/* * 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) 2018 Peter Tribble. */ /* * Copyright (c) 1989, 2010, Oracle and/or its affiliates. All rights reserved. */ /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ /* * Program: pkgadd / pkgask * * Function: public command and private utility functions that * implement the package add and package ask operations. * */ /* * System includes */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* * consolidation pkg command library includes */ #include #include /* * local pkg command library includes */ #include #include #include #include /* * pkgadd local includes */ #include "quit.h" /* * imported global variables/functions */ /* check.c */ extern int preinstall_verify(char **a_pkgList, zoneList_t a_zlst, char *a_zoneTempDir); /* * ckquit is a global that controls 'ckyorn' (defined in libadm) * If ckquit is non-zero, then "quit" is allowed as an answer when * ckyorn is called. If is it zero, then "quit" is not an allowed answer. */ extern int ckquit; /* * exported global variables */ /* these globals are set by ckreturn and used by quit.c */ int admnflag = 0; /* != 0 if any pkg op admin setting failure (4) */ int doreboot = 0; /* != 0 if reboot required after installation */ int failflag = 0; /* != 0 if fatal error has occurred (1) */ int intrflag = 0; /* != 0 if user selected quit (3) */ int ireboot = 0; /* != 0 if immediate reboot required */ int nullflag = 0; /* != 0 if admin interaction required (5) */ int warnflag = 0; /* != 0 if non-fatal error has occurred (2) */ /* imported by quit.c */ int npkgs = 0; /* the number of packages yet to be installed */ /* imported by various (many) */ char *respfile = NULL; /* response pathname (or NULL) */ char *tmpdir = NULL; /* location to place temporary files */ struct admin adm; /* holds info about installation admin */ struct pkgdev pkgdev; /* holds info about the installation device */ /* * internal global variables */ static char *admnfile = NULL; /* file to use for installation admin */ static char *ids_name = NULL; /* name of data stream device */ static char *pkgcontsrc = NULL; /* continuation file (-c option) */ static char *pkgdrtarg = NULL; /* dry run file (-D option) */ static char *pkginst = NULL; /* current pkg/src instance 2 process */ static char *respdir = NULL; /* respfile is a directory spec */ static char *rw_block_size = NULL; static char *vfstab_file = NULL; static int askflag = 0; /* non-zero if invoked as "pkgask" */ static int disableAttributes = 0; /* Disabling attribute checking */ static int disableChecksum = 0; /* Disable checksumming */ static int disableSaveSpool = 0; /* Disable partial spool dir create */ static int init_install = 0; /* inform scripts initial install */ static int no_map_client = 0; /* do not map from vfstab file */ static int nointeract = 0; /* non-zero - no user interaction */ static int pkgverbose = 0; /* non-zero if verbose mode selected */ static int saveSpoolInstall = 0; /* installing from save spool dir */ static int suppressCopyright = 0; /* suppress copyright notices */ /* set by ckreturn() */ static int interrupted = 0; /* last pkg op was quit (1,2,3,4,5) */ static int needconsult = 0; /* essential ask admin now (1,2,3,5) */ /* Set by -O nozones: do not process any zones */ static boolean_t noZones = B_FALSE; /* Set by -O zonelist=: process only named zones */ static boolean_t usedZoneList = B_FALSE; /* 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; /* * Assume the package is ABI and POSIX compliant as regards user * interactiion during procedure scripts. */ static int old_pkg = 0; /* Assume pkg should be installed according to the ABI */ static int old_symlinks = 0; /* * Default name length will be 32 chars - if this is set, * disable the 32 char name limit extension */ static int ABI_namelength = 0; #if !defined(TEXT_DOMAIN) /* Should be defined by cc -D */ #define TEXT_DOMAIN "SYS_TEST" #endif /* printable string - if string is null results in ??? */ #define PSTR(STR) (((STR) == (char *)NULL) ? "???" : (STR)) #define MAX_FDS 20 /* * forward declarations */ static int boot_and_pkginstall_check_in_zones(zoneList_t a_zlst, char *a_idsName, char *a_altBinDir, char *a_zoneAdminFile, char *a_zoneTempDir); static int boot_and_install_in_zones(zoneList_t a_zlst, char *a_idsName, char *a_altBinDir, char *a_zoneAdminFile, char *a_zoneTempDir); static void pkginstall_check_in_one_zone(char *a_zoneName, char *a_idsName, char *a_zoneAdminFile, char *a_zoneTempDir, char *a_altBinDir, char *a_scratchName, zone_state_t a_zoneState, boolean_t a_tmpzn); static void ckreturn(int retcode); static void create_zone_adminfile(char **r_zoneAdminFile, char *a_zoneTempDir, char *a_admnfile); static void create_zone_tempdir(char **r_zoneTempDir, char *a_tmpdir); static void install_in_one_zone(char *a_zoneName, char *a_idsName, char *a_zoneAdminFile, char *a_zoneTempDir, char *a_altBinDir, zone_state_t a_zoneState, boolean_t a_tmpzn); static int pkginstall_check_in_zones(zoneList_t a_zlst, char *a_idsName, char *a_altBinDir, char *a_zoneAdminFile, char *a_zoneTempDir); static int install_in_zones(zoneList_t a_zlst, char *a_idsName, char *a_altBinDir, char *a_zoneAdminFile, char *a_zoneTempDir); static int pkgInstall(char *ir, char *a_idsName, char *a_pkgDir, char *a_altBinDir); static int pkgZoneCheckInstall(char *a_zoneName, zone_state_t a_zoneState, char *a_idsName, char *a_altBinDir, char *a_adminFile, char *a_stdoutPath, boolean_t a_tmpzn); static int pkgZoneInstall(char *a_zoneName, zone_state_t a_zoneState, char *a_idsName, char *a_altBinDir, char *a_adminFile, boolean_t a_tmpzn); static void resetreturn(); static void usage(void); static boolean_t add_packages(char **a_pkgList, char *a_idsName, int a_repeat, char *a_altBinDir, char *a_device, boolean_t a_noZones); static boolean_t add_packages_in_global_no_zones(char **a_pkgList, char *a_idsName, int a_repeat, char *a_altBinDir, char *a_device); static boolean_t add_packages_in_global_with_zones(char **a_pkgList, char *a_idsName, int a_repeat, char *a_altBinDir, char *a_device, zoneList_t a_zlst); static boolean_t add_packages_in_nonglobal_zone(char **a_pkgList, char *a_idsName, int a_repeat, char *a_altBinDir, char *a_device); static boolean_t check_applicability(char *a_packageDir, char *a_pkgInst, char *a_rootPath, CAF_T a_flags); static boolean_t get_package_list(char ***r_pkgList, char **a_argv, char *a_categories, char **a_categoryList, char *a_idsName, int *r_repeat); static boolean_t continue_installation(void); static boolean_t unpack_and_check_packages(char **a_pkgList, char *a_idsName, char *a_packageDir); /* * ***************************************************************************** * global external (public) functions * ***************************************************************************** */ /* * Name: main * Description: main entry point for pkgadd/pkgask * Returns: int * 0 Successful completion * 1 Fatal error. * 2 Warning. * 3 Interruption. * 4 Administration. * 5 Administration. Interaction is required. Do not use pkgadd -n. * In addition, one of the following values may be added to the previous value * as appropriate: * 10 Reboot after installation of all packages. * 20 Reboot after installation of this package. * For example, "14" would indicate both "administration" and "reboot after * installation of all packages". */ int main(int argc, char **argv) { char **category = NULL; char *abiPtr; char *altBinDir = (char *)NULL; char *catg_arg = NULL; char *device = NULL; /* dev pkg stored on */ char *p; char *q; char *prog; char *prog_full_name = NULL; char *spoolDir = NULL; /* specified with -s */ char Rpath[PATH_MAX+1] = {'\0'}; int c; int n; int repeat; struct sigaction nact; struct sigaction oact; /* initialize locale environment */ (void) setlocale(LC_ALL, ""); (void) textdomain(TEXT_DOMAIN); /* initialize program name */ prog_full_name = argv[0]; prog = set_prog_name(argv[0]); /* tell spmi zones interface how to access package output functions */ z_set_output_functions(echo, echoDebug, progerr); askflag = (strcmp(prog, "pkgask") == 0); /* set sane umask */ (void) umask(0022); /* tell quit which ckreturn function to call */ quitSetCkreturnFunc(&ckreturn); /* initially no source "device" */ device = NULL; /* reset npkgs (used as pkg remaining count in quit.c) */ npkgs = 0; if (z_running_in_global_zone() && !enable_local_fs()) { progerr(ERR_CANNOT_ENABLE_LOCAL_FS); } pkgserversetmode(DEFAULTMODE); /* * ******************************************************************** * parse command line options * ******************************************************************** */ while ((c = getopt(argc, argv, "?Aa:b:B:Cc:D:d:GhIMnO:R:r:Ss:tV:vY:z")) != EOF) { switch (c) { /* * Not a public interface: This disables attribute checking. * It speeds up installation a little bit. */ case 'A': disableAttributes++; break; /* * Public interface: 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; /* * Not a public interface: control block size given to * pkginstall - block size used in read()/write() loop; * default is st_blksize from stat() of source file. */ case 'B': if (optarg[0] == '-') { usage(); quit(1); } rw_block_size = optarg; break; /* * Not a public interface: location where package executables * can be found - default is /usr/sadm/install/bin. */ case 'b': if (optarg[0] == '-') { usage(); quit(1); } if (!path_valid(optarg)) { progerr(ERR_PATH, optarg); quit(1); } if (isdir(optarg) != 0) { p = strerror(errno); progerr(ERR_CANNOT_USE_DIR, optarg, p); quit(1); } altBinDir = optarg; break; /* * Not a public interface: This disables checksum tests on * the source files. It speeds up installation a little bit. */ case 'C': disableChecksum++; break; /* * Not a public interface: 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 = flex_device(optarg, 0); break; /* * Not a public interface: This allows designation of a * dryrun file. This pkgadd will create dryrun files * in the directory provided. */ case 'D': if (optarg[0] == '-') { usage(); quit(1); } pkgdrtarg = flex_device(optarg, 0); break; /* * Public interface: 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': if (optarg[0] == '-') { usage(); quit(1); } if (!path_valid(optarg)) { progerr(ERR_PATH, optarg); quit(1); /* NOTREACHED */ } device = flex_device(optarg, 1); break; /* * Public interface: install package in global zone only. */ case 'G': globalZoneOnly = B_TRUE; break; /* * Not a public interface: 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; /* * Not a public interface: 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; /* * Public interface: 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': no_map_client = 1; break; /* * Not a public interface: the -O option allows the behavior * of the package tools to be modified. Recognized options: * -> debug * ---> enable debugging output * -> addzonename * ---> add zone name to appropriate messages * -> nozones * ---> act as though in global zone with no non-global zones * -> 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 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 * -> zonelist="" * ---> add package to space/colon separated list of zones only */ case 'O': for (p = strtok(optarg, ","); p != (char *)NULL; p = strtok(NULL, ",")) { if (strcmp(p, "debug") == 0) { /* set debug flag/enable debug output */ 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; } if (strcmp(p, "enable-hollow-package-support") == 0) { set_depend_pkginfo_DB(B_TRUE); continue; } if (strcmp(p, "addzonename") == 0) { quitSetZoneName(z_get_zonename()); continue; } if (strcmp(p, "nozones") == 0) { noZones = B_TRUE; continue; } if (strncmp(p, "zonelist=", 9) == 0) { /* * If colons used as separators, * convert to spaces. */ q = p + 9; while (*q != '\0') { if (*q == ':') { *q = ' '; } q++; } if (z_set_zone_spec(p + 9) == -1) quit(1); usedZoneList = B_TRUE; continue; } progerr(ERR_INVALID_O_OPTION, p); continue; } break; /* * Public interface: 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; /* * Public interface: 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 (optarg[0] == '-') { usage(); quit(1); } /* determine the real path specified */ n = resolvepath(optarg, Rpath, sizeof (Rpath)-1); /* use supplied path if not resolvable */ if (n == -1) { (void) strlcpy(Rpath, optarg, sizeof (Rpath)); } else { /* null terminate string */ Rpath[n] = '\0'; } /* set the alternative root path */ if (!set_inst_root(Rpath)) { progerr(ERR_ROOT_CMD); exit(1); } break; /* * Public interface: 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': if (optarg[0] == '-') { usage(); quit(1); } respfile = flex_device(optarg, 2); if (isdir(respfile) == 0) respdir = respfile; break; /* * Not a public interface: suppress copyright notice being * output during installation. */ case 'S': suppressCopyright++; break; /* * Public interface: Write the package into the directory * spool instead of installing it. The default directory * for spooled packages is /var/sadm/pkg. */ case 's': spoolDir = flex_device(optarg, 1); break; /* * Not a public interface: disable save spool area creation; * suppress the creation and population of the package save * spool area (var/sadm/pkg/PKG/save/pspool/PKG). */ case 't': disableSaveSpool++; break; /* * Public interface: 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); no_map_client = 0; break; /* * Public interface: 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; /* * Public interface: Install packages based on the value * of the CATEGORY parameter stored in the package's * pkginfo(4) file. All packages on the source medium * whose CATEGORY matches one of the specified categories * will be selected for installation or spooling. Install * packages that contain the same CATEGORY as the one * provided on the command line. */ case 'Y': if (optarg[0] == '-') { usage(); quit(1); } catg_arg = strdup(optarg); if ((category = get_categories(catg_arg)) == NULL) { progerr(ERR_CAT_INV, catg_arg); exit(1); } else if (is_not_valid_length(category)) { progerr(ERR_CAT_LNGTH); exit(1); } break; /* * Not a public interface: 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(); return (1); } } /* * ******************************************************************** * validate command line options * ******************************************************************** */ /* set "debug echo" flag according to setting of "-O debug" option */ (void) echoDebugSetFlag(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()); } /* * Later, it may be decided to pursue this ability to continue to an * actual installation based only on the dryrun data. At this time, * it is too risky. */ if (pkgcontsrc && !pkgdrtarg) { progerr(ERR_NO_LIVE_MODE); usage(); return (1); } /* ignore -G option if not used in the global zone */ if (!z_running_in_global_zone()) { globalZoneOnly = B_FALSE; } /* if zonelist used, must be in global zone */ if (usedZoneList && !z_running_in_global_zone()) { progerr(ERR_Z_USED_IN_NONGLOBAL_ZONE); return (1); } /* -G and zonelist cannot be used together */ if (globalZoneOnly && usedZoneList) { progerr(ERR_GZ_USED_TOGETHER); usage(); return (1); } /* -s cannot be used with either -G or zonelist */ if (spoolDir != NULL) { if (globalZoneOnly) { progerr(ERR_SPOOLDIR_USED_WITH_G); usage(); return (1); } if (usedZoneList) { progerr(ERR_SPOOLDIR_USED_WITH_Z); usage(); return (1); } if (strcmp(spoolDir, "/var/sadm/pkg") == 0) { progerr(ERR_SPOOLDIR_CANNOT_BE_SYS, "/var/sadm/pkg"); usage(); return (1); } } /* pkgask does not support the same options as pkgadd */ if (askflag && spoolDir) { progerr(ERR_PKGASK_AND_SPOOLDIR); usage(); return (1); } if (askflag && nointeract) { progerr(ERR_PKGASK_AND_NOINTERACT); usage(); return (1); } /* cannot use response file/not-interactive and spool-to directory */ if (spoolDir && nointeract) { progerr(ERR_SPOOLDIR_AND_NOINTERACT); usage(); return (1); } if (spoolDir && respfile) { progerr(ERR_SPOOLDIR_AND_RESPFILE); usage(); return (1); } if (usedZoneList) { /* Verify supplied zone list valid for the target */ if (z_verify_zone_spec() == -1) return (1); /* -z zonelist=global is logically the same as -G */ if (z_global_only() && z_running_in_global_zone()) globalZoneOnly = B_TRUE; } /* * 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); /* * This function is in the libadm library; it sets: * -> get_PKGLOC() = /var/sadm/pkg * -> get_PKGADM() = /var/sadm/install * -> pkgdir = /var/sadm/pkg * -> pkg_install_root = * This controls operations of libadm functions such as: * -> pkginfofind, pkginfopen, fpkgparam, pkgparam, get_PKGLOC, * -> get_PKGADM, get_install_root */ set_PKGpaths(get_inst_root()); echoDebug(DBG_PKGADD_PKGPATHS, get_PKGLOC() ? get_PKGLOC() : "", get_PKGADM() ? get_PKGADM() : ""); /* * This function is in the libinst library; it reads the specified * admin(4) file and, using fpkgparam(), sets the global "adm" structure * values to match what is in the specified admin file. */ echoDebug(DBG_PKGADD_ADMINFILE, admnfile ? admnfile : ""); setadminFile(admnfile); /* * if running in the global zone, and non-global zones exist, then * enable hollow package support so that any packages that are marked * SUNW_PKG_HOLLOW=true will be correctly installed in non-global zones * when added directly in the global zone by the global zone admin. */ if (is_depend_pkginfo_DB()) { echoDebug(DBG_PKGADD_HOLLOW_ENABLED); } else if ((z_running_in_global_zone() == B_TRUE) && (z_non_global_zones_exist() == B_TRUE)) { echoDebug(DBG_PKGADD_ENABLING_HOLLOW); set_depend_pkginfo_DB(B_TRUE); } /* if no device, get and validate default device */ if (device == NULL) { device = devattr("spool", "pathname"); if (device == NULL) { progerr(ERR_NODEVICE); quit(1); /* NOTREACHED */ } } /* must be root if not directing results to spool directory */ if ((getuid() != 0) && (spoolDir == NULL)) { progerr(ERR_NOT_ROOT, prog); exit(1); } /* * process response file argument */ if (respfile) { echoDebug(DBG_PKGADD_RESPFILE, respfile, respdir ? respdir : ""); if (respfile[0] != '/') { progerr(ERR_RSP_FILE_NOTFULLPATH, respfile); quit(1); /* NOTREACHED */ } if (respdir == NULL) { if (askflag) { if (access(respfile, F_OK) == 0) { progerr(ERR_NORESP, respfile); quit(1); /* NOTREACHED */ } } else if (access(respfile, F_OK) != 0) { progerr(ERR_ACCRESP, respfile); quit(1); /* NOTREACHED */ } } } else if (askflag) { progerr(ERR_RSP_FILE_NOT_GIVEN); usage(); quit(1); /* NOTREACHED */ } /* establish temporary directory to use */ if ((tmpdir = getenv("TMPDIR")) == NULL) { /* use default - no override specified */ tmpdir = P_tmpdir; } echoDebug(DBG_PKGADD_TMPDIR, tmpdir); /* * See if user wants this to be handled as an old style pkg. * NOTE : the ``exception_pkg()'' stuff is to be used only * through on495. This function comes out for on1095. See * PSARC 1993-546. -- JST */ if (getenv("NONABI_SCRIPTS") != NULL) { old_pkg = 1; } /* * See if the user wants to process symlinks consistent with * the old behavior. */ if (getenv("PKG_NONABI_SYMLINKS") != NULL) { old_symlinks = 1; } /* * See if the user wants the package name length restricted. */ abiPtr = getenv("PKG_ABI_NAMELENGTH"); if (abiPtr && strncasecmp(abiPtr, "TRUE", 4) == 0) { ABI_namelength = 1; } /* * validate the package source device - return pkgdev info that * describes the package source device. */ if (devtype(device, &pkgdev)) { progerr(ERR_BAD_DEVICE, device); quit(1); /* NOTREACHED */ } /* * If writing the packages into a spool directory instead of * installing the packages, open the package datastream and * invoke pkgtrans to perform the conversion and exit. */ if (spoolDir != (char *)NULL) { boolean_t b; int n; echoDebug(DBG_INSTALLING_TO_SPOOL, spoolDir); b = open_package_datastream(argc, argv, spoolDir, device, &repeat, &ids_name, tmpdir, &pkgdev, optind); quitSetIdsName(ids_name); if (b != B_TRUE) { progerr(ERR_CANNOT_OPEN_PKG_STREAM, PSTR(device)); quit(1); } n = pkgtrans(device, spoolDir, &argv[optind], 0); quit(n); /* NOTREACHED */ } /* * error if there are packages on the command line and a category * was specified */ if ((optind < argc) && (catg_arg != NULL)) { progerr(ERR_PKGS_AND_CAT_PKGADD); usage(); quit(1); /* NOTREACHED */ } /* * ******************************************************************** * main package processing "loop" * ******************************************************************** */ ids_name = NULL; quitSetIdsName(ids_name); for (;;) { boolean_t b; char **pkglist; /* points to array of pkgs */ /* * open next package data stream */ b = open_package_datastream(argc, argv, spoolDir, device, &repeat, &ids_name, tmpdir, &pkgdev, optind); quitSetIdsName(ids_name); if (b == B_FALSE) { echoDebug(ERR_CANNOT_OPEN_PKG_STREAM, PSTR(device)); continue; } /* * package source data stream open - get the package list */ b = get_package_list(&pkglist, argv, catg_arg, category, ids_name, &repeat); if (b == B_FALSE) { echoDebug(DBG_CANNOT_GET_PKGLIST); progerr(ERR_NOPKGS, pkgdev.dirname); quit(1); /* NOTREACHED */ } /* * count the number of packages to install * NOTE: npkgs is a global variable that is referenced by quit.c * when error messages are generated - it is referenced directly * by the other functions called below... */ for (npkgs = 0; pkglist[npkgs] != (char *)NULL; /* void */) { echoDebug(DBG_PKG_SELECTED, npkgs, pkglist[npkgs]); npkgs++; } /* output number of packages to be added */ echoDebug(DBG_NUM_PKGS_TO_ADD, npkgs); /* * if pkgask and response container is a file (not a directory), * and there is more than one package to install, then it is an * error - too many packages to install when response container * is a file. */ if ((askflag != 0) && (respdir == (char *)NULL) && (npkgs > 1)) { progerr(ERR_TOO_MANY_PKGS); quit(1); /* NOTREACHED */ } /* * package list generated - add packages */ b = add_packages(pkglist, ids_name, repeat, altBinDir, device, noZones); /* * close open input data stream (source package) if left open. */ if (ids_name) { echoDebug(DBG_CLOSING_STREAM, ids_name, PSTR(pkgdev.dirname)); (void) ds_close(1); rrmdir(pkgdev.dirname); ids_name = NULL; quitSetIdsName(ids_name); } /* * continue with next sequence of packages if continue set */ if (b == B_TRUE) { continue; } /* * not continuing - quit with 0 exit code */ quit(0); /* NOTREACHED */ } /* NOTREACHED */ } /* * ***************************************************************************** * static internal (private) functions * ***************************************************************************** */ /* * Name: pkgZoneCheckInstall * Description: Invoke pkginstall in a specified zone to perform a preinstall * check of the a single package in the specified zone * Arguments: a_zoneName - pointer to string representing the name of the * zone to check install the package in. * a_zoneState - current state of the zone; must be mounted or * running. * a_idsName - pointer to string representing the data stream * device (input data stream) containing the package to * be check installed. * a_altBinDir - pointer to string representing an alternative * binary location directory to pass to pkginstall. * If this is == NULL no alternative binary location is * passed to pkginstall. * a_adminFile - pointer to string representing the admin * file to pass to pkginstall when installing the package. * If this is == NULL no admin file is given to pkginstall. * a_stdoutPath - pointer to string representing the local path * into which all output written by pkginstall to stdout * is stored. * If this is == NULL stdout is redirected to /dev/null * a_tmpzn - B_TRUE when this zone is booted by the package * command or B_FALSE if it was running before. * Returns: int (see ckreturn() function for details) * 0 - success * 1 - package operation failed (fatal error) * 2 - non-fatal error (warning) * 3 - user selected quit (operation interrupted) * 4 - admin settings prevented operation * 5 - interaction required and -n (non-interactive) specified * "10" will be added to indicate "immediate reboot required" * "20" will be added to indicate "reboot after install required" */ static int pkgZoneCheckInstall(char *a_zoneName, zone_state_t a_zoneState, char *a_idsName, char *a_altBinDir, char *a_adminFile, char *a_stdoutPath, boolean_t a_tmpzn) { char *arg[MAXARGS]; char *p; char adminfd_path[PATH_MAX]; char path[PATH_MAX]; char pkgstreamfd_path[PATH_MAX]; int fds[MAX_FDS]; int maxfds; int n; int nargs; /* entry assertions */ assert(a_zoneName != (char *)NULL); assert(*a_zoneName != '\0'); /* entry debugging info */ echoDebug(DBG_PKGZONECHECKINSTALL_ENTRY); echoDebug(DBG_PKGZONECHECKINSTALL_ARGS, a_zoneName, PSTR(pkginst), PSTR(pkgdev.dirname), PSTR(pkgdev.mount), PSTR(pkgdev.bdevice), a_zoneState == ZONE_STATE_MOUNTED ? "/a" : "/", PSTR(a_idsName), PSTR(a_adminFile), PSTR(a_stdoutPath)); /* generate full path to 'phatinstall' to run in zone */ (void) snprintf(path, sizeof (path), "%s/pkginstall", "/usr/sadm/install/bin"); /* start at first file descriptor */ maxfds = 0; /* * generate argument list for call to pkginstall */ /* start at argument 0 */ nargs = 0; /* first argument is always: full path to executable */ arg[nargs++] = path; /* * second argument is always: pass -O debug to pkginstall: debug mode */ if (debugFlag == B_TRUE) { arg[nargs++] = "-O"; arg[nargs++] = "debug"; } /* pkgadd -G: pass -G to pkginstall */ if (globalZoneOnly == B_TRUE) { arg[nargs++] = "-G"; } /* pkgadd -b dir: pass -b to pkginstall */ if (a_altBinDir != (char *)NULL) { arg[nargs++] = "-b"; arg[nargs++] = a_altBinDir; } /* pkgadd -C: pass -C to pkginstall: disable checksum */ if (disableChecksum) { arg[nargs++] = "-C"; } /* pkgadd -A: pass -A to pkginstall: disable attribute checking */ if (disableAttributes) { arg[nargs++] = "-A"; } /* * NONABI_SCRIPTS defined: pass -o to pkginstall; refers to a * pkg requiring operator interaction during a procedure script * (common before on1093) */ if (old_pkg) { arg[nargs++] = "-o"; } /* * PKG_NONABI_SYMLINKS defined: pass -y to pkginstall; process * symlinks consistent with old behavior */ if (old_symlinks) { arg[nargs++] = "-y"; } /* * PKG_ABI_NAMELENGTH defined: pass -e to pkginstall; causes * package name length to be restricted */ if (ABI_namelength) { arg[nargs++] = "-e"; } /* pkgadd -S: pass -S to pkginstall: suppress copyright notices */ arg[nargs++] = "-S"; /* pkgadd -M: pass -M to pkginstall: dont mount client file systems */ arg[nargs++] = "-M"; /* pkgadd -v: pass -v to pkginstall: never trace scripts */ /* if running pkgask, pass -i to pkginstall: running pkgask */ if (askflag) { return (0); } /* pass "-O enable-hollow-package-support" */ if (is_depend_pkginfo_DB()) { arg[nargs++] = "-O"; arg[nargs++] = "enable-hollow-package-support"; } /* check is always in non-interactive mode */ arg[nargs++] = "-n"; /* pkgadd -a admin: pass -a admin to pkginstall in zone: admin file */ if (a_adminFile) { int fd; fd = openLocal(a_adminFile, O_RDONLY, tmpdir); if (fd < 0) { progerr(ERR_CANNOT_COPY_LOCAL, a_adminFile, errno, strerror(errno)); return (1); } (void) snprintf(adminfd_path, sizeof (adminfd_path), "/proc/self/fd/%d", fd); fds[maxfds++] = fd; arg[nargs++] = "-a"; arg[nargs++] = adminfd_path; } /* pkgadd -R root: pass -R /a to pkginstall when zone is mounted */ if (a_zoneState == ZONE_STATE_MOUNTED) { arg[nargs++] = "-R"; arg[nargs++] = "/a"; } /* pass -N to pkginstall: program name to report */ arg[nargs++] = "-N"; arg[nargs++] = get_prog_name(); /* pass "-O preinstallcheck" */ arg[nargs++] = "-O"; arg[nargs++] = "preinstallcheck"; /* add "-O addzonename" */ arg[nargs++] = "-O"; arg[nargs++] = "addzonename"; /* * add parent zone info/type */ p = z_get_zonename(); if ((p != NULL) && (*p != '\0')) { char zn[MAXPATHLEN]; (void) snprintf(zn, sizeof (zn), "parent-zone-name=%s", p); arg[nargs++] = "-O"; arg[nargs++] = strdup(zn); } /* current zone type */ arg[nargs++] = "-O"; if (z_running_in_global_zone() == B_TRUE) { char zn[MAXPATHLEN]; (void) snprintf(zn, sizeof (zn), "parent-zone-type=%s", TAG_VALUE_GLOBAL_ZONE); arg[nargs++] = strdup(zn); } else { char zn[MAXPATHLEN]; (void) snprintf(zn, sizeof (zn), "parent-zone-type=%s", TAG_VALUE_NONGLOBAL_ZONE); arg[nargs++] = strdup(zn); } /* Add the pkgserv options */ arg[nargs++] = "-O"; arg[nargs++] = pkgmodeargument(a_tmpzn ? RUN_ONCE : pkgservergetmode()); /* add in the package stream file */ if (a_idsName != NULL) { int fd; fd = openLocal(a_idsName, O_RDONLY, tmpdir); if (fd < 0) { progerr(ERR_STREAM_UNAVAILABLE, a_idsName, pkginst, strerror(errno)); quit(1); } (void) snprintf(pkgstreamfd_path, sizeof (pkgstreamfd_path), "/proc/self/fd/%d", fd); fds[maxfds++] = fd; arg[nargs++] = pkgstreamfd_path; } else { progerr(ERR_PKGZONEINSTALL_NO_STREAM); quit(1); } /* add package instance name */ arg[nargs++] = pkginst; /* terminate the argument list */ arg[nargs++] = NULL; /* * run the appropriate pkginstall command in the specified zone */ if (debugFlag == B_TRUE) { echoDebug(DBG_ZONE_EXEC_ENTER, a_zoneName, arg[0]); for (n = 0; arg[n]; n++) { echoDebug(DBG_ARG, n, arg[n]); } } /* terminate file descriptor list */ fds[maxfds] = -1; /* exec command in zone */ n = z_zone_exec(a_zoneName, path, arg, a_stdoutPath, (char *)NULL, fds); echoDebug(DBG_ZONE_EXEC_EXIT, a_zoneName, arg[0], n, PSTR(a_stdoutPath)); /* * close any files that were opened for use by the * /proc/self/fd interface so they could be passed to programs * via the z_zone_exec() interface */ for (; maxfds > 0; maxfds--) { (void) close(fds[maxfds-1]); } /* return results of pkginstall in zone execution */ return (n); } /* * Name: pkgZoneInstall * Description: Invoke pkginstall in a specified zone to perform an install * of a single package in the specified zone * Arguments: a_zoneName - pointer to string representing the name of the * zone to install the package in. * a_zoneState - current state of the zone; must be mounted or * running. * a_idsName - pointer to string representing the data stream * device (input data stream) containing the package to * be installed. * a_altBinDir - pointer to string representing an alternative * binary location directory to pass to pkginstall. * If this is == NULL no alternative binary location is * passed to pkginstall. * a_adminFile - pointer to string representing the admin * file to pass to pkginstall when installing the package. * If this is == NULL no admin file is given to pkginstall. * a_stdoutPath - pointer to string representing the local path * into which all output written by pkginstall to stdout * is stored. * If this is == NULL stdout is redirected to /dev/null * a_tmpzn - B_TRUE when this zone is booted by the package * command or B_FALSE if it was running before. * Returns: int (see ckreturn() function for details) * 0 - success * 1 - package operation failed (fatal error) * 2 - non-fatal error (warning) * 3 - user selected quit (operation interrupted) * 4 - admin settings prevented operation * 5 - interaction required and -n (non-interactive) specified * "10" will be added to indicate "immediate reboot required" * "20" will be added to indicate "reboot after install required" */ static int pkgZoneInstall(char *a_zoneName, zone_state_t a_zoneState, char *a_idsName, char *a_altBinDir, char *a_adminFile, boolean_t a_tmpzn) { char *arg[MAXARGS]; char *p; char adminfd_path[PATH_MAX]; char path[PATH_MAX]; char pkgstreamfd_path[PATH_MAX]; char respfilefd_path[PATH_MAX]; int fds[MAX_FDS]; int maxfds; int n; int nargs; /* entry assertions */ assert(a_zoneName != (char *)NULL); assert(*a_zoneName != '\0'); /* entry debugging info */ echoDebug(DBG_PKGZONEINSTALL_ENTRY); echoDebug(DBG_PKGZONEINSTALL_ARGS, a_zoneName, PSTR(pkginst), PSTR(pkgdev.dirname), PSTR(pkgdev.mount), PSTR(pkgdev.bdevice), a_zoneState == ZONE_STATE_MOUNTED ? "/a" : "", PSTR(a_idsName), a_adminFile); /* generate path to pkginstall */ (void) snprintf(path, sizeof (path), "%s/pkginstall", PKGBIN); /* start at first file descriptor */ maxfds = 0; /* * generate argument list for call to pkginstall */ /* start at argument 0 */ nargs = 0; /* first argument is path to executable */ arg[nargs++] = path; /* * second argument is always: pass -O debug to pkginstall: debug mode */ if (debugFlag == B_TRUE) { arg[nargs++] = "-O"; arg[nargs++] = "debug"; } /* pkgadd -G: pass -G to pkginstall */ if (globalZoneOnly == B_TRUE) { arg[nargs++] = "-G"; } /* pkgadd -b dir: pass -b to pkginstall in zone */ if (a_altBinDir != (char *)NULL) { arg[nargs++] = "-b"; arg[nargs++] = a_altBinDir; } /* pkgadd -B blocksize: pass -B to pkginstall in zone */ if (rw_block_size != NULL) { arg[nargs++] = "-B"; arg[nargs++] = rw_block_size; } /* pkgadd -C: pass -C to pkgadd in zone: disable checksum */ if (disableChecksum) { arg[nargs++] = "-C"; } /* pkgadd -A: pass -A to pkgadd in zone: disable attribute checking */ if (disableAttributes) { arg[nargs++] = "-A"; } /* pkgadd -S: pass -S to pkgadd in zone: suppress copyright notices */ arg[nargs++] = "-S"; /* pkgadd -I: pass -I to pkgadd in zone: initial install */ if (init_install) { arg[nargs++] = "-I"; } /* pkgadd -M: pass -M to pkgadd in zone: dont mount client file sys */ arg[nargs++] = "-M"; /* pkgadd -v: pass -v to pkgadd in zone: trace scripts */ if (pkgverbose) { arg[nargs++] = "-v"; } /* pkgadd -z: pass -z to pkgadd in zone fresh inst from pkg save area */ if (saveSpoolInstall) { arg[nargs++] = "-z"; } /* pass "-O enable-hollow-package-support" */ if (is_depend_pkginfo_DB()) { arg[nargs++] = "-O"; arg[nargs++] = "enable-hollow-package-support"; } /* pkgadd -t pass -t to pkgadd in zone disable save spool area create */ if (disableSaveSpool) { arg[nargs++] = "-t"; } /* if running pkgask, pass -i to pkgadd in zone: running pkgask */ if (askflag) { echo(MSG_BYPASSING_ZONE, a_zoneName); return (0); } /* * pkgadd -n (not pkgask): pass -n to pkginstall: noninteractive mode */ if (nointeract && !askflag) { arg[nargs++] = "-n"; } /* pkgadd -a admin: pass -a admin to pkginstall in zone: admin file */ if (a_adminFile) { int fd; fd = openLocal(a_adminFile, O_RDONLY, tmpdir); if (fd < 0) { progerr(ERR_CANNOT_COPY_LOCAL, a_adminFile, errno, strerror(errno)); return (1); } (void) snprintf(adminfd_path, sizeof (adminfd_path), "/proc/self/fd/%d", fd); fds[maxfds++] = fd; arg[nargs++] = "-a"; arg[nargs++] = adminfd_path; } /* pkgadd -R root: pass -R /a to pkginstall when zone is mounted */ if (a_zoneState == ZONE_STATE_MOUNTED) { arg[nargs++] = "-R"; arg[nargs++] = "/a"; } /* * pkgadd -D arg: pass -D dryrun to pkginstall in zone: dryrun * mode/file */ if (pkgdrtarg) { arg[nargs++] = "-D"; arg[nargs++] = pkgdrtarg; } /* * pkgadd -c cont: pass -c cont to pkginstall in zone: continuation * file */ if (pkgcontsrc) { arg[nargs++] = "-c"; arg[nargs++] = pkgcontsrc; } /* pkgadd -r resp: pass -r resp to pkginstall in zone: response file */ if (respfile) { int fd; fd = openLocal(respfile, O_RDONLY, tmpdir); if (fd < 0) { progerr(ERR_CANNOT_COPY_LOCAL, a_adminFile, errno, strerror(errno)); return (1); } (void) snprintf(respfilefd_path, sizeof (respfilefd_path), "/proc/self/fd/%d", fd); fds[maxfds++] = fd; arg[nargs++] = "-r"; arg[nargs++] = respfilefd_path; } /* add "-O addzonename" */ arg[nargs++] = "-O"; arg[nargs++] = "addzonename"; /* * add parent zone info/type */ p = z_get_zonename(); if ((p != NULL) && (*p != '\0')) { char zn[MAXPATHLEN]; (void) snprintf(zn, sizeof (zn), "parent-zone-name=%s", p); arg[nargs++] = "-O"; arg[nargs++] = strdup(zn); } /* current zone type */ arg[nargs++] = "-O"; if (z_running_in_global_zone() == B_TRUE) { char zn[MAXPATHLEN]; (void) snprintf(zn, sizeof (zn), "parent-zone-type=%s", TAG_VALUE_GLOBAL_ZONE); arg[nargs++] = strdup(zn); } else { char zn[MAXPATHLEN]; (void) snprintf(zn, sizeof (zn), "parent-zone-type=%s", TAG_VALUE_NONGLOBAL_ZONE); arg[nargs++] = strdup(zn); } /* Add the pkgserv options */ arg[nargs++] = "-O"; arg[nargs++] = pkgmodeargument(a_tmpzn ? RUN_ONCE : pkgservergetmode()); /* add in the package stream file */ if (a_idsName != NULL) { int fd; fd = openLocal(a_idsName, O_RDONLY, tmpdir); if (fd < 0) { progerr(ERR_STREAM_UNAVAILABLE, a_idsName, pkginst, strerror(errno)); quit(1); } (void) snprintf(pkgstreamfd_path, sizeof (pkgstreamfd_path), "/proc/self/fd/%d", fd); fds[maxfds++] = fd; arg[nargs++] = pkgstreamfd_path; } else { progerr(ERR_PKGZONEINSTALL_NO_STREAM); quit(1); } /* add package instance name */ arg[nargs++] = pkginst; /* terminate the argument list */ arg[nargs++] = NULL; /* * run the appropriate pkginstall command in the specified zone */ if (debugFlag == B_TRUE) { echoDebug(DBG_ZONE_EXEC_ENTER, a_zoneName, arg[0]); for (n = 0; arg[n]; n++) { echoDebug(DBG_ARG, n, arg[n]); } } /* terminate file descriptor list */ fds[maxfds] = -1; /* exec command in zone */ n = z_zone_exec(a_zoneName, path, arg, (char *)NULL, (char *)NULL, fds); echoDebug(DBG_ZONE_EXEC_EXIT, a_zoneName, arg[0], n, ""); /* * close any files that were opened for use by the * /proc/self/fd interface so they could be passed to programs * via the z_zone_exec() interface */ for (; maxfds > 0; maxfds--) { (void) close(fds[maxfds-1]); } /* return results of pkginstall in zone execution */ return (n); } /* * Name: pkgInstall * Description: Invoke pkginstall in the current zone to perform an install * of a single package to the current zone or standalone system * Arguments: a_altRoot - pointer to string representing the alternative * root to use for the install * a_idsName - pointer to string representing the data stream * device (input data stream) containing the package to * be installed. * a_pkgDir - pointer to string representing the path to the * directory containing the package * a_altBinDir - pointer to string representing location of the * pkginstall executable to run. If not NULL, then pass * the path specified to the -b option to pkginstall. * Returns: int (see ckreturn() function for details) * 0 - success * 1 - package operation failed (fatal error) * 2 - non-fatal error (warning) * 3 - user selected quit (operation interrupted) * 4 - admin settings prevented operation * 5 - interaction required and -n (non-interactive) specified * "10" will be added to indicate "immediate reboot required" * "20" will be added to indicate "reboot after install required" * NOTE: Both a_idsName and a_pkgDir are used to determine where the * package to be installed is located. If a_idsName is != NULL * then it must be the path to a device containing a package * stream that contains the package to be installed. If a_idsName * is == NULL then a_pkgDir must contain a full path to a directory * that contains the package to be installed. */ static int pkgInstall(char *a_altRoot, char *a_idsName, char *a_pkgDir, char *a_altBinDir) { char *arg[MAXARGS]; char *p; char path[PATH_MAX]; char buffer[256]; int n, nargs; /* entry debugging info */ echoDebug(DBG_PKGINSTALL_ENTRY); echoDebug(DBG_PKGINSTALL_ARGS, PSTR(pkginst), PSTR(pkgdev.dirname), PSTR(pkgdev.mount), PSTR(pkgdev.bdevice), PSTR(a_altRoot), PSTR(a_idsName), PSTR(a_pkgDir)); /* generate full path to 'pkginstall' to run in zone */ (void) snprintf(path, sizeof (path), "%s/pkginstall", a_altBinDir == (char *)NULL ? PKGBIN : a_altBinDir); /* * generate argument list for call to pkginstall */ /* start at argument 0 */ nargs = 0; /* first argument is path to executable */ arg[nargs++] = path; /* * second argument is always: pass -O debug to pkginstall: debug mode */ if (debugFlag == B_TRUE) { arg[nargs++] = "-O"; arg[nargs++] = "debug"; } arg[nargs++] = "-O"; arg[nargs++] = pkgmodeargument(pkgservergetmode()); /* * pkgadd -G: pass -G to pkginstall if: * - the -G option is specified on the pkgadd command line * - this package is marked 'this zone only': * -- package has SUNW_PKG_THISZONE=true, or * -- package has a request script * Setting -G for pkginstall causes pkginstall to install the package * in the target zone. If running in the global zone, will install the * package and mark the package as installed "in the global zone only". * If running in a non-global zone, will just install the package. */ if (globalZoneOnly == B_TRUE) { arg[nargs++] = "-G"; } else if (pkgPackageIsThisZone(pkginst) == B_TRUE) { arg[nargs++] = "-G"; } /* pkgadd -b dir: pass -b to pkginstall */ if (a_altBinDir != (char *)NULL) { arg[nargs++] = "-b"; arg[nargs++] = a_altBinDir; } /* pkgadd -B blocksize: pass -B to pkginstall */ if (rw_block_size != NULL) { arg[nargs++] = "-B"; arg[nargs++] = rw_block_size; } /* pkgadd -C: pass -C to pkginstall: disable checksum */ if (disableChecksum) { arg[nargs++] = "-C"; } /* pkgadd -A: pass -A to pkginstall: disable attribute checking */ if (disableAttributes) { arg[nargs++] = "-A"; } /* * NONABI_SCRIPTS defined: pass -o to pkginstall; refers to a * pkg requiring operator interaction during a procedure script * (common before on1093) */ if (old_pkg) { arg[nargs++] = "-o"; } /* * PKG_NONABI_SYMLINKS defined: pass -y to pkginstall; process * symlinks consistent with old behavior */ if (old_symlinks) { arg[nargs++] = "-y"; } /* * PKG_ABI_NAMELENGTH defined: pass -e to pkginstall; causes * package name length to be restricted */ if (ABI_namelength) { arg[nargs++] = "-e"; } /* pkgadd -S: pass -S to pkginstall: suppress copyright notices */ if (suppressCopyright) { arg[nargs++] = "-S"; } /* pkgadd -I: pass -I to pkginstall: initial install being performed */ if (init_install) { arg[nargs++] = "-I"; } /* pkgadd -M: pass -M to pkginstall: dont mount client file systems */ if (no_map_client) { arg[nargs++] = "-M"; } /* pkgadd -v: pass -v to pkginstall: trace scripts */ if (pkgverbose) { arg[nargs++] = "-v"; } /* pkgadd -z: pass -z to pkginstall: fresh install from pkg save area */ if (saveSpoolInstall) { arg[nargs++] = "-z"; } /* * if running in a non-global zone and the 'hollow' attribute is * passed in, then pass -h to pkginstall so that it knows how to * handle hollow packages for this local zone. */ if (!z_running_in_global_zone() && is_depend_pkginfo_DB()) { arg[nargs++] = "-h"; } /* pkgadd -t: pass -t to pkginstall: disable save spool area creation */ if (disableSaveSpool) { arg[nargs++] = "-t"; } /* if running pkgask, pass -i to pkginstall: running pkgask */ if (askflag) { arg[nargs++] = "-i"; } /* pkgadd -n (not pkgask): pass -n to pkginstall: noninteractive mode */ if (nointeract && !askflag) { arg[nargs++] = "-n"; } /* pkgadd -a admin: pass -a admin to pkginstall: admin file */ if (admnfile) { arg[nargs++] = "-a"; arg[nargs++] = admnfile; } /* pkgadd -D dryrun: pass -D dryrun to pkginstall: dryrun mode/file */ if (pkgdrtarg) { arg[nargs++] = "-D"; arg[nargs++] = pkgdrtarg; } /* pkgadd -c cont: pass -c cont to pkginstall: continuation file */ if (pkgcontsrc) { arg[nargs++] = "-c"; arg[nargs++] = pkgcontsrc; } /* pkgadd -V vfstab: pass -V vfstab to pkginstall: alternate vfstab */ if (vfstab_file) { arg[nargs++] = "-V"; arg[nargs++] = vfstab_file; } /* pkgadd -r resp: pass -r resp to pkginstall: response file */ if (respfile) { arg[nargs++] = "-r"; arg[nargs++] = respfile; } /* pkgadd -R root: pass -R root to pkginstall: alternative root */ if (a_altRoot && *a_altRoot) { arg[nargs++] = "-R"; arg[nargs++] = a_altRoot; } /* * If input data stream is available, * - add: -d ids_name -p number_of_parts * else, * - add: -d device -m mount [-f type] */ if (a_idsName != NULL) { arg[nargs++] = "-d"; arg[nargs++] = a_idsName; arg[nargs++] = "-p"; ds_close(1); ds_putinfo(buffer, sizeof (buffer)); arg[nargs++] = buffer; } else if (pkgdev.mount != NULL) { arg[nargs++] = "-d"; arg[nargs++] = pkgdev.bdevice; arg[nargs++] = "-m"; arg[nargs++] = pkgdev.mount; if (pkgdev.fstyp != NULL) { arg[nargs++] = "-f"; arg[nargs++] = pkgdev.fstyp; } } /* * add parent zone info/type */ p = z_get_zonename(); if ((p != NULL) && (*p != '\0')) { char zn[MAXPATHLEN]; (void) snprintf(zn, sizeof (zn), "parent-zone-name=%s", p); arg[nargs++] = "-O"; arg[nargs++] = strdup(zn); } /* current zone type */ arg[nargs++] = "-O"; if (z_running_in_global_zone() == B_TRUE) { char zn[MAXPATHLEN]; (void) snprintf(zn, sizeof (zn), "parent-zone-type=%s", TAG_VALUE_GLOBAL_ZONE); arg[nargs++] = strdup(zn); } else { char zn[MAXPATHLEN]; (void) snprintf(zn, sizeof (zn), "parent-zone-type=%s", TAG_VALUE_NONGLOBAL_ZONE); arg[nargs++] = strdup(zn); } /* pass -N to pkginstall: program name to report */ arg[nargs++] = "-N"; arg[nargs++] = get_prog_name(); /* add package directory name */ arg[nargs++] = a_pkgDir; /* add package instance name */ arg[nargs++] = pkginst; /* terminate the argument list */ arg[nargs++] = NULL; /* * run the appropriate pkginstall command in the specified zone */ if (debugFlag == B_TRUE) { echoDebug(DBG_ZONE_EXEC_ENTER, "global", arg[0]); for (n = 0; arg[n]; n++) { echoDebug(DBG_ARG, n, arg[n]); } } /* execute pkginstall command */ n = pkgexecv(NULL, NULL, NULL, NULL, arg); /* return results of pkginstall execution */ return (n); } /* * function to clear out any exisiting error return conditions that may have * been set by previous calls to ckreturn() */ static void resetreturn() { admnflag = 0; /* != 0 if any pkg op admin setting failure (4) */ doreboot = 0; /* != 0 if reboot required after installation (>= 10) */ failflag = 0; /* != 0 if fatal error has occurred (1) */ intrflag = 0; /* != 0 if user selected quit (3) */ ireboot = 0; /* != 0 if immediate reboot required (>= 20) */ nullflag = 0; /* != 0 if admin interaction required (5) */ warnflag = 0; /* != 0 if non-fatal error has occurred (2) */ interrupted = 0; /* last pkg op was quit (1,2,3,4,5) */ needconsult = 0; /* essential ask admin now (1,2,3,5) */ } /* * function which checks the indicated return value * and indicates disposition of installation */ static void ckreturn(int retcode) { /* * entry debugging info */ echoDebug(DBG_PKGADD_CKRETURN, retcode, PSTR(pkginst)); /* reset needconsult so it only reflects this call to ckreturn */ needconsult = 0; switch (retcode) { case 0: /* successful */ case 10: case 20: break; /* empty case */ case 1: /* package operation failed (fatal error) */ case 11: case 21: failflag++; interrupted++; needconsult++; break; case 2: /* non-fatal error (warning) */ case 12: case 22: warnflag++; interrupted++; needconsult++; break; case 3: /* user selected quit; operation interrupted */ case 13: case 23: intrflag++; interrupted++; needconsult++; break; case 4: /* admin settings prevented operation */ case 14: case 24: admnflag++; interrupted++; break; case 5: /* administration: interaction req (no -n) */ case 15: case 25: nullflag++; interrupted++; needconsult++; break; default: failflag++; interrupted++; needconsult++; return; } if (retcode >= 20) { ireboot++; } else if (retcode >= 10) { doreboot++; } } static void usage(void) { char *prog = get_prog_name(); if (askflag) { (void) fprintf(stderr, ERR_USAGE_PKGASK, prog); } else if (z_running_in_global_zone() == B_FALSE) { (void) fprintf(stderr, ERR_USAGE_PKGADD_NONGLOBALZONE, prog, prog); } else { (void) fprintf(stderr, ERR_USAGE_PKGADD_GLOBALZONE, prog, prog); } } /* * Name: check_applicability * Description: determine if a package is installable in this zone; that is, * does the scope of install conflict with existing installation * or can the package be installed * Arguments: a_packageDir - [RO, *RO] - (char *) * Pointer to string representing the directory where the * package is located * a_pkgInst - [RO, *RO] - (char *) * Pointer to string representing the name of the package * to check * a_rootPath - [RO, *RO] - (char *) * Pointer to string representing path to the root of the * file system where the package is to be installed - this * is usually the same as the "-R" argument to pkgadd * a_flags - [RO, *RO] - (CAF_T) * Flags set by the caller to indicate the conditions * under which the package is to be installed: * CAF_IN_GLOBAL_ZONE - in global zone * CAF_SCOPE_GLOBAL - -G specified * Returns: boolean_t * B_TRUE - the package can be installed * B_FALSE - the package can not be installed */ static boolean_t check_applicability(char *a_packageDir, char *a_pkgInst, char *a_rootPath, CAF_T a_flags) { FILE *pkginfoFP; FILE *pkgmapFP; boolean_t all_zones; /* pkg is "all zones" only */ boolean_t in_gz_only; /* pkg installed in global zone only */ boolean_t is_hollow; /* pkg is "hollow" */ boolean_t pkg_installed; /* pkg is installed */ boolean_t this_zone; /* pkg is "this zone" only */ boolean_t reqfile_found = B_FALSE; char instPkg[PKGSIZ+1]; /* installed pkg instance nam */ char instPkgPath[PATH_MAX]; /* installed pkg toplevel dir */ char pkginfoPath[PATH_MAX]; /* pkg 2 install pkginfo file */ char pkgmapPath[PATH_MAX]; /* pkg 2 install pkgmap file */ char pkgpath[PATH_MAX]; /* pkg 2 install toplevel dir */ int len; char line[LINE_MAX]; /* entry assertions */ assert(a_packageDir != (char *)NULL); assert(*a_packageDir != '\0'); assert(a_pkgInst != (char *)NULL); assert(*a_pkgInst != '\0'); /* normalize root path */ if (a_rootPath == (char *)NULL) { a_rootPath = ""; } /* entry debugging info */ echoDebug(DBG_CHECKAPP_ENTRY); echoDebug(DBG_CHECKAPP_ARGS, a_pkgInst, a_packageDir, a_rootPath); /* * calculate paths to various objects */ /* path to package to be installed top level (main) directory */ len = snprintf(pkgpath, sizeof (pkgpath), "%s/%s", a_packageDir, a_pkgInst); if (len > sizeof (pkgpath)) { progerr(ERR_CREATE_PATH_2, a_packageDir, a_pkgInst); return (B_FALSE); } /* error if package top level directory does not exist */ if (isdir(pkgpath) != 0) { progerr(ERR_NO_PKGDIR, pkgpath, a_pkgInst, strerror(errno)); return (B_FALSE); } /* path to pkginfo file within the package to be installed */ len = snprintf(pkginfoPath, sizeof (pkginfoPath), "%s/pkginfo", pkgpath); if (len > sizeof (pkginfoPath)) { progerr(ERR_CREATE_PATH_2, pkgpath, "pkginfo"); return (B_FALSE); } /* path to highest instance of package currently installed */ pkgLocateHighestInst(instPkgPath, sizeof (instPkgPath), instPkg, sizeof (instPkg), a_rootPath, a_pkgInst); /* * gather information from this package's pkginfo file */ pkginfoFP = fopen(pkginfoPath, "r"); if (pkginfoFP == (FILE *)NULL) { progerr(ERR_NO_PKG_INFOFILE, a_pkgInst, pkginfoPath, strerror(errno)); return (B_FALSE); } /* determine "HOLLOW" setting for this package */ is_hollow = pkginfoParamTruth(pkginfoFP, PKG_HOLLOW_VARIABLE, "true", B_FALSE); /* determine "ALLZONES" setting for this package */ all_zones = pkginfoParamTruth(pkginfoFP, PKG_ALLZONES_VARIABLE, "true", B_FALSE); /* determine "THISZONE" setting for this package */ this_zone = pkginfoParamTruth(pkginfoFP, PKG_THISZONE_VARIABLE, "true", B_FALSE); /* close pkginfo file */ (void) fclose(pkginfoFP); /* * If request file is not found, it may be in the datastream which * is not yet unpacked. Check in the pkgmap file. */ if (isfile(pkgpath, REQUEST_FILE) != 0) { /* path to pkgmap file within the package to be installed */ (void) snprintf(pkgmapPath, sizeof (pkgmapPath), "%s/pkgmap", pkgpath); pkgmapFP = fopen(pkgmapPath, "r"); if (pkgmapFP == NULL) { progerr(ERR_NO_PKG_MAPFILE, a_pkgInst, pkgmapPath, strerror(errno)); return (B_FALSE); } while (fgets(line, LINE_MAX, pkgmapFP) != NULL) { if (strstr(line, " i request") != NULL) { reqfile_found = B_TRUE; break; } } (void) fclose(pkgmapFP); } else { reqfile_found = B_TRUE; } /* * If this package is not marked for installation in this zone only, * check to see if this package has a request script. If this package * does have a request script, then mark the package for installation * in this zone only. Any package with a request script cannot be * installed outside of the zone the pkgadd command is being run in, * nor can such a package be installed as part of a new zone install. * A new zone install must be non-interactive, which is required * by all packages integrated into the Solaris WOS. */ if ((!this_zone) && (reqfile_found)) { if (a_flags & CAF_IN_GLOBAL_ZONE) { echoDebug(DBG_CHECKAPP_THISZONE_REQUEST, a_pkgInst); } this_zone = B_TRUE; } /* * If this package is already installed, see if the current installation * of the package has a request file - if it does, then act as though * the current package to be added has a request file - install the * package in the current zone only. */ if ((!this_zone) && (instPkgPath[0] != '\0') && (isfile(instPkgPath, REQUEST_FILE) == 0)) { if (a_flags & CAF_IN_GLOBAL_ZONE) { echoDebug(DBG_CHECKAPP_THISZONE_INSTREQ, a_pkgInst, instPkg); } this_zone = B_TRUE; } /* gather information from the global zone only file */ in_gz_only = B_FALSE; if (a_flags & CAF_IN_GLOBAL_ZONE) { in_gz_only = pkgIsPkgInGzOnly(a_rootPath, a_pkgInst); } /* determine if this package is currently installed */ pkg_installed = pkginfoIsPkgInstalled((struct pkginfo **)NULL, a_pkgInst); /* * verify package applicability based on information gathered, * and validate the three SUNW_PKG_ options: * * -----------|--------------|-------------|-------------|----------- * - - - - - -| GLOBAL ZONE -| GLOBAL ZONE | LOCAL ZONE | LOCAL ZONE * - - - - - -| - - pkgadd - | pkgadd -G | pkgadd | pkgadd -G * ----1------|--------------|-------------|-------------|------------ * ALLZONES f | add to gz | add to gz | add to ls | add to ls * HOLLOW f | current lz | not to curr | only - - - -| only - - - * THISZONE f | futr lz - - -| or futr lz | - - - - - - | - - - - - - * ----2------|--------------|-------------|-------------|------------ * ALLZONES T | add to gz | operation | operation | operation * HOLLOW f | current lz | not allowed | not allowed | not allowed * THISZONE f | future lz | - - - - - - | - - - - - - | - - - - - - * ----3------|--------------|-------------|-------------|------------ * ALLZONES T | add to gz | operation | operation | operation * HOLLOW T | pkg db only | not allowed | not allowed | not allowed * THISZONE f | curr/futr lz | - - - - - - | - - - - - - | - - - - - - * ----4------|--------------|-------------|-------------|------------ * ALLZONES T | bad option | bad option | bad option | bad option * HOLLOW * | combo - - - -| combo - - - | combo - - - | combo - - * THISZONE T | - - - - - - -|- - - - - - -|- - - - - - -|- - - - - - * ----5------|--------------|-------------|-------------|------------ * ALLZONES f | bad option | bad option | bad option | bad option * HOLLOW T | combo - - - -| combo - - - | combo - - - | combo - - - * THISZONE * | - - - - - - -| - - - - - - | - - - - - - | - - - - - - * ----6------|--------------|-------------|-------------|------------ * ALLZONES f | add to gz | add to gz | add to lz | add to lz * HOLLOW f | not current | not current | only - - - | only - - - * THISZONE T | or future lz | or futr lz | - - - - - - | - - - - - - * -----------|--------------|-------------|-------------|----------- */ /* pkg "all zones" && "this zone" (#4) */ if (all_zones && this_zone) { progerr(ERR_ALLZONES_AND_THISZONE, a_pkgInst, PKG_ALLZONES_VARIABLE, PKG_THISZONE_VARIABLE); return (B_FALSE); } /* pkg "!all zones" && "hollow" (#5) */ if ((!all_zones) && is_hollow) { progerr(ERR_NOW_ALLZONES_AND_HOLLOW, a_pkgInst, PKG_ALLZONES_VARIABLE, PKG_HOLLOW_VARIABLE); return (B_FALSE); } /* pkg ALLZONES=true & not running in global zone (#2/#3) */ if (all_zones && (!(a_flags & CAF_IN_GLOBAL_ZONE))) { progerr(ERR_ALLZONES_AND_IN_LZ, a_pkgInst); return (B_FALSE); } /* pkg "in gz only" & pkg "NOT installed" */ if (in_gz_only && (!pkg_installed)) { /* MAKE A WARNING */ echo(ERR_IN_GZ_AND_NOT_INSTALLED, a_pkgInst, pkgGetGzOnlyPath()); } /* pkg ALLZONES=true & pkg "in gz only" & pkg "is installed" */ if (all_zones && in_gz_only && pkg_installed) { progerr(ERR_IN_GZ_AND_ALLZONES_AND_INSTALLED, a_pkgInst); return (B_FALSE); } /* pkg ALLZONES=true && -G specified (#2/#3) */ if (all_zones && (a_flags & CAF_SCOPE_GLOBAL)) { progerr(ERR_ALLZONES_AND_G_USED, a_pkgInst); return (B_FALSE); } /* pkg "!this zone" && "in gz only" & -G not specified */ if ((!this_zone) && in_gz_only && (!(a_flags & CAF_SCOPE_GLOBAL))) { progerr(ERR_IN_GZ_AND_NO_G_USED, a_pkgInst); return (B_FALSE); } /* * If this package is marked 'this zone only', then mark the package * as "add to this zone only". This is referenced by the various * add_package_... functions to determine if the package should be * added to the current zone, or to all zones, depending on the * zone in which the command is being run. */ if (this_zone) { pkgAddThisZonePackage(a_pkgInst); } return (B_TRUE); } /* * Name: create_zone_adminfile * Description: Given a zone temporary directory and optionally an existing * administration file, generate an administration file that * can be used to perform "non-interactive" operations in a * non-global zone. * Arguments: r_zoneAdminFile - pointer to handle that will contain a * string representing the path to the temporary * administration file created - this must be NULL * before the first call to this function - on * subsequent calls if the pointer is NOT null then * the existing string will NOT be overwritten. * a_zoneTempDir - pointer to string representing the path * to the zone temporary directory to create the * temporary administration file in * a_admnfile - pointer to string representing the path to * an existing "user" administration file - the * administration file created will contain the * settings contained in this file, modified as * appropriate to supress any interaction; * If this is == NULL then the administration file * created will not contain any extra settings * Returns: void * NOTE: Any string returned is placed in new storage for the * calling method. The caller must use 'free' to dispose * of the storage once the string is no longer needed. * NOTE: On any error this function will call 'quit(1)' */ static void create_zone_adminfile(char **r_zoneAdminFile, char *a_zoneTempDir, char *a_admnfile) { boolean_t b; /* entry assertions */ assert(r_zoneAdminFile != (char **)NULL); assert(a_zoneTempDir != (char *)NULL); assert(*a_zoneTempDir != '\0'); /* entry debugging info */ echoDebug(DBG_CREATE_ZONE_ADMINFILE, a_zoneTempDir, PSTR(a_admnfile)); /* if temporary name already exists, do not overwrite */ if (*r_zoneAdminFile != (char *)NULL) { return; } /* create temporary name */ *r_zoneAdminFile = tempnam(a_zoneTempDir, "zadmn"); b = z_create_zone_admin_file(*r_zoneAdminFile, a_admnfile); if (b == B_FALSE) { progerr(ERR_CREATE_TMPADMIN, *r_zoneAdminFile, strerror(errno)); quit(1); /* NOTREACHED */ } echoDebug(DBG_CREATED_ZONE_ADMINFILE, *r_zoneAdminFile); } /* * Name: create_zone_tempdir * Description: Given a system temporary directory, create a "zone" specific * temporary directory and return the path to the directory * created. * Arguments: r_zoneTempDir - pointer to handle that will contain a * string representing the path to the temporary * directory created - this must be NULL before the * first call to this function - on subsequent calls * if the pointer is NOT null then the existing string * will NOT be overwritten. * a_zoneTempDir - pointer to string representing the path * to the system temporary directory to create the * temporary zone directory in * Returns: void * NOTE: Any string returned is placed in new storage for the * calling method. The caller must use 'free' to dispose * of the storage once the string is no longer needed. * NOTE: On any error this function will call 'quit(1)' * NOTE: This function calls "quitSetZoneTmpdir" on success to * register the directory created with quit() so that the * directory will be automatically deleted on exit. */ static void create_zone_tempdir(char **r_zoneTempDir, char *a_tmpdir) { boolean_t b; /* entry assertions */ assert(r_zoneTempDir != (char **)NULL); assert(a_tmpdir != (char *)NULL); assert(*a_tmpdir != '\0'); /* entry debugging info */ echoDebug(DBG_CREATE_ZONE_TEMPDIR, a_tmpdir); /* if temporary directory already exists, do not overwrite */ if (*r_zoneTempDir != (char *)NULL) { return; } /* create temporary directory */ b = setup_temporary_directory(r_zoneTempDir, a_tmpdir, "ztemp"); if (b == B_FALSE) { progerr(ERR_ZONETEMPDIR, a_tmpdir, strerror(errno)); quit(1); /* NOTREACHED */ } /* register with quit() so directory is removed on exit */ quitSetZoneTmpdir(*r_zoneTempDir); /* exit debugging info */ echoDebug(DBG_CREATED_ZONE_TEMPDIR, *r_zoneTempDir); } /* * Name: continue_installation * Description: Called from within a loop that is installing packages, * this function examines various global variables and decides * whether or not to ask an appropriate question, and wait for * and appropriate reply. * Arguments: <> * Returns: B_TRUE - continue processing with next package * B_FALSE - do not continue processing with next package */ static boolean_t continue_installation(void) { char ans[MAX_INPUT]; int n; /* return TRUE if not interrupted */ if (!interrupted) { return (B_TRUE); } /* * process interrupted - determine whether or not to continue */ /* output appropriate interrupted message */ if (askflag) { echo(npkgs == 1 ? MSG_1MORE_PROC : MSG_MORE_PROC, npkgs); } else { echo(npkgs == 1 ? MSG_1MORE_INST : MSG_MORE_INST, npkgs); } /* if running with no interaction (-n) do not ask question */ if (nointeract) { /* if admin required return 'dont continue' */ if (needconsult) { return (B_FALSE); } ckquit = 1; return (B_TRUE); } /* interaction possible: ask question */ ckquit = 0; n = ckyorn(ans, NULL, NULL, NULL, ASK_CONTINUE_ADD); if (n != 0) { quit(n); /* NOTREACHED */ } ckquit = 1; if (strchr("yY", *ans) == NULL) { return (B_FALSE); } return (B_TRUE); } /* * package