /* * Determine if any objects provided by this package will be * installed with setuid or setgid enabled. */ ck_w_dryrun(cksetuid, SETUID); /* * Determine if any packaging scripts provided with this package will * execute as a priviledged user. */ ck_w_dryrun(ckpriv, PRIV); /* * Verify neccessary package installation directories exist. */ ck_w_dryrun(ckpkgdirs, PKGDIRS); /* * If we have assumed that we were installing setuid or conflicting * files, and the user chose to do otherwise, we need to read in the * package map again and re-merg with the "contents" file */ if (rprcflag) { nparts = sortmap(&extlist, pkgmapVfp, pkgserver, cfTmpVfp, zoneName); } (void) vfpClose(&pkgmapVfp); /* BEGIN INSTALLATION PHASE */ if (in_dryrun_mode()) { echo(MSG_PKGINSTALL_DRYRUN, pkgname, pkginst); } else if (zoneName == (char *)NULL) { echo(MSG_PKGINSTALL_INSIN_GZ, pkgname, pkginst); } else { echo(MSG_PKGINSTALL_INSIN_LZ, pkgname, pkginst, zoneName); } /* inform quit that the install has started */ quitSetInstallStarted(B_TRUE); /* * This replaces the contents file with recently created temp version * which contains information about the objects being installed. * Under old lock protocol it closes both files and releases the * locks. Beginning in Solaris 2.7, this lock method should be * reviewed. */ n = swapcfile(pkgserver, &cfTmpVfp, pkginst, dbchg); if (n == RESULT_WRN) { warnflag++; } else if (n == RESULT_ERR) { quit(99); /*NOTREACHED*/ } /* * Create install-specific lockfile to indicate start of * installation. This is really just an information file. If the * process dies, the initial lockfile (from lockinst(), is * relinquished by the kernel, but this one remains in support of the * post-mortem. */ if (access(ilockfile, F_OK) == 0) { (void) remove(ilockfile); } if (open(ilockfile, O_WRONLY|O_CREAT|O_TRUNC|O_EXCL, 0644) < 0) { progerr(ERR_LOCKFILE, ilockfile); quit(99); /*NOTREACHED*/ } (void) time(&clock); /* * We do not want the time in locale in the pkginfo. * save the LC_TIME and set it to C. Reset it with saved one * after cftime(). */ temp = setlocale(LC_TIME, NULL); (void) setlocale(LC_TIME, "C"); /* LINTED warning: do not use cftime(); ... */ (void) cftime(cbuf, "%b %d \045Y \045H:\045M", &clock); putparam("INSTDATE", qstrdup(cbuf)); (void) setlocale(LC_TIME, temp); /* * Store information about package being installed; * modify installation parameters as neccessary and * copy contents of 'install' directory into $pkgloc */ merginfo(mergd_pclass, saveSpoolInstall); /* If this was just a dryrun, then quit() will write out that file. */ if (in_dryrun_mode()) { quit(0); /*NOTREACHED*/ } if (opresvr4) { /* * we are overwriting a pre-svr4 package, so remove the file * in /usr/options now */ (void) snprintf(path, sizeof (path), "%s/%s.name", get_PKGOLD(), pkginst); if (remove(path) && (errno != ENOENT)) { progerr(ERR_OPRESVR4, path); warnflag++; } } /* * Execute preinstall script, if one was provided with the * package. We check the package to avoid running an old * preinstall script if one was provided with a prior instance. * Don't execute preinstall script if we are only updating the DB. */ /* update the lock - at the preinstall altscript */ lockupd("preinstall"); /* preinstall script in the media (package source) */ (void) snprintf(altscript, sizeof (altscript), "%s/install/preinstall", instdir); /* preinstall script in the pkgbin instead of media */ (void) snprintf(script, sizeof (script), "%s/preinstall", pkgbin); if (access(altscript, F_OK) != 0) { /* no script present */ echoDebug(DBG_PKGINSTALL_POCALT_NONE, pkginst, altscript, zoneName ? zoneName : "global"); } else if (access(script, F_OK) != 0) { /* no script present */ echoDebug(DBG_PKGINSTALL_POC_NONE, pkginst, script, zoneName ? zoneName : "global"); } else if (is_depend_pkginfo_DB()) { /* updating db only: skip preinstall script */ echoDebug(DBG_PKGINSTALL_POC_DBUPD, pkginst, script, zoneName ? zoneName : "global"); } else { /* script present and ok to run: run the script */ assert(preinstallCheck == B_FALSE); set_ulimit("preinstall", ERR_PREINSTALL); if (zoneName == (char *)NULL) { echo(MSG_PKGINSTALL_EXEPOC_GZ); echoDebug(DBG_PKGINSTALL_EXEPOC_GZ, pkginst, script); } else { echo(MSG_PKGINSTALL_EXEPOC_LZ, zoneName); echoDebug(DBG_PKGINSTALL_EXEPOC_LZ, pkginst, script, zoneName); } putparam("PKG_PROC_script", "preinstall"); if (pkgverbose) { ckreturn(pkgexecl(script_in, PROC_STDOUT, PROC_USER, PROC_GRP, SHELL, "-x", script, NULL), ERR_PREINSTALL); } else { ckreturn(pkgexecl(script_in, PROC_STDOUT, PROC_USER, PROC_GRP, SHELL, script, NULL), ERR_PREINSTALL); } clr_ulimit(); (void) remove(script); /* no longer needed. */ } /* * Check delivered package for a postinstall script while * we're still on volume 1. */ (void) snprintf(script, sizeof (script), "%s/install/postinstall", instdir); if (access(script, F_OK) == 0) { (void) snprintf(script, sizeof (script), "%s/postinstall", pkgbin); } else { script[0] = '\0'; } /* update the lock - at the install phase */ lockupd("install"); /* * install package one part (volume) at a time */ part = 1; while (part <= nparts) { if ((part > 1) && pkgdev.cdevice) { unpack(); } instvol(extlist, srcinst, part, nparts, pkgserver, &cfTmpVfp, &updated, &skipped, zoneName); if (part++ >= nparts) { break; } } z_destroyMountTable(); /* * Now that all install class action scripts have been used, we * delete them from the package directory. */ rm_icas(pkgbin); if ((globalZoneOnly) && (!patchPkgInstall) && (!patchPkgRemoval)) { boolean_t b; b = pkgAddPackageToGzonlyList(pkginst, get_inst_root()); if (b == B_FALSE) { progerr(ERR_PKGINSTALL_GZONLY_ADD, pkginst); ckreturn(1, NULL); } } /* * Execute postinstall script, if any * Don't execute postinstall script if we are only updating the DB. */ echoDebug(DBG_PKGINSTALL_INSDONE, is_depend_pkginfo_DB(), is_depend_pkginfo_DB(), saveSpoolInstall, updated ? updated : "", skipped ? skipped : "", script ? script : "", script ? access(script, F_OK) : -1); /* update the lock - at the postinstall script */ lockupd("postinstall"); if ((script == (char *)NULL) || (*script == '\0')) { echoDebug(DBG_PKGINSTALL_POIS_NOPATH, pkginst, zoneName ? zoneName : "global"); } else if (access(script, F_OK) != 0) { echoDebug(DBG_PKGINSTALL_POIS_NONE, pkginst, script, zoneName ? zoneName : "global"); } else if (is_depend_pkginfo_DB()) { echoDebug(DBG_PKGINSTALL_POIS_DBUPD, pkginst, script, zoneName ? zoneName : "global"); } else if ((saveSpoolInstall != 0) && (updated == (char *)NULL) && (skipped != (char *)NULL)) { /* * fresh installing into non-global zone, no object was * updated (installed/verified in non-inherited