Ejemplo n.º 1
0
/**
 * Register `configure system` commands.
 *
 * Those are the commands to configure protocol-independant stuff.
 */
void
register_commands_configure_system(struct cmd_node *configure,
    struct cmd_node *unconfigure)
{
	struct cmd_node *configure_system = commands_new(
		configure,
		"system", "System configuration",
		cmd_check_no_env, NULL, "ports");
	struct cmd_node *unconfigure_system = commands_new(
		unconfigure,
		"system", "System configuration",
		cmd_check_no_env, NULL, "ports");
	struct cmd_node *configure_interface = commands_new(
		configure_system,
		"interface", "Interface related items",
		NULL, NULL, NULL);
	struct cmd_node *unconfigure_interface = commands_new(
		unconfigure_system,
		"interface", "Interface related items",
		NULL, NULL, NULL);

	commands_new(
		commands_new(
			commands_new(configure_system,
			    "description", "Override chassis description",
			    NULL, NULL, NULL),
			NULL, "Chassis description",
			NULL, cmd_store_env_value, "description"),
		NEWLINE, "Override chassis description",
		NULL, cmd_system_description, "system");
	commands_new(
		commands_new(unconfigure_system,
		    "description", "Don't override chassis description",
		    NULL, NULL, NULL),
		NEWLINE, "Don't override chassis description",
		NULL, cmd_system_description, "system");

	commands_new(
		commands_new(
			commands_new(configure_system,
			    "chassisid", "Override chassis ID",
			    NULL, NULL, NULL),
			NULL, "Chassis ID",
			NULL, cmd_store_env_value, "description"),
		NEWLINE, "Override chassis ID",
		NULL, cmd_system_chassisid, "system");
	commands_new(
		commands_new(unconfigure_system,
		    "chassisid", "Don't override chassis ID",
		    NULL, NULL, NULL),
		NEWLINE, "Don't override chassis ID",
		NULL, cmd_system_chassisid, "system");

	commands_new(
		commands_new(
			commands_new(configure_system,
			    "platform", "Override platform description",
			    NULL, NULL, NULL),
			NULL, "Platform description (CDP)",
			NULL, cmd_store_env_value, "platform"),
		NEWLINE, "Override platform description",
		NULL, cmd_system_description, "platform");
	commands_new(
		commands_new(unconfigure_system,
		    "platform", "Don't override platform description",
		    NULL, NULL, NULL),
		NEWLINE, "Don't override platform description",
		NULL, cmd_system_description, "platform");

	commands_new(
		commands_new(
			commands_new(configure_system,
			    "hostname", "Override system name",
			    NULL, NULL, NULL),
			NULL, "System name",
			NULL, cmd_store_env_value, "hostname"),
		NEWLINE, "Override system name",
		NULL, cmd_hostname, NULL);
	commands_new(
		commands_new(unconfigure_system,
		    "hostname", "Don't override system name",
		    NULL, NULL, NULL),
		NEWLINE, "Don't override system name",
		NULL, cmd_hostname, NULL);

        commands_new(
		commands_new(
			commands_new(configure_system,
			    "max-neighbors", "Set maximum number of neighbors per port",
			    cmd_check_no_env, NULL, "ports"),
			NULL, "Maximum number of neighbors",
			NULL, cmd_store_env_value, "max-neighbors"),
		NEWLINE, "Set maximum number of neighbors per port",
		NULL, cmd_maxneighs, NULL);

	commands_new(
		commands_new(
			commands_new(
				commands_new(
					commands_new(configure_system,
					    "ip", "IP related options",
					    NULL, NULL, NULL),
					"management", "IP management related options",
					NULL, NULL, NULL),
				"pattern", "Set IP management pattern",
				NULL, NULL, NULL),
			NULL, "IP management pattern (comma-separated list of wildcards)",
			NULL, cmd_store_env_value, "management-pattern"),
		NEWLINE, "Set IP management pattern",
		NULL, cmd_management, NULL);
	commands_new(
		commands_new(
			commands_new(
				commands_new(unconfigure_system,
				    "ip", "IP related options",
				    NULL, NULL, NULL),
				"management", "IP management related options",
				NULL, NULL, NULL),
			"pattern", "Delete any IP management pattern",
			NULL, NULL, NULL),
		NEWLINE, "Delete any IP management pattern",
		NULL, cmd_management, NULL);

        commands_new(
		commands_new(
			commands_new(configure_interface,
			    "pattern", "Set active interface pattern",
			    NULL, NULL, NULL),
			NULL, "Interface pattern (comma-separated list of wildcards)",
			NULL, cmd_store_env_value, "iface-pattern"),
		NEWLINE, "Set active interface pattern",
		NULL, cmd_iface_pattern, NULL);
        commands_new(
		commands_new(unconfigure_interface,
		    "pattern", "Delete any interface pattern",
		    NULL, NULL, NULL),
		NEWLINE, "Clear interface pattern",
		NULL, cmd_iface_pattern, NULL);

        commands_new(
		commands_new(
			commands_new(configure_interface,
			    "permanent", "Set permanent interface pattern",
			    NULL, NULL, NULL),
			NULL, "Permanent interface pattern (comma-separated list of wildcards)",
			NULL, cmd_store_env_value, "iface-pattern"),
		NEWLINE, "Set permanent interface pattern",
		NULL, cmd_perm_iface_pattern, NULL);
        commands_new(
		commands_new(unconfigure_interface,
		    "permanent", "Clear permanent interface pattern",
		    NULL, NULL, NULL),
		NEWLINE, "Delete any interface pattern",
		NULL, cmd_perm_iface_pattern, NULL);

	commands_new(
		commands_new(configure_interface,
		    "description", "Update interface descriptions with neighbor name",
		    NULL, NULL, NULL),
		NEWLINE, "Update interface descriptions with neighbor name",
		NULL, cmd_update_descriptions, "enable");
	commands_new(
		commands_new(unconfigure_interface,
		    "description", "Don't update interface descriptions with neighbor name",
		    NULL, NULL, NULL),
		NEWLINE, "Don't update interface descriptions with neighbor name",
		NULL, cmd_update_descriptions, NULL);

	commands_new(
		commands_new(configure_interface,
		    "promiscuous", "Enable promiscuous mode on managed interfaces",
		    NULL, NULL, NULL),
		NEWLINE, "Enable promiscuous mode on managed interfaces",
		NULL, cmd_iface_promisc, "enable");
	commands_new(
		commands_new(unconfigure_interface,
		    "promiscuous", "Don't enable promiscuous mode on managed interfaces",
		    NULL, NULL, NULL),
		NEWLINE, "Don't enable promiscuous mode on managed interfaces",
		NULL, cmd_iface_promisc, NULL);

	register_commands_srcmac_type(configure_system);
}
Ejemplo n.º 2
0
/**
 * Register `configure lldp` commands.
 *
 * Those are the commands that are related to the LLDP protocol but not
 * Dot1/Dot3/MED. Commands not related to LLDP should go in system instead.
 */
void
register_commands_configure_lldp(struct cmd_node *configure,
    struct cmd_node *unconfigure)
{
	struct cmd_node *configure_lldp = commands_new(
		configure,
		"lldp", "LLDP configuration",
		NULL, NULL, NULL);
	struct cmd_node *unconfigure_lldp = commands_new(
		unconfigure,
		"lldp", "LLDP configuration",
		NULL, NULL, NULL);

        commands_new(
		commands_new(
			commands_new(configure_lldp,
			    "tx-interval", "Set LLDP transmit delay",
			    cmd_check_no_env, NULL, "ports"),
			NULL, "LLDP transmit delay in seconds",
			NULL, cmd_store_env_value, "tx-interval"),
		NEWLINE, "Set LLDP transmit delay",
		NULL, cmd_txdelay, NULL);

        commands_new(
		commands_new(
			commands_new(configure_lldp,
			    "tx-hold", "Set LLDP transmit hold",
			    cmd_check_no_env, NULL, "ports"),
			NULL, "LLDP transmit hold in seconds",
			NULL, cmd_store_env_value, "tx-hold"),
		NEWLINE, "Set LLDP transmit hold",
		NULL, cmd_txhold, NULL);

	struct cmd_node *status = commands_new(configure_lldp,
	    "status", "Set administrative status",
	    NULL, NULL, NULL);

	for (lldpctl_map_t *status_map =
		 lldpctl_key_get_map(lldpctl_k_port_status);
	     status_map->string;
	     status_map++) {
		const char *tag = strdup(totag(status_map->string));
		commands_new(
			commands_new(status,
			    tag,
			    status_map->string,
			    NULL, cmd_store_status_env_value, status_map->string),
			NEWLINE, "Set port administrative status",
			NULL, cmd_status, NULL);
	}