can be in a number of formats: * - file containing package stream (pkgadd -d file [pkgs]) * - directory containing packages (pkgadd -d /dir [pkgs]) * - device containing packages (pkgadd -d diskette1 [pkgs]) * non-global zones can be passed open files and strings as arguments * - for file containing package stream * -- the stream can be passed directly to the non-global zone * - for directory * -- convert packages to datastream to pass to the non-global zone * - for device * -- ? */ static boolean_t unpack_and_check_packages(char **a_pkgList, char *a_idsName, char *a_packageDir) { int savenpkgs = npkgs; int i; CAF_T flags = 0; /* entry assertions */ assert(a_pkgList != (char **)NULL); /* entry debugging info */ echoDebug(DBG_UNPACKCHECK_ENTRY); echoDebug(DBG_UNPACKCHECK_ARGS, PSTR(a_idsName), PSTR(a_packageDir)); /* * set flags for applicability check */ /* determine if running in the global zone */ if (z_running_in_global_zone() == B_TRUE) { flags |= CAF_IN_GLOBAL_ZONE; } /* set -G flag */ if (globalZoneOnly == B_TRUE) { flags |= CAF_SCOPE_GLOBAL; } /* * for each package to install: * - if packages from datastream, unpack package into package dir * - check applicability of installing package on this system/zone */ for (i = 0; (pkginst = a_pkgList[i]) != NULL; i++) { if (a_idsName != (char *)NULL) { /* create stream out of package if not already one */ if (unpack_package_from_stream(a_idsName, pkginst, a_packageDir) == B_FALSE) { progerr(ERR_CANNOT_UNPACK_PKGSTRM, PSTR(pkginst), PSTR(a_idsName), PSTR(a_packageDir)); npkgs = savenpkgs; return (B_FALSE); } } else { echoDebug(DBG_PKG_IN_DIR, pkginst, a_packageDir); } /* check package applicability */ if (check_applicability(a_packageDir, pkginst, get_inst_root(), flags) == B_FALSE) { progerr(ERR_PKG_NOT_INSTALLABLE, pkginst); npkgs = savenpkgs; return (B_FALSE); } npkgs--; } npkgs = savenpkgs; return (B_TRUE); } /* * returns: * B_TRUE - package list generated * B_FALSE - failed to generate package list * Will call quit(n) on fatal error. */ static boolean_t get_package_list(char ***r_pkgList, char **a_argv, char *a_categories, char **a_categoryList, char *a_idsName, int *r_repeat) { int n; /* entry assertions */ assert(r_repeat != (int *)NULL); /* entry debugging info */ echoDebug(DBG_GETPKGLIST_ENTRY); echoDebug(DBG_GETPKGLIST_ARGS, PSTR(a_idsName), PSTR(pkgdev.dirname), *r_repeat); /* * get the list of the packages to add */ n = pkgGetPackageList(r_pkgList, a_argv, optind, a_categories, a_categoryList, &pkgdev); switch (n) { case -1: /* no packages found */ echoDebug(DBG_PKGLIST_NONFOUND, PSTR(a_idsName), pkgdev.dirname); return (B_FALSE); case 0: /* packages found */ break; default: /* "quit" error */ echoDebug(DBG_PKGLIST_ERROR, PSTR(a_idsName), pkgdev.dirname, n); quit(n); /* NOTREACHED */ } /* order package list if input data stream specified */ if (a_idsName) { ds_order(*r_pkgList); } return (B_TRUE); } /* * Name: install_in_one_zone * Description: Install a single package in a single zone * Arguments: a_zoneName - pointer to string representing the name of the * zone to install the package into. * a_idsName - pointer to string representing the data stream * device (input data stream) containing the package to * be installed. * If this is == NULL the package is assumed to be * spooled in the zone temporary directory. * a_zoneAdminFile - pointer to string representing the admin * file to pass to pkginstall when installing the package. * If this is == NULL no admin file is given to pkginstall. * a_zoneTempDir - pointer to string representing the temporary * directory in which spooled packages can be found if * a_idsName is == NULL. * a_altBinDir - pointer to string representing an alternative * binary location directory to pass to pkginstall. * If this is == NULL no alternative binary location is * passed to pkginstall. * a_scratchName - pointer to string representing the name of the * scratch zone to use for installation. * a_zoneState - state of the zone; must be mounted or running. * a_tmpzn - B_TRUE when this zone is booted by the package * command or B_FALSE if it was running before. * Returns: void * NOTE: As a side effect, "ckreturn" is called on the result returned * from running 'pkginstall' in the zone; this sets several global * variables which allows the caller to determine the result of * the installation operation. */ static void install_in_one_zone(char *a_zoneName, char *a_idsName, char *a_zoneAdminFile, char *a_zoneTempDir, char *a_altBinDir, zone_state_t a_zoneState, boolean_t a_tmpzn) { char zoneStreamName[PATH_MAX] = {'\0'}; int n; /* entry assertions */ assert(a_zoneName != (char *)NULL); assert(*a_zoneName != '\0'); /* entry debugging info */ echoDebug(DBG_INSTINONEZONE_ENTRY); echoDebug(DBG_INSTINONEZONE_ARGS, a_zoneName, PSTR(a_idsName), PSTR(a_zoneAdminFile), PSTR(a_zoneTempDir), PSTR(a_altBinDir)); /* echo operation to perform to stdout */ echo(MSG_INSTALL_PKG_IN_ZONE, pkginst, a_zoneName); /* determine path to the package stream */ if (a_idsName == (char *)NULL) { /* locate temp stream created earlier */ (void) snprintf(zoneStreamName, sizeof (zoneStreamName), "%s/%s.dstream", a_zoneTempDir, pkginst); } else { /* use stream passed in on command line */ (void) snprintf(zoneStreamName, sizeof (zoneStreamName), "%s", a_idsName); } echoDebug(DBG_INSTALL_IN_ZONE, pkginst, a_zoneName, zoneStreamName); n = pkgZoneInstall(a_zoneName, a_zoneState, zoneStreamName, a_altBinDir, a_zoneAdminFile, a_tmpzn); /* set success/fail condition variables */ ckreturn(n); /* exit debugging info */ echoDebug(DBG_INSTALL_FLAG_VALUES, "after install", admnflag, doreboot, failflag, interrupted, intrflag, ireboot, needconsult, nullflag, warnflag); } /* * Name: install_in_zones * Description: Install a single package in the zones that are running from * a list of zones * Arguments: a_zlst - list of zones to install the package into * a_idsName - pointer to string representing the data stream * device (input data stream) containing the package to * be installed. * If this is == NULL the package is assumed to be * spooled in the zone temporary directory. * a_altBinDir - pointer to string representing an alternative * binary location directory to pass to pkginstall. * If this is == NULL no alternative binary location is * passed to pkginstall. * a_zoneAdminFile - pointer to string representing the admin * file to pass to pkginstall when installing the package. * If this is == NULL no admin file is given to pkginstall. * a_zoneTempDir - pointer to string representing the temporary * directory in which spooled packages can be found if * a_idsName is == NULL. */ static int install_in_zones(zoneList_t a_zlst, char *a_idsName, char *a_altBinDir, char *a_zoneAdminFile, char *a_zoneTempDir) { char *zoneName; int zoneIndex; int zonesSkipped = 0; zone_state_t zst; /* entry assertions */ assert(a_zlst != (zoneList_t)NULL); /* entry debugging info */ echoDebug(DBG_INSTALLINZONES_ENTRY); echoDebug(DBG_INSTALLINZONES_ARGS, PSTR(a_idsName), PSTR(a_zoneAdminFile), PSTR(a_zoneTempDir)); /* process each zone in the list */ for (zoneIndex = 0; (zoneName = z_zlist_get_zonename(a_zlst, zoneIndex)) != NULL; zoneIndex++) { /* skip the zone if it is NOT running */ zst = z_zlist_get_current_state(a_zlst, zoneIndex); if (zst != ZONE_STATE_RUNNING && zst != ZONE_STATE_MOUNTED) { zonesSkipped++; echoDebug(DBG_SKIPPING_ZONE, zoneName); continue; } /* install the package in this zone */ install_in_one_zone(z_zlist_get_scratch(a_zlst, zoneIndex), a_idsName, a_zoneAdminFile, a_zoneTempDir, a_altBinDir, zst, B_FALSE); } return (zonesSkipped); } /* * Name: boot_and_install_in_zones * Description: Install a single package in the zones that are NOT running from * a list of zones - each zone is booted, the package installed, * and the zone is halted * Arguments: a_zlst - list of zones to install the package into * a_idsName - pointer to string representing the data stream * device (input data stream) containing the package to * be installed. * If this is == NULL the package is assumed to be * spooled in the zone temporary directory. * a_altBinDir - pointer to string representing an alternative * binary location directory to pass to pkginstall. * If this is == NULL no alternative binary location is * passed to pkginstall. * a_zoneAdminFile - pointer to string representing the admin * file to pass to pkginstall when installing the package. * If this is == NULL no admin file is given to pkginstall. * a_zoneTempDir - pointer to string representing the temporary * directory in which spooled packages can be found if * a_idsName is == NULL. */ static int boot_and_install_in_zones(zoneList_t a_zlst, char *a_idsName, char *a_altBinDir, char *a_zoneAdminFile, char *a_zoneTempDir) { boolean_t b; char *zoneName; int zoneIndex; int zonesSkipped = 0; zone_state_t zst; /* entry assertions */ assert(a_zlst != (zoneList_t)NULL); /* entry debugging info */ echoDebug(DBG_BOOTINSTALLINZONES_ENTRY); echoDebug(DBG_BOOTINSTALLINZONES_ARGS, PSTR(a_idsName), PSTR(a_zoneAdminFile), PSTR(a_zoneTempDir)); /* process each zone in the list */ for (zoneIndex = 0; (zoneName = z_zlist_get_zonename(a_zlst, zoneIndex)) != NULL; zoneIndex++) { /* skip the zone if it IS running */ zst = z_zlist_get_current_state(a_zlst, zoneIndex); if (zst == ZONE_STATE_RUNNING || zst == ZONE_STATE_MOUNTED) { echoDebug(DBG_SKIPPING_ZONE_BOOT, zoneName); continue; } /* skip the zone if it is NOT bootable */ if (z_zlist_is_zone_runnable(a_zlst, zoneIndex) == B_FALSE) { echo(MSG_SKIPPING_ZONE_NOT_RUNNABLE, zoneName); echoDebug(DBG_SKIPPING_ZONE_NOT_RUNNABLE, zoneName); continue; } /* mount up the zone */ echo(MSG_BOOTING_ZONE, zoneName); echoDebug(DBG_BOOTING_ZONE, zoneName); b = z_zlist_change_zone_state(a_zlst, zoneIndex, ZONE_STATE_MOUNTED); if (b == B_FALSE) { progerr(ERR_CANNOT_BOOT_ZONE, zoneName); /* set fatal error return condition */ ckreturn(1); zonesSkipped++; continue; } /* install the package in this zone */ install_in_one_zone(z_zlist_get_scratch(a_zlst, zoneIndex), a_idsName, a_zoneAdminFile, a_zoneTempDir, a_altBinDir, ZONE_STATE_MOUNTED, B_TRUE); /* restore original state of zone */ echo(MSG_RESTORE_ZONE_STATE, zoneName); echoDebug(DBG_RESTORE_ZONE_STATE, zoneName); b = z_zlist_restore_zone_state(a_zlst, zoneIndex); } return (zonesSkipped); } /* * Name: pkginstall_check_in_one_zone * Description: Do a pre install check of a single package in a single zone * Arguments: a_zoneName - pointer to string representing the name of the * zone to check install the package in. * a_idsName - pointer to string representing the data stream * device (input data stream) containing the package to * be check installed. * If this is == NULL the package is assumed to be * spooled in the zone temporary directory. * a_zoneAdminFile - pointer to string representing the admin * file to pass to pkginstall when installing the package. * If this is == NULL no admin file is given to pkginstall. * a_zoneTempDir - pointer to string representing the temporary * directory in which spooled packages can be found if * a_idsName is == NULL. * a_altBinDir - pointer to string representing an alternative * binary location directory to pass to pkginstall. * If this is == NULL no alternative binary location is * passed to pkginstall. * a_scratchName - pointer to string representing the name of the * scratch zone to use for installation. * a_zoneState - state of the zone; must be mounted or running. * a_tmpzn - B_TRUE when this zone is booted by the package * command or B_FALSE if it was running before. * Returns: void * NOTE: As a side effect, "ckreturn" is called on the result returned * from running 'pkginstall' in the zone; this sets several global * variables which allows the caller to determine the result of * the pre installation check operation. */ static void pkginstall_check_in_one_zone(char *a_zoneName, char *a_idsName, char *a_zoneAdminFile, char *a_zoneTempDir, char *a_altBinDir, char *a_scratchName, zone_state_t a_zoneState, boolean_t a_tmpzn) { char preinstallcheckPath[PATH_MAX+1]; char zoneStreamName[PATH_MAX] = {'\0'}; int n; echo(MSG_CHECKINSTALL_PKG_IN_ZONE, pkginst, a_zoneName); echoDebug(MSG_CHECKINSTALL_PKG_IN_ZONE, pkginst, a_zoneName); (void) snprintf(preinstallcheckPath, sizeof (preinstallcheckPath), "%s/%s.