area), * and and at least one object was skipped (verified in * inherited area) - this means all objects were skipped * so do not run the postinstall script. */ echoDebug(DBG_PKGINSTALL_POIS_SKIPPING, zoneName ? zoneName : "global", pkginst, script); } else { /* script present and ok to run: run the script */ set_ulimit("postinstall", ERR_POSTINSTALL); if (zoneName == (char *)NULL) { echo(MSG_PKGINSTALL_EXEPIC_GZ); echoDebug(DBG_PKGINSTALL_EXEPIC_GZ, pkginst, script); } else { echo(MSG_PKGINSTALL_EXEPIC_LZ, zoneName); echoDebug(DBG_PKGINSTALL_EXEPIC_LZ, pkginst, script, zoneName); } putparam("PKG_PROC_SCRIPT", "postinstall"); putparam("TMPDIR", tmpdir); if (pkgverbose) { ckreturn(pkgexecl(script_in, PROC_STDOUT, PROC_USER, PROC_GRP, SHELL, "-x", script, NULL), ERR_POSTINSTALL); } else { ckreturn(pkgexecl(script_in, PROC_STDOUT, PROC_USER, PROC_GRP, SHELL, script, NULL), ERR_POSTINSTALL); } clr_ulimit(); (void) remove(script); /* no longer needed */ } if (!warnflag && !failflag) { if (pt = getenv("PREDEPEND")) predepend(pt); (void) remove(rlockfile); (void) remove(ilockfile); (void) remove(savlog); } /* release the generic package lock */ (void) unlockinst(); pkgcloseserver(pkgserver); quit(0); /* LINTED: no return */ } /* * This function merges the environment data in the response file with the * current environment. */ static int merg_respfile() { int retcode = 0; char *resppath = get_respfile(); char *locbasedir; char param[MAX_PKG_PARAM_LENGTH], *value; FILE *fp; if ((fp = fopen(resppath, "r")) == NULL) { progerr(ERR_RESPONSE, resppath); return (99); } param[0] = '\0'; while (value = fpkgparam(fp, param)) { if (!isupper(param[0])) { param[0] = '\0'; continue; } if (rdonly(param)) { progerr(ERR_RDONLY, param); param[0] = '\0'; continue; } /* * If this is an update, and the response file * specifies the BASEDIR, make sure it matches the * existing installation base. If it doesn't, we have * to quit. */ if (update && strcmp("BASEDIR", param) == 0) { locbasedir = getenv("BASEDIR"); if (locbasedir && strcmp(value, locbasedir) != 0) { char *dotptr; /* Get srcinst down to a name. */ if (dotptr = strchr(srcinst, '.')) *dotptr = '\000'; progerr(ERR_NEWBD, srcinst, locbasedir, value); retcode = 99; } } putparam(param, value); param[0] = '\0'; } (void) fclose(fp); return (retcode); } /* * This scans the installed pkginfo file for the current BASEDIR. If this * BASEDIR is different from the current BASEDIR, there will definitely be * problems. */ static int ck_instbase(void) { int retcode = 0; char param[MAX_PKG_PARAM_LENGTH], *value; char pkginfo_path[PATH_MAX]; FILE *fp; /* Open the old pkginfo file. */ (void) snprintf(pkginfo_path, sizeof (pkginfo_path), "%s/%s", pkgloc, PKGINFO); if ((fp = fopen(pkginfo_path, "r")) == NULL) { progerr(ERR_PKGINFO, pkginfo_path); return (99); } param[0] = '\000'; while (value = fpkgparam(fp, param)) { if (strcmp("BASEDIR", param) == 0) { if (adm.basedir && *(adm.basedir) && strchr("/$", *(adm.basedir))) { char *dotptr; /* * Get srcinst down to a name. */ if (dotptr = strchr(srcinst, '.')) *dotptr = '\000'; if (strcmp(value, adm.basedir) != 0) { progerr(ERR_ADMBD, srcinst, value, adm.basedir); retcode = 4; break; } } else if (ADM(basedir, "ask")) /* * If it's going to ask later, let it know * that it *must* agree with the BASEDIR we * just picked up. */ adm.basedir = "update"; putparam(param, value); break; } param[0] = '\0'; } (void) fclose(fp); return (retcode); } /* * Since this is an overwrite of a different version of the package, none of * the old files should remain, so we rename them. */ static int mv_pkgdirs(void) { /* * If we're not in dryrun mode and we can find an old set of package * files over which the new ones will be written, do the rename. */ if (!in_dryrun_mode() && pkgloc[0] && !access(pkgloc, F_OK)) { (void) snprintf(pkgloc_sav, sizeof (pkgloc_sav), "%s/.save.%s", get_PKGLOC(), pkginst); if (pkgloc_sav[0] && !access(pkgloc_sav, F_OK)) { (void) rrmdir(pkgloc_sav); } if (rename(pkgloc, pkgloc_sav) == -1) { progerr(ERR_PKGBINREN, pkgloc, pkgloc_sav); return (99); } } return (0); } /* * Name: merg_pkginfos * Description: This function scans the installed pkginfo and merges that * environment with the installing environment according to * the following rules: * * 1. CLASSES is a union of the installed and installing CLASSES * lists. * 2. The installed BASEDIR takes precedence. If it doesn't agree * with an administratively imposed BASEDIR, an ERROR is issued. * 3. All other installing parameters are preserved. * 4. All installed parameters are added if they do not overwrite * an existing installing parameter. * * The current environment contains the pkginfo settings for the * new package to be installed or to be updated. * * Arguments: pclass - returned list of current classes involved in install * mpclass - pointer to returned list of current install classes * Returns: int * == 0 - all OK * != 0 - an error code if a fatal error occurred */ static int merg_pkginfos(struct cl_attr **pclass, struct cl_attr ***mpclass) { FILE *fp; char SUNW_PKG_ALLZONES[MAX_PKG_PARAM_LENGTH] = {'\0'}; char SUNW_PKG_HOLLOW[MAX_PKG_PARAM_LENGTH] = {'\0'}; char SUNW_PKG_THISZONE[MAX_PKG_PARAM_LENGTH] = {'\0'}; char *newValue; char *oldValue; char *pkgName; char *pkgVersion; char param[MAX_PKG_PARAM_LENGTH]; char pkginfo_path[PATH_MAX]; int retcode = 0; /* obtain the name of the package (for error messages) */ pkgName = getenv("PKG"); if (pkgName == NULL) { pkgName = "*current*"; /* default name */ } /* obtain the version of the package (for error messages) */ pkgVersion = getenv("VERSION"); if (pkgVersion == NULL) { pkgVersion = "*current*"; /* default version */ } /* open installed package pkginfo file */ (void) snprintf(pkginfo_path, sizeof (pkginfo_path), "%s/%s", pkgloc, PKGINFO); if ((fp = fopen(pkginfo_path, "r")) == NULL) { progerr(ERR_PKGINFO, pkginfo_path); return (99); } /* entry debugging info */ echoDebug(DBG_MERGINFOS_ENTRY, pkginfo_path); /* * cycle through the currently installed package's pkginfo parameters * and let the currently installed package's settings survive if the * update to the package does not provide an overriding value */ for (param[0] = '\0'; (oldValue = fpkgparam(fp, param)) != NULL; param[0] = '\0') { boolean_t setZoneAttribute = B_FALSE; /* debug info - attribute currently set to value */ echoDebug(DBG_MERGINFOS_SET_TO, param, oldValue); /* * if zone package attribute is present in the currently * installed package, then remember the value for the * specific zone package attribute, and set the flag that * indicates a zone package attribute is being processed. */ if (strcmp(param, PKG_THISZONE_VARIABLE) == 0) { /* SUNW_PKG_THISZONE currently set */ setZoneAttribute = B_TRUE; (void) strlcpy(SUNW_PKG_THISZONE, oldValue, sizeof (SUNW_PKG_THISZONE)); } else if (strcmp(param, PKG_ALLZONES_VARIABLE) == 0) { /* SUNW_PKG_ALLZONES currently set */ setZoneAttribute = B_TRUE; (void) strlcpy(SUNW_PKG_ALLZONES, oldValue, sizeof (SUNW_PKG_ALLZONES)); } else if (strcmp(param, PKG_HOLLOW_VARIABLE) == 0) { /* SUNW_PKG_THISZONE currently set */ setZoneAttribute = B_TRUE; (void) strlcpy(SUNW_PKG_HOLLOW, oldValue, sizeof (SUNW_PKG_HOLLOW)); } /* handle CLASSES currently being set */ if (strcmp(param, "CLASSES") == 0) { echoDebug(DBG_MERGINFOS_SET_CLASSES, oldValue); /* create a list of the current classes */ (void) setlist(&pclass, qstrdup(oldValue)); /* set pointer to list of current classes */ *mpclass = pclass; continue; } /* handle BASEDIR currently being set */ if (strcmp("BASEDIR", param) == 0) { if (adm.basedir && *(adm.basedir) && strchr("/$", *(adm.basedir))) { char *dotptr; /* Get srcinst down to a* name */ if (dotptr = strchr(srcinst, '.')) { *dotptr = '\000'; } if (strcmp(oldValue, adm.basedir) != 0) { progerr(ERR_ADMBD, srcinst, oldValue, adm.basedir); /* administration */ retcode = 4; break; } } else if (ADM(basedir, "ask")) { /* * If it's going to ask * later, let it know that it * *must* agree with the * BASEDIR we just picked up. */ adm.basedir = "update"; echoDebug(DBG_MERGINFOS_ASK_BASEDIR); } echoDebug(DBG_MERGINFOS_SET_BASEDIR, oldValue); putparam(param, oldValue); continue; } /* * determine if there is a new value for this attribute. */ newValue = getenv(param); /* * If zone attributes of patch packages haven't been verified * by pdo, if there is no new value, and a zone attribute * is being changed, it is the same as setting the zone package * attribute to 'false' - make sure current setting is 'false'. */ if ((patchPkgInstall == B_FALSE) && (newValue == NULL) && (setZoneAttribute == B_TRUE) && (strcasecmp(oldValue, "false") != 0)) { /* unset existing non-"false" zone pkg attr */ progerr(ERR_MERGINFOS_UNSET_ZONEATTR, pkgName, pkgVersion, param, oldValue); retcode = 1; break; } /* retain old value if no new value specified */ if (newValue == NULL) { /* no new value - retain the old value */ echoDebug(DBG_MERGINFOS_RETAIN_OLD, param, oldValue); putparam(param, oldValue); continue; } /* note if the old and new values are the same */ if (strcmp(newValue, oldValue) == 0) { /* set existing package parameter to same value */ echoDebug(DBG_MERGINFOS_SET_DUPLICATE, param, oldValue); continue; } /* * If zone attributes of patch packages haven't been verified * by pdo, check if old and new values differ. * Error if zone parameter */ if ((patchPkgInstall == B_FALSE) && (setZoneAttribute == B_TRUE)) { /* illegal change to zone attribute */ progerr(ERR_MERGINFOS_CHANGE_ZONEATTR, pkgName, pkgVersion, param, oldValue, newValue); /* set return code to "fatal error" */ retcode = 1; break; } /* note valid change to existing package parameter */ echoDebug(DBG_MERGINFOS_SET_CHANGE, param, oldValue, newValue); } /* close handle on currently installed package's pkginfo file */ (void) fclose(fp); /* return error if not successful up to this point */ if (retcode != 0) { echoDebug(DBG_MERGINFOS_EXIT, pkginfo_path, retcode); return (retcode); } /* * Skip this if() section, if zone attributes of patch packages * have been verified by pdo. */ if (patchPkgInstall == B_FALSE) { /* * verify that no zone attribute has been * set to an invalid value */ /* SUNW_PKG_ALLZONES */ newValue = getenv(PKG_ALLZONES_VARIABLE); /* * complain if setting SUNW_PKG_ALLZONES to other than "false" */ if ((newValue != NULL) && (*SUNW_PKG_ALLZONES == '\0') && (strcasecmp(newValue, "false") != 0)) { /* change ALLZONES from "true" to "false" (unset) */ progerr(ERR_MERGINFOS_SET_ZONEATTR, pkgName, pkgVersion, PKG_ALLZONES_VARIABLE, newValue); return (1); } /* SUNW_PKG_THISZONE */ newValue = getenv(PKG_THISZONE_VARIABLE); /* * complain if setting SUNW_PKG_THISZONE to other than "false" */ if ((newValue != NULL) && (*SUNW_PKG_THISZONE == '\0') && (strcasecmp(newValue, "false") != 0)) { /* change THISZONE from "true" to "false" (unset) */ progerr(ERR_MERGINFOS_SET_ZONEATTR, pkgName, pkgVersion, PKG_THISZONE_VARIABLE, newValue); return (1); } /* SUNW_PKG_HOLLOW */ newValue = getenv(PKG_HOLLOW_VARIABLE); /* complain if setting SUNW_PKG_HOLLOW to other than "false" */ if ((newValue != NULL) && (*SUNW_PKG_HOLLOW == '\0') && (strcasecmp(newValue, "false") != 0)) { /* change HOLLOW from "true" to 'false" (unset) */ progerr(ERR_MERGINFOS_SET_ZONEATTR, pkgName, pkgVersion, PKG_HOLLOW_VARIABLE, newValue); return (1); } } /* return */ echoDebug(DBG_MERGINFOS_EXIT, pkginfo_path, 0); return (0); } static void set_dryrun_dir_loc(void) { /* Set pkg location to the dryrun directory */ set_PKGLOC(pkgdrtarg); (void) snprintf(pkgloc, sizeof (pkgloc), "%s/%s", get_PKGLOC(), pkginst); (void) snprintf(pkgbin, sizeof (pkgbin), "%s/install", pkgloc); (void) snprintf(pkgsav, sizeof (pkgsav), "%s/save", pkgloc); (void) snprintf(ilockfile, sizeof (ilockfile), "%s/!I-Lock!", pkgloc); (void) snprintf(rlockfile, sizeof (rlockfile), "%s/!R-Lock!", pkgloc); (void) snprintf(savlog, sizeof (savlog), "%s/logs/%s", get_PKGADM(), pkginst); } /* * If we are updating a pkg, then we need to copy the "old" pkgloc so that * any scripts that got removed in the new version aren't left around. So we * copy it here to .save.pkgloc, then in quit() we can restore our state, or * remove it. */ static int cp_pkgdirs(void) { if (in_dryrun_mode()) { set_dryrun_dir_loc(); } /* * If we're not in dryrun mode and we can find an old set of package * files over which the new ones will be written, do the copy. */ if (!in_dryrun_mode() && pkgloc[0] && !access(pkgloc, F_OK)) { int status; int r; (void) snprintf(pkgloc_sav, sizeof (pkgloc_sav), "%s/.save.%s", get_PKGLOC(), pkginst); /* * Even though it takes a while, we use a recursive copy here * because if the current pkgadd fails for any reason, we * don't want to lose this data. */ r = e_ExecCmdList(&status, (char **)NULL, (char *)NULL, "/usr/bin/cp", "cp", "-r", pkgloc, pkgloc_sav, (char *)NULL); if ((r != 0) || (status == -1) || (WEXITSTATUS(status) != 0)) { progerr(ERR_PKGBINCP, pkgloc, pkgloc_sav); return (99); } } return (0); } /* * This implements the pkgask function. It just executes the request script * and stores the results in a response file. */ static void do_pkgask(boolean_t a_run_request_as_root) { if (pkgdev.cdevice) { unpack(); if (!suppressCopyright) { copyright(); } } (void) snprintf(path, sizeof (path), "%s/%s", instdir, REQUEST_FILE); if (access(path, F_OK)) { progerr(ERR_NOREQUEST); quit(1); /*NOTREACHED*/ } (void) set_respfile(respfile, srcinst, RESP_WR); if (is_a_respfile()) { ckreturn(reqexec(update, path, non_abi_scripts, a_run_request_as_root), ERR_REQUEST); } else { failflag++; } if (warnflag || failflag) { (void) remove(respfile); echo("\nResponse file <%s> was not created.", get_respfile()); } else { echo("\nResponse file <%s> was created.", get_respfile()); } quit(0); /*NOTREACHED*/ } /* * This function runs a check utility and acts appropriately based upon the * return code. It deals appropriately with the dryrun file if it is present. */ static void ck_w_dryrun(int (*func)(), int type) { int n; n = func(); if (in_dryrun_mode()) set_dr_info(type, !n); if (n) { quit(n); /*NOTREACHED*/ } } /* * This function deletes all install class action scripts from the package * directory on the root filesystem. */ static void rm_icas(char *cas_dir) { DIR *pdirfp; struct dirent *dp; char path[PATH_MAX]; if ((pdirfp = opendir(cas_dir)) == NULL) return; while ((dp = readdir(pdirfp)) != NULL) { if (dp->d_name[0] == '.') continue; if (dp->d_name[0] == 'i' && dp->d_name[1] == '.') { (void) snprintf(path, sizeof (path), "%s/%s", cas_dir, dp->d_name); (void) remove(path); } } (void) closedir(pdirfp); } void ckreturn(int retcode, char *msg) { switch (retcode) { case 2: case 12: case 22: warnflag++; if (msg) { progerr("%s", msg); } /*FALLTHRU*/ case 10: case 20: if (retcode >= 10 && retcode < 20) { dreboot++; } if (retcode >= 20) { ireboot++; } /*FALLTHRU*/ case 0: break; /* okay */ case -1: retcode = 99; /*FALLTHRU*/ case 99: case 1: case 11: case 21: case 4: case 14: case 24: case 5: case 15: case 25: if (msg) { progerr("%s", msg); } /*FALLTHRU*/ case 3: case 13: case 23: quit(retcode); /*NOTREACHED*/ default: if (msg) { progerr("%s", msg); } quit(1); /*NOTREACHED*/ } } static void copyright(void) { FILE *fp; char line[LSIZE]; char path[PATH_MAX]; /* Compose full path for copyright file */ (void) snprintf(path, sizeof (path), "%s/%s", instdir, COPYRIGHT_FILE); if ((fp = fopen(path, "r")) == NULL) { if (getenv("VENDOR") != NULL) echo(getenv("VENDOR")); } else { while (fgets(line, LSIZE, fp)) (void) fprintf(stdout, "%s", line); /* bug #1083713 */ (void) fclose(fp); } } static int rdonly(char *p) { int i; for (i = 0; ro_params[i]; i++) { if (strcmp(p, ro_params[i]) == 0) return (1); } return (0); } static void unpack(void) { /* * read in next part from stream, even if we decide * later that we don't need it */ if (dparts < 1) { progerr(ERR_DSTREAMCNT); quit(99); /*NOTREACHED*/ } if ((access(instdir, F_OK) == 0) && rrmdir(instdir)) { progerr(ERR_RMDIR, instdir); quit(99); /*NOTREACHED*/ } if (mkdir(instdir, 0755)) { progerr(ERR_MKDIR, instdir); quit(99); /*NOTREACHED*/ } if (chdir(instdir)) { progerr(ERR_CHDIR, instdir); quit(99); /*NOTREACHED*/ } if (!ds_fd_open()) { dparts = ds_findpkg(pkgdev.cdevice, srcinst); if (dparts < 1) { progerr(ERR_DSARCH, srcinst); quit(99); /*NOTREACHED*/ } } dparts--; if (ds_next(pkgdev.cdevice, instdir)) { progerr(ERR_DSTREAM); quit(99); /*NOTREACHED*/ } if (chdir(get_PKGADM())) { progerr(ERR_CHDIR, get_PKGADM()); quit(99); /*NOTREACHED*/ } ds_close(1); } static void usage(void) { (void) fprintf(stderr, ERR_USAGE_PKGINSTALL); exit(1); /*NOTREACHED*/ }