/* nmcli - command-line tool to control NetworkManager * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. * * Copyright 2010 - 2015 Red Hat, Inc. */ #include "nm-default.h" #include #include #include #include #include #include #include #include #include #include "utils.h" #include "common.h" #include "settings.h" #include "connections.h" #include "nm-secret-agent-simple.h" #include "polkit-agent.h" #include "nm-vpn-helpers.h" /* define some prompts for connection editor */ #define EDITOR_PROMPT_SETTING _("Setting name? ") #define EDITOR_PROMPT_PROPERTY _("Property name? ") #define EDITOR_PROMPT_CON_TYPE _("Enter connection type: ") /* define some other prompts */ #define PROMPT_CON_TYPE _("Connection type: ") #define PROMPT_VPN_TYPE _("VPN type: ") #define PROMPT_MASTER _("Master: ") #define PROMPT_CONNECTION _("Connection (name, UUID, or path): ") #define PROMPT_VPN_CONNECTION _("VPN connection (name, UUID, or path): ") #define PROMPT_CONNECTIONS _("Connection(s) (name, UUID, or path): ") #define PROMPT_ACTIVE_CONNECTIONS _("Connection(s) (name, UUID, path or apath): ") #define PROMPT_IP_TUNNEL_MODE _("Tunnel mode: ") #define PROMPT_MACVLAN_MODE _("MACVLAN mode: ") /* Available fields for 'connection show' */ static NmcOutputField nmc_fields_con_show[] = { {"NAME", N_("NAME")}, /* 0 */ {"UUID", N_("UUID")}, /* 1 */ {"TYPE", N_("TYPE")}, /* 2 */ {"TIMESTAMP", N_("TIMESTAMP")}, /* 3 */ {"TIMESTAMP-REAL", N_("TIMESTAMP-REAL")}, /* 4 */ {"AUTOCONNECT", N_("AUTOCONNECT")}, /* 5 */ {"AUTOCONNECT-PRIORITY", N_("AUTOCONNECT-PRIORITY")}, /* 6 */ {"READONLY", N_("READONLY")}, /* 7 */ {"DBUS-PATH", N_("DBUS-PATH")}, /* 8 */ {"ACTIVE", N_("ACTIVE")}, /* 9 */ {"DEVICE", N_("DEVICE")}, /* 10 */ {"STATE", N_("STATE")}, /* 11 */ {"ACTIVE-PATH", N_("ACTIVE-PATH")}, /* 12 */ {NULL, NULL} }; #define NMC_FIELDS_CON_SHOW_ALL "NAME,UUID,TYPE,TIMESTAMP,TIMESTAMP-REAL,AUTOCONNECT,AUTOCONNECT-PRIORITY,READONLY,DBUS-PATH,"\ "ACTIVE,DEVICE,STATE,ACTIVE-PATH" #define NMC_FIELDS_CON_SHOW_COMMON "NAME,UUID,TYPE,DEVICE" /* Helper macro to define fields */ #define SETTING_FIELD(setting, props) { setting, N_(setting), 0, props, NULL, FALSE, FALSE, 0 } /* defined in settings.c */ extern NmcOutputField nmc_fields_setting_connection[]; extern NmcOutputField nmc_fields_setting_wired[]; extern NmcOutputField nmc_fields_setting_8021X[]; extern NmcOutputField nmc_fields_setting_wireless[]; extern NmcOutputField nmc_fields_setting_wireless_security[]; extern NmcOutputField nmc_fields_setting_ip4_config[]; extern NmcOutputField nmc_fields_setting_ip6_config[]; extern NmcOutputField nmc_fields_setting_serial[]; extern NmcOutputField nmc_fields_setting_ppp[]; extern NmcOutputField nmc_fields_setting_pppoe[]; extern NmcOutputField nmc_fields_setting_adsl[]; extern NmcOutputField nmc_fields_setting_gsm[]; extern NmcOutputField nmc_fields_setting_cdma[]; extern NmcOutputField nmc_fields_setting_bluetooth[]; extern NmcOutputField nmc_fields_setting_olpc_mesh[]; extern NmcOutputField nmc_fields_setting_vpn[]; extern NmcOutputField nmc_fields_setting_wimax[]; extern NmcOutputField nmc_fields_setting_infiniband[]; extern NmcOutputField nmc_fields_setting_bond[]; extern NmcOutputField nmc_fields_setting_vlan[]; extern NmcOutputField nmc_fields_setting_bridge[]; extern NmcOutputField nmc_fields_setting_bridge_port[]; extern NmcOutputField nmc_fields_setting_team[]; extern NmcOutputField nmc_fields_setting_team_port[]; extern NmcOutputField nmc_fields_setting_dcb[]; extern NmcOutputField nmc_fields_setting_tun[]; extern NmcOutputField nmc_fields_setting_ip_tunnel[]; extern NmcOutputField nmc_fields_setting_macvlan[]; extern NmcOutputField nmc_fields_setting_vxlan[]; /* Available settings for 'connection show ' - profile part */ static NmcOutputField nmc_fields_settings_names[] = { SETTING_FIELD (NM_SETTING_CONNECTION_SETTING_NAME, nmc_fields_setting_connection + 1), /* 0 */ SETTING_FIELD (NM_SETTING_WIRED_SETTING_NAME, nmc_fields_setting_wired + 1), /* 1 */ SETTING_FIELD (NM_SETTING_802_1X_SETTING_NAME, nmc_fields_setting_8021X + 1), /* 2 */ SETTING_FIELD (NM_SETTING_WIRELESS_SETTING_NAME, nmc_fields_setting_wireless + 1), /* 3 */ SETTING_FIELD (NM_SETTING_WIRELESS_SECURITY_SETTING_NAME, nmc_fields_setting_wireless_security + 1), /* 4 */ SETTING_FIELD (NM_SETTING_IP4_CONFIG_SETTING_NAME, nmc_fields_setting_ip4_config + 1), /* 5 */ SETTING_FIELD (NM_SETTING_IP6_CONFIG_SETTING_NAME, nmc_fields_setting_ip6_config + 1), /* 6 */ SETTING_FIELD (NM_SETTING_SERIAL_SETTING_NAME, nmc_fields_setting_serial + 1), /* 7 */ SETTING_FIELD (NM_SETTING_PPP_SETTING_NAME, nmc_fields_setting_ppp + 1), /* 8 */ SETTING_FIELD (NM_SETTING_PPPOE_SETTING_NAME, nmc_fields_setting_pppoe + 1), /* 9 */ SETTING_FIELD (NM_SETTING_GSM_SETTING_NAME, nmc_fields_setting_gsm + 1), /* 10 */ SETTING_FIELD (NM_SETTING_CDMA_SETTING_NAME, nmc_fields_setting_cdma + 1), /* 11 */ SETTING_FIELD (NM_SETTING_BLUETOOTH_SETTING_NAME, nmc_fields_setting_bluetooth + 1), /* 12 */ SETTING_FIELD (NM_SETTING_OLPC_MESH_SETTING_NAME, nmc_fields_setting_olpc_mesh + 1), /* 13 */ SETTING_FIELD (NM_SETTING_VPN_SETTING_NAME, nmc_fields_setting_vpn + 1), /* 14 */ SETTING_FIELD (NM_SETTING_WIMAX_SETTING_NAME, nmc_fields_setting_wimax + 1), /* 15 */ SETTING_FIELD (NM_SETTING_INFINIBAND_SETTING_NAME, nmc_fields_setting_infiniband + 1), /* 16 */ SETTING_FIELD (NM_SETTING_BOND_SETTING_NAME, nmc_fields_setting_bond + 1), /* 17 */ SETTING_FIELD (NM_SETTING_VLAN_SETTING_NAME, nmc_fields_setting_vlan + 1), /* 18 */ SETTING_FIELD (NM_SETTING_ADSL_SETTING_NAME, nmc_fields_setting_adsl + 1), /* 19 */ SETTING_FIELD (NM_SETTING_BRIDGE_SETTING_NAME, nmc_fields_setting_bridge + 1), /* 20 */ SETTING_FIELD (NM_SETTING_BRIDGE_PORT_SETTING_NAME, nmc_fields_setting_bridge_port + 1), /* 21 */ SETTING_FIELD (NM_SETTING_TEAM_SETTING_NAME, nmc_fields_setting_team + 1), /* 22 */ SETTING_FIELD (NM_SETTING_TEAM_PORT_SETTING_NAME, nmc_fields_setting_team_port + 1), /* 23 */ SETTING_FIELD (NM_SETTING_DCB_SETTING_NAME, nmc_fields_setting_dcb + 1), /* 24 */ SETTING_FIELD (NM_SETTING_TUN_SETTING_NAME, nmc_fields_setting_tun + 1), /* 25 */ SETTING_FIELD (NM_SETTING_IP_TUNNEL_SETTING_NAME, nmc_fields_setting_ip_tunnel + 1), /* 26 */ SETTING_FIELD (NM_SETTING_MACVLAN_SETTING_NAME, nmc_fields_setting_macvlan + 1), /* 27 */ SETTING_FIELD (NM_SETTING_VXLAN_SETTING_NAME, nmc_fields_setting_vxlan + 1), /* 28 */ {NULL, NULL, 0, NULL, NULL, FALSE, FALSE, 0} }; #define NMC_FIELDS_SETTINGS_NAMES_ALL_X NM_SETTING_CONNECTION_SETTING_NAME","\ NM_SETTING_WIRED_SETTING_NAME","\ NM_SETTING_802_1X_SETTING_NAME","\ NM_SETTING_WIRELESS_SETTING_NAME","\ NM_SETTING_WIRELESS_SECURITY_SETTING_NAME","\ NM_SETTING_IP4_CONFIG_SETTING_NAME","\ NM_SETTING_IP6_CONFIG_SETTING_NAME","\ NM_SETTING_SERIAL_SETTING_NAME","\ NM_SETTING_PPP_SETTING_NAME","\ NM_SETTING_PPPOE_SETTING_NAME","\ NM_SETTING_ADSL_SETTING_NAME","\ NM_SETTING_GSM_SETTING_NAME","\ NM_SETTING_CDMA_SETTING_NAME","\ NM_SETTING_BLUETOOTH_SETTING_NAME","\ NM_SETTING_OLPC_MESH_SETTING_NAME","\ NM_SETTING_VPN_SETTING_NAME","\ NM_SETTING_INFINIBAND_SETTING_NAME","\ NM_SETTING_BOND_SETTING_NAME","\ NM_SETTING_VLAN_SETTING_NAME","\ NM_SETTING_BRIDGE_SETTING_NAME","\ NM_SETTING_BRIDGE_PORT_SETTING_NAME","\ NM_SETTING_TEAM_SETTING_NAME","\ NM_SETTING_TEAM_PORT_SETTING_NAME"," \ NM_SETTING_DCB_SETTING_NAME"," \ NM_SETTING_TUN_SETTING_NAME"," \ NM_SETTING_IP_TUNNEL_SETTING_NAME"," \ NM_SETTING_MACVLAN_SETTING_NAME"," \ NM_SETTING_VXLAN_SETTING_NAME #define NMC_FIELDS_SETTINGS_NAMES_ALL NMC_FIELDS_SETTINGS_NAMES_ALL_X /* Active connection data */ /* Available fields for GENERAL group */ static NmcOutputField nmc_fields_con_active_details_general[] = { {"GROUP", N_("GROUP")}, /* 0 */ {"NAME", N_("NAME")}, /* 1 */ {"UUID", N_("UUID")}, /* 2 */ {"DEVICES", N_("DEVICES")}, /* 3 */ {"STATE", N_("STATE")}, /* 4 */ {"DEFAULT", N_("DEFAULT")}, /* 5 */ {"DEFAULT6", N_("DEFAULT6")}, /* 6 */ {"SPEC-OBJECT", N_("SPEC-OBJECT")}, /* 7 */ {"VPN", N_("VPN")}, /* 8 */ {"DBUS-PATH", N_("DBUS-PATH")}, /* 9 */ {"CON-PATH", N_("CON-PATH")}, /* 10 */ {"ZONE", N_("ZONE")}, /* 11 */ {"MASTER-PATH", N_("MASTER-PATH")}, /* 12 */ {NULL, NULL} }; #define NMC_FIELDS_CON_ACTIVE_DETAILS_GENERAL_ALL "GROUP,NAME,UUID,DEVICES,STATE,DEFAULT,DEFAULT6,"\ "VPN,ZONE,DBUS-PATH,CON-PATH,SPEC-OBJECT,MASTER-PATH" /* IP group is handled by common.c */ /* Available fields for VPN group */ static NmcOutputField nmc_fields_con_active_details_vpn[] = { {"GROUP", N_("GROUP")}, /* 0 */ {"TYPE", N_("TYPE")}, /* 1 */ {"USERNAME", N_("USERNAME")}, /* 2 */ {"GATEWAY", N_("GATEWAY")}, /* 3 */ {"BANNER", N_("BANNER")}, /* 4 */ {"VPN-STATE", N_("VPN-STATE")}, /* 5 */ {"CFG", N_("CFG")}, /* 6 */ {NULL, NULL} }; #define NMC_FIELDS_CON_ACTIVE_DETAILS_VPN_ALL "GROUP,TYPE,USERNAME,GATEWAY,BANNER,VPN-STATE,CFG" /* defined in common.c */ extern NmcOutputField nmc_fields_ip4_config[]; extern NmcOutputField nmc_fields_ip6_config[]; extern NmcOutputField nmc_fields_dhcp4_config[]; extern NmcOutputField nmc_fields_dhcp6_config[]; /* Available fields for 'connection show ' - active part */ static NmcOutputField nmc_fields_con_active_details_groups[] = { {"GENERAL", N_("GENERAL"), 0, nmc_fields_con_active_details_general + 1}, /* 0 */ {"IP4", N_("IP4"), 0, nmc_fields_ip4_config + 1 }, /* 1 */ {"DHCP4", N_("DHCP4"), 0, nmc_fields_dhcp4_config + 1 }, /* 2 */ {"IP6", N_("IP6"), 0, nmc_fields_ip6_config + 1 }, /* 3 */ {"DHCP6", N_("DHCP6"), 0, nmc_fields_dhcp6_config + 1 }, /* 4 */ {"VPN", N_("VPN"), 0, nmc_fields_con_active_details_vpn + 1 }, /* 5 */ {NULL, NULL, 0, NULL} }; #define NMC_FIELDS_CON_ACTIVE_DETAILS_ALL "GENERAL,IP4,DHCP4,IP6,DHCP6,VPN" /* Pseudo group names for 'connection show ' */ /* e.g.: nmcli -f profile con show my-eth0 */ /* e.g.: nmcli -f active con show my-eth0 */ #define CON_SHOW_DETAIL_GROUP_PROFILE "profile" #define CON_SHOW_DETAIL_GROUP_ACTIVE "active" /* glib main loop variable - defined in nmcli.c */ extern GMainLoop *loop; static guint progress_id = 0; /* ID of event source for displaying progress */ /* for readline TAB completion in editor */ typedef struct { NmCli *nmc; char *con_type; NMConnection *connection; NMSetting *setting; const char *property; } TabCompletionInfo; static TabCompletionInfo nmc_tab_completion = {NULL, NULL, NULL, NULL}; static char *gen_connection_types (const char *text, int state); static void usage (void) { g_printerr (_("Usage: nmcli connection { COMMAND | help }\n\n" "COMMAND := { show | up | down | add | modify | edit | delete | monitor | reload | load }\n\n" " show [--active] [--order ]\n" " show [--active] [id | uuid | path | apath] ...\n\n" " up [[id | uuid | path] ] [ifname ] [ap ] [passwd-file ]\n\n" " down [id | uuid | path | apath] ...\n\n" " add COMMON_OPTIONS TYPE_SPECIFIC_OPTIONS SLAVE_OPTIONS IP_OPTIONS [-- ([+|-]. )+]\n\n" " modify [--temporary] [id | uuid | path] ([+|-]. )+\n\n" " clone [--temporary] [id | uuid | path ] \n\n" " edit [id | uuid | path] \n" " edit [type ] [con-name ]\n\n" " delete [id | uuid | path] \n\n" " monitor [id | uuid | path] ...\n\n" " reload\n\n" " load [ ... ]\n\n" " import [--temporary] type file \n\n" " export [id | uuid | path] []\n\n")); } static void usage_connection_show (void) { g_printerr (_("Usage: nmcli connection show { ARGUMENTS | help }\n" "\n" "ARGUMENTS := [--active] [--order ]\n" "\n" "List in-memory and on-disk connection profiles, some of which may also be\n" "active if a device is using that connection profile. Without a parameter, all\n" "profiles are listed. When --active option is specified, only the active\n" "profiles are shown. --order allows custom connection ordering (see manual page).\n" "\n" "ARGUMENTS := [--active] [id | uuid | path | apath] ...\n" "\n" "Show details for specified connections. By default, both static configuration\n" "and active connection data are displayed. It is possible to filter the output\n" "using global '--fields' option. Refer to the manual page for more information.\n" "When --active option is specified, only the active profiles are taken into\n" "account. Use global --show-secrets option to reveal associated secrets as well.