	/* Now handle the various portid subtypes we can configure. */
	struct cmd_node *configure_lldp_portid_type = commands_new(
		configure_lldp,
		"portidsubtype", "LLDP PortID TLV Subtype ",
		NULL, NULL, NULL);

	for (lldpctl_map_t *b_map =
		     lldpctl_key_get_map(lldpctl_k_config_lldp_portid_type);
	     b_map->string; b_map++) {
		if (!strcmp(b_map->string, "ifname")) {
			commands_new(
				commands_new(configure_lldp_portid_type,
				    b_map->string, "Interface Name",
				    cmd_check_no_env, NULL, "ports"),
				NEWLINE, NULL,
				NULL, cmd_portid_type,
				b_map->string);
		} else if (!strcmp(b_map->string, "local")) {
			struct cmd_node *port_id = commands_new(
				commands_new(configure_lldp_portid_type,
					     b_map->string, "Local",
					     NULL, NULL, NULL),
				NULL, "Port ID",
				NULL, cmd_store_env_value, "port-id");
			commands_new(port_id,
				NEWLINE, "Set local port ID",
				NULL, cmd_portid_type_local,
				b_map->string);
			commands_new(
				commands_new(
					commands_new(port_id,
					    "description",
					    "Also set port description",
					    NULL, NULL, NULL),
					NULL, "Port description",
					NULL, cmd_store_env_value, "port-descr"),
				NEWLINE, "Set local port ID and description",
				NULL, cmd_portid_type_local, NULL);
		} else if (!strcmp(b_map->string, "macaddress")) {
			commands_new(
				commands_new(configure_lldp_portid_type,
				    b_map->string, "MAC Address",
				    cmd_check_no_env, NULL, "ports"),
				NEWLINE, NULL,
				NULL, cmd_portid_type,
				b_map->string);
		}
	}

	commands_new(
		commands_new(configure_lldp,
		    "capabilities-advertisements",
		    "Enable chassis capabilities advertisement",
		    cmd_check_no_env, NULL, "ports"),
		NEWLINE, "Enable chassis capabilities advertisement",
		NULL, cmd_chassis_cap_advertise, "enable");
	commands_new(
		commands_new(unconfigure_lldp,
		    "capabilities-advertisements",
		    "Don't enable chassis capabilities advertisement",
		    NULL, NULL, NULL),
		NEWLINE, "Don't enable chassis capabilities advertisement",
		NULL, cmd_chassis_cap_advertise, NULL);

	commands_new(
		commands_new(configure_lldp,
		    "management-addresses-advertisements",
		    "Enable management addresses advertisement",
		    NULL, NULL, NULL),
		NEWLINE, "Enable management addresses advertisement",
		NULL, cmd_chassis_mgmt_advertise, "enable");
	commands_new(
		commands_new(unconfigure_lldp,
		    "management-addresses-advertisements",
		    "Don't enable management addresses advertisement",
		    NULL, NULL, NULL),
		NEWLINE, "Don't enable management addresses advertisement",
		NULL, cmd_chassis_mgmt_advertise, NULL);


#ifdef ENABLE_CUSTOM
	register_commands_configure_lldp_custom_tlvs(configure_lldp);
	commands_new(
		commands_new(unconfigure_lldp,
			"custom-tlv",
			"Clear all (previously set) custom TLVs",
			NULL, NULL, NULL),
		NEWLINE, "Clear all (previously set) custom TLVs",
		NULL, cmd_custom_tlv_set, NULL);
#endif
}
Ejemplo n.º 3
0
/**
 * Register `configure med policy` commands.
 */
static void
register_commands_medpol(struct cmd_node *configure_med)
{
	struct cmd_node *configure_medpolicy = commands_new(
		configure_med,
		"policy", "MED policy configuration",
		NULL, NULL, NULL);

	commands_new(
		configure_medpolicy,
		NEWLINE, "Apply new MED policy",
		cmd_check_env, cmd_medpolicy, "application");

	/* Application */
	struct cmd_node *configure_application =
	    commands_new(
		    configure_medpolicy,
		    "application", "MED policy application",
		    cmd_check_no_env, NULL, "application");

	for (lldpctl_map_t *pol_map =
		 lldpctl_key_get_map(lldpctl_k_med_policy_type);
	     pol_map->string;
	     pol_map++) {
		char *tag = strdup(totag(pol_map->string)); /* TODO: memory leak, happens once */
		commands_new(
			configure_application,
			tag,
			pol_map->string,
			NULL, cmd_store_app_env_value_and_pop2, pol_map->string);
	}

	/* Remaining keywords */
	commands_new(
		configure_medpolicy,
		"unknown", "Set unknown flag",
		cmd_check_application_but_no, cmd_store_env_and_pop, "unknown");
	commands_new(
		commands_new(
			configure_medpolicy,
			"vlan", "VLAN advertising",
			cmd_check_application_but_no, NULL, "vlan"),
		NULL, "VLAN ID to advertise",
		NULL, cmd_store_env_value_and_pop2, "vlan");
	commands_new(
		commands_new(
			configure_medpolicy,
			"dscp", "DiffServ advertising",
			cmd_check_application_but_no, NULL, "dscp"),
		NULL, "DSCP value to advertise (between 0 and 63)",
		NULL, cmd_store_env_value_and_pop2, "dscp");
	struct cmd_node *priority =
	    commands_new(
		    configure_medpolicy,
		    "priority", "MED policy priority",
		    cmd_check_application_but_no, NULL, "priority");
	for (lldpctl_map_t *prio_map =
		 lldpctl_key_get_map(lldpctl_k_med_policy_priority);
	     prio_map->string;
	     prio_map++) {
		char *tag = strdup(totag(prio_map->string)); /* TODO: memory leak, happens once */
		commands_new(
			priority,
			tag, prio_map->string,
			NULL, cmd_store_prio_env_value_and_pop2, prio_map->string);
	}
}
Ejemplo n.º 4
0
/**
 * Register `configure system` commands.
 *
 * Those are the commands to configure protocol-independant stuff.
 */
void
register_commands_configure_system(struct cmd_node *configure,
    struct cmd_node *unconfigure)
{
	struct cmd_node *configure_system = commands_new(
		configure,
		"system", "System configuration",
		cmd_check_no_env, NULL, "ports");
	struct cmd_node *unconfigure_system = commands_new(
		unconfigure,
		"system", "System configuration",
		cmd_check_no_env, NULL, "ports");
	struct cmd_node *configure_interface = commands_new(
		configure_system,
		"interface", "Interface related items",
		NULL, NULL, NULL);
	struct cmd_node *unconfigure_interface = commands_new(
		unconfigure_system,
		"interface", "Interface related items",
		NULL, NULL, NULL);

	commands_new(
		commands_new(
			commands_new(configure_system,
			    "description", "Override chassis description",
			    NULL, NULL, NULL),
			NULL, "Chassis description",
			NULL, cmd_store_env_value, "description"),
		NEWLINE, "Override chassis description",
		NULL, cmd_system_description, NULL);

	commands_new(
		commands_new(
			commands_new(configure_system,
			    "platform", "Override platform description",
			    NULL, NULL, NULL),
			NULL, "Platform description (CDP)",
			NULL, cmd_store_env_value, "platform"),
		NEWLINE, "Override platform description",
		NULL, cmd_system_description, NULL);

        commands_new(
		commands_new(
			commands_new(configure_interface,
			    "pattern", "Set active interface pattern",
			    NULL, NULL, NULL),
			NULL, "Interface pattern (comma separated list of wildcards)",
			NULL, cmd_store_env_value, "iface-pattern"),
		NEWLINE, "Set active interface pattern",
		NULL, cmd_iface_pattern, NULL);

	commands_new(
		commands_new(configure_interface,
		    "description", "Update interface descriptions with neighbor name",
		    NULL, NULL, NULL),
		NEWLINE, "Update interface descriptions with neighbor name",
		NULL, cmd_update_descriptions, "enable");
	commands_new(
		commands_new(unconfigure_interface,
		    "description", "Don't update interface descriptions with neighbor name",
		    NULL, NULL, NULL),
		NEWLINE, "Don't update interface descriptions with neighbor name",
		NULL, cmd_update_descriptions, NULL);

	register_commands_srcmac_type(configure_system);
}
Ejemplo n.º 5
0
/*
 * fn_install_os: actually put DragonFly on a disk.
 */
void
fn_install_os(struct i_fn_args *a)
{
	struct subpartition *sp;
	struct commands *cmds;
	struct command *cmd;
	int i, seen_it, prefix, j, needcrypt;
	FILE *sources_conf;
	char line[256];
	char cp_src[64][256];
	char file_path[256];
	char *string;
	int lines = 0;