%s.preinstallcheck.txt", a_zoneTempDir, pkginst, a_zoneName); if (a_idsName == (char *)NULL) { /* locate temporary stream created earlier */ (void) snprintf(zoneStreamName, sizeof (zoneStreamName), "%s/%s.dstream", a_zoneTempDir, pkginst); } else { (void) snprintf(zoneStreamName, sizeof (zoneStreamName), "%s", a_idsName); } echoDebug(DBG_CHECKINSTALL_IN_ZONE, pkginst, a_zoneName, zoneStreamName); n = pkgZoneCheckInstall(a_scratchName, a_zoneState, zoneStreamName, a_altBinDir, a_zoneAdminFile, preinstallcheckPath, a_tmpzn); /* set success/fail condition variables */ ckreturn(n); echoDebug(DBG_INSTALL_FLAG_VALUES, "after preinstall check", admnflag, doreboot, failflag, interrupted, intrflag, ireboot, needconsult, nullflag, warnflag); } /* * Name: pkginstall_check_in_zones * Description: Check installation of a single package in the zones that * are running from a list of zones * Arguments: a_zlst - list of zones to check install the package * a_idsName - pointer to string representing the data stream * device (input data stream) containing the package to * be check installed. * If this is == NULL the package is assumed to be * spooled in the zone temporary directory. * a_altBinDir - pointer to string representing an alternative * binary location directory to pass to pkginstall. * If this is == NULL no alternative binary location is * passed to pkginstall. * a_zoneAdminFile - pointer to string representing the admin * file to pass to pkginstall when checking the installing * of the package. * If this is == NULL no admin file is given to pkginstall. * a_zoneTempDir - pointer to string representing the temporary * directory in which spooled packages can be found if * a_idsName is == NULL. */ static int pkginstall_check_in_zones(zoneList_t a_zlst, char *a_idsName, char *a_altBinDir, char *a_zoneAdminFile, char *a_zoneTempDir) { char *zoneName; int zoneIndex; int zonesSkipped = 0; zone_state_t zst; for (zoneIndex = 0; (zoneName = z_zlist_get_zonename(a_zlst, zoneIndex)) != NULL; zoneIndex++) { zst = z_zlist_get_current_state(a_zlst, zoneIndex); if (zst != ZONE_STATE_RUNNING && zst != ZONE_STATE_MOUNTED) { zonesSkipped++; echoDebug(DBG_SKIPPING_ZONE, zoneName); continue; } pkginstall_check_in_one_zone(zoneName, a_idsName, a_zoneAdminFile, a_zoneTempDir, a_altBinDir, z_zlist_get_scratch(a_zlst, zoneIndex), zst, B_FALSE); } return (zonesSkipped); } /* * Name: boot_and_pkginstall_check_in_zones * Description: Check installation of a single package in the zones that * are NOT running from a list of zones - each zone is booted, * the package installation is checked, and the zone is halted. * Arguments: a_zlst - list of zones to install the package into * a_idsName - pointer to string representing the data stream * device (input data stream) containing the package to * be check installed. * If this is == NULL the package is assumed to be * spooled in the zone temporary directory. * a_altBinDir - pointer to string representing an alternative * binary location directory to pass to pkginstall. * If this is == NULL no alternative binary location is * passed to pkginstall. * a_zoneAdminFile - pointer to string representing the admin * file to pass to pkginstall when check installing the * package. * If this is == NULL no admin file is given to pkginstall. * a_zoneTempDir - pointer to string representing the temporary * directory in which spooled packages can be found if * a_idsName is == NULL. */ static int boot_and_pkginstall_check_in_zones(zoneList_t a_zlst, char *a_idsName, char *a_altBinDir, char *a_zoneAdminFile, char *a_zoneTempDir) { int zoneIndex; int zonesSkipped = 0; char *zoneName; boolean_t b; zone_state_t zst; /* entry assertions */ assert(a_zlst != (zoneList_t)NULL); /* entry debugging info */ echoDebug(DBG_BOOTCHECKINSTALLINZONES_ENTRY); echoDebug(DBG_BOOTCHECKINSTALLINZONES_ARGS, PSTR(a_idsName), PSTR(a_zoneAdminFile), PSTR(a_zoneTempDir)); /* process each zone in the list */ for (zoneIndex = 0; (zoneName = z_zlist_get_zonename(a_zlst, zoneIndex)) != NULL; zoneIndex++) { /* skip the zone if it IS running */ zst = z_zlist_get_current_state(a_zlst, zoneIndex); if (zst == ZONE_STATE_RUNNING || zst == ZONE_STATE_MOUNTED) { echoDebug(DBG_SKIPPING_ZONE_BOOT, zoneName); continue; } /* skip the zone if it is NOT bootable */ if (z_zlist_is_zone_runnable(a_zlst, zoneIndex) == B_FALSE) { echo(MSG_SKIPPING_ZONE_NOT_RUNNABLE, zoneName); echoDebug(DBG_SKIPPING_ZONE_NOT_RUNNABLE, zoneName); continue; } /* mount up the zone */ echo(MSG_BOOTING_ZONE, zoneName); echoDebug(DBG_BOOTING_ZONE, zoneName); b = z_zlist_change_zone_state(a_zlst, zoneIndex, ZONE_STATE_MOUNTED); if (b == B_FALSE) { progerr(ERR_CANNOT_BOOT_ZONE, zoneName); /* set fatal error return condition */ ckreturn(1); zonesSkipped++; continue; } /* pre-installation check of the package in this zone */ pkginstall_check_in_one_zone(zoneName, a_idsName, a_zoneAdminFile, a_zoneTempDir, a_altBinDir, z_zlist_get_scratch(a_zlst, zoneIndex), ZONE_STATE_MOUNTED, B_TRUE); /* restore original state of zone */ echo(MSG_RESTORE_ZONE_STATE, zoneName); echoDebug(DBG_RESTORE_ZONE_STATE, zoneName); b = z_zlist_restore_zone_state(a_zlst, zoneIndex); } return (zonesSkipped); } /* * Function: add_packages_in_global_with_zones * Description: call this function to add a list of packages in the global zone * when one or more non-global zones exist * returns: * B_TRUE to process next data stream * B_FALSE to exit */ static boolean_t add_packages_in_global_with_zones(char **a_pkgList, char *a_idsName, int a_repeat, char *a_altBinDir, char *a_device, zoneList_t a_zlst) { static char *zoneTempDir = (char *)NULL; static char *zoneAdminFile = (char *)NULL; boolean_t b; char *packageDir; char instdir[PATH_MAX]; char respfile_path[PATH_MAX]; char zoneStreamName[PATH_MAX] = {'\0'}; int i; int n; int savenpkgs = npkgs; int zonesSkipped; boolean_t globalPresent; /* entry assertions */ assert(a_pkgList != (char **)NULL); assert(a_zlst != (zoneList_t)NULL); echoDebug(DBG_ADDPACKAGES_GZ_W_LZ_ENTRY); echoDebug(DBG_ADDPACKAGES_GZ_W_LZ_ARGS, npkgs, PSTR(a_idsName), a_repeat, PSTR(a_device)); /* create temporary directory for use by zone operations */ create_zone_tempdir(&zoneTempDir, tmpdir); /* create hands off settings admin file for use in a non-global zone */ create_zone_adminfile(&zoneAdminFile, zoneTempDir, admnfile); /* determine directory where packages can be found */ if (a_idsName == (char *)NULL) { /* no stream - directory containing packages provided */ packageDir = pkgdev.dirname; } else { packageDir = zoneTempDir; } /* unpack and check all packages */ b = unpack_and_check_packages(a_pkgList, a_idsName, packageDir); if (b != B_TRUE) { quit(1); } /* * if the packages are contained in a directory, convert the * packages into individual streams because pkgZoneInstall is only able * to pass a stream to the non-global zone's pkginstall command. * After this code is executed: * if the original input was a datastream: * -> that datastream has been unpacked into "instdir" * if the original input was a directory with packages in it: * -> those packages have been placed into a single datastream */ if (a_idsName == (char *)NULL) { for (i = 0; (pkginst = a_pkgList[i]) != NULL; i++) { char *pkgs[2]; /* package is not a stream - create one */ (void) snprintf(zoneStreamName, sizeof (zoneStreamName), "%s/%s.dstream", zoneTempDir, pkginst); echoDebug(DBG_CONVERTING_PKG, packageDir, pkginst, zoneStreamName); /* set up list of packages to be this package only */ pkgs[0] = pkginst; pkgs[1] = (char *)NULL; n = pkgtrans(packageDir, zoneStreamName, pkgs, PT_SILENT|PT_ODTSTREAM); if (n != 0) { progerr(ERR_CANNOT_CONVERT_PKGSTRM, pkginst, packageDir, zoneStreamName); quit(1); } npkgs--; } npkgs = savenpkgs; } /* * Phase I - run collect dependency information for all packages for all * zones - this involves running pkginstall with the "preinstallcheck" * option which causes all dependency checks to be performed without * actually doing the installation of the packages. This information is * gathered in the zone temporary directory and is used later to present * the dependency check results to the system administrator depending * on the administration settings. */ for (i = 0; (pkginst = a_pkgList[i]) != NULL; i++) { /* reset interrupted flag before calling pkginstall */ interrupted = 0; /* last action was NOT quit */ /* * if this package is marked "install in this zone only", then * do not check dependencies in any other zone */ if (pkgPackageIsThisZone(pkginst) == B_TRUE) { echoDebug(DBG_VERIFY_SKIP_THISZONE, pkginst); npkgs--; continue; } /* * if operation failed in global zone do not propagate * to any non-global zones */ if (interrupted != 0) { echo(MSG_CHECKINSTALL_INTERRUPT_B4_Z, pkginst); echoDebug(MSG_CHECKINSTALL_INTERRUPT_B4_Z, pkginst); break; } echoDebug(DBG_INSTALL_FLAG_VALUES, "after pkginstall", admnflag, doreboot, failflag, interrupted, intrflag, ireboot, needconsult, nullflag, warnflag); /* * call pkginstall to verify this package for all non-global * zones that are currently booted */ zonesSkipped = pkginstall_check_in_zones(a_zlst, a_idsName, a_altBinDir, admnfile, zoneTempDir); /* * if any zones were skipped (becuase they are not currently * booted), boot each zone one at a time and call pkginstall * to verify this package for each such non-global zone */ if (zonesSkipped > 0) { echoDebug(DBG_ZONES_SKIPPED, zonesSkipped); zonesSkipped = boot_and_pkginstall_check_in_zones(a_zlst, a_idsName, a_altBinDir, admnfile, zoneTempDir); if (zonesSkipped > 0) { progerr(ERR_INSTALL_ZONES_SKIPPED, zonesSkipped); } } npkgs--; } /* * At this point, all of the dependency information has been gathered * and is ready to be analyzed. This function processes all of that * dependency information and presents the results to the system * administrator, depending on the current administration settings. */ i = preinstall_verify(a_pkgList, a_zlst, zoneTempDir); if (i != 0) { /* dependency checks failed - exit */ quit(i); } npkgs = savenpkgs; /* * reset all error return condition variables that may have been * set during package installation dependency checking so that they * do not reflect on the success/failure of the actual package * installation operations */ resetreturn(); /* * At this point, all of the dependency checking is completed, and * the installation of the packages can proceed. Install each package * one at a time, starting with the global zone, and the for each * non-global zone that is booted, and then for each non-global zone * that is not currently booted. */ globalPresent = z_on_zone_spec(GLOBAL_ZONENAME); for (i = 0; (pkginst = a_pkgList[i]) != NULL; i++) { /* * if immediate reboot required from last package and this is * not 'pkgask' then suspend installation of remaining packages */ if ((ireboot != 0) && (askflag == 0)) { ptext(stderr, MSG_SUSPEND_ADD, pkginst); continue; } /* * handle interrupt if the previous pkginstall was interrupted */ if (continue_installation() == B_FALSE) { return (B_FALSE); } /* * if pkgask, handle response file creation: * - if the response file is a directory, then create a path to * -- a package instance within the response file directory. * - If the response file is NOT a directory, if more than one * -- package is to be installed. */ if ((askflag != 0) && (respdir != (char *)NULL)) { (void) snprintf(respfile_path, sizeof (respfile_path), "%s/%s", respdir, pkginst); respfile = respfile_path; } echo(MSG_PROC_INST, pkginst, a_device); /* * If we're installing another package in the same * session, the second through nth pkginstall, must * continue from where the prior one left off. For this * reason, the continuation feature (implied by the * nature of the command) is used for the remaining * packages. */ if ((i == 1) && (pkgdrtarg != (char *)NULL)) { pkgcontsrc = pkgdrtarg; } if (globalPresent) { /* * call pkginstall for this package for the global zone */ echo(MSG_INSTALLING_PKG_IN_GZ, pkginst); /* reset interrupted flag before calling pkginstall */ interrupted = 0; /* last action was NOT quit */ n = pkgInstall(get_inst_root(), NULL, packageDir, a_altBinDir); /* set success/fail condition variables */ ckreturn(n); /* * if operation failed in global