\n")); } static void usage_connection_up (void) { g_printerr (_("Usage: nmcli connection up { ARGUMENTS | help }\n" "\n" "ARGUMENTS := [id | uuid | path] [ifname ] [ap ] [nsp ] [passwd-file ]\n" "\n" "Activate a connection on a device. The profile to activate is identified by its\n" "name, UUID or D-Bus path.\n" "\n" "ARGUMENTS := ifname [ap ] [nsp ] [passwd-file ]\n" "\n" "Activate a device with a connection. The connection profile is selected\n" "automatically by NetworkManager.\n" "\n" "ifname - specifies the device to active the connection on\n" "ap - specifies AP to connect to (only valid for Wi-Fi)\n" "nsp - specifies NSP to connect to (only valid for WiMAX)\n" "passwd-file - file with password(s) required to activate the connection\n\n")); } static void usage_connection_down (void) { g_printerr (_("Usage: nmcli connection down { ARGUMENTS | help }\n" "\n" "ARGUMENTS := [id | uuid | path | apath] ...\n" "\n" "Deactivate a connection from a device (without preventing the device from\n" "further auto-activation). The profile to deactivate is identified by its name,\n" "UUID or D-Bus path.\n\n")); } static void usage_connection_add (void) { g_printerr (_("Usage: nmcli connection add { ARGUMENTS | help }\n" "\n" "ARGUMENTS := COMMON_OPTIONS TYPE_SPECIFIC_OPTIONS SLAVE_OPTIONS IP_OPTIONS [-- ([+|-]. )+]\n\n" " COMMON_OPTIONS:\n" " type \n" " ifname | \"*\"\n" " [con-name ]\n" " [autoconnect yes|no]\n" " [save yes|no]\n" " [master ]\n" " [slave-type ]\n\n" " TYPE_SPECIFIC_OPTIONS:\n" " ethernet: [mac ]\n" " [cloned-mac ]\n" " [mtu ]\n\n" " wifi: ssid \n" " [mac ]\n" " [cloned-mac ]\n" " [mtu ]\n" " [mode infrastructure|ap|adhoc]\n\n" " wimax: [mac ]\n" " [nsp ]\n\n" " pppoe: username \n" " [password ]\n" " [service ]\n" " [mtu ]\n" " [mac ]\n\n" " gsm: apn \n" " [user ]\n" " [password ]\n\n" " cdma: [user ]\n" " [password ]\n\n" " infiniband: [mac ]\n" " [mtu ]\n" " [transport-mode datagram | connected]\n" " [parent ]\n" " [p-key ]\n\n" " bluetooth: [addr ]\n" " [bt-type panu|dun-gsm|dun-cdma]\n\n" " vlan: dev \n" " id \n" " [flags ]\n" " [ingress ]\n" " [egress ]\n" " [mtu ]\n\n" " bond: [mode balance-rr (0) | active-backup (1) | balance-xor (2) | broadcast (3) |\n" " 802.3ad (4) | balance-tlb (5) | balance-alb (6)]\n" " [primary ]\n" " [miimon ]\n" " [downdelay ]\n" " [updelay ]\n" " [arp-interval ]\n" " [arp-ip-target ]\n" " [lacp-rate slow (0) | fast (1)]\n\n" " bond-slave: master \n\n" " team: [config |]\n\n" " team-slave: master \n" " [config |]\n\n" " bridge: [stp yes|no]\n" " [priority ]\n" " [forward-delay <2-30>]\n" " [hello-time <1-10>]\n" " [max-age <6-40>]\n" " [ageing-time <0-1000000>]\n" " [multicast-snooping yes|no]\n" " [mac ]\n\n" " bridge-slave: master \n" " [priority <0-63>]\n" " [path-cost <1-65535>]\n" " [hairpin yes|no]\n\n" " vpn: vpn-type vpnc|openvpn|pptp|openconnect|openswan|libreswan|ssh|l2tp|iodine|...\n" " [user ]\n\n" " olpc-mesh: ssid \n" " [channel <1-13>]\n" " [dhcp-anycast ]\n\n" " adsl: username \n" " protocol pppoa|pppoe|ipoatm\n" " [password ]\n" " [encapsulation vcmux|llc]\n\n" " tun: mode tun|tap\n" " [owner ]\n" " [group ]\n" " [pi yes|no]\n" " [vnet-hdr yes|no]\n" " [multi-queue yes|no]\n\n" " ip-tunnel: mode ipip|gre|sit|isatap|vti|ip6ip6|ipip6|ip6gre|vti6\n" " remote \n" " [local ]\n" " [dev ]\n\n" " macvlan: dev \n" " mode vepa|bridge|private|passthru|source\n" " [tap yes|no]\n\n" " vxlan: id \n" " remote \n" " [local ]\n" " [dev ]\n" " [source-port-min <0-65535>]\n" " [source-port-max <0-65535>]\n" " [destination-port <0-65535>]\n\n" " SLAVE_OPTIONS:\n" " bridge: [priority <0-63>]\n" " [path-cost <1-65535>]\n" " [hairpin yes|no]\n\n" " team: [config |]\n\n" " IP_OPTIONS:\n" " [ip4 ] [gw4 ]\n" " [ip6 ] [gw6 ]\n\n")); } static void usage_connection_modify (void) { g_printerr (_("Usage: nmcli connection modify { ARGUMENTS | help }\n" "\n" "ARGUMENTS := [id | uuid | path] ([+|-]. )+\n" "\n" "Modify one or more properties of the connection profile.