/* libguestfs * Copyright (C) 2010-2011 Red Hat Inc. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include #include #include #include #include #include #include #include #include #include #include #ifdef HAVE_PCRE #include #endif #ifdef HAVE_HIVEX #include #endif #include "c-ctype.h" #include "ignore-value.h" #include "xstrtol.h" #include "guestfs.h" #include "guestfs-internal.h" #include "guestfs-internal-actions.h" #include "guestfs_protocol.h" #if defined(HAVE_PCRE) && defined(HAVE_HIVEX) /* Compile all the regular expressions once when the shared library is * loaded. PCRE is thread safe so we're supposedly OK here if * multiple threads call into the libguestfs API functions below * simultaneously. */ static pcre *re_fedora; static pcre *re_rhel_old; static pcre *re_rhel; static pcre *re_rhel_no_minor; static pcre *re_centos_old; static pcre *re_centos; static pcre *re_centos_no_minor; static pcre *re_scientific_linux_old; static pcre *re_scientific_linux; static pcre *re_scientific_linux_no_minor; static pcre *re_major_minor; static pcre *re_aug_seq; static pcre *re_xdev; static pcre *re_first_partition; static pcre *re_freebsd; static void compile_regexps (void) __attribute__((constructor)); static void free_regexps (void) __attribute__((destructor)); static void compile_regexps (void) { const char *err; int offset; #define COMPILE(re,pattern,options) \ do { \ re = pcre_compile ((pattern), (options), &err, &offset, NULL); \ if (re == NULL) { \ ignore_value (write (2, err, strlen (err))); \ abort (); \ } \ } while (0) COMPILE (re_fedora, "Fedora release (\\d+)", 0); COMPILE (re_rhel_old, "Red Hat.*release (\\d+).*Update (\\d+)", 0); COMPILE (re_rhel, "Red Hat.*release (\\d+)\\.(\\d+)", 0); COMPILE (re_rhel_no_minor, "Red Hat.*release (\\d+)", 0); COMPILE (re_centos_old, "CentOS.*release (\\d+).*Update (\\d+)", 0); COMPILE (re_centos, "CentOS.*release (\\d+)\\.(\\d+)", 0); COMPILE (re_centos_no_minor, "CentOS.*release (\\d+)", 0); COMPILE (re_scientific_linux_old, "Scientific Linux.*release (\\d+).*Update (\\d+)", 0); COMPILE (re_scientific_linux, "Scientific Linux.*release (\\d+)\\.(\\d+)", 0); COMPILE (re_scientific_linux_no_minor, "Scientific Linux.*release (\\d+)", 0); COMPILE (re_major_minor, "(\\d+)\\.(\\d+)", 0); COMPILE (re_aug_seq, "/\\d+$", 0); COMPILE (re_xdev, "^/dev/(?:h|s|v|xv)d([a-z]\\d*)$", 0); COMPILE (re_freebsd, "^/dev/ad(\\d+)s(\\d+)([a-z])$", 0); } static void free_regexps (void) { pcre_free (re_fedora); pcre_free (re_rhel_old); pcre_free (re_rhel); pcre_free (re_rhel_no_minor); pcre_free (re_centos_old); pcre_free (re_centos); pcre_free (re_centos_no_minor); pcre_free (re_scientific_linux_old); pcre_free (re_scientific_linux); pcre_free (re_scientific_linux_no_minor); pcre_free (re_major_minor); pcre_free (re_aug_seq); pcre_free (re_xdev); pcre_free (re_freebsd); } static void check_architecture (guestfs_h *g, struct inspect_fs *fs); static int check_hostname_unix (guestfs_h *g, struct inspect_fs *fs); static int check_hostname_redhat (guestfs_h *g, struct inspect_fs *fs); static int check_hostname_freebsd (guestfs_h *g, struct inspect_fs *fs); static int check_fstab (guestfs_h *g, struct inspect_fs *fs); static int add_fstab_entry (guestfs_h *g, struct inspect_fs *fs, const char *spec, const char *mp); static char *resolve_fstab_device (guestfs_h *g, const char *spec); static int inspect_with_augeas (guestfs_h *g, struct inspect_fs *fs, const char *filename, int (*f) (guestfs_h *, struct inspect_fs *)); /* Set fs->product_name to the first line of the release file. */ static int parse_release_file (guestfs_h *g, struct inspect_fs *fs, const char *release_filename) { fs->product_name = guestfs___first_line_of_file (g, release_filename); if (fs->product_name == NULL) return -1; return 0; } /* Ubuntu has /etc/lsb-release containing: * DISTRIB_ID=Ubuntu # Distro * DISTRIB_RELEASE=10.04 # Version * DISTRIB_CODENAME=lucid * DISTRIB_DESCRIPTION="Ubuntu 10.04.1 LTS" # Product name * * [Ubuntu-derived ...] Linux Mint was found to have this: * DISTRIB_ID=LinuxMint * DISTRIB_RELEASE=10 * DISTRIB_CODENAME=julia * DISTRIB_DESCRIPTION="Linux Mint 10 Julia" * Linux Mint also has /etc/linuxmint/info with more information, * but we can use the LSB file. * * Mandriva has: * LSB_VERSION=lsb-4.0-amd64:lsb-4.0-noarch * DISTRIB_ID=MandrivaLinux * DISTRIB_RELEASE=2010.1 * DISTRIB_CODENAME=Henry_Farman * DISTRIB_DESCRIPTION="Mandriva Linux 2010.1" * Mandriva also has a normal release file called /etc/mandriva-release. */ static int parse_lsb_release (guestfs_h *g, struct inspect_fs *fs) { const char *filename = "/etc/lsb-release"; int64_t size; char **lines; size_t i; int r = 0; /* Don't trust guestfs_head_n not to break with very large files. * Check the file size is something reasonable first. */ size = guestfs_filesize (g, filename); if (size == -1) /* guestfs_filesize failed and has already set error in handle */ return -1; if (size > MAX_SMALL_FILE_SIZE) { error (g, _("size of %s is unreasonably large (%" PRIi64 " bytes)"), filename, size); return -1; } lines = guestfs_head_n (g, 10, filename); if (lines == NULL) return -1; for (i = 0; lines[i] != NULL; ++i) { if (fs->distro == 0 && STREQ (lines[i], "DISTRIB_ID=Ubuntu")) { fs->distro = OS_DISTRO_UBUNTU; r = 1; } else if (fs->distro == 0 && STREQ (lines[i], "DISTRIB_ID=LinuxMint")) { fs->distro = OS_DISTRO_LINUX_MINT; r = 1; } else if (fs->distro == 0 && STREQ (lines[i], "DISTRIB_ID=MandrivaLinux")) { fs->distro = OS_DISTRO_MANDRIVA; r = 1; } else if (STRPREFIX (lines[i], "DISTRIB_RELEASE=")) { char *major, *minor; if (match2 (g, &lines[i][16], re_major_minor, &major, &minor)) { fs->major_version = guestfs___parse_unsigned_int (g, major); free (major); if (fs->major_version == -1) { free (minor); guestfs___free_string_list (lines); return -1; } fs->minor_version = guestfs___parse_unsigned_int (g, minor); free (minor); if (fs->minor_version == -1) { guestfs___free_string_list (lines); return -1; } } } else if (fs->product_name == NULL && (STRPREFIX (lines[i], "DISTRIB_DESCRIPTION=\"") || STRPREFIX (lines[i], "DISTRIB_DESCRIPTION='"))) { size_t len = strlen (lines[i]) - 21 - 1; fs->product_name = safe_strndup (g, &lines[i][21], len); r = 1; } else if (fs->product_name == NULL && STRPREFIX (lines[i], "DISTRIB_DESCRIPTION=")) { size_t len = strlen (lines[i]) - 20; fs->product_name = safe_strndup (g, &lines[i][20], len); r = 1; } } guestfs___free_string_list (lines); return r; } /* The currently mounted device is known to be a Linux root. Try to * determine from this the distro, version, etc. Also parse * /etc/fstab to determine the arrangement of mountpoints and * associated devices. */ int guestfs___check_linux_root (guestfs_h *g, struct inspect_fs *fs) { int r; fs->type = OS_TYPE_LINUX; if (guestfs_exists (g, "/etc/lsb-release") > 0) { r = parse_lsb_release (g, fs); if (r == -1) /* error */ return -1; if (r == 1) /* ok - detected the release from this file */ goto skip_release_checks; } if (guestfs_exists (g, "/etc/redhat-release") > 0) { fs->distro = OS_DISTRO_REDHAT_BASED; /* Something generic Red Hat-like. */ if (parse_release_file (g, fs, "/etc/redhat-release") == -1) return -1; char *major, *minor; if ((major = match1 (g, fs->product_name, re_fedora)) != NULL) { fs->distro = OS_DISTRO_FEDORA; fs->major_version = guestfs___parse_unsigned_int (g, major); free (major); if (fs->major_version == -1) return -1; } else if (match2 (g, fs->product_name, re_rhel_old, &major, &minor) || match2 (g, fs->product_name, re_rhel, &major, &minor)) { fs->distro = OS_DISTRO_RHEL; fs->major_version = guestfs___parse_unsigned_int (g, major); free (major); if (fs->major_version == -1) { free (minor); return -1; } fs->minor_version = guestfs___parse_unsigned_int (g, minor); free (minor); if (fs->minor_version == -1) return -1; } else if ((major = match1 (g, fs->product_name, re_rhel_no_minor)) != NULL) { fs->distro = OS_DISTRO_RHEL; fs->major_version = guestfs___parse_unsigned_int (g, major); free (major); if (fs->major_version == -1) return -1; fs->minor_version = 0; } else if (match2 (g, fs->product_name, re_centos_old, &major, &minor) || match2 (g, fs->product_name, re_centos, &major, &minor)) { fs->distro = OS_DISTRO_CENTOS; fs->major_version = guestfs___parse_unsigned_int (g, major); free (major); if (fs->major_version == -1) { free (minor); return -1; } fs->minor_version = guestfs___parse_unsigned_int (g, minor); free (minor); if (fs->minor_version == -1) return -1; } else if ((major = match1 (g, fs->product_name, re_centos_no_minor)) != NULL) { fs->distro = OS_DISTRO_CENTOS; fs->major_version = guestfs___parse_unsigned_int (g, major); free (major); if (fs->major_version == -1) return -1; fs->minor_version = 0; } else if (match2 (g, fs->product_name, re_scientific_linux_old, &major, &minor) || match2 (g, fs->product_name, re_scientific_linux, &major, &minor)) { fs->distro = OS_DISTRO_SCIENTIFIC_LINUX; fs->major_version = guestfs___parse_unsigned_int (g, major); free (major); if (fs->major_version == -1) { free (minor); return -1; } fs->minor_version = guestfs___parse_unsigned_int (g, minor); free (minor); if (fs->minor_version == -1) return -1; } else if ((major = match1 (g, fs->product_name, re_scientific_linux_no_minor)) != NULL) { fs->distro = OS_DISTRO_SCIENTIFIC_LINUX; fs->major_version = guestfs___parse_unsigned_int (g, major); free (major); if (fs->major_version == -1) return -1; fs->minor_version = 0; } } else if (guestfs_exists (g, "/etc/debian_version") > 0) { fs->distro = OS_DISTRO_DEBIAN; if (parse_release_file (g, fs, "/etc/debian_version") == -1) return -1; if (guestfs___parse_major_minor (g, fs) == -1) return -1; } else if (guestfs_exists (g, "/etc/pardus-release") > 0) { fs->distro = OS_DISTRO_PARDUS; if (parse_release_file (g, fs, "/etc/pardus-release") == -1) return -1; if (guestfs___parse_major_minor (g, fs) == -1) return -1; } else if (guestfs_exists (g, "/etc/arch-release") > 0) { fs->distro = OS_DISTRO_ARCHLINUX; /* /etc/arch-release file is empty and I can't see a way to * determine the actual release or product string. */ } else if (guestfs_exists (g, "/etc/gentoo-release") > 0) { fs->distro = OS_DISTRO_GENTOO; if (parse_release_file (g, fs, "/etc/gentoo-release") == -1) return -1; if (guestfs___parse_major_minor (g, fs) == -1) return -1; } else if (guestfs_exists (g, "/etc/meego-release") > 0) { fs->distro = OS_DISTRO_MEEGO; if (parse_release_file (g, fs, "/etc/meego-release") == -1) return -1; if (guestfs___parse_major_minor (g, fs) == -1) return -1; } else if (guestfs_exists (g, "/etc/slackware-version") > 0) { fs->distro = OS_DISTRO_SLACKWARE; if (parse_release_file (g, fs, "/etc/slackware-version") == -1) return -1; if (guestfs___parse_major_minor (g, fs) == -1) return -1; } skip_release_checks:; /* Determine the architecture. */ check_architecture (g, fs); /* We already know /etc/fstab exists because it's part of the test * for Linux root above. We must now parse this file to determine * which filesystems are used by the operating system and how they * are mounted. */ if (inspect_with_augeas (g, fs, "/etc/fstab", check_fstab) == -1) return -1; /* Determine hostname. */ if (check_hostname_unix (g, fs) == -1) return -1; return 0; } /* The currently mounted device is known to be a FreeBSD root. */ int guestfs___check_freebsd_root (guestfs_h *g, struct inspect_fs *fs) { fs->type = OS_TYPE_FREEBSD; /* FreeBSD has no authoritative version file. The version number is * in /etc/motd, which the system administrator might edit, but * we'll use that anyway. */ if (guestfs_exists (g, "/etc/motd") > 0) { if (parse_release_file (g, fs, "/etc/motd") == -1) return -1; if (guestfs___parse_major_minor (g, fs) == -1) return -1; } /* Determine the architecture. */ check_architecture (g, fs); /* We already know /etc/fstab exists because it's part of the test above. */ if (inspect_with_augeas (g, fs, "/etc/fstab", check_fstab) == -1) return -1; /* Determine hostname. */ if (check_hostname_unix (g, fs) == -1) return -1; return 0; } static void check_architecture (guestfs_h *g, struct inspect_fs *fs) { const char *binaries[] = { "/bin/bash", "/bin/ls", "/bin/echo", "/bin/rm", "/bin/sh" }; size_t i; for (i = 0; i < sizeof binaries / sizeof binaries[0]; ++i) { if (guestfs_is_file (g, binaries[i]) > 0) { /* Ignore errors from file_architecture call. */ guestfs_error_handler_cb old_error_cb = g->error_cb; g->error_cb = NULL; char *arch = guestfs_file_architecture (g, binaries[i]); g->error_cb = old_error_cb; if (arch) { /* String will be owned by handle, freed by * guestfs___free_inspect_info. */ fs->arch = arch; break; } } } } /* Try several methods to determine the hostname from a Linux or * FreeBSD guest. Note that type and distro have been set, so we can * use that information to direct the search. */ static int check_hostname_unix (guestfs_h *g, struct inspect_fs *fs) { switch (fs->type) { case OS_TYPE_LINUX: /* Red Hat-derived would be in /etc/sysconfig/network, and * Debian-derived in the file /etc/hostname. Very old Debian and * SUSE use /etc/HOSTNAME. It's best to just look for each of * these files in turn, rather than try anything clever based on * distro. */ if (guestfs_is_file (g, "/etc/HOSTNAME")) { fs->hostname = guestfs___first_line_of_file (g, "/etc/HOSTNAME"); if (fs->hostname == NULL) return -1; } else if (guestfs_is_file (g, "/etc/hostname")) { fs->hostname = guestfs___first_line_of_file (g, "/etc/hostname"); if (fs->hostname == NULL) return -1; } else if (guestfs_is_file (g, "/etc/sysconfig/network")) { if (inspect_with_augeas (g, fs, "/etc/sysconfig/network", check_hostname_redhat) == -1) return -1; } break; case OS_TYPE_FREEBSD: /* /etc/rc.conf contains the hostname, but there is no Augeas lens * for this file. */ if (guestfs_is_file (g, "/etc/rc.conf")) { if (check_hostname_freebsd (g, fs) == -1) return -1; } break; case OS_TYPE_WINDOWS: /* not here, see check_windows_system_registry */ case OS_TYPE_UNKNOWN: default: /* nothing, keep GCC warnings happy */; } return 0; } /* Parse the hostname from /etc/sysconfig/network. This must be called * from the inspect_with_augeas wrapper. */ static int check_hostname_redhat (guestfs_h *g, struct inspect_fs *fs) { char *hostname; hostname = guestfs_aug_get (g, "/files/etc/sysconfig/network/HOSTNAME"); if (!hostname) return -1; fs->hostname = hostname; /* freed by guestfs___free_inspect_info */ return 0; } /* Parse the hostname from /etc/rc.conf. On FreeBSD this file * contains comments, blank lines and: * hostname="freebsd8.example.com" * ifconfig_re0="DHCP" * keymap="uk.iso" * sshd_enable="YES" */ static int check_hostname_freebsd (guestfs_h *g, struct inspect_fs *fs) { const char *filename = "/etc/rc.conf"; int64_t size; char **lines; size_t i; /* Don't trust guestfs_read_lines not to break with very large