/* Example showing how to create a disk image. */ #include #include #include #include #include #include int main (int argc, char *argv[]) { guestfs_h *g; size_t i; g = guestfs_create (); if (g == NULL) { perror ("failed to create libguestfs handle"); exit (EXIT_FAILURE); } /* Create a raw-format sparse disk image, 512 MB in size. */ int fd = open ("disk.img", O_CREAT|O_WRONLY|O_TRUNC|O_NOCTTY, 0666); if (fd == -1) { perror ("disk.img"); exit (EXIT_FAILURE); } if (ftruncate (fd, 512 * 1024 * 1024) == -1) { perror ("disk.img: truncate"); exit (EXIT_FAILURE); } if (close (fd) == -1) { perror ("disk.img: close"); exit (EXIT_FAILURE); } /* Set the trace flag so that we can see each libguestfs call. */ guestfs_set_trace (g, 1); /* Set the autosync flag so that the disk will be synchronized * automatically when the libguestfs handle is closed. */ guestfs_set_autosync (g, 1); /* Add the disk image to libguestfs. */ if (guestfs_add_drive_opts (g, "disk.img", GUESTFS_ADD_DRIVE_OPTS_FORMAT, "raw", /* raw format */ GUESTFS_ADD_DRIVE_OPTS_READONLY, 0, /* for write */ -1) /* this marks end of optional arguments */ == -1) exit (EXIT_FAILURE); /* Run the libguestfs back-end. */ if (guestfs_launch (g) == -1) exit (EXIT_FAILURE); /* Get the list of devices. Because we only added one drive * above, we expect that this list should contain a single * element. */ char **devices = guestfs_list_devices (g); if (devices == NULL) exit (EXIT_FAILURE); if (devices[0] == NULL || devices[1] != NULL) { fprintf (stderr, "error: expected a single device from list-devices\n"); exit (EXIT_FAILURE); } /* Partition the disk as one single MBR partition. */ if (guestfs_part_disk (g, devices[0], "mbr") == -1) exit (EXIT_FAILURE); /* Get the list of partitions. We expect a single element, which * is the partition we have just created. */ char **partitions = guestfs_list_partitions (g); if (partitions == NULL) exit (EXIT_FAILURE); if (partitions[0] == NULL || partitions[1] != NULL) { fprintf (stderr, "error: expected a single partition from list-partitions\n"); exit (EXIT_FAILURE); } /* Create a filesystem on the partition. */ if (guestfs_mkfs (g, "ext4", partitions[0]) == -1) exit (EXIT_FAILURE); /* Now mount the filesystem so that we can add files. */ if (guestfs_mount_options (g, "", partitions[0], "/") == -1) exit (EXIT_FAILURE); /* Create some files and directories. */ if (guestfs_touch (g, "/empty") == -1) exit (EXIT_FAILURE); const char *message = "Hello, world\n"; if (guestfs_write (g, "/hello", message, strlen (message)) == -1) exit (EXIT_FAILURE); if (guestfs_mkdir (g, "/foo") == -1) exit (EXIT_FAILURE); /* This one uploads the local file /etc/resolv.conf into * the disk image. */ if (guestfs_upload (g, "/etc/resolv.conf", "/foo/resolv.conf") == -1) exit (EXIT_FAILURE); /* Because 'autosync' was set (above) we can just close the handle * and the disk contents will be synchronized. You can also do * this manually by calling guestfs_umount_all and guestfs_sync. */ guestfs_close (g); /* Free up the lists. */ for (i = 0; devices[i] != NULL; ++i) free (devices[i]); free (devices); for (i = 0; partitions[i] != NULL; ++i) free (partitions[i]); free (partitions); exit (EXIT_SUCCESS); }