	/*
	 * Read SOURCES_CONF_FILE and populate our copy sources.
	 */
	snprintf(file_path, 256, "%s%s", a->os_root, SOURCES_CONF_FILE);
	sources_conf = fopen(file_path, "r");
	i_log(a, "Reading %s", file_path);
	while(fgets(line, 256, sources_conf) != NULL && lines < 63) {
		if(strlen(line)>0)
			line[strlen(line)-1] = '\0';
		strlcpy(cp_src[lines], line, 256);
		i_log(a,"Adding %s to copy source table.", cp_src[lines]);
		lines++;
	}
	i_log(a,"Added %i total items to copy source table.", lines);
	strcpy(cp_src[lines], "");
	fclose(sources_conf);

	cmds = commands_new();

	/*
	 * If swap isn't mounted yet, mount it.
	 */
	if (measure_activated_swap(a) == 0) {
		for (sp = slice_subpartition_first(storage_get_selected_slice(a->s));
		    sp != NULL; sp = subpartition_next(sp)) {
			if (!subpartition_is_swap(sp))
				continue;
			command_add(cmds, "%s%s %sdev/%s",
			    a->os_root,
			    cmd_name(a, "SWAPON"),
			    a->os_root,
			    subpartition_is_encrypted(sp) ?
			    "mapper/swap" : subpartition_get_device_name(sp));
		}
	}

	/*
	 * Unmount anything already mounted on /mnt.
	 */
	unmount_all_under(a, cmds, "%smnt", a->os_root);

	/* Check if crypto support is needed */
	needcrypt = 0;
	for (sp = slice_subpartition_first(storage_get_selected_slice(a->s));
	     sp != NULL; sp = subpartition_next(sp)) {
		if (subpartition_is_encrypted(sp)) {
			needcrypt = 1;
			break;
		}
	}

	for (sp = slice_subpartition_first(storage_get_selected_slice(a->s));
	     sp != NULL; sp = subpartition_next(sp)) {
		if (strcmp(subpartition_get_mountpoint(sp), "/") == 0) {
			if (use_hammer == 1) {
				command_add(cmds, "%s%s %sdev/%s %smnt%s",
				    a->os_root, cmd_name(a, "MOUNT_HAMMER"),
				    a->os_root,
				    subpartition_is_encrypted(sp) ?
				    "mapper/root" : subpartition_get_device_name(sp),
				    a->os_root,
				    subpartition_get_mountpoint(sp));
			} else {
				command_add(cmds, "%s%s %sdev/%s %smnt%s",
				    a->os_root, cmd_name(a, "MOUNT"),
				    a->os_root,
				    subpartition_get_device_name(sp),
				    a->os_root,
				    subpartition_get_mountpoint(sp));
			}
		}
	}

	/*
	 * Create mount points and mount subpartitions on them.
	 */
	for (sp = slice_subpartition_first(storage_get_selected_slice(a->s));
	     sp != NULL; sp = subpartition_next(sp)) {
		if (subpartition_is_swap(sp)) {
			/*
			 * Set this subpartition as the dump device.
			 */
			if (subpartition_get_capacity(sp) < storage_get_memsize(a->s))
				continue;

			command_add(cmds, "%s%s -v %sdev/%s",
			    a->os_root, cmd_name(a, "DUMPON"),
			    a->os_root,
			    subpartition_is_encrypted(sp) ?
			    "mapper/swap" : subpartition_get_device_name(sp));

			asprintf(&string, "/dev/%s",
			    subpartition_is_encrypted(sp) ?
			    "mapper/swap" : subpartition_get_device_name(sp));
			config_var_set(rc_conf, "dumpdev", string);
			free(string);
			continue;
		}

		if (use_hammer == 0) {
			/* / is already mounted */
			if (strcmp(subpartition_get_mountpoint(sp), "/") != 0) {
				command_add(cmds, "%s%s -p %smnt%s",
				    a->os_root, cmd_name(a, "MKDIR"),
				    a->os_root,
				    subpartition_get_mountpoint(sp));
				/* Don't mount it if it's TMPFS-backed. */
				if (subpartition_is_tmpfsbacked(sp))
					continue;
				if (subpartition_is_encrypted(sp)) {
					command_add(cmds, "%s%s %sdev/mapper/%s %smnt%s",
					    a->os_root, cmd_name(a, "MOUNT"),
					    a->os_root,
					    subpartition_get_mountpoint(sp) + 1,
					    a->os_root,
					    subpartition_get_mountpoint(sp));
				} else {
					command_add(cmds, "%s%s %sdev/%s %smnt%s",
					    a->os_root, cmd_name(a, "MOUNT"),
					    a->os_root,
					    subpartition_get_device_name(sp),
					    a->os_root,
					    subpartition_get_mountpoint(sp));
				}
			}
		} else if (strcmp(subpartition_get_mountpoint(sp), "/boot") == 0) {
			command_add(cmds, "%s%s -p %smnt%s",
			    a->os_root, cmd_name(a, "MKDIR"),
			    a->os_root,
			    subpartition_get_mountpoint(sp));
			command_add(cmds, "%s%s %sdev/%s %smnt%s",
			    a->os_root, cmd_name(a, "MOUNT"),
			    a->os_root,
			    subpartition_get_device_name(sp),
			    a->os_root,
			    subpartition_get_mountpoint(sp));
		}
	}

	/*
	 * Take care of HAMMER PFS.
	 */
	if (use_hammer == 1)
		handle_pfs(a, cmds);

	/*
	 * Actually copy files now.
	 */

	for (i = 0; cp_src[i] != NULL && cp_src[i][0] != '\0'; i++) {
		char *src, *dest, *dn, *tmp_dest;

		dest = cp_src[i];

		/*
		 * If dest would be on an TMPFS-backed
		 * mountpoint, don't bother copying it.
		 */
		sp = subpartition_of(storage_get_selected_slice(a->s),
				     "%s%s", a->os_root, &dest[1]);
		if (sp != NULL && subpartition_is_tmpfsbacked(sp)) {
			continue;
		}

		/*
		 * Create intermediate directories, if needed.
		 */
		tmp_dest = aura_strdup(dest);
		dn = dirname(tmp_dest);
		if (is_dir("%s%s", a->os_root, &dn[1]) &&
		    !is_dir("%smnt%s", a->os_root, dn)) {
			command_add(cmds, "%s%s -p %smnt%s",
			    a->os_root, cmd_name(a, "MKDIR"),
			    a->os_root, dn);
		}
		aura_free(tmp_dest, "directory name");

		/*
		 * If a directory by the same name but with the suffix
		 * ".hdd" exists on the installation media, cpdup that
		 * instead.  This is particularly useful with /etc, which
		 * may have significantly different behaviour on the
		 * live CD compared to a standard HDD boot.
		 */
		if (is_dir("%s%s.hdd", a->os_root, &dest[1]))
			asprintf(&src, "%s.hdd", &dest[1]);
		else
			asprintf(&src, "%s", &dest[1]);

		if (is_dir("%s%s", a->os_root, src) || is_file("%s%s", a->os_root, src)) {
			/*
			 * Cpdup the chosen file or directory onto the HDD.
			 * if it exists on the source.
			 */
			cmd = command_add(cmds, "%s%s %s%s %smnt%s",
			    a->os_root, cmd_name(a, "CPDUP"),
			    a->os_root, src,
			    a->os_root, dest);
			command_set_log_mode(cmd, COMMAND_LOG_QUIET);
		}
	}

