/*************************************************************************** * * devinfo_storage.c : storage devices * * Copyright 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. * * Licensed under the Academic Free License version 2.1 * **************************************************************************/ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #include #include #include #include #include #include #include "../osspec.h" #include "../logger.h" #include "../hald.h" #include "../hald_dbus.h" #include "../device_info.h" #include "../util.h" #include "../hald_runner.h" #include "hotplug.h" #include "devinfo.h" #include "devinfo_misc.h" #include "devinfo_storage.h" #include "osspec_solaris.h" #ifdef sparc #define WHOLE_DISK "s2" #else #define WHOLE_DISK "p0" #endif /* some devices,especially CDROMs, may take a while to be probed (values in ms) */ #define DEVINFO_PROBE_STORAGE_TIMEOUT 60000 #define DEVINFO_PROBE_VOLUME_TIMEOUT 60000 typedef struct devinfo_storage_minor { char *devpath; char *devlink; char *slice; dev_t dev; int dosnum; /* dos disk number or -1 */ } devinfo_storage_minor_t; HalDevice *devinfo_ide_add(HalDevice *parent, di_node_t node, char *devfs_path, char *device_type); static HalDevice *devinfo_ide_host_add(HalDevice *parent, di_node_t node, char *devfs_path); static HalDevice *devinfo_ide_device_add(HalDevice *parent, di_node_t node, char *devfs_path); static HalDevice *devinfo_ide_storage_add(HalDevice *grampa, HalDevice *parent, di_node_t node, char *devfs_path); HalDevice *devinfo_scsi_add(HalDevice *parent, di_node_t node, char *devfs_path, char *device_type); static HalDevice *devinfo_scsi_storage_add(HalDevice *grampa, HalDevice *parent, di_node_t node, char *devfs_path); HalDevice *devinfo_floppy_add(HalDevice *parent, di_node_t node, char *devfs_path, char *device_type); static void devinfo_floppy_add_volume(HalDevice *parent, di_node_t node); static HalDevice *devinfo_lofi_add(HalDevice *parent, di_node_t node, char *devfs_path, char *device_type); static void devinfo_lofi_add_minor(HalDevice *parent, di_node_t node, char *minor_path, char *devlink, dev_t dev); static int walk_devlinks(di_devlink_t devlink, void *arg); static char *get_devlink(di_devlink_handle_t devlink_hdl, char *path); static void devinfo_storage_minors(HalDevice *parent, di_node_t node, gchar *devfs_path, gboolean); static struct devinfo_storage_minor *devinfo_storage_new_minor(char *maindev_path, char *slice, char *devlink, dev_t dev, int dosnum); static void devinfo_storage_free_minor(struct devinfo_storage_minor *m); HalDevice *devinfo_volume_add(HalDevice *parent, di_node_t node, devinfo_storage_minor_t *m); static void devinfo_volume_preprobing_done(HalDevice *d, gpointer userdata1, gpointer userdata2); static void devinfo_volume_hotplug_begin_add (HalDevice *d, HalDevice *parent, DevinfoDevHandler *handler, void *end_token); static void devinfo_storage_hotplug_begin_add (HalDevice *d, HalDevice *parent, DevinfoDevHandler *handler, void *end_token); static void devinfo_storage_probing_done (HalDevice *d, guint32 exit_type, gint return_code, char **error, gpointer userdata1, gpointer userdata2); const gchar *devinfo_volume_get_prober (HalDevice *d, int *timeout); const gchar *devinfo_storage_get_prober (HalDevice *d, int *timeout); static char *devinfo_scsi_dtype2str(int dtype); static char *devinfo_volume_get_slice_name (char *devlink); static gboolean dos_to_dev(char *path, char **devpath, int *partnum); static gboolean is_dos_path(char *path, int *partnum); static void devinfo_storage_set_nicknames (HalDevice *d); DevinfoDevHandler devinfo_ide_handler = { devinfo_ide_add, NULL, NULL, NULL, NULL, NULL }; DevinfoDevHandler devinfo_scsi_handler = { devinfo_scsi_add, NULL, NULL, NULL, NULL, NULL }; DevinfoDevHandler devinfo_floppy_handler = { devinfo_floppy_add, NULL, NULL, NULL, NULL, NULL }; DevinfoDevHandler devinfo_lofi_handler = { devinfo_lofi_add, NULL, NULL, NULL, NULL, NULL }; DevinfoDevHandler devinfo_storage_handler = { NULL, NULL, devinfo_storage_hotplug_begin_add, NULL, devinfo_storage_probing_done, devinfo_storage_get_prober }; DevinfoDevHandler devinfo_volume_handler = { NULL, NULL, devinfo_volume_hotplug_begin_add, NULL, NULL, devinfo_volume_get_prober }; /* IDE */ HalDevice * devinfo_ide_add(HalDevice *parent, di_node_t node, char *devfs_path, char *device_type) { char *s; if ((device_type != NULL) && (strcmp(device_type, "ide") == 0)) { return (devinfo_ide_host_add(parent, node, devfs_path)); } if ((di_prop_lookup_strings (DDI_DEV_T_ANY, node, "class", &s) > 0) && (strcmp (s, "dada") == 0)) { return (devinfo_ide_device_add(parent, node, devfs_path)); } return (NULL); } static HalDevice * devinfo_ide_host_add(HalDevice *parent, di_node_t node, char *devfs_path) { HalDevice *d; d = hal_device_new (); devinfo_set_default_properties (d, parent, node, devfs_path); hal_device_property_set_string (d, "info.product", "IDE host controller"); hal_device_property_set_string (d, "info.bus", "ide_host"); hal_device_property_set_int (d, "ide_host.number", 0); /* XXX */ devinfo_add_enqueue (d, devfs_path, &devinfo_ide_handler); return (d); } static HalDevice * devinfo_ide_device_add(HalDevice *parent, di_node_t node, char *devfs_path) { HalDevice *d; d = hal_device_new(); devinfo_set_default_properties (d, parent, node, devfs_path); hal_device_property_set_string (parent, "info.product", "IDE device"); hal_device_property_set_string (parent, "info.bus", "ide"); hal_device_property_set_int (parent, "ide.host", 0); /* XXX */ hal_device_property_set_int (parent, "ide.channel", 0); devinfo_add_enqueue (d, devfs_path, &devinfo_ide_handler); return (devinfo_ide_storage_add (parent, d, node, devfs_path)); } static HalDevice * devinfo_ide_storage_add(HalDevice *grampa, HalDevice *parent, di_node_t node, char *devfs_path) { HalDevice *d; char *s; int *i; char *driver_name; char udi[HAL_PATH_MAX]; if ((driver_name = di_driver_name (node)) == NULL) { return (NULL); } d = hal_device_new (); devinfo_set_default_properties (d, parent, node, devfs_path); hal_device_property_set_string (d, "info.category", "storage"); hal_util_compute_udi (hald_get_gdl (), udi, sizeof (udi), "%s/%s%d", parent->udi, driver_name, di_instance (node)); hal_device_set_udi (d, udi); hal_device_property_set_string (d, "info.udi", udi); PROP_STR(d, node, s, "devid", "info.product"); hal_device_add_capability (d, "storage"); hal_device_property_set_string (d, "storage.bus", "ide"); hal_device_property_set_int (d, "storage.lun", 0); hal_device_property_set_string (d, "storage.drive_type", "disk"); PROP_BOOL(d, node, i, "hotpluggable", "storage.hotpluggable"); PROP_BOOL(d, node, i, "removable-media", "storage.removable"); hal_device_property_set_bool (d, "storage.media_check_enabled", FALSE); /* XXX */ hal_device_property_set_bool (d, "storage.requires_eject", FALSE); hal_device_add_capability (d, "block"); devinfo_storage_minors (d, node, (char *)devfs_path, FALSE); return (d); } /* SCSI */ HalDevice * devinfo_scsi_add(HalDevice *parent, di_node_t node, char *devfs_path, char *device_type) { int *i; char *driver_name; HalDevice *d; char udi[HAL_PATH_MAX]; driver_name = di_driver_name (node); if ((driver_name == NULL) || (strcmp (driver_name, "sd") != 0)) { return (NULL); } d = hal_device_new (); devinfo_set_default_properties (d, parent, node, devfs_path); hal_device_property_set_string (d, "info.bus", "scsi"); hal_util_compute_udi (hald_get_gdl (), udi, sizeof (udi), "%s/%s%d", parent->udi, di_node_name(node), di_instance (node)); hal_device_set_udi (d, udi); hal_device_property_set_string (d, "info.udi", udi); hal_device_property_set_int (d, "scsi.host", hal_device_property_get_int (parent, "scsi_host.host")); hal_device_property_set_int (d, "scsi.bus", 0); PROP_INT(d, node, i, "target", "scsi.target"); PROP_INT(d, node, i, "lun", "scsi.lun"); hal_device_property_set_string (d, "info.product", "SCSI Device"); devinfo_add_enqueue (d, devfs_path, &devinfo_scsi_handler); return (devinfo_scsi_storage_add (parent, d, node, devfs_path)); } static HalDevice * devinfo_scsi_storage_add(HalDevice *grampa, HalDevice *parent, di_node_t node, char *devfs_path) { HalDevice *d; int *i; char *s; char udi[HAL_PATH_MAX]; d = hal_device_new (); devinfo_set_default_properties (d, parent, node, devfs_path); hal_device_property_set_string (d, "info.category", "storage"); hal_util_compute_udi (hald_get_gdl (), udi, sizeof (udi), "%s/sd%d", parent->udi, di_instance (node)); hal_device_set_udi (d, udi); hal_device_property_set_string (d, "info.udi", udi); PROP_STR(d, node, s, "inquiry-product-id", "info.product"); hal_device_add_capability (d, "storage"); hal_device_property_set_int (d, "storage.lun", hal_device_property_get_int (parent, "scsi.lun")); PROP_BOOL(d, node, i, "hotpluggable", "storage.hotpluggable"); PROP_BOOL(d, node, i, "removable-media", "storage.removable"); hal_device_property_set_bool (d, "storage.requires_eject", FALSE); /* * We have to enable polling not only for drives with removable media, * but also for hotpluggable devices, because when a disk is * unplugged while busy/mounted, there is not sysevent generated. * Instead, the HBA driver (scsa2usb, scsa1394) will notify sd driver * and the latter will report DKIO_DEV_GONE via DKIOCSTATE ioctl. * So we have to enable media check so that hald-addon-storage notices * the "device gone" condition and unmounts all associated volumes. */ hal_device_property_set_bool (d, "storage.media_check_enabled", ((di_prop_lookup_ints(DDI_DEV_T_ANY, node, "removable-media", &i) >= 0) || (di_prop_lookup_ints(DDI_DEV_T_ANY, node, "hotpluggable", &i) >= 0))); if (di_prop_lookup_ints(DDI_DEV_T_ANY, node, "inquiry-device-type", &i) > 0) { s = devinfo_scsi_dtype2str (*i); hal_device_property_set_string (d, "storage.drive_type", s); if (strcmp (s, "cdrom") == 0) { hal_device_add_capability (d, "storage.cdrom"); hal_device_property_set_bool (d, "storage.no_partitions_hint", TRUE); hal_device_property_set_bool (d, "storage.requires_eject", TRUE); } } hal_device_add_capability (d, "block"); devinfo_storage_minors (d, node, devfs_path, FALSE); return (d); } static char *devinfo_scsi_dtype2str(int dtype) { char *dtype2str[] = { "disk" , /* DTYPE_DIRECT 0x00 */ "tape" , /* DTYPE_SEQUENTIAL 0x01 */ "printer", /* DTYPE_PRINTER 0x02 */ "processor", /* DTYPE_PROCESSOR 0x03 */ "worm" , /* DTYPE_WORM 0x04 */ "cdrom" , /* DTYPE_RODIRECT 0x05 */ "scanner", /* DTYPE_SCANNER 0x06 */ "cdrom" , /* DTYPE_OPTICAL 0x07 */ "changer", /* DTYPE_CHANGER 0x08 */ "comm" , /* DTYPE_COMM 0x09 */ "scsi" , /* DTYPE_??? 0x0A */ "scsi" , /* DTYPE_??? 0x0B */ "array_ctrl", /* DTYPE_ARRAY_CTRL 0x0C */ "esi" , /* DTYPE_ESI 0x0D */ "disk" /* DTYPE_RBC 0x0E */ }; if (dtype < NELEM(dtype2str)) { return (dtype2str[dtype]); } else { return ("scsi"); } } /* floppy */ HalDevice * devinfo_floppy_add(HalDevice *parent, di_node_t node, char *devfs_path, char *device_type) { char *driver_name; char *raw; char udi[HAL_PATH_MAX]; di_devlink_handle_t devlink_hdl; int major; di_minor_t minor; dev_t dev; HalDevice *d = NULL; char *minor_path = NULL; char *devlink = NULL; driver_name = di_driver_name (node); if ((driver_name == NULL) || (strcmp (driver_name, "fd") != 0)) { return (NULL); } /* * The only minor node we're interested in is /dev/diskette* */ major = di_driver_major(node); if ((devlink_hdl = di_devlink_init(NULL, 0)) == NULL) { return (NULL); } minor = DI_MINOR_NIL; while ((minor = di_minor_next(node, minor)) != DI_MINOR_NIL) { dev = di_minor_devt(minor); if ((major != major(dev)) || (di_minor_type(minor) != DDM_MINOR) || (di_minor_spectype(minor) != S_IFBLK) || ((minor_path = di_devfs_minor_path(minor)) == NULL)) { continue; } if (((devlink = get_devlink(devlink_hdl, minor_path)) != NULL) && (strncmp (devlink, "/dev/diskette", sizeof ("/dev/diskette") - 1) == 0)) { break; } di_devfs_path_free (minor_path); minor_path = NULL; free(devlink); devlink = NULL; } di_devlink_fini (&devlink_hdl); if ((devlink == NULL) || (minor_path == NULL)) { HAL_INFO (("floppy devlink not found %s", devfs_path)); goto out; } d = hal_device_new (); devinfo_set_default_properties (d, parent, node, devfs_path); hal_device_property_set_string (d, "info.category", "storage"); hal_device_add_capability (d, "storage"); hal_device_property_set_string (d, "storage.bus", "platform"); hal_device_property_set_bool (d, "storage.hotpluggable", FALSE); hal_device_property_set_bool (d, "storage.removable", TRUE); hal_device_property_set_bool (d, "storage.requires_eject", TRUE); hal_device_property_set_bool (d, "storage.media_check_enabled", FALSE); hal_device_property_set_string (d, "storage.drive_type", "floppy"); hal_device_add_capability (d, "block"); hal_device_property_set_bool (d, "block.is_volume", FALSE); hal_device_property_set_int (d, "block.major", major(dev)); hal_device_property_set_int (d, "block.minor", minor(dev)); hal_device_property_set_string (d, "block.device", devlink); raw = dsk_to_rdsk (devlink); hal_device_property_set_string (d, "block.solaris.raw_device", raw); free (raw); devinfo_add_enqueue (d, devfs_path, &devinfo_storage_handler); /* trigger initial probe-volume */ devinfo_floppy_add_volume(d, node); out: di_devfs_path_free (minor_path); free(devlink); return (d); } static void devinfo_floppy_add_volume(HalDevice *parent, di_node_t node) { char *devlink; char *devfs_path; int minor, major; dev_t dev; struct devinfo_storage_minor *m; devfs_path = (char *)hal_device_property_get_string (parent, "solaris.devfs_path"); devlink = (char *)hal_device_property_get_string (parent, "block.device"); major = hal_device_property_get_int (parent, "block.major"); minor = hal_device_property_get_int (parent, "block.minor"); dev = makedev (major, minor); m = devinfo_storage_new_minor (devfs_path, WHOLE_DISK, devlink, dev, -1); devinfo_volume_add (parent, node, m); devinfo_storage_free_minor (m); } /* * After reprobing storage, reprobe its volumes. */ static void devinfo_floppy_rescan_probing_done (HalDevice *d, guint32 exit_type, gint return_code, char **error, gpointer userdata1, gpointer userdata2) { void *end_token = (void *) userdata1; const char *devfs_path; di_node_t node; HalDevice *v; if (!hal_device_property_get_bool (d, "storage.removable.media_available")) { HAL_INFO (("no floppy media", d->udi)); /* remove child (can only be single volume) */ if (((v = hal_device_store_match_key_value_string (hald_get_gdl(), "info.parent", d->udi)) != NULL) && ((devfs_path = hal_device_property_get_string (v, "solaris.devfs_path")) != NULL)) { devinfo_remove_enqueue ((char *)devfs_path, NULL); } } else { HAL_INFO (("floppy media found", d->udi)); if ((devfs_path = hal_device_property_get_string(d, "solaris.devfs_path")) == NULL) { HAL_INFO (("no devfs_path", d->udi)); hotplug_event_process_queue (); return; } if ((node = di_init (devfs_path, DINFOCPYALL)) == DI_NODE_NIL) { HAL_INFO (("di_init %s failed %d", devfs_path, errno)); hotplug_event_process_queue (); return; } devinfo_floppy_add_volume (d, node); di_fini (node); } hotplug_event_process_queue (); } /* lofi */ HalDevice * devinfo_lofi_add(HalDevice *parent, di_node_t node, char *devfs_path, char *device_type) { return (devinfo_lofi_add_major(parent,node, devfs_path, device_type, FALSE, NULL)); } HalDevice * devinfo_lofi_add_major(HalDevice *parent, di_node_t node, char *devfs_path, char *device_type, gboolean rescan, HalDevice *lofi_d) { char *driver_name; HalDevice *d = NULL; char udi[HAL_PATH_MAX]; di_devlink_handle_t devlink_hdl; int major; di_minor_t minor; dev_t dev; char *minor_path = NULL; char *devpath, *devlink; driver_name = di_driver_name (node); if ((driver_name == NULL) || (strcmp (driver_name, "lofi") != 0)) { return (NULL); } if (!rescan) { d = hal_device_new (); devinfo_set_default_properties (d, parent, node, devfs_path); hal_device_property_set_string (d, "info.bus", "pseudo"); hal_util_compute_udi (hald_get_gdl (), udi, sizeof (udi), "%s/%s%d", parent->udi, di_node_name(node), di_instance (node)); hal_device_set_udi (d, udi); hal_device_property_set_string (d, "info.udi", udi); devinfo_add_enqueue (d, devfs_path, &devinfo_lofi_handler); } else { d = lofi_d; } /* * Unlike normal storage, as in devinfo_storage_minors(), where * sd instance -> HAL storage, sd minor node -> HAL volume, * lofi always has one instance, lofi minor -> HAL storage. * lofi storage never has slices, but it can have * embedded pcfs partitions that fstyp would recognize */ major = di_driver_major(node); if ((devlink_hdl = di_devlink_init(NULL, 0)) == NULL) { return (d); } minor = DI_MINOR_NIL; while ((minor = di_minor_next(node, minor)) != DI_MINOR_NIL) { dev = di_minor_devt(minor); if ((major != major(dev)) || (di_minor_type(minor) != DDM_MINOR) || (di_minor_spectype(minor) != S_IFBLK) || ((minor_path = di_devfs_minor_path(minor)) == NULL)) { continue; } if ((devlink = get_devlink(devlink_hdl, minor_path)) == NULL) { di_devfs_path_free (minor_path); continue; } if (!rescan || (hal_device_store_match_key_value_string (hald_get_gdl (), "solaris.devfs_path", minor_path) == NULL)) { devinfo_lofi_add_minor(d, node, minor_path, devlink, dev); } di_devfs_path_free (minor_path); free(devlink); } di_devlink_fini (&devlink_hdl); return (d); } static void devinfo_lofi_add_minor(HalDevice *parent, di_node_t node, char *minor_path, char *devlink, dev_t dev) { HalDevice *d; char *raw; char *doslink; char dospath[64]; struct devinfo_storage_minor *m; int i; /* add storage */ d = hal_device_new (); devinfo_set_default_properties (d, parent, node, minor_path); hal_device_property_set_string (d, "info.category", "storage"); hal_device_add_capability (d, "storage"); hal_device_property_set_string (d, "storage.bus", "lofi"); hal_device_property_set_bool (d, "storage.hotpluggable", TRUE); hal_device_property_set_bool (d, "storage.removable", FALSE); hal_device_property_set_bool (d, "storage.requires_eject", FALSE); hal_device_property_set_string (d, "storage.drive_type", "disk"); hal_device_add_capability (d, "block"); hal_device_property_set_int (d, "block.major", major(dev)); hal_device_property_set_int (d, "block.minor", minor(dev)); hal_device_property_set_string (d, "block.device", devlink); raw = dsk_to_rdsk (devlink); hal_device_property_set_string (d, "block.solaris.raw_device", raw); free (raw); hal_device_property_set_bool (d, "block.is_volume", FALSE); devinfo_add_enqueue (d, minor_path, &devinfo_storage_handler); /* add volumes: one on main device and a few pcfs candidates */ m = devinfo_storage_new_minor(minor_path, WHOLE_DISK, devlink, dev, -1); devinfo_volume_add (d, node, m); devinfo_storage_free_minor (m); doslink = (char *)calloc (1, strlen (devlink) + sizeof (":NNN") + 1); if (doslink != NULL) { for (i = 1; i < 16; i++) { snprintf(dospath, sizeof (dospath), WHOLE_DISK":%d", i); sprintf(doslink, "%s:%d", devlink, i); m = devinfo_storage_new_minor(minor_path, dospath, doslink, dev, i); devinfo_volume_add (d, node, m); devinfo_storage_free_minor (m); } free (doslink); } } void devinfo_lofi_remove_minor(char *parent_devfs_path, char *name) { GSList *i; GSList *devices; HalDevice *d = NULL; const char *devfs_path; devices = hal_device_store_match_multiple_key_value_string (hald_get_gdl(), "block.solaris.raw_device", name); for (i = devices; i != NULL; i = g_slist_next (i)) { if (hal_device_has_capability (HAL_DEVICE (i->data), "storage")) { d = HAL_DEVICE (i->data); break; } } g_slist_free (devices); if (d == NULL) { HAL_INFO (("device not found %s", name)); return; } if ((devfs_path = hal_device_property_get_string (d, "solaris.devfs_path")) == NULL) { HAL_INFO (("devfs_path not found %s", d->udi)); return; } if (d != NULL) { devinfo_remove_branch ((char *)devfs_path, d); } } /* common storage */ static int walk_devlinks(di_devlink_t devlink, void *arg) { char **path= (char **)arg; *path = strdup(di_devlink_path(devlink)); return (DI_WALK_TERMINATE); } static char * get_devlink(di_devlink_handle_t devlink_hdl, char *path) { char *devlink_path = NULL; (void) di_devlink_walk(devlink_hdl, NULL, path, DI_PRIMARY_LINK, &devlink_path, walk_devlinks); return (devlink_path); } static void devinfo_storage_free_minor(struct devinfo_storage_minor *m) { if (m != NULL) { free (m->slice); free (m->devlink); free (m->devpath); free (m); } } static struct devinfo_storage_minor * devinfo_storage_new_minor(char *maindev_path, char *slice, char *devlink, dev_t dev, int dosnum) { struct devinfo_storage_minor *m; int pathlen; char *devpath; m = (struct devinfo_storage_minor *)calloc (sizeof (struct devinfo_storage_minor), 1); if (m != NULL) { /* * For volume's devfs_path we'll use minor_path/slice instead of * minor_path which we use for parent storage device. */ pathlen = strlen (maindev_path) + strlen (slice) + 2; devpath = (char *)calloc (1, pathlen); snprintf(devpath, pathlen, "%s/%s", maindev_path, slice); m->devpath = devpath; m->devlink = strdup (devlink); m->slice = strdup (slice); m->dev = dev; m->dosnum = dosnum; if ((m->devpath == NULL) || (m->devlink == NULL)) { devinfo_storage_free_minor (m); m = NULL; } } return (m); } /* * Storage minor nodes are potential "volume" objects. * This function also completes building the parent object (main storage device). */ static void devinfo_storage_minors(HalDevice *parent, di_node_t node, gchar *devfs_path, gboolean rescan) { di_devlink_handle_t devlink_hdl; gboolean is_cdrom; const char *whole_disk; int major; di_minor_t minor; dev_t dev; char *minor_path = NULL; char *maindev_path = NULL; char *devpath, *devlink; int doslink_len; char *doslink; char dospath[64]; char *slice; int pathlen; int i; char *raw; boolean_t maindev_is_d0; GQueue *mq; HalDevice *volume; struct devinfo_storage_minor *m; struct devinfo_storage_minor *maindev = NULL; /* for cdroms whole disk is always s2 */ is_cdrom = hal_device_has_capability (parent, "storage.cdrom"); whole_disk = is_cdrom ? "s2" : WHOLE_DISK; major = di_driver_major(node); /* the "whole disk" p0/s2/d0 node must come first in the hotplug queue * so we put other minor nodes on the local queue and move to the * hotplug queue up in the end */ if ((mq = g_queue_new()) == NULL) { goto err; } if ((devlink_hdl = di_devlink_init(NULL, 0)) == NULL) { g_queue_free (mq); goto err; } minor = DI_MINOR_NIL; while ((minor = di_minor_next(node, minor)) != DI_MINOR_NIL) { dev = di_minor_devt(minor); if ((major != major(dev)) || (di_minor_type(minor) != DDM_MINOR) || (di_minor_spectype(minor) != S_IFBLK) || ((minor_path = di_devfs_minor_path(minor)) == NULL)) { continue; } if ((devlink = get_devlink(devlink_hdl, minor_path)) == NULL) { di_devfs_path_free (minor_path); continue; } slice = devinfo_volume_get_slice_name (devlink); if (strlen (slice) < 2) { free (devlink); di_devfs_path_free (minor_path); continue; } /* ignore p1..N - we'll use p0:N instead */ if ((strlen (slice) > 1) && (slice[0] == 'p') && isdigit(slice[1]) && ((atol(&slice[1])) > 0)) { free (devlink); di_devfs_path_free (minor_path); continue; } m = devinfo_storage_new_minor(minor_path, slice, devlink, dev, -1); if (m == NULL) { free (devlink); di_devfs_path_free (minor_path); continue; } /* main device is either s2/p0 or d0, the latter taking precedence */ if ((strcmp (slice, "d0") == 0) || (((strcmp (slice, whole_disk) == 0) && (maindev == NULL)))) { if (maindev_path != NULL) { di_devfs_path_free (maindev_path); } maindev_path = minor_path; maindev = m; g_queue_push_head (mq, maindev); } else { di_devfs_path_free (minor_path); g_queue_push_tail (mq, m); } free (devlink); } di_devlink_fini (&devlink_hdl); if (maindev == NULL) { /* shouldn't typically happen */ while (!g_queue_is_empty (mq)) { devinfo_storage_free_minor (g_queue_pop_head (mq)); } goto err; } /* first enqueue main storage device */ if (!rescan) { hal_device_property_set_int (parent, "block.major", major); hal_device_property_set_int (parent, "block.minor", minor(maindev->dev)); hal_device_property_set_string (parent, "block.device", maindev->devlink); raw = dsk_to_rdsk (maindev->devlink); hal_device_property_set_string (parent, "block.solaris.raw_device", raw); free (raw); hal_device_property_set_bool (parent, "block.is_volume", FALSE); hal_device_property_set_string (parent, "solaris.devfs_path", maindev_path); devinfo_add_enqueue (parent, maindev_path, &devinfo_storage_handler); } /* add virtual dos volumes to enable pcfs probing */ if (!is_cdrom) { doslink_len = strlen (maindev->devlink) + sizeof (":NNN") + 1; if ((doslink = (char *)calloc (1, doslink_len)) != NULL) { for (i = 1; i < 16; i++) { snprintf(dospath, sizeof (dospath), "%s:%d", maindev->slice, i); snprintf(doslink, doslink_len, "%s:%d", maindev->devlink, i); m = devinfo_storage_new_minor(maindev_path, dospath, doslink, maindev->dev, i); g_queue_push_tail (mq, m); } free (doslink); } } maindev_is_d0 = (strcmp (maindev->slice, "d0") == 0); /* enqueue all volumes */ while (!g_queue_is_empty (mq)) { m = g_queue_pop_head (mq); /* if main device is d0, we'll throw away s2/p0 */ if (maindev_is_d0 && (strcmp (m->slice, whole_disk) == 0)) { devinfo_storage_free_minor (m); continue; } /* don't do p0 on cdrom */ if (is_cdrom && (strcmp (m->slice, "p0") == 0)) { devinfo_storage_free_minor (m); continue; } if (rescan) { /* in rescan mode, don't reprobe existing volumes */ /* XXX detect volume removal? */ volume = hal_device_store_match_key_value_string (hald_get_gdl (), "solaris.devfs_path", m->devpath); if ((volume == NULL) || !hal_device_has_capability(volume, "volume")) { devinfo_volume_add (parent, node, m); } else { HAL_INFO(("rescan volume exists %s", m->devpath)); } } else { devinfo_volume_add (parent, node, m); } devinfo_storage_free_minor (m); } if (maindev_path != NULL) { di_devfs_path_free (maindev_path); } return; err: if (maindev_path != NULL) { di_devfs_path_free (maindev_path); } if (!rescan) { devinfo_add_enqueue (parent, devfs_path, &devinfo_storage_handler); } } HalDevice * devinfo_volume_add(HalDevice *parent, di_node_t node, devinfo_storage_minor_t *m) { HalDevice *d; char *raw; char udi[HAL_PATH_MAX]; char *devfs_path = m->devpath; char *devlink = m->devlink; dev_t dev = m->dev; int dosnum = m->dosnum; char *slice = m->slice; HAL_INFO (("volume_add: devfs_path=%s devlink=%s", devfs_path, devlink)); d = hal_device_new (); devinfo_set_default_properties (d, parent, node, devfs_path); hal_device_property_set_string (d, "info.category", "volume"); hal_util_compute_udi (hald_get_gdl (), udi, sizeof (udi), "%s/%s", parent->udi, slice); hal_device_set_udi (d, udi); hal_device_property_set_string (d, "info.udi", udi); hal_device_property_set_string (d, "info.product", slice); hal_device_add_capability (d, "volume"); hal_device_add_capability (d, "block"); hal_device_property_set_int (d, "block.major", major (dev)); hal_device_property_set_int (d, "block.minor", minor (dev)); hal_device_property_set_string (d, "block.device", devlink); raw = dsk_to_rdsk (devlink); hal_device_property_set_string (d, "block.solaris.raw_device", raw); free (raw); hal_device_property_set_string (d, "block.solaris.slice", slice); hal_device_property_set_bool (d, "block.is_volume", TRUE); /* XXX */ hal_device_property_set_string (d, "block.storage_device", parent->udi); /* set volume defaults */ hal_device_property_set_string (d, "volume.fstype", ""); hal_device_property_set_string (d, "volume.fsusage", ""); hal_device_property_set_string (d, "volume.fsversion", ""); hal_device_property_set_string (d, "volume.uuid", ""); hal_device_property_set_string (d, "volume.label", ""); hal_device_property_set_string (d, "volume.mount_point", ""); hal_device_property_set_bool (d, "volume.is_mounted", FALSE); if (strcmp (hal_device_property_get_string (parent, "storage.drive_type"), "cdrom") == 0) { hal_device_property_set_bool (d, "volume.is_disc", TRUE); hal_device_add_capability (d, "volume.disc"); } else { hal_device_property_set_bool (d, "volume.is_disc", FALSE); } if (dosnum > 0) { hal_device_property_set_bool (d, "volume.is_partition", TRUE); hal_device_property_set_int (d, "volume.partition.number", dosnum); } else { hal_device_property_set_bool (d, "volume.is_partition", FALSE); } /* prober may override these */ hal_device_property_set_int (d, "volume.block_size", 512); devinfo_add_enqueue (d, devfs_path, &devinfo_volume_handler); return (d); } static void devinfo_volume_preprobing_done (HalDevice *d, gpointer userdata1, gpointer userdata2) { void *end_token = (void *) userdata1; char *whole_disk; char *block_device; const char *storage_udi; HalDevice *storage_d; const char *slice; int dos_num; if (hal_device_property_get_bool (d, "info.ignore")) { HAL_INFO (("Preprobing merged info.ignore==TRUE %s", d->udi)); goto skip; } /* * Optimizations: only probe if there's a chance to find something */ block_device = (char *)hal_device_property_get_string (d, "block.device"); storage_udi = hal_device_property_get_string (d, "block.storage_device"); slice = hal_device_property_get_string(d, "block.solaris.slice"); if ((block_device == NULL) || (storage_udi == NULL) || (slice == NULL) || (strlen (slice) < 2)) { HAL_INFO (("Malformed volume properties %s", d->udi)); goto skip; } storage_d = hal_device_store_match_key_value_string (hald_get_gdl (), "info.udi", storage_udi); if (storage_d == NULL) { HAL_INFO (("Storage device not found %s", d->udi)); goto skip; } whole_disk = hal_device_has_capability (storage_d, "storage.cdrom") ? "s2" : WHOLE_DISK; if (is_dos_path(block_device, &dos_num)) { /* don't probe more dos volumes than probe-storage found */ if ((hal_device_property_get_bool (storage_d, "storage.no_partitions_hint") || (dos_num > hal_device_property_get_int (storage_d, "storage.solaris.num_dos_partitions")))) { HAL_INFO (("%d > %d %s", dos_num, hal_device_property_get_int (storage_d, "storage.solaris.num_dos_partitions"), storage_d->udi)); goto skip; } } else { /* if no VTOC slices found, don't probe slices except s2 */ if ((slice[0] == 's') && (isdigit(slice[1])) && ((strcmp (slice, whole_disk)) != 0) && !hal_device_property_get_bool (storage_d, "storage.solaris.vtoc_slices")) { HAL_INFO (("Not probing slice %s", d->udi)); goto skip; } } HAL_INFO(("Probing udi=%s", d->udi)); hald_runner_run (d, "hald-probe-volume", NULL, DEVINFO_PROBE_VOLUME_TIMEOUT, devinfo_callouts_probing_done, (gpointer) end_token, userdata2); return; skip: hal_device_store_remove (hald_get_tdl (), d); g_object_unref (d); hotplug_event_end (end_token); } static void devinfo_volume_hotplug_begin_add (HalDevice *d, HalDevice *parent, DevinfoDevHandler *handler, void *end_token) { HAL_INFO(("Preprobing volume udi=%s", d->udi)); if (hal_device_property_get_bool (parent, "info.ignore")) { HAL_INFO (("Ignoring volume: parent's info.ignore is TRUE")); goto skip; } /* add to TDL so preprobing callouts and prober can access it */ hal_device_store_add (hald_get_tdl (), d); /* Process preprobe fdi files */ di_search_and_merge (d, DEVICE_INFO_TYPE_PREPROBE); /* Run preprobe callouts */ hal_util_callout_device_preprobe (d, devinfo_volume_preprobing_done, end_token, handler); return; skip: g_object_unref (d); hotplug_event_end (end_token); } void devinfo_storage_hotplug_begin_add (HalDevice *d, HalDevice *parent, DevinfoDevHandler *handler, void *end_token) { const char *drive_type; const char *p_udi; HalDevice *p_d; HalDevice *phys_d = NULL; const char *phys_bus; const char *bus; static const char *busses[] = { "usb", "ide", "scsi", "ieee1394", "pseudo" }; int i; HAL_INFO (("Preprobing udi=%s", d->udi)); if (parent == NULL) { HAL_INFO (("no parent %s", d->udi)); goto error; } /* * figure out physical device and bus, except for floppy */ drive_type = hal_device_property_get_string (d, "storage.drive_type"); if ((drive_type != NULL) && (strcmp (drive_type, "floppy") == 0)) { goto skip_bus; } p_d = parent; for (;;) { bus = hal_device_property_get_string (p_d, "info.bus"); if (bus != NULL) { for (i = 0; i < NELEM(busses); i++) { if (strcmp(bus, busses[i]) == 0) { phys_d = p_d; phys_bus = busses[i]; break; } } } /* up the tree */ p_udi = hal_device_property_get_string (p_d, "info.parent"); if (p_udi == NULL) { break; } p_d = hal_device_store_find (hald_get_gdl (), p_udi); } if (phys_d == NULL) { HAL_INFO (("no physical device %s", d->udi)); goto error; } hal_device_property_set_string (d, "storage.physical_device", phys_d->udi); hal_device_property_set_string (d, "storage.bus", phys_bus); skip_bus: /* add to TDL so preprobing callouts and prober can access it */ hal_device_store_add (hald_get_tdl (), d); /* Process preprobe fdi files */ di_search_and_merge (d, DEVICE_INFO_TYPE_PREPROBE); /* Run preprobe callouts */ hal_util_callout_device_preprobe (d, devinfo_callouts_preprobing_done, end_token, handler); return; error: g_object_unref (d); hotplug_event_end (end_token); } static void devinfo_storage_probing_done (HalDevice *d, guint32 exit_type, gint return_code, char **error, gpointer userdata1, gpointer userdata2) { void *end_token = (void *) userdata1; HAL_INFO (("devinfo_storage_probing_done %s", d->udi)); /* Discard device if probing reports failure */ if (exit_type != HALD_RUN_SUCCESS || return_code != 0) { HAL_INFO (("devinfo_storage_probing_done returning exit_type=%d return_code=%d", exit_type, return_code)); hal_device_store_remove (hald_get_tdl (), d); g_object_unref (d); hotplug_event_end (end_token); return; } devinfo_storage_set_nicknames (d); /* Merge properties from .fdi files */ di_search_and_merge (d, DEVICE_INFO_TYPE_INFORMATION); di_search_and_merge (d, DEVICE_INFO_TYPE_POLICY); hal_util_callout_device_add (d, devinfo_callouts_add_done, end_token, NULL); } const gchar * devinfo_storage_get_prober (HalDevice *d, int *timeout) { *timeout = DEVINFO_PROBE_STORAGE_TIMEOUT; return "hald-probe-storage"; } const gchar * devinfo_volume_get_prober (HalDevice *d, int *timeout) { *timeout = DEVINFO_PROBE_VOLUME_TIMEOUT; return "hald-probe-volume"; } /* * After reprobing storage, reprobe its volumes. */ static void devinfo_storage_rescan_probing_done (HalDevice *d, guint32 exit_type, gint return_code, char **error, gpointer userdata1, gpointer userdata2) { void *end_token = (void *) userdata1; const char *devfs_path_orig = NULL; char *devfs_path = NULL; char *p; di_node_t node; HAL_INFO (("devinfo_storage_rescan_probing_done %s", d->udi)); devfs_path_orig = hal_device_property_get_string (d, "solaris.devfs_path"); if (devfs_path_orig == NULL) { HAL_INFO (("device has no solaris.devfs_path")); hotplug_event_process_queue (); return; } /* strip trailing minor part if any */ if (strrchr(devfs_path_orig, ':') != NULL) { if ((devfs_path = strdup (devfs_path_orig)) != NULL) { p = strrchr(devfs_path, ':'); *p = '\0'; } } else { devfs_path = (char *)devfs_path_orig; } if ((node = di_init (devfs_path, DINFOCPYALL)) == DI_NODE_NIL) { HAL_INFO (("di_init %s failed %d %s", devfs_path, errno, d->udi)); hotplug_event_process_queue (); return; } else { devinfo_storage_minors (d, node, (char *)devfs_path, TRUE); di_fini (node); } if (devfs_path != devfs_path_orig) { free (devfs_path); } hotplug_event_process_queue (); } /* * For removable media devices, check for "storage.removable.media_available". * For non-removable media devices, assume media is always there. * * If media is gone, enqueue remove events for all children volumes. * If media is there, first reprobe storage, then probe for new volumes (but leave existing volumes alone). */ gboolean devinfo_storage_device_rescan (HalDevice *d) { GSList *i; GSList *volumes; HalDevice *v; gchar *v_devfs_path; const char *drive_type; gboolean is_floppy; gboolean media_available; HAL_INFO (("devinfo_storage_device_rescan udi=%s", d->udi)); if (hal_device_property_get_bool (d, "block.is_volume")) { HAL_INFO (("nothing to do for volume")); return (FALSE); } drive_type = hal_device_property_get_string (d, "storage.drive_type"); is_floppy = (drive_type != NULL) && (strcmp (drive_type, "floppy") == 0); media_available = !hal_device_property_get_bool (d, "storage.removable") || hal_device_property_get_bool (d, "storage.removable.media_available"); if (!media_available && !is_floppy) { HAL_INFO (("media gone %s", d->udi)); volumes = hal_device_store_match_multiple_key_value_string (hald_get_gdl(), "block.storage_device", d->udi); for (i = volumes; i != NULL; i = g_slist_next (i)) { v = HAL_DEVICE (i->data); v_devfs_path = (gchar *)hal_device_property_get_string (v, "solaris.devfs_path"); HAL_INFO (("child volume %s", v->udi)); if ((v_devfs_path != NULL) && hal_device_has_capability (v, "volume")) { HAL_INFO (("removing volume %s", v->udi)); devinfo_remove_enqueue (v_devfs_path, NULL); } else { HAL_INFO (("not a volume %s", v->udi)); } } g_slist_free (volumes); hotplug_event_process_queue (); } else if (is_floppy) { HAL_INFO (("rescanning floppy %s", d->udi)); hald_runner_run (d, "hald-probe-storage --only-check-for-media", NULL, DEVINFO_PROBE_STORAGE_TIMEOUT, devinfo_floppy_rescan_probing_done, NULL, NULL); } else { HAL_INFO (("media available %s", d->udi)); hald_runner_run (d, "hald-probe-storage --only-check-for-media", NULL, DEVINFO_PROBE_STORAGE_TIMEOUT, devinfo_storage_rescan_probing_done, NULL, NULL); } return TRUE; } static char * devinfo_volume_get_slice_name (char *devlink) { char *part, *slice, *disk; char *s = NULL; char *p; if ((p = strstr(devlink, "/lofi/")) != 0) { return (p + sizeof ("/lofi/") - 1); } part = strrchr(devlink, 'p'); slice = strrchr(devlink, 's'); disk = strrchr(devlink, 'd'); if ((part != NULL) && (part > slice) && (part > disk)) { s = part; } else if ((slice != NULL) && (slice > disk)) { s = slice; } else { s = disk; } if ((s != NULL) && isdigit(s[1])) { return (s); } else { return (""); } } static gboolean is_dos_path(char *path, int *partnum) { char *p; if ((p = strrchr (path, ':')) == NULL) { return (FALSE); } return ((*partnum = atoi(p + 1)) != 0); } static gboolean dos_to_dev(char *path, char **devpath, int *partnum) { char *p; if ((p = strrchr (path, ':')) == NULL) { return (FALSE); } if ((*partnum = atoi(p + 1)) == 0) { return (FALSE); } p[0] = '\0'; *devpath = strdup(path); p[0] = ':'; return (*devpath != NULL); } static void devinfo_storage_cleanup_mountpoint_cb (HalDevice *d, guint32 exit_type, gint return_code, gchar **error, gpointer data1, gpointer data2) { char *mount_point = (char *) data1; HAL_INFO (("Cleaned up mount point '%s'", mount_point)); g_free (mount_point); } void devinfo_storage_mnttab_event (HalDevice *hal_volume) { FILE *fp = NULL; struct extmnttab m; HalDevice *d; unsigned int major; unsigned int minor; GSList *volumes = NULL; GSList *v; char *mount_point; dbus_bool_t is_partition; const char *fstype; int partition_number; if (hal_volume != NULL) { volumes = g_slist_append (NULL, hal_volume); } else { volumes = hal_device_store_match_multiple_key_value_string (hald_get_gdl (), "info.category", "volume"); } if (volumes == NULL) { return; } if ((fp = fopen(MNTTAB, "r")) == NULL) { HAL_ERROR (("Open failed %s errno %d", MNTTAB, errno)); return; } while (getextmntent(fp, &m, 1) == 0) { for (v = volumes; v != NULL; v = g_slist_next (v)) { d = HAL_DEVICE (v->data); major = hal_device_property_get_int (d, "block.major"); minor = hal_device_property_get_int (d, "block.minor"); /* * special handling for pcfs, which encodes logical * drive number into the 6 upper bits of the minor */ is_partition = hal_device_property_get_bool (d, "volume.is_partition"); partition_number = hal_device_property_get_int (d, "volume.partition.number"); fstype = hal_device_property_get_string (d, "volume.fstype"); if (is_partition && (partition_number > 0) && (strcmp (fstype, "pcfs") == 0)) { minor |= partition_number << 12; } if (m.mnt_major != major || m.mnt_minor != minor) { continue; } /* this volume matches the mnttab entry */ device_property_atomic_update_begin (); hal_device_property_set_bool (d, "volume.is_mounted", TRUE); hal_device_property_set_bool (d, "volume.is_mounted_read_only", hasmntopt ((struct mnttab *)&m, "ro") ? TRUE : FALSE); hal_device_property_set_string (d, "volume.mount_point", m.mnt_mountp); device_property_atomic_update_end (); HAL_INFO (("set %s to be mounted at %s", hal_device_get_udi (d), m.mnt_mountp)); volumes = g_slist_delete_link (volumes, v); } } /* all remaining volumes are not mounted */ for (v = volumes; v != NULL; v = g_slist_next (v)) { d = HAL_DEVICE (v->data); mount_point = g_strdup (hal_device_property_get_string (d, "volume.mount_point")); if (mount_point == NULL || strlen (mount_point) == 0) { g_free (mount_point); continue; } device_property_atomic_update_begin (); hal_device_property_set_bool (d, "volume.is_mounted", FALSE); hal_device_property_set_bool (d, "volume.is_mounted_read_only", FALSE); hal_device_property_set_string (d, "volume.mount_point", ""); device_property_atomic_update_end (); HAL_INFO (("set %s to unmounted", hal_device_get_udi (d))); /* cleanup if was mounted by us */ if (hal_util_is_mounted_by_hald (mount_point)) { char *cleanup_stdin; char *extra_env[2]; HAL_INFO (("Cleaning up '%s'", mount_point)); extra_env[0] = g_strdup_printf ("HALD_CLEANUP=%s", mount_point); extra_env[1] = NULL; cleanup_stdin = "\n"; hald_runner_run_method (d, "hal-storage-cleanup-mountpoint", extra_env, cleanup_stdin, TRUE, 0, devinfo_storage_cleanup_mountpoint_cb, g_strdup (mount_point), NULL); g_free (extra_env[0]); } g_free (mount_point); } g_slist_free (volumes); (void) fclose (fp); } static void devinfo_volume_force_unmount_cb (HalDevice *d, guint32 exit_type, gint return_code, gchar **error, gpointer data1, gpointer data2) { void *end_token = (void *) data1; HAL_INFO (("devinfo_volume_force_unmount_cb for udi='%s', exit_type=%d, return_code=%d", d->udi, exit_type, return_code)); if (exit_type == HALD_RUN_SUCCESS && error != NULL && error[0] != NULL && error[1] != NULL) { char *exp_name = NULL; char *exp_detail = NULL; exp_name = error[0]; if (error[0] != NULL) { exp_detail = error[1]; } HAL_INFO (("failed with '%s' '%s'", exp_name, exp_detail)); } hal_util_callout_device_remove (d, devinfo_callouts_remove_done, end_token, NULL); } static void devinfo_volume_force_unmount (HalDevice *d, void *end_token) { const char *device_file; const char *mount_point; char *unmount_stdin; char *extra_env[2]; extra_env[0] = "HAL_METHOD_INVOKED_BY_UID=0"; extra_env[1] = NULL; device_file = hal_device_property_get_string (d, "block.device"); mount_point = hal_device_property_get_string (d, "volume.mount_point"); if (mount_point == NULL || strlen (mount_point) == 0 || !hal_util_is_mounted_by_hald (mount_point)) { hal_util_callout_device_remove (d, devinfo_callouts_remove_done, end_token, NULL); return; } HAL_INFO (("devinfo_volume_force_unmount for udi='%s'", d->udi)); unmount_stdin = "\n"; hald_runner_run_method (d, "hal-storage-unmount", extra_env, unmount_stdin, TRUE, 0, devinfo_volume_force_unmount_cb, end_token, NULL); } void devinfo_volume_hotplug_begin_remove (HalDevice *d, char *devfs_path, void *end_token) { if (hal_device_property_get_bool (d, "volume.is_mounted")) { devinfo_volume_force_unmount (d, end_token); } else { hal_util_callout_device_remove (d, devinfo_callouts_remove_done, end_token, NULL); } } enum { LEGACY_CDROM, LEGACY_FLOPPY, LEGACY_RMDISK }; static const char *legacy_media_str[] = { "cdrom", "floppy", "rmdisk" }; struct enum_nick { const char *type; GSList *nums; }; static int devinfo_storage_get_legacy_media(HalDevice *d) { const char *drive_type; if (hal_device_has_capability (d, "storage.cdrom")) { return (LEGACY_CDROM); } else if (((drive_type = hal_device_property_get_string (d, "storage.drive_type")) != NULL) && (strcmp (drive_type, "floppy") == 0)) { return (LEGACY_FLOPPY); } else if (hal_device_property_get_bool (d, "storage.removable") || hal_device_property_get_bool (d, "storage.hotpluggable")) { return (LEGACY_RMDISK); } else { return (-1); } } static gboolean devinfo_storage_foreach_nick (HalDeviceStore *store, HalDevice *d, gpointer user_data) { struct enum_nick *en = (struct enum_nick *) user_data; const char *media_type; int media_num; media_type = hal_device_property_get_string (d, "storage.solaris.legacy.media_type"); media_num = hal_device_property_get_int (d, "storage.solaris.legacy.media_num"); if ((media_type != NULL) && (strcmp (media_type, en->type) == 0) && (media_num >= 0)) { en->nums = g_slist_prepend (en->nums, GINT_TO_POINTER(media_num)); } return TRUE; } static void devinfo_storage_append_nickname (HalDevice *d, const char *media_type, int media_num) { char buf[64]; if (media_num == 0) { hal_device_property_strlist_append (d, "storage.solaris.nicknames", media_type); } snprintf(buf, sizeof (buf), "%s%d", media_type, media_num); hal_device_property_strlist_append (d, "storage.solaris.nicknames", buf); } static void devinfo_storage_set_nicknames (HalDevice *d) { int media; const char *media_type; int media_num; GSList *i; struct enum_nick en; char buf[64]; if ((media = devinfo_storage_get_legacy_media (d)) < 0) { return; } media_type = legacy_media_str[media]; /* enumerate all storage devices of this media type */ en.type = media_type; en.nums = NULL; hal_device_store_foreach (hald_get_gdl (), devinfo_storage_foreach_nick, &en); /* find a free number */ for (media_num = 0; ; media_num++) { for (i = en.nums; i != NULL; i = g_slist_next (i)) { if (GPOINTER_TO_INT (i->data) == media_num) { break; } } if (i == NULL) { break; } } g_slist_free (en.nums); hal_device_property_set_string (d, "storage.solaris.legacy.media_type", media_type); hal_device_property_set_int (d, "storage.solaris.legacy.media_num", media_num); /* primary nickname, and also vold-style symdev */ snprintf(buf, sizeof (buf), "%s%d", media_type, media_num); hal_device_property_set_string (d, "storage.solaris.legacy.symdev", buf); devinfo_storage_append_nickname(d, media_type, media_num); /* additional nicknames */ if (media == LEGACY_CDROM) { devinfo_storage_append_nickname(d, "cd", media_num); devinfo_storage_append_nickname(d, "sr", media_num); } else if (media == LEGACY_FLOPPY) { devinfo_storage_append_nickname(d, "fd", media_num); devinfo_storage_append_nickname(d, "diskette", media_num); devinfo_storage_append_nickname(d, "rdiskette", media_num); } }