zone do not propagate * to any non-global zones */ if (interrupted != 0) { echo(MSG_INSTALL_INTERRUPT_B4_ZONES, pkginst); echoDebug(MSG_INSTALL_INTERRUPT_B4_ZONES, pkginst); break; } } /* * if this package is marked "install in this zone only", * then only need to install the package in the global zone; * skip installation in any non-global zones. */ if (pkgPackageIsThisZone(pkginst) == B_TRUE) { echoDebug(DBG_INSTALL_SKIP_THISZONE, pkginst); npkgs--; continue; } echoDebug(DBG_INSTALL_FLAG_VALUES, "install in running zones", admnflag, doreboot, failflag, interrupted, intrflag, ireboot, needconsult, nullflag, warnflag); /* install package in currently booted zones */ zonesSkipped = install_in_zones(a_zlst, a_idsName, a_altBinDir, zoneAdminFile, zoneTempDir); /* install package in zones that are not currently booted */ if (zonesSkipped > 0) { echoDebug(DBG_ZONES_SKIPPED, zonesSkipped); zonesSkipped = boot_and_install_in_zones(a_zlst, a_idsName, a_altBinDir, zoneAdminFile, zoneTempDir); if (zonesSkipped > 0) { progerr(ERR_INSTALL_ZONES_SKIPPED, zonesSkipped); } } /* * package completely installed - remove any temporary stream * of the package that might have been created */ if (a_idsName == (char *)NULL) { /* locate temporary stream created earlier */ (void) snprintf(zoneStreamName, sizeof (zoneStreamName), "%s/%s.dstream", zoneTempDir, pkginst); /* remove stream - no longer needed */ echoDebug(DBG_REMOVING_DSTREAM_PKGDIR, zoneStreamName, pkginst); (void) remove(zoneStreamName); } else { /* remove package - no longer needed */ if (snprintf(instdir, sizeof (instdir), "%s/%s", zoneTempDir, pkginst) >= PATH_MAX) { progerr(ERR_CANNOT_CREATE_PKGPATH, tmpdir); quit(1); } echoDebug(DBG_REMOVING_PKG_TMPDIR, instdir, pkginst); (void) remove(instdir); } /* decrement number of packages left to install */ npkgs--; /* * if no packages left to install, unmount package source * device if appropriate */ if ((npkgs <= 0) && (pkgdev.mount || a_idsName)) { (void) chdir("/"); if (!a_idsName) { echoDebug(DBG_UNMOUNTING_DEV, PSTR(pkgdev.mount)); (void) pkgumount(&pkgdev); } } } /* * all packages in the package list have been installed. * Continue with installation if: * -- immediate reboot is NOT required * -- there are more packages to install * -- the package source is a path to a file * else return do NOT continue. */ if ((ireboot == 0) && (a_repeat != 0) && (pkgdev.pathname == (char *)NULL)) { return (B_TRUE); } /* return 'dont continue' */ return (B_FALSE); } /* * Function: add_packages_in_nonglobal_zone * Description: call this function to add a list of packages in a non-global * zone * returns: * B_TRUE to process next data stream * B_FALSE to exit */ static boolean_t add_packages_in_nonglobal_zone(char **a_pkgList, char *a_idsName, int a_repeat, char *a_altBinDir, char *a_device) { static char *zoneTempDir = (char *)NULL; char *packageDir; char respfile_path[PATH_MAX]; int i; int n; boolean_t b; int savenpkgs = npkgs; /* entry assertions */ assert(a_pkgList != (char **)NULL); /* entry debugging info */ echoDebug(DBG_ADDPACKAGES_LZ_ENTRY); echoDebug(DBG_ADDPACKAGES_LZ_ARGS, npkgs, PSTR(a_idsName), a_repeat, PSTR(a_device)); /* create temporary directory for use by zone operations */ create_zone_tempdir(&zoneTempDir, tmpdir); /* * package can be in a number of formats: * - file containing package stream (pkgadd -d file [pkgs]) * - directory containing packages (pkgadd -d /dir [pkgs]) * - device containing packages (pkgadd -d diskette1 [pkgs]) * non-global zones can be passed open file drescriptors and * strings as arguments * - for file containing package stream * -- the stream can be passed directly to the non-global zone * - for directory * -- convert packages to datastream to pass to the non-global zone * - for device */ /* determine directory where packages can be found */ if (a_idsName == (char *)NULL) { /* no stream - directory containing packages provided */ packageDir = pkgdev.dirname; } else { packageDir = zoneTempDir; } b = unpack_and_check_packages(a_pkgList, a_idsName, packageDir); if (b != B_TRUE) { quit(1); } /* * this is the main loop where all of the packages (as listed in the * package list) are added one at a time. */ for (i = 0; (pkginst = a_pkgList[i]) != NULL; i++) { npkgs--; } npkgs = savenpkgs; /* * this is the main loop where all of the packages (as listed in the * package list) are added one at a time. */ for (i = 0; (pkginst = a_pkgList[i]) != NULL; i++) { /* * if immediate reboot required from last package and this is * not 'pkgask' then suspend installation of remaining packages */ if ((ireboot != 0) && (askflag == 0)) { ptext(stderr, MSG_SUSPEND_ADD, pkginst); continue; } /* * handle interrupt if the previous pkginstall was interrupted */ if (continue_installation() == B_FALSE) { return (B_FALSE); } /* * if pkgask, handle response file creation: * - if the response file is a directory, then create a path to * -- a package instance within the response file directory. * - If the response file is NOT a directory, if more than one * -- package is to be installed. */ if ((askflag != 0) && (respdir != (char *)NULL)) { (void) snprintf(respfile_path, sizeof (respfile_path), "%s/%s", respdir, pkginst); respfile = respfile_path; } echo(MSG_PROC_INST, pkginst, a_device); /* * If we're installing another package in the same * session, the second through nth pkginstall, must * continue from where the prior one left off. For this * reason, the continuation feature (implied by the * nature of the command) is used for the remaining * packages. */ if ((i == 1) && (pkgdrtarg != (char *)NULL)) { pkgcontsrc = pkgdrtarg; } /* reset interrupted flag before calling pkginstall */ interrupted = 0; /* last action was NOT quit */ /* call pkginstall for this package */ n = pkgInstall(get_inst_root(), NULL, packageDir, a_altBinDir); /* set success/fail condition variables */ ckreturn(n); /* decrement number of packages left to install */ npkgs--; /* * if no packages left to install, unmount package source * device if appropriate */ if ((npkgs <= 0) && (pkgdev.mount || a_idsName)) { (void) chdir("/"); if (!a_idsName) { (void) pkgumount(&pkgdev); } } } /* * all packages in the package list have been installed. * Continue with installation if: * -- immediate reboot is NOT required * -- there are more packages to install * -- the package source is a path to a file * else return do NOT continue. */ if ((ireboot == 0) && (a_repeat != 0) && (pkgdev.pathname == (char *)NULL)) { return (B_TRUE); } /* return 'dont continue' */ return (B_FALSE); } /* * Function: add_packages_in_global_no_zones * Description: call this function to add a list of packages in the global zone * when no non-global zones exist * returns: * B_TRUE to process next data stream * B_FALSE to exit */ static boolean_t add_packages_in_global_no_zones(char **a_pkgList, char *a_idsName, int a_repeat, char *a_altBinDir, char *a_device) { int n; int i; char respfile_path[PATH_MAX]; CAF_T flags = 0; /* entry assertions */ assert(a_pkgList != (char **)NULL); echoDebug(DBG_ADDPACKAGES_GZ_NO_LZ_ENTRY); echoDebug(DBG_ADDPACKAGES_GZ_NO_LZ_ARGS, npkgs, PSTR(a_idsName), a_repeat, PSTR(a_device)); /* * set flags for applicability check */ /* in the global zone */ flags |= CAF_IN_GLOBAL_ZONE; /* set -G flag */ if (globalZoneOnly == B_TRUE) { flags |= CAF_SCOPE_GLOBAL; } /* * this is the main loop where all of the packages (as listed in the * package list) are added one at a time. */ for (i = 0; (pkginst = a_pkgList[i]) != NULL; i++) { /* * if immediate reboot required from last package and this is * not 'pkgask' then suspend installation of remaining packages */ if ((ireboot != 0) && (askflag == 0)) { ptext(stderr, MSG_SUSPEND_ADD, pkginst); continue; } /* * handle interrupt if the previous pkginstall was interrupted */ if (continue_installation() == B_FALSE) { return (B_FALSE); } /* * check package applicability to install in this context */ if (check_applicability(pkgdev.dirname, pkginst, get_inst_root(), flags) == B_FALSE) { progerr(ERR_PKG_NOT_APPLICABLE, pkginst); quit(1); } /* * if pkgask, handle response file creation: * - if the response file is a directory, then create a path to * -- a package instance within the response file directory. * - If the response file is NOT a directory, if more than one * -- package is to be installed. */ if ((askflag != 0) && (respdir != (char *)NULL)) { (void) snprintf(respfile_path, sizeof (respfile_path), "%s/%s", respdir, pkginst); respfile = respfile_path; } echo(MSG_PROC_INST, pkginst, a_device); /* * If we're installing another package in the same * session, the second through nth pkginstall, must * continue from where the prior one left off. For this * reason, the continuation feature (implied by the * nature of the command) is used for the remaining * packages. */ if ((i == 1) && (pkgdrtarg != (char *)NULL)) { pkgcontsrc = pkgdrtarg; } /* reset interrupted flag before calling pkginstall */ interrupted = 0; /* last action was NOT quit */ /* call pkginstall for this package */ n = pkgInstall(get_inst_root(), a_idsName, pkgdev.dirname, a_altBinDir); /* set success/fail condition variables */ ckreturn(n); /* decrement number of packages left to install */ npkgs--; /* * if no packages left to install, unmount package source * device if appropriate */ if ((npkgs <= 0) && (pkgdev.mount || a_idsName)) { (void) chdir("/"); if (!a_idsName) { (void) pkgumount(&pkgdev); } } } /* * all packages in the package list have been installed. * Continue with installation if: * -- immediate reboot is NOT required * -- there are more packages to install * -- the package source is a path to a file * else return do NOT continue. */ if ((ireboot == 0) && (a_repeat != 0) && (pkgdev.pathname == (char *)NULL)) { return (B_TRUE); } /* return 'dont continue' */ return (B_FALSE); } /* * returns: * B_TRUE to process next data stream * B_FALSE to exit */ static boolean_t add_packages(char **a_pkgList, char *a_idsName, int a_repeat, char *a_altBinDir, char *a_device, boolean_t a_noZones) { zoneList_t zlst; boolean_t b; /* entry assertions */ assert(a_pkgList != (char **)NULL); echoDebug(DBG_ADDPACKAGES_ENTRY); echoDebug(DBG_ADDPACKAGES_ARGS, npkgs, PSTR(a_idsName), a_repeat, PSTR(a_altBinDir), PSTR(a_device)); /* * if running in the global zone AND one or more non-global * zones exist, add packages in a 'zones aware' manner, else * add packages in the standard 'non-zones aware' manner. */ if ((a_noZones == B_FALSE) && (z_running_in_global_zone() == B_FALSE)) { /* in non-global zone */ echoDebug(DBG_IN_LZ); b = z_lock_this_zone(ZLOCKS_PKG_ADMIN); if (b != B_TRUE) { progerr(ERR_CANNOT_LOCK_THIS_ZONE); /* set fatal error return condition */ ckreturn(1); return (B_FALSE); } b = add_packages_in_nonglobal_zone(a_pkgList, a_idsName, a_repeat, a_altBinDir, a_device); (void) z_unlock_this_zone(ZLOCKS_ALL); return (B_FALSE); } /* running in the global zone */ b = z_non_global_zones_exist(); if ((a_noZones == B_FALSE) && (b == B_TRUE) && (globalZoneOnly == B_FALSE)) { echoDebug(DBG_IN_GZ_WITH_LZ); /* error if -V specified - what to use in non-global zone? */ if (vfstab_file) { progerr(ERR_V_USED_WITH_GZS); quit(1); } /* get a list of all non-global zones */ zlst = z_get_nonglobal_zone_list(); if (zlst == (zoneList_t)NULL) { progerr(ERR_CANNOT_GET_ZONE_LIST); quit(1); } /* need to lock all of the zones */ quitSetZonelist(zlst); b = z_lock_zones(zlst, ZLOCKS_PKG_ADMIN); if (b == B_FALSE) { z_free_zone_list(zlst); progerr(ERR_CANNOT_LOCK_ZONES); /* set fatal error return condition */ ckreturn(1); return (B_FALSE); } /* add packages to all zones */ b = add_packages_in_global_with_zones(a_pkgList, a_idsName, a_repeat, a_altBinDir, a_device, zlst); /* unlock all zones */ (void) z_unlock_zones(zlst, ZLOCKS_ALL); quitSetZonelist((zoneList_t)NULL); /* free list of all non-global zones */ z_free_zone_list(zlst); return (B_FALSE); } /* in global zone no non-global zones */ echoDebug(DBG_IN_GZ_NO_LZ); b = z_lock_this_zone(ZLOCKS_PKG_ADMIN); if (b != B_TRUE) { progerr(ERR_CANNOT_LOCK_THIS_ZONE); /* set fatal error return condition */ ckreturn(1); return (B_FALSE); } b = add_packages_in_global_no_zones(a_pkgList, a_idsName, a_repeat, a_altBinDir, a_device); (void) z_unlock_this_zone(ZLOCKS_ALL); return (B_FALSE); }