	/*
	 * Now, because cpdup does not cross mount points,
	 * we must copy anything that the user might've made a
	 * seperate mount point for (e.g. /usr/libdata/lint.)
	 */
	for (sp = slice_subpartition_first(storage_get_selected_slice(a->s));
	     sp != NULL; sp = subpartition_next(sp)) {
		/*
		 * If the subpartition is a swap subpartition or an
		 * TMPFS-backed mountpoint, don't try to copy anything
		 * into it.
		 */
		if (subpartition_is_swap(sp) || subpartition_is_tmpfsbacked(sp))
			continue;

		/*
		 * If the mountpoint doesn't even exist on the installation
		 * medium, don't try to copy anything from it!  We assume
		 * it's an empty subpartition for the user's needs.
		 */
		if (!is_dir("%s%s", a->os_root, &subpartition_get_mountpoint(sp)[1]))
			continue;

		/*
		 * Don't bother copying the mountpoint IF:
		 * - we've already said to copy it, or something besides it
		 *   (it's a prefix of something in cp_src); or
		 * - we haven't said to copy it
		 *   (nothing in cp_src is a prefix of it.)
		 */
		seen_it = 0;
		prefix = 0;
		for (i = 0; cp_src[i] != NULL && cp_src[i][0] != '\0'; i++) {
			if (strncmp(subpartition_get_mountpoint(sp), cp_src[i],
			    strlen(subpartition_get_mountpoint(sp))) == 0) {
				seen_it = 1;
				break;
			}
			if (strncmp(cp_src[i], subpartition_get_mountpoint(sp),
			    strlen(cp_src[i])) == 0) {
				prefix = 1;
			}
		}
		if (seen_it || !prefix)
			continue;

		/*
		 * Otherwise, cpdup the subpartition.
		 *
		 * XXX check for .hdd-extended source dirs here, too,
		 * eventually - but for now, /etc.hdd will never be
		 * the kind of tricky sub-mount-within-a-mount-point
		 * that this part of the code is meant to handle.
		 */
		cmd = command_add(cmds, "%s%s %s%s %smnt%s",
		    a->os_root, cmd_name(a, "CPDUP"),
		    a->os_root, &subpartition_get_mountpoint(sp)[1],
		    a->os_root, subpartition_get_mountpoint(sp));
		command_set_log_mode(cmd, COMMAND_LOG_QUIET);
	}

	/*
	 * Create symlinks.
	 */

	/* Take care of /sys. */
	command_add(cmds, "%s%s -s usr/src/sys %smnt/sys",
	    a->os_root, cmd_name(a, "LN"), a->os_root);

	/*
	 * If the user has both /var and /tmp subpartitions,
	 * symlink /var/tmp to /tmp.
	 */
	if (subpartition_find(storage_get_selected_slice(a->s), "/tmp") != NULL &&
	    subpartition_find(storage_get_selected_slice(a->s), "/var") != NULL) {
		command_add(cmds, "%s%s 1777 %smnt/tmp",
		    a->os_root, cmd_name(a, "CHMOD"), a->os_root);
		command_add(cmds, "%s%s -rf %smnt/var/tmp",
		    a->os_root, cmd_name(a, "RM"), a->os_root);
		command_add(cmds, "%s%s -s /tmp %smnt/var/tmp",
		    a->os_root, cmd_name(a, "LN"), a->os_root);
	}

	/*
	 * If the user has /var, but no /tmp,
	 * symlink /tmp to /var/tmp.
	 */
	if (subpartition_find(storage_get_selected_slice(a->s), "/tmp") == NULL &&
	    subpartition_find(storage_get_selected_slice(a->s), "/var") != NULL) {
		command_add(cmds, "%s%s -rf %smnt/tmp",
		    a->os_root, cmd_name(a, "RM"), a->os_root);
		command_add(cmds, "%s%s -s /var/tmp %smnt/tmp",
		    a->os_root, cmd_name(a, "LN"), a->os_root);
	}

	/*
	 * If the user has /usr, but no /home,
	 * symlink /home to /usr/home.
	 */
	if (subpartition_find(storage_get_selected_slice(a->s), "/home") == NULL &&
	    subpartition_find(storage_get_selected_slice(a->s), "/usr") != NULL) {
		command_add(cmds, "%s%s -rf %smnt/home",
		    a->os_root, cmd_name(a, "RM"), a->os_root);
		command_add(cmds, "%s%s %smnt/usr/home",
		    a->os_root, cmd_name(a, "MKDIR"), a->os_root);
		command_add(cmds, "%s%s -s /usr/home %smnt/home",
		    a->os_root, cmd_name(a, "LN"), a->os_root);
	}

	/*
	 * XXX check for other possible combinations too?
	 */

	/*
	 * Clean up.  In case some file didn't make it, use rm -f
	 */
	command_add(cmds, "%s%s -f %smnt/boot/loader.conf",
	    a->os_root, cmd_name(a, "RM"), a->os_root);
	command_add(cmds, "%s%s -f %smnt/tmp/install.log",
	    a->os_root, cmd_name(a, "RM"), a->os_root);
	command_add(cmds, "%s%s -f %smnt/tmp/t[12]",
	    a->os_root, cmd_name(a, "RM"), a->os_root);
	command_add(cmds, "%s%s -f %smnt/tmp/test_in",
	    a->os_root, cmd_name(a, "RM"), a->os_root);
	command_add(cmds, "%s%s -f %smnt/tmp/test_out",
	    a->os_root, cmd_name(a, "RM"), a->os_root);

	/*
	 * Copy pristine versions over any files we might have installed.
	 * This allows the resulting file tree to be customized.
	 */
	for (i = 0; cp_src[i] != NULL && cp_src[i][0] != '\0'; i++) {
		char *src, *dest, *dn, *tmp_dest;

		src = cp_src[i];
		dest = cp_src[i];

		/*
		 * Get the directory that the desired thing to
		 * copy resides in.
		 */
		tmp_dest = aura_strdup(dest);
		dn = dirname(tmp_dest);

		/*
		 * If this dir doesn't exist in PRISTINE_DIR
		 * on the install media, just skip it.
		 */
		if (!is_dir("%s%s%s", a->os_root, PRISTINE_DIR, dn)) {
			aura_free(tmp_dest, _("directory name"));
			continue;
		}

		/*
		 * Create intermediate directories, if needed.
		 */
		if (!is_dir("%smnt%s", a->os_root, dn)) {
			command_add(cmds, "%s%s -p %smnt%s",
			    a->os_root, cmd_name(a, "MKDIR"),
			    a->os_root, dn);
		}
		aura_free(tmp_dest, "directory name");

		/*
		 * Cpdup the chosen file or directory onto the HDD.
		 */
		cmd = command_add(cmds, "%s%s %s%s %smnt%s",
		    a->os_root, cmd_name(a, "CPDUP"),
		    a->os_root, src,
		    a->os_root, dest);

		cmd = command_add(cmds,
		    "%s%s %s%s%s %smnt%s",
		    a->os_root, cmd_name(a, "CPDUP"),
		    a->os_root, PRISTINE_DIR, src,
		    a->os_root, dest);
		command_set_log_mode(cmd, COMMAND_LOG_QUIET);
	}

	/*
	 * Rebuild the user database, to get rid of any extra users
	 * from the LiveCD that aren't supposed to be installed
	 * (copying a pristine master.passwd isn't enough.)
	 */
	command_add(cmds, "%s%s -p -d %smnt/etc %smnt/etc/master.passwd",
	    a->os_root, cmd_name(a, "PWD_MKDB"), a->os_root, a->os_root);

	/* Create missing directories. */
	command_add(cmds, "%s%s %smnt/proc",
	    a->os_root, cmd_name(a, "MKDIR"), a->os_root);
	command_add(cmds, "%s%s %smnt/mnt",
	    a->os_root, cmd_name(a, "MKDIR"), a->os_root);