\n" "The profile is identified by its name, UUID or D-Bus path. For multi-valued\n" "properties you can use optional '+' or '-' prefix to the property name.\n" "The '+' sign allows appending items instead of overwriting the whole value.\n" "The '-' sign allows removing selected items instead of the whole value.\n" "\n" "Examples:\n" "nmcli con mod home-wifi wifi.ssid rakosnicek\n" "nmcli con mod em1-1 ipv4.method manual ipv4.addr \"192.168.1.2/24, 10.10.1.5/8\"\n" "nmcli con mod em1-1 +ipv4.dns 8.8.4.4\n" "nmcli con mod em1-1 -ipv4.dns 1\n" "nmcli con mod em1-1 -ipv6.addr \"abbe::cafe/56\"\n" "nmcli con mod bond0 +bond.options mii=500\n" "nmcli con mod bond0 -bond.options downdelay\n\n")); } static void usage_connection_clone (void) { g_printerr (_("Usage: nmcli connection clone { ARGUMENTS | help }\n" "\n" "ARGUMENTS := [--temporary] [id | uuid | path] \n" "\n" "Clone an existing connection profile. The newly created connection will be\n" "the exact copy of the , except the uuid property (will be generated) and\n" "id (provided as argument).\n\n")); } static void usage_connection_edit (void) { g_printerr (_("Usage: nmcli connection edit { ARGUMENTS | help }\n" "\n" "ARGUMENTS := [id | uuid | path] \n" "\n" "Edit an existing connection profile in an interactive editor.\n" "The profile is identified by its name, UUID or D-Bus path\n" "\n" "ARGUMENTS := [type ] [con-name ]\n" "\n" "Add a new connection profile in an interactive editor.\n\n")); } static void usage_connection_delete (void) { g_printerr (_("Usage: nmcli connection delete { ARGUMENTS | help }\n" "\n" "ARGUMENTS := [id | uuid | path] \n" "\n" "Delete a connection profile.\n" "The profile is identified by its name, UUID or D-Bus path.\n\n")); } static void usage_connection_monitor (void) { g_printerr (_("Usage: nmcli connection monitor { ARGUMENTS | help }\n" "\n" "ARGUMENTS := [id | uuid | path] ...\n" "\n" "Monitor connection profile activity.\n" "This command prints a line whenever the specified connection changes.\n" "Monitors all connection profiles in case none is specified.\n\n")); } static void usage_connection_reload (void) { g_printerr (_("Usage: nmcli connection reload { help }\n" "\n" "Reload all connection files from disk.\n\n")); } static void usage_connection_load (void) { g_printerr (_("Usage: nmcli connection load { ARGUMENTS | help }\n" "\n" "ARGUMENTS := [...]\n" "\n" "Load/reload one or more connection files from disk. Use this after manually\n" "editing a connection file to ensure that NetworkManager is aware of its latest\n" "state.\n\n")); } static void usage_connection_import (void) { g_printerr (_("Usage: nmcli connection import { ARGUMENTS | help }\n" "\n" "ARGUMENTS := [--temporary] type file \n" "\n" "Import an external/foreign configuration as a NetworkManager connection profile.\n" "The type of the input file is specified by type option.\n" "Only VPN configurations are supported at the moment. The configuration\n" "is imported by NetworkManager VPN plugins.\n\n")); } static void usage_connection_export (void) { g_printerr (_("Usage: nmcli connection export { ARGUMENTS | help }\n" "\n" "ARGUMENTS := [id | uuid | path] []\n" "\n" "Export a connection. Only VPN connections are supported at the moment.\n" "The data are directed to standard output or to a file if a name is given.\n\n")); } static gboolean usage_connection_second_level (const char *cmd) { gboolean ret = TRUE; if (matches (cmd, "show") == 0) usage_connection_show (); else if (matches (cmd, "up") == 0) usage_connection_up (); else if (matches (cmd, "down") == 0) usage_connection_down (); else if (matches (cmd, "add") == 0) usage_connection_add (); else if (matches (cmd, "modify") == 0) usage_connection_modify (); else if (matches (cmd, "clone") == 0) usage_connection_clone (); else if (matches (cmd, "edit") == 0) usage_connection_edit (); else if (matches (cmd, "delete") == 0) usage_connection_delete (); else if (matches (cmd, "monitor") == 0) usage_connection_monitor (); else if (matches (cmd, "reload") == 0) usage_connection_reload (); else if (matches (cmd, "load") == 0) usage_connection_load (); else if (matches (cmd, "import") == 0) usage_connection_import (); else if (matches (cmd, "export") == 0) usage_connection_export (); else ret = FALSE; return ret; } /* quit main loop */ static void quit (void) { if (progress_id) { g_source_remove (progress_id); progress_id = 0; nmc_terminal_erase_line (); } g_main_loop_quit (loop); /* quit main loop */ } static const char * construct_header_name (const char *base, const char *spec) { static char header_name[128]; if (spec == NULL) return base; g_strlcpy (header_name, base, sizeof (header_name)); g_strlcat (header_name, " (", sizeof (header_name)); g_strlcat (header_name, spec, sizeof (header_name)); g_strlcat (header_name, ")", sizeof (header_name)); return header_name; } static const char * active_connection_state_to_string (NMActiveConnectionState state) { switch (state) { case NM_ACTIVE_CONNECTION_STATE_ACTIVATING: return _("activating"); case NM_ACTIVE_CONNECTION_STATE_ACTIVATED: return _("activated"); case NM_ACTIVE_CONNECTION_STATE_DEACTIVATING: return _("deactivating"); case NM_ACTIVE_CONNECTION_STATE_DEACTIVATED: return _("deactivated"); case NM_ACTIVE_CONNECTION_STATE_UNKNOWN: default: return _("unknown"); } } static const char * vpn_connection_state_to_string (NMVpnConnectionState state) { switch (state) { case NM_VPN_CONNECTION_STATE_PREPARE: return _("VPN connecting (prepare)"); case NM_VPN_CONNECTION_STATE_NEED_AUTH: return _("VPN connecting (need authentication)"); case NM_VPN_CONNECTION_STATE_CONNECT: return _("VPN connecting"); case NM_VPN_CONNECTION_STATE_IP_CONFIG_GET: return _("VPN connecting (getting IP configuration)"); case NM_VPN_CONNECTION_STATE_ACTIVATED: return _("VPN connected"); case NM_VPN_CONNECTION_STATE_FAILED: return _("VPN connection failed"); case NM_VPN_CONNECTION_STATE_DISCONNECTED: return _("VPN disconnected"); default: return _("unknown"); } } /* Caller has to free the returned string */ static char * get_ac_device_string (NMActiveConnection *active) { GString *dev_str; const GPtrArray *devices; int i; if (!active) return NULL; /* Get devices of the active connection */ dev_str = g_string_new (NULL); devices = nm_active_connection_get_devices (active); for (i = 0; i < devices->len; i++) { NMDevice *device = g_ptr_array_index (devices, i); const char *dev_iface = nm_device_get_iface (device); if (dev_iface) { g_string_append (dev_str, dev_iface); g_string_append_c (dev_str, ','); } } if (dev_str->len > 0) g_string_truncate (dev_str, dev_str->len - 1); /* Cut off last ',' */ return g_string_free (dev_str, FALSE); } static NMActiveConnection * get_ac_for_connection (const GPtrArray *active_cons, NMConnection *connection) { const char *con_path, *ac_con_path; int i; NMActiveConnection *ac = NULL; /* Is the connection active? */ con_path = nm_connection_get_path (connection); for (i = 0; i < active_cons->len; i++) { NMActiveConnection *candidate = g_ptr_array_index (active_cons, i); NMRemoteConnection *con; con = nm_active_connection_get_connection (candidate); ac_con_path = con ? nm_connection_get_path (NM_CONNECTION (con)) : NULL; if (!g_strcmp0 (ac_con_path, con_path)) { ac = candidate; break; } } return ac; } /* Put secrets into local connection. */ static void update_secrets_in_connection (NMRemoteConnection *remote, NMConnection *local) { GVariant *secrets; int i; GError *error = NULL; for (i = 0; nmc_fields_settings_names[i].name; i++) { secrets = nm_remote_connection_get_secrets (remote, nmc_fields_settings_names[i].name, NULL, NULL); if (secrets) { if (!nm_connection_update_secrets (local, NULL, secrets, &error) && error) { g_printerr (_("Error updating secrets for %s: %s\n"), nmc_fields_settings_names[i].name, error->message); g_clear_error (&error); } g_variant_unref (secrets); } } } static gboolean nmc_connection_profile_details (NMConnection *connection, NmCli *nmc, gboolean secrets) { GError *error = NULL; GArray *print_settings_array; GPtrArray *prop_array = NULL; int i; char *fields_str; char *fields_all = NMC_FIELDS_SETTINGS_NAMES_ALL; char *fields_common = NMC_FIELDS_SETTINGS_NAMES_ALL; const char *base_hdr = _("Connection profile details"); gboolean was_output = FALSE; if (!nmc->required_fields || strcasecmp (nmc->required_fields, "common") == 0) fields_str = fields_common; else if (!nmc->required_fields || strcasecmp (nmc->required_fields, "all") == 0) fields_str = fields_all; else fields_str = nmc->required_fields; print_settings_array = parse_output_fields (fields_str, nmc_fields_settings_names, TRUE, &prop_array, &error); if (error) { g_string_printf (nmc->return_text, _("Error: 'connection show': %s"), error->message); g_error_free (error); nmc->return_value = NMC_RESULT_ERROR_USER_INPUT; return FALSE; } g_assert (print_settings_array); /* Main header */ nmc->print_fields.header_name = (char *) construct_header_name (base_hdr, nm_connection_get_id (connection)); nmc->print_fields.indices = parse_output_fields (NMC_FIELDS_SETTINGS_NAMES_ALL, nmc_fields_settings_names, FALSE, NULL, NULL); nmc_fields_settings_names[0].flags = NMC_OF_FLAG_MAIN_HEADER_ONLY; print_required_fields (nmc, nmc_fields_settings_names); /* Loop through the required settings and print them. */ for (i = 0; i < print_settings_array->len; i++) { NMSetting *setting; int section_idx = g_array_index (print_settings_array, int, i); const char *prop_name = (const char *) g_ptr_array_index (prop_array, i); if (nmc->print_output != NMC_PRINT_TERSE && !nmc->multiline_output && was_output) g_print ("\n"); /* Empty line */ was_output = FALSE; /* Remove any previous data */ nmc_empty_output_fields (nmc); setting = nm_connection_get_setting_by_name (connection, nmc_fields_settings_names[section_idx].name); if (setting) { setting_details (setting, nmc, prop_name, secrets); was_output = TRUE; continue; } } g_array_free (print_settings_array, TRUE); if (prop_array) g_ptr_array_free (prop_array, TRUE); return TRUE; } static NMActiveConnection * find_active_connection (const GPtrArray *active_cons, const GPtrArray *cons, const char *filter_type, const char *filter_val, int *idx) { int i; int start = (idx && *idx > 0) ? *idx : 0; const char *path, *a_path, *path_num, *a_path_num; const char *id; const char *uuid; NMRemoteConnection *con; NMActiveConnection *found = NULL; for (i = start; i < active_cons->len; i++) { NMActiveConnection *candidate = g_ptr_array_index (active_cons, i); con = nm_active_connection_get_connection (candidate); id = nm_active_connection_get_id (candidate); uuid = nm_active_connection_get_uuid (candidate); path = con ? nm_connection_get_path (NM_CONNECTION (con)) : NULL; path_num = path ? strrchr (path, '/') + 1 : NULL; a_path = nm_object_get_path (NM_OBJECT (candidate)); a_path_num = a_path ? strrchr (a_path, '/') + 1 : NULL; /* When filter_type is NULL, compare connection ID (filter_val) * against all types. Otherwise, only compare against the specific * type. If 'path' or 'apath' filter types are specified, comparison * against numeric index (in addition to the whole path) is allowed. */ if ( ( (!filter_type || strcmp (filter_type, "id") == 0) && strcmp (filter_val, id) == 0) || ( (!filter_type || strcmp (filter_type, "uuid") == 0) && strcmp (filter_val, uuid) == 0) || ( (!filter_type || strcmp (filter_type, "path") == 0) && (g_strcmp0 (filter_val, path) == 0 || (filter_type && g_strcmp0 (filter_val, path_num) == 0))) || ( (!filter_type || strcmp (filter_type, "apath") == 0) && (g_strcmp0 (filter_val, a_path) == 0 || (filter_type && g_strcmp0 (filter_val, a_path_num) == 0)))) { if (!idx) return candidate; if (found) { *idx = i; return found; } found = candidate; } } if (idx) *idx = 0; return found; } static void fill_output_connection (NMConnection *connection, NmCli *nmc, gboolean active_only) { NMSettingConnection *s_con; guint64 timestamp; time_t timestamp_real; char *timestamp_str; char *timestamp_real_str = ""; char *prio_str; NmcOutputField *arr; NMActiveConnection *ac = NULL; const char *ac_path = NULL; const char *ac_state = NULL; NMActiveConnectionState ac_state_int = NM_ACTIVE_CONNECTION_STATE_UNKNOWN; char *ac_dev = NULL; s_con = nm_connection_get_setting_connection (connection); g_assert (s_con); ac = get_ac_for_connection (nm_client_get_active_connections (nmc->client), connection); if (active_only && !ac) return; if (ac) { ac_path = nm_object_get_path (NM_OBJECT (ac)); ac_state_int = nm_active_connection_get_state (ac); ac_state = active_connection_state_to_string (ac_state_int); ac_dev = get_ac_device_string (ac); } /* Obtain field values */ timestamp = nm_setting_connection_get_timestamp (s_con); timestamp_str = g_strdup_printf ("%" G_GUINT64_FORMAT, timestamp); if (timestamp) { timestamp_real = timestamp; timestamp_real_str = g_malloc0 (64); strftime (timestamp_real_str, 64, "%c", localtime (×tamp_real)); } prio_str = g_strdup_printf ("%u", nm_setting_connection_get_autoconnect_priority (s_con)); arr = nmc_dup_fields_array (nmc_fields_con_show, sizeof (nmc_fields_con_show), 0); /* Show active connections in color */ if (ac) { if (ac_state_int == NM_ACTIVE_CONNECTION_STATE_ACTIVATING) set_val_color_all (arr, NMC_TERM_COLOR_YELLOW); else if (ac_state_int == NM_ACTIVE_CONNECTION_STATE_ACTIVATED) set_val_color_all (arr, NMC_TERM_COLOR_GREEN); else if (ac_state_int > NM_ACTIVE_CONNECTION_STATE_ACTIVATED) set_val_color_all (arr, NMC_TERM_COLOR_RED); } set_val_strc (arr, 0, nm_setting_connection_get_id (s_con)); set_val_strc (arr, 1, nm_setting_connection_get_uuid (s_con)); set_val_strc (arr, 2, nm_setting_connection_get_connection_type (s_con)); set_val_str (arr, 3, timestamp_str); set_val_str (arr, 4, timestamp ? timestamp_real_str : g_strdup (_("never"))); set_val_strc (arr, 5, nm_setting_connection_get_autoconnect (s_con) ? _("yes") : _("no")); set_val_str (arr, 6, prio_str); set_val_strc (arr, 7, nm_setting_connection_get_read_only (s_con) ? _("yes") : _("no")); set_val_strc (arr, 8, nm_connection_get_path (connection)); set_val_strc (arr, 9, ac ? _("yes") : _("no")); set_val_str (arr, 10, ac_dev); set_val_strc (arr, 11, ac_state); set_val_strc (arr, 12, ac_path); g_ptr_array_add (nmc->output_data, arr); } static void fill_output_connection_for_invisible (NMActiveConnection *ac, NmCli *nmc) { NmcOutputField *arr; const char *ac_path = NULL; const char *ac_state = NULL; char *name, *ac_dev = NULL; name = g_strdup_printf (" %s", nm_active_connection_get_id (ac)); ac_path = nm_object_get_path (NM_OBJECT (ac)); ac_state = active_connection_state_to_string (nm_active_connection_get_state (ac)); ac_dev = get_ac_device_string (ac); arr = nmc_dup_fields_array (nmc_fields_con_show, sizeof (nmc_fields_con_show), 0); set_val_str (arr, 0, name); set_val_strc (arr, 1, nm_active_connection_get_uuid (ac)); set_val_strc (arr, 2, nm_active_connection_get_connection_type (ac)); set_val_strc (arr, 3, NULL); set_val_strc (arr, 4, NULL); set_val_strc (arr, 5, NULL); set_val_strc (arr, 6, NULL); set_val_strc (arr, 7, NULL); set_val_strc (arr, 8, NULL); set_val_strc (arr, 9, _("yes")); set_val_str (arr, 10, ac_dev); set_val_strc (arr, 11, ac_state); set_val_strc (arr, 12, ac_path); set_val_color_fmt_all (arr, NMC_TERM_FORMAT_DIM); g_ptr_array_add (nmc->output_data, arr); } static void fill_output_active_connection (NMActiveConnection *active, NmCli *nmc, gboolean with_group, guint32 o_flags) { NMRemoteConnection *con; NMSettingConnection *s_con; const GPtrArray *devices; GString *dev_str; NMActiveConnectionState state; NMDevice *master; const char *con_path = NULL, *con_zone = NULL; int i; NmcOutputField *tmpl, *arr; size_t tmpl_len; int idx_start = with_group ? 0 : 1; con = nm_active_connection_get_connection (active); if (con) { con_path = nm_connection_get_path (NM_CONNECTION (con)); s_con = nm_connection_get_setting_connection (NM_CONNECTION (con)); g_assert (s_con != NULL); con_zone = nm_setting_connection_get_zone (s_con); } state = nm_active_connection_get_state (active); master = nm_active_connection_get_master (active); /* Get devices of the active connection */ dev_str = g_string_new (NULL); devices = nm_active_connection_