files. * Check the file size is something reasonable first. */ size = guestfs_filesize (g, filename); if (size == -1) /* guestfs_filesize failed and has already set error in handle */ return -1; if (size > MAX_SMALL_FILE_SIZE) { error (g, _("size of %s is unreasonably large (%" PRIi64 " bytes)"), filename, size); return -1; } lines = guestfs_read_lines (g, filename); if (lines == NULL) return -1; for (i = 0; lines[i] != NULL; ++i) { if (STRPREFIX (lines[i], "hostname=\"") || STRPREFIX (lines[i], "hostname='")) { size_t len = strlen (lines[i]) - 10 - 1; fs->hostname = safe_strndup (g, &lines[i][10], len); break; } else if (STRPREFIX (lines[i], "hostname=")) { size_t len = strlen (lines[i]) - 9; fs->hostname = safe_strndup (g, &lines[i][9], len); break; } } guestfs___free_string_list (lines); return 0; } static int check_fstab (guestfs_h *g, struct inspect_fs *fs) { char **lines = guestfs_aug_ls (g, "/files/etc/fstab"); if (lines == NULL) return -1; if (lines[0] == NULL) { error (g, _("could not parse /etc/fstab or empty file")); guestfs___free_string_list (lines); return -1; } size_t i; char augpath[256]; for (i = 0; lines[i] != NULL; ++i) { /* Ignore comments. Only care about sequence lines which * match m{/\d+$}. */ if (match (g, lines[i], re_aug_seq)) { snprintf (augpath, sizeof augpath, "%s/spec", lines[i]); char *spec = guestfs_aug_get (g, augpath); if (spec == NULL) { guestfs___free_string_list (lines); return -1; } snprintf (augpath, sizeof augpath, "%s/file", lines[i]); char *mp = guestfs_aug_get (g, augpath); if (mp == NULL) { guestfs___free_string_list (lines); free (spec); return -1; } int r = add_fstab_entry (g, fs, spec, mp); free (spec); free (mp); if (r == -1) { guestfs___free_string_list (lines); return -1; } } } guestfs___free_string_list (lines); return 0; } /* Add a filesystem and possibly a mountpoint entry for * the root filesystem 'fs'. * * 'spec' is the fstab spec field, which might be a device name or a * pseudodevice or 'UUID=...' or 'LABEL=...'. * * 'mp' is the mount point, which could also be 'swap' or 'none'. */ static int add_fstab_entry (guestfs_h *g, struct inspect_fs *fs, const char *spec, const char *mp) { /* Ignore certain mountpoints. */ if (STRPREFIX (mp, "/dev/") || STREQ (mp, "/dev") || STRPREFIX (mp, "/media/") || STRPREFIX (mp, "/proc/") || STREQ (mp, "/proc") || STRPREFIX (mp, "/selinux/") || STREQ (mp, "/selinux") || STRPREFIX (mp, "/sys/") || STREQ (mp, "/sys")) return 0; /* Ignore /dev/fd (floppy disks) (RHBZ#642929) and CD-ROM drives. */ if ((STRPREFIX (spec, "/dev/fd") && c_isdigit (spec[7])) || STREQ (spec, "/dev/floppy") || STREQ (spec, "/dev/cdrom")) return 0; /* Resolve UUID= and LABEL= to the actual device. */ char *device = NULL; if (STRPREFIX (spec, "UUID=")) device = guestfs_findfs_uuid (g, &spec[5]); else if (STRPREFIX (spec, "LABEL=")) device = guestfs_findfs_label (g, &spec[6]); /* Ignore "/.swap" (Pardus) and pseudo-devices like "tmpfs". */ else if (STRPREFIX (spec, "/dev/")) /* Resolve guest block device names. */ device = resolve_fstab_device (g, spec); /* If we haven't resolved the device successfully by this point, * we don't care, just ignore it. */ if (device == NULL) return 0; char *mountpoint = safe_strdup (g, mp); /* Add this to the fstab entry in 'fs'. * Note these are further filtered by guestfs_inspect_get_mountpoints * and guestfs_inspect_get_filesystems. */ size_t n = fs->nr_fstab + 1; struct inspect_fstab_entry *p; p = realloc (fs->fstab, n * sizeof (struct inspect_fstab_entry)); if (p == NULL) { perrorf (g, "realloc"); free (device); free (mountpoint); return -1; } fs->fstab = p; fs->nr_fstab = n; /* These are owned by the handle and freed by guestfs___free_inspect_info. */ fs->fstab[n-1].device = device; fs->fstab[n-1].mountpoint = mountpoint; debug (g, "fstab: device=%s mountpoint=%s", device, mountpoint); return 0; } /* Resolve block device name to the libguestfs device name, eg. * /dev/xvdb1 => /dev/vdb1; and /dev/mapper/VG-LV => /dev/VG/LV. This * assumes that disks were added in the same order as they appear to * the real VM, which is a reasonable assumption to make. Return * anything we don't recognize unchanged. */ static char * resolve_fstab_device (guestfs_h *g, const char *spec) { char *a1; char *device = NULL; char *bsddisk, *bsdslice, *bsdpart; if (STRPREFIX (spec, "/dev/mapper/")) { /* LVM2 does some strange munging on /dev/mapper paths for VGs and * LVs which contain '-' character: * * > lvcreate LV--test VG--test 32 * > debug ls /dev/mapper * VG----test-LV----test * * This makes it impossible to reverse those paths directly, so * we have implemented lvm_canonical_lv_name in the daemon. */ device = guestfs_lvm_canonical_lv_name (g, spec); } else if ((a1 = match1 (g, spec, re_xdev)) != NULL) { char **devices = guestfs_list_devices (g); if (devices == NULL) return NULL; size_t count; for (count = 0; devices[count] != NULL; count++) ; size_t i = a1[0] - 'a'; /* a1[0] is always [a-z] because of regex. */ if (i < count) { size_t len = strlen (devices[i]) + strlen (a1) + 16; device = safe_malloc (g, len); snprintf (device, len, "%s%s", devices[i], &a1[1]); } free (a1); guestfs___free_string_list (devices); } else if (match3 (g, spec, re_freebsd, &bsddisk, &bsdslice, &bsdpart)) { /* FreeBSD disks are organized quite differently. See: * http://www.freebsd.org/doc/handbook/disk-organization.html * FreeBSD "partitions" are exposed as quasi-extended partitions * numbered from 5 in Linux. I have no idea what happens when you * have multiple "slices" (the FreeBSD term for MBR partitions). */ int disk = guestfs___parse_unsigned_int (g, bsddisk); int slice = guestfs___parse_unsigned_int (g, bsdslice); int part = bsdpart[0] - 'a' /* counting from 0 */; free (bsddisk); free (bsdslice); free (bsdpart); if (disk == -1 || disk > 26 || slice <= 0 || slice > 1 /* > 4 .. see comment above */ || part < 0 || part >= 26) goto out; device = safe_asprintf (g, "/dev/sd%c%d", disk + 'a', part + 5); } out: /* Didn't match device pattern, return original spec unchanged. */ if (device == NULL) device = safe_strdup (g, spec); return device; } /* Call 'f' with Augeas opened and having parsed 'filename' (this file * must exist). As a security measure, this bails if the file is too * large for a reasonable configuration file. After the call to 'f' * Augeas is closed. */ static int inspect_with_augeas (guestfs_h *g, struct inspect_fs *fs, const char *filename, int (*f) (guestfs_h *, struct inspect_fs *)) { /* Security: Refuse to do this if filename is too large. */ int64_t size = guestfs_filesize (g, filename); if (size == -1) /* guestfs_filesize failed and has already set error in handle */ return -1; if (size > MAX_AUGEAS_FILE_SIZE) { error (g, _("size of %s is unreasonably large (%" PRIi64 " bytes)"), filename, size); return -1; } /* If !feature_available (g, "augeas") then the next call will fail. * Arguably we might want to fall back to a non-Augeas method in * this case. */ if (guestfs_aug_init (g, "/", 16|32) == -1) return -1; int r = -1; /* Tell Augeas to only load one file (thanks Raphaƫl Pinson). */ char buf[strlen (filename) + 64]; snprintf (buf, strlen (filename) + 64, "/augeas/load//incl[. != \"%s\"]", filename); if (guestfs_aug_rm (g, buf) == -1) goto out; if (guestfs_aug_load (g) == -1) goto out; r = f (g, fs); out: guestfs_aug_close (g); return r; } #endif /* defined(HAVE_PCRE) && defined(HAVE_HIVEX) */