	/* Write new fstab. */
	command_add(cmds, "%s%s '%s' >%smnt/etc/fstab",
	    a->os_root, cmd_name(a, "ECHO"),
	    "# Device\t\tMountpoint\tFStype\tOptions\t\tDump\tPass#",
	    a->os_root);

	for (sp = slice_subpartition_first(storage_get_selected_slice(a->s));
	     sp != NULL; sp = subpartition_next(sp)) {
		if (strcmp(subpartition_get_mountpoint(sp), "swap") == 0) {
			command_add(cmds, "%s%s '/dev/%s\t\tnone\t\tswap\tsw\t\t0\t0' >>%smnt/etc/fstab",
			    a->os_root, cmd_name(a, "ECHO"),
			    subpartition_is_encrypted(sp) ?
			    "mapper/swap" : subpartition_get_device_name(sp),
			    a->os_root);
			if (subpartition_is_encrypted(sp)) {
				command_add(cmds,
				    "%s%s 'swap\t/dev/%s\tnone\tnone' >>%smnt/etc/crypttab",
				    a->os_root, cmd_name(a, "ECHO"),
				    subpartition_get_device_name(sp),
				    a->os_root);
			}
		} else if (use_hammer == 0) {
			if (strcmp(subpartition_get_mountpoint(sp), "/") == 0) {
				command_add(cmds, "%s%s '/dev/%s\t\t%s\t\tufs\trw\t\t1\t1' >>%smnt/etc/fstab",
				    a->os_root, cmd_name(a, "ECHO"),
				    subpartition_get_device_name(sp),
				    subpartition_get_mountpoint(sp),
				    a->os_root);
			} else if (subpartition_is_tmpfsbacked(sp)) {
				command_add(cmds, "%s%s 'tmpfs\t\t\t%s\t\ttmpfs\trw,-s%luM\t1\t1' >>%smnt/etc/fstab",
				    a->os_root, cmd_name(a, "ECHO"),
				    subpartition_get_mountpoint(sp),
				    subpartition_get_capacity(sp),
				    a->os_root);
			} else if (subpartition_is_encrypted(sp)) {
				command_add(cmds, "%s%s '%s\t/dev/%s\tnone\tnone' >>%smnt/etc/crypttab",
				    a->os_root, cmd_name(a, "ECHO"),
				    subpartition_get_mountpoint(sp) + 1,
				    subpartition_get_device_name(sp),
				    a->os_root);
				command_add(cmds, "%s%s '/dev/mapper/%s\t\t%s\t\tufs\trw\t\t2\t2' >>%smnt/etc/fstab",
				    a->os_root, cmd_name(a, "ECHO"),
				    subpartition_get_mountpoint(sp) + 1,
				    subpartition_get_mountpoint(sp),
				    a->os_root);
			} else {
				command_add(cmds, "%s%s '/dev/%s\t\t%s\t\tufs\trw\t\t2\t2' >>%smnt/etc/fstab",
				    a->os_root, cmd_name(a, "ECHO"),
				    subpartition_get_device_name(sp),
				    subpartition_get_mountpoint(sp),
				    a->os_root);
			}
		} else {
			if (strcmp(subpartition_get_mountpoint(sp), "/") == 0) {
				command_add(cmds, "%s%s '/dev/%s\t\t%s\t\thammer\trw\t\t1\t1' >>%smnt/etc/fstab",
				    a->os_root, cmd_name(a, "ECHO"),
				    subpartition_get_device_name(sp),
				    subpartition_get_mountpoint(sp),
				    a->os_root);
				if (subpartition_is_encrypted(sp)) {
					command_add(cmds,
					    "%s%s 'vfs.root.mountfrom=\"ufs:md0s0\"' >>%smnt/boot/loader.conf",
					    a->os_root, cmd_name(a, "ECHO"),
					    a->os_root);
					command_add(cmds,
					    "%s%s 'vfs.root.realroot=\"crypt:hammer:%s:root\"' >>%smnt/boot/loader.conf",
					    a->os_root, cmd_name(a, "ECHO"),
					    subpartition_get_device_name(sp),
					    a->os_root);
				} else {
					command_add(cmds,
					    "%s%s 'vfs.root.mountfrom=\"hammer:%s\"' >>%smnt/boot/loader.conf",
					    a->os_root, cmd_name(a, "ECHO"),
					    subpartition_get_device_name(sp),
					    a->os_root);
				}
			} else if (strcmp(subpartition_get_mountpoint(sp), "/boot") == 0) {
				command_add(cmds, "%s%s '/dev/%s\t\t%s\t\tufs\trw\t\t1\t1' >>%smnt/etc/fstab",
				    a->os_root, cmd_name(a, "ECHO"),
				    subpartition_get_device_name(sp),
				    subpartition_get_mountpoint(sp),
				    a->os_root);
			}
		}
	}

	/*
	 * Take care of HAMMER PFS null mounts.
	 */
	if (use_hammer == 1) {
		for (j = 0; pfs_mountpt[j] != NULL; j++) {
			if (rindex(pfs_mountpt[j]+1, '/') != NULL)
				command_add(cmds, "%s%s '/pfs%s.%s\t%s\t\tnull\trw\t\t0\t0' >>%smnt/etc/fstab",
				    a->os_root, cmd_name(a, "ECHO"),
				    dirname(pfs_mountpt[j]),
				    basename(pfs_mountpt[j]),
				    pfs_mountpt[j],
				    a->os_root);
			else
				command_add(cmds, "%s%s '/pfs%s\t\t%s\t\tnull\trw\t\t0\t0' >>%smnt/etc/fstab",
				    a->os_root, cmd_name(a, "ECHO"),
				    pfs_mountpt[j],
				    pfs_mountpt[j],
				    a->os_root);
		}
	}

	command_add(cmds, "%s%s '%s' >>%smnt/etc/fstab",
	    a->os_root, cmd_name(a, "ECHO"),
	    "proc\t\t\t/proc\t\tprocfs\trw\t\t0\t0",
	    a->os_root);

	/* Backup the disklabel and the log. */
	command_add(cmds, "%s%s %s > %smnt/etc/disklabel.%s",
	    a->os_root, cmd_name(a, "DISKLABEL64"),
	    slice_get_device_name(storage_get_selected_slice(a->s)),
	    a->os_root,
	    slice_get_device_name(storage_get_selected_slice(a->s)));

	/* 'chflags nohistory' as needed */
	for (j = 0; pfs_mountpt[j] != NULL; j++)
		if (pfs_nohistory[j] == 1)
			command_add(cmds, "%s%s -R nohistory %smnt%s",
			    a->os_root, cmd_name(a, "CHFLAGS"),
			    a->os_root, pfs_mountpt[j]);

	command_add(cmds, "%s%s %sinstall.log %smnt/var/log/install.log",
	    a->os_root, cmd_name(a, "CP"),
	    a->tmp, a->os_root);
	command_add(cmds, "%s%s 600 %smnt/var/log/install.log",
	    a->os_root, cmd_name(a, "CHMOD"), a->os_root);

	/* Do some preparation if encrypted partitions were configured */
	if (needcrypt) {
		command_add(cmds,
		    "%s%s 'dm_load=\"yes\"' >>%smnt/boot/loader.conf",
		    a->os_root, cmd_name(a, "ECHO"),
		    a->os_root);
		command_add(cmds,
		    "%s%s 'dm_target_crypt_load=\"yes\"' >>%smnt/boot/loader.conf",
		    a->os_root, cmd_name(a, "ECHO"),
		    a->os_root);
		if (use_hammer) {
			command_add(cmds, "%s%s -b %smnt/boot -t %smnt/tmp",
			    a->os_root, cmd_name(a, "MKINITRD"),
			    a->os_root, a->os_root);
			command_add(cmds, "%s%s -rf %smnt/tmp/initrd",
			    a->os_root, cmd_name(a, "RM"), a->os_root);
			command_add(cmds,
			    "%s%s 'initrd.img_load=\"YES\"' >>%smnt/boot/loader.conf",
			    a->os_root, cmd_name(a, "ECHO"),
			    a->os_root);
			command_add(cmds,
			    "%s%s 'initrd.img_type=\"md_image\"' >>%smnt/boot/loader.conf",
			    a->os_root, cmd_name(a, "ECHO"),
			    a->os_root);
		}
	}

	/* Customize stuff here */
	if(is_file("%susr/local/bin/after_installation_routines.sh", a->os_root)) {
		command_add(cmds, "%susr/local/bin/after_installation_routines.sh",
		    a->os_root);
	}

	/*
	 * Do it!
	 */
	/* commands_preview(a->c, cmds); */
	if (!commands_execute(a, cmds)) {
		inform(a->c, _("%s was not fully installed."), OPERATING_SYSTEM_NAME);
		a->result = 0;
	} else {
		a->result = 1;
	}
	commands_free(cmds);
	cmds = commands_new();

	if (a->result) {
		config_vars_write(rc_conf, CONFIG_TYPE_SH, "%smnt/etc/rc.conf",
		    a->os_root);
		config_vars_free(rc_conf);
		rc_conf = config_vars_new();
	}

	/*
	 * Unmount everything we mounted on /mnt.  This is done in a seperate
	 * command chain, so that partitions are unmounted, even if an error
	 * occurs in one of the preceding commands, or it is cancelled.
	 */
	unmount_all_under(a, cmds, "%smnt", a->os_root);

	/*
	 * Once everything is unmounted, if the install went successfully,
	 * make sure once and for all that the disklabel is bootable.
	 */
	if (a->result)
		command_add(cmds, "%s%s -B %s",
		    a->os_root, cmd_name(a, "DISKLABEL64"),
		    slice_get_device_name(storage_get_selected_slice(a->s)));

	if (!commands_execute(a, cmds))
		inform(a->c, _("Warning: subpartitions were not correctly unmounted."));

	commands_free(cmds);

	/*
	 * Finally, remove all swap and any mappings.
	 */
	if (swapoff_all(a) == NULL)
		inform(a->c, _("Warning: swap could not be turned off."));
	if (remove_all_mappings(a) == NULL)
		inform(a->c, _("Warning: mappings could not be removed."));
}
Ejemplo n.º 6
0
/**
 * Register `configure med location coordinate` commands.
 */
static void
register_commands_medloc_coord(struct cmd_node *configure_medlocation)
{
	/* MED location coordinate (set) */
	struct cmd_node *configure_medloc_coord = commands_new(
		configure_medlocation,
		"coordinate", "MED location coordinate configuration",
		NULL, NULL, NULL);
	commands_new(configure_medloc_coord,
	    NEWLINE, "Configure MED location coordinates",
	    cmd_check_env, cmd_medlocation_coordinate,
	    "latitude,longitude,altitude,altitude-unit,datum");
	commands_new(
		commands_new(
			configure_medloc_coord,
			"latitude", "Specify latitude",
			cmd_check_no_env, NULL, "latitude"),
		NULL, "Latitude as xx.yyyyN or xx.yyyyS",
		NULL, cmd_store_env_value_and_pop2, "latitude");
	commands_new(
		commands_new(
			configure_medloc_coord,
			"longitude", "Specify longitude",
			cmd_check_no_env, NULL, "longitude"),
		NULL, "Longitude as xx.yyyyE or xx.yyyyW",
		NULL, cmd_store_env_value_and_pop2, "longitude");
	struct cmd_node *altitude = commands_new(
		commands_new(
			configure_medloc_coord,
			"altitude", "Specify altitude",
			cmd_check_no_env, NULL, "altitude"),
		NULL, "Altitude",
		NULL, cmd_store_env_value, "altitude");
	commands_new(altitude,
	    "m", "meters",
	    NULL, cmd_store_env_value_and_pop3, "altitude-unit");
	commands_new(altitude,
	    "f", "floors",
	    NULL, cmd_store_env_value_and_pop3, "altitude-unit");

	struct cmd_node *datum = commands_new(configure_medloc_coord,
	    "datum", "Specify datum",
	    cmd_check_no_env, NULL, "datum");
	for (lldpctl_map_t *datum_map =
		 lldpctl_key_get_map(lldpctl_k_med_location_geoid);
	     datum_map->string;
	     datum_map++)
		commands_new(datum, datum_map->string, NULL,
		    NULL, cmd_store_env_value_and_pop2, "datum");
}
Ejemplo n.º 7
0
int
format_slice(struct i_fn_args *a)
{
	struct commands *cmds;
	struct command *cmd;
	int result;
	int cyl, hd, sec;

	cmds = commands_new();

	/*
	 * The information in a->s NEEDS to be accurate here!
	 * Presumably we just did a survey_storage() recently.
	 * XXX should we do another one here anyway just to be paranoid?
	 */

	/*
	 * Set the slice's sysid to 165.
	 */
	disk_get_geometry(storage_get_selected_disk(a->s), &cyl, &hd, &sec);
	command_add(cmds, "%s%s 'g c%d h%d s%d' >%snew.fdisk",
	    a->os_root, cmd_name(a, "ECHO"),
	    cyl, hd, sec,
	    a->tmp);
	command_add(cmds, "%s%s 'p %d %d %lu %lu' >>%snew.fdisk",
	    a->os_root, cmd_name(a, "ECHO"),
	    slice_get_number(storage_get_selected_slice(a->s)),
	    165,
	    slice_get_start(storage_get_selected_slice(a->s)),
	    slice_get_size(storage_get_selected_slice(a->s)),
	    a->tmp);
	if (slice_get_flags(storage_get_selected_slice(a->s)) & 0x80) {
		command_add(cmds, "%s%s 'a %d' >>%snew.fdisk",
		    a->os_root, cmd_name(a, "ECHO"),
		    slice_get_number(storage_get_selected_slice(a->s)),
		    a->tmp);
	}

	command_add(cmds, "%s%s %snew.fdisk",
	    a->os_root, cmd_name(a, "CAT"), a->tmp);
	temp_file_add(a, "new.fdisk");

	/*
	 * Execute the fdisk script.
	 */
	cmd = command_add(cmds, "%s%s -v -f %snew.fdisk %s",
	    a->os_root, cmd_name(a, "FDISK"), a->tmp,
	    disk_get_device_name(storage_get_selected_disk(a->s)));
	if (slice_get_size(storage_get_selected_slice(a->s)) == 0xFFFFFFFFU)
		command_set_failure_mode(cmd, COMMAND_FAILURE_IGNORE);

	/*
	 * If there is an old 'virgin' disklabel hanging around
	 * in the temp dir, get rid of it.  This won't happen
	 * from a real CD, but might happen with '-o' installs.
	 */
	command_add(cmds, "%s%s -f %sinstall.disklabel.%s",
	    a->os_root, cmd_name(a, "RM"),
	    a->tmp,
	    slice_get_device_name(storage_get_selected_slice(a->s)));

	result = commands_execute(a, cmds);

	commands_free(cmds);

	return(result);
}
Ejemplo n.º 8
0
void
fn_install_bootblocks(struct i_fn_args *a, const char *device)
{
	struct dfui_form *f;
	struct dfui_response *r;
	struct dfui_dataset *ds;
	struct disk *d;
	struct commands *cmds;
	struct command *cmd;
	char disk[64], boot0cfg[32], packet[32];
	char msg_buf[1][1024];

	snprintf(msg_buf[0], sizeof(msg_buf[0]),
	    "'Packet Mode' refers to using newer BIOS calls to boot "
	    "from a partition of the disk.  It is generally not "
	    "required unless:\n\n"
	    "- your BIOS does not support legacy mode; or\n"
	    "- your %s primary partition resides on a "
	    "cylinder of the disk beyond cylinder 1024; or\n"
	    "- you just can't get it to boot without it.",
	    OPERATING_SYSTEM_NAME);

	f = dfui_form_create(
	    "install_bootstrap",
	    _("Install Bootblock(s)"),
	    a->short_desc,

	    msg_buf[0],

	    "p", "special", "dfinstaller_install_bootstrap",

	    "f", "disk", _("Disk Drive"),
	    _("The disk on which you wish to install a bootblock"), "",
	    "p", "editable", "false",
	    "f", "boot0cfg", _("Install Bootblock?"),
	    _("Install a bootblock on this disk"), "",
	    "p", "control", "checkbox",
	    "f", "packet", _("Packet Mode?"),
	    _("Select this to use 'packet mode' to boot the disk"), "",
	    "p", "control", "checkbox",

	    "a", "ok", _("Accept and Install Bootblocks"), "", "",
	    "a", "cancel", a->cancel_desc, "", "",
	    "p", "accelerator", "ESC",

	    NULL
	);

	dfui_form_set_multiple(f, 1);

	if (device != NULL) {
		ds = dfui_dataset_new();
		dfui_dataset_celldata_add(ds, "disk", device);
		dfui_dataset_celldata_add(ds, "boot0cfg", "Y");
		dfui_dataset_celldata_add(ds, "packet", "Y");
		dfui_form_dataset_add(f, ds);
	} else {
		for (d = storage_disk_first(a->s); d != NULL; d = disk_next(d)) {
			ds = dfui_dataset_new();
			dfui_dataset_celldata_add(ds, "disk",
			    disk_get_device_name(d));
			dfui_dataset_celldata_add(ds, "boot0cfg", "Y");
			dfui_dataset_celldata_add(ds, "packet", "Y");
			dfui_form_dataset_add(f, ds);
		}
	}

	if (!dfui_be_present(a->c, f, &r))
		abort_backend();

	a->result = 0;
	if (strcmp(dfui_response_get_action_id(r), "ok") == 0) {
		cmds = commands_new();

		for (ds = dfui_response_dataset_get_first(r); ds != NULL;
		     ds = dfui_dataset_get_next(ds)) {
			strlcpy(disk, dfui_dataset_get_value(ds, "disk"), 64);
			strlcpy(boot0cfg, dfui_dataset_get_value(ds, "boot0cfg"), 32);
			strlcpy(packet, dfui_dataset_get_value(ds, "packet"), 32);

			if (strcasecmp(boot0cfg, "Y") == 0) {
				cmd = command_add(cmds, "%s%s -B -o %spacket %s",
				    a->os_root, cmd_name(a, "BOOT0CFG"),
				    strcasecmp(packet, "Y") == 0 ? "" : "no",
				    disk);
				command_set_failure_mode(cmd, COMMAND_FAILURE_WARN);
				command_set_tag(cmd, "%s", disk);
				cmd = command_add(cmds, "%s%s -v %s",
				    a->os_root, cmd_name(a, "BOOT0CFG"),
				    disk);
				command_set_failure_mode(cmd, COMMAND_FAILURE_WARN);
				command_set_tag(cmd, "%s", disk);
			}
		}

		if (!commands_execute(a, cmds)) {
			ask_to_wipe_boot_sector(a, cmds);
		} else {
			inform(a->c, _("Bootblocks were successfully installed!"));
			a->result = 1;
		}
		commands_free(cmds);
	}

	dfui_form_free(f);
	dfui_response_free(r);
}
Ejemplo n.º 9
0
/*
 * If ss->selected_disk == NULL, user will be asked for which disk.
 * Returns 1 if disk was formatted, 0 if it wasn't.
 * If it was, ss->selected_disk and ss->selected_slice are set to it.
 */
void
fn_format_disk(struct i_fn_args *a)
{
	struct commands *cmds;
	char *selected_disk_string;

	if (storage_get_selected_disk(a->s) == NULL) {
		a->short_desc = _("Select a disk to format.");
		a->cancel_desc = _("Return to Utilities Menu");
		fn_select_disk(a);
		if (!a->result || storage_get_selected_disk(a->s) == NULL) {
			a->result = 0;
			return;
		}
	}

	if (confirm_dangerous_action(a->c,
	    _("WARNING!  ALL data in ALL partitions on the disk\n\n"
	    "%s\n\nwill be IRREVOCABLY ERASED!\n\nAre you ABSOLUTELY "
	    "SURE you wish to take this action?  This is your "
	    "LAST CHANCE to cancel!"), disk_get_desc(storage_get_selected_disk(a->s)))) {
		cmds = commands_new();

		command_add(cmds, "%s%s -BI %s",
		    a->os_root, cmd_name(a, "FDISK"),
		    disk_get_device_name(storage_get_selected_disk(a->s)));

		if (!commands_execute(a, cmds)) {
			inform(a->c, _("The disk\n\n%s\n\nwas "
			    "not correctly formatted, and may "
			    "now be in an inconsistent state. "
			    "We recommend re-formatting it "
			    "before attempting to install "
			    "%s on it."),
			    disk_get_desc(storage_get_selected_disk(a->s)),
			    OPERATING_SYSTEM_NAME);
			commands_free(cmds);
			a->result = 0;
			return;
		}
		commands_free(cmds);

		/*
		 * Since one of the disks has now changed, we must
		 * refresh our view of them and re-select the disk
		 * since the selected_disk pointer will be invalidated.
		 */
		selected_disk_string = aura_strdup(
		    disk_get_device_name(storage_get_selected_disk(a->s)));
		if (!survey_storage(a)) {
			inform(a->c, _("Errors occurred while probing "
			    "the system for its storage capabilities."));
		}
		storage_set_selected_disk(a->s, disk_find(a->s, selected_disk_string));
		free(selected_disk_string);

		/*
		 * Note that we formatted this disk and that we want
		 * to use the first (and only) slice of it.
		 */
		disk_set_formatted(storage_get_selected_disk(a->s), 1);
		storage_set_selected_slice(a->s, disk_slice_first(storage_get_selected_disk(a->s)));

		if (!format_slice(a)) {
			inform(a->c, _("The sole primary partition of "
			    "the disk\n\n%s\n\nwas "
			    "not correctly formatted, and may "
			    "now be in an inconsistent state. "
			    "We recommend re-formatting the "
			    "disk before attempting to install "
			    "%s on it."),
			    disk_get_desc(storage_get_selected_disk(a->s)),
			    OPERATING_SYSTEM_NAME);
			a->result = 0;
			return;
		}

		inform(a->c, _("The disk\n\n%s\n\nwas formatted."),
		    disk_get_desc(storage_get_selected_disk(a->s)));
		a->result = 1;
	} else {
		inform(a->c, _("Action cancelled - no disks were formatted."));
		a->result = 0;
	}
}
Ejemplo n.º 10
0
/*
 * Given a set of subpartitions-to-be in the selected slice,
 * create them.
 */
static int
create_subpartitions(struct i_fn_args *a)
{
	struct subpartition *sp;
	struct commands *cmds;
	int result = 0;
	int num_partitions;

	cmds = commands_new();
	if (!is_file("%sinstall.disklabel.%s",
	    a->tmp,
	    slice_get_device_name(storage_get_selected_slice(a->s)))) {
		/*
		 * Get a copy of the 'virgin' disklabel.
		 * XXX It might make more sense for this to
		 * happen right after format_slice() instead.
		 */
		command_add(cmds, "%s%s -r %s >%sinstall.disklabel.%s",
		    a->os_root, cmd_name(a, "DISKLABEL64"),
		    slice_get_device_name(storage_get_selected_slice(a->s)),
		    a->tmp,
		    slice_get_device_name(storage_get_selected_slice(a->s)));
	}

	/*
	 * Weave together a new disklabel out the of the 'virgin'
	 * disklabel, and the user's subpartition choices.
	 */

	/*
	 * Take everything from the 'virgin' disklabel up until the
	 * '16 partitions' line.
	 */
	num_partitions = 16;
	command_add(cmds, "%s%s '$2==\"partitions:\" || cut { cut = 1 } !cut { print $0 }' <%sinstall.disklabel.%s >%sinstall.disklabel",
	    a->os_root, cmd_name(a, "AWK"),
	    a->tmp,
	    slice_get_device_name(storage_get_selected_slice(a->s)),
	    a->tmp);

	/*
	 * 16 partitions:
	 * #          size     offset    fstype
	 *   c:   16383969          0    unused	#    7999.985MB
	 */

	command_add(cmds, "%s%s '%d partitions:' >>%sinstall.disklabel",
	    a->os_root, cmd_name(a, "ECHO"), num_partitions ,a->tmp);
	command_add(cmds, "%s%s '%s' >>%sinstall.disklabel",
	    a->os_root, cmd_name(a, "ECHO"),
	    "#          size     offset    fstype",
	    a->tmp);

#ifdef DEBUG
	for (sp = slice_subpartition_first(storage_get_selected_slice(a->s));
	     sp != NULL; sp = subpartition_next(sp)) {
		command_add(cmds, "%s%s 'mountpoint: %s device: %s'",
		     a->os_root, cmd_name(a, "ECHO"),
		     subpartition_get_mountpoint(sp),
		     subpartition_get_device_name(sp));
	}
#endif

	/*
	 * Write a line for each subpartition the user wants.
	 */
	for (sp = slice_subpartition_first(storage_get_selected_slice(a->s));
	     sp != NULL; sp = subpartition_next(sp)) {
		if (subpartition_is_tmpfsbacked(sp)) {
			continue;
		}
		if (subpartition_is_swap(sp)) {
			command_add(cmds, "%s%s '  %c:\t%s\t*\tswap' >>%sinstall.disklabel",
			    a->os_root, cmd_name(a, "ECHO"),
			    subpartition_get_letter(sp),
			    capacity_to_string(subpartition_get_capacity(sp)),
			    a->tmp);
		} else if (strcmp(subpartition_get_mountpoint(sp), "/boot") == 0) {
			command_add(cmds, "%s%s '  %c:\t%s\t0\t4.2BSD' >>%sinstall.disklabel",
			    a->os_root, cmd_name(a, "ECHO"),
			    subpartition_get_letter(sp),
			    capacity_to_string(subpartition_get_capacity(sp)),
			    a->tmp);
		} else {
			command_add(cmds, "%s%s '  %c:\t%s\t*\tHAMMER' >>%sinstall.disklabel",
			    a->os_root, cmd_name(a, "ECHO"),
			    subpartition_get_letter(sp),
			    capacity_to_string(subpartition_get_capacity(sp)),
			    a->tmp);
		}
	}
	temp_file_add(a, "install.disklabel");

	/*
	 * Label the slice from the disklabel we just wove together.
	 */
	command_add(cmds, "%s%s -R -B -r %s %sinstall.disklabel",
	    a->os_root, cmd_name(a, "DISKLABEL64"),
	    slice_get_device_name(storage_get_selected_slice(a->s)),
	    a->tmp);

	/*
	 * Create a snapshot of the disklabel we just created
	 * for debugging inspection in the log.
	 */
	command_add(cmds, "%s%s %s",
	    a->os_root, cmd_name(a, "DISKLABEL64"),
	    slice_get_device_name(storage_get_selected_slice(a->s)));

	/*
	 * If encryption was specified, load dm(4).
	 */
	for (sp = slice_subpartition_first(storage_get_selected_slice(a->s));
	     sp != NULL; sp = subpartition_next(sp)) {
		if (subpartition_is_encrypted(sp)) {
			fn_get_passphrase(a);
			break;
		}
	}

	/*
	 * Create filesystems on the newly-created subpartitions.
	 */
	for (sp = slice_subpartition_first(storage_get_selected_slice(a->s));
	     sp != NULL; sp = subpartition_next(sp)) {
		if (subpartition_is_swap(sp) || subpartition_is_tmpfsbacked(sp)) {
			if (subpartition_is_swap(sp) &&
			    subpartition_is_encrypted(sp)) {
				command_add(cmds,
				    "%s%s -d /tmp/t1 luksFormat /dev/%s",
				    a->os_root, cmd_name(a, "CRYPTSETUP"),
				    subpartition_get_device_name(sp));
				command_add(cmds,
				    "%s%s -d /tmp/t1 luksOpen /dev/%s swap",
				    a->os_root, cmd_name(a, "CRYPTSETUP"),
				    subpartition_get_device_name(sp));
			}
			continue;
		}

		if (strcmp(subpartition_get_mountpoint(sp), "/boot") == 0) {
			command_add(cmds, "%s%s /dev/%s",
			    a->os_root, cmd_name(a, "NEWFS"),
			    subpartition_get_device_name(sp));
		} else {
			if (subpartition_is_encrypted(sp)) {
				command_add(cmds,
				    "%s%s -d /tmp/t1 luksFormat /dev/%s",
				    a->os_root, cmd_name(a, "CRYPTSETUP"),
				    subpartition_get_device_name(sp));
				command_add(cmds,
				    "%s%s -d /tmp/t1 luksOpen /dev/%s root",
				    a->os_root, cmd_name(a, "CRYPTSETUP"),
				    subpartition_get_device_name(sp));
			}
			command_add(cmds, "%s%s -f -L ROOT /dev/%s",
			    a->os_root, cmd_name(a, "NEWFS_HAMMER"),
			    subpartition_is_encrypted(sp) ?
			    "mapper/root" : subpartition_get_device_name(sp));
		}
	}

	result = commands_execute(a, cmds);
	commands_free(cmds);
	return(result);
}
Ejemplo n.º 11
0
/**
 * Register `configure med dot3` commands.
 */
void
register_commands_dot3pow(struct cmd_node *configure_dot3)
{
	struct cmd_node *configure_dot3power = commands_new(
		configure_dot3,
		"power", "Dot3 power configuration",
		NULL, NULL, NULL);

	commands_new(
		configure_dot3power,
		NEWLINE, "Apply new Dot3 power configuration",
		cmd_check_env_power, cmd_dot3power, NULL);

	/* Type: PSE or PD */
	commands_new(
		configure_dot3power,
		"pd", "Dot3 power consumer",
		cmd_check_no_env, cmd_store_env_value_and_pop, "device-type");
	commands_new(
		configure_dot3power,
		"pse", "Dot3 power provider",
		cmd_check_no_env, cmd_store_env_value_and_pop, "device-type");

	/* Flags */
	commands_new(
		configure_dot3power,
		"supported", "MDI power support present",
		cmd_check_type_but_no, cmd_store_env_and_pop, "supported");
	commands_new(
		configure_dot3power,
		"enabled", "MDI power support enabled",
		cmd_check_type_but_no, cmd_store_env_and_pop, "enabled");
	commands_new(
		configure_dot3power,
		"paircontrol", "MDI power pair can be selected",
		cmd_check_type_but_no, cmd_store_env_and_pop, "paircontrol");

	/* Power pairs */
	struct cmd_node *powerpairs = commands_new(
		configure_dot3power,
		"powerpairs", "Which pairs are currently used for power (mandatory)",
		cmd_check_type_but_no, NULL, "powerpairs");
	for (lldpctl_map_t *pp_map =
		 lldpctl_key_get_map(lldpctl_k_dot3_power_pairs);
	     pp_map->string;
	     pp_map++) {
		commands_new(
			powerpairs,
			pp_map->string,
			pp_map->string,
			NULL, cmd_store_powerpairs_env_value_and_pop2, pp_map->string);
	}

	/* Class */
	struct cmd_node *class = commands_new(
		configure_dot3power,
		"class", "Power class",
		cmd_check_type_but_no, NULL, "class");
	for (lldpctl_map_t *class_map =
		 lldpctl_key_get_map(lldpctl_k_dot3_power_class);
	     class_map->string;
	     class_map++) {
		const char *tag = strdup(totag(class_map->string));
		commands_new(
			class,
			tag,
			class_map->string,
			NULL, cmd_store_class_env_value_and_pop2, class_map->string);
	}

	/* 802.3at type */
	struct cmd_node *typeat = commands_new(
		configure_dot3power,
		"type", "802.3at device type",
		cmd_check_type_but_no, NULL, "typeat");
	commands_new(typeat,
	    "1", "802.3at type 1",
	    NULL, cmd_store_env_value_and_pop2, "typeat");
	commands_new(typeat,
	    "2", "802.3at type 2",
	    NULL, cmd_store_env_value_and_pop2, "typeat");

	/* Source */
	struct cmd_node *source = commands_new(
		configure_dot3power,
		"source", "802.3at dot3 power source (mandatory)",
		cmd_check_typeat_but_no, NULL, "source");
	register_commands_pow_source(source);

	/* Priority */
	struct cmd_node *priority = commands_new(
		configure_dot3power,
		"priority", "802.3at dot3 power priority (mandatory)",
		cmd_check_typeat_but_no, NULL, "priority");
	register_commands_pow_priority(priority, lldpctl_k_dot3_power_priority);

	/* Values */
	commands_new(
		commands_new(configure_dot3power,
		    "requested", "802.3at dot3 power value requested (mandatory)",
		    cmd_check_typeat_but_no, NULL, "requested"),
		NULL, "802.3at power value requested in milliwatts",
		NULL, cmd_store_env_value_and_pop2, "requested");
	commands_new(
		commands_new(configure_dot3power,
		    "allocated", "802.3at dot3 power value allocated (mandatory)",
		    cmd_check_typeat_but_no, NULL, "allocated"),
		NULL, "802.3at power value allocated in milliwatts",
		NULL, cmd_store_env_value_and_pop2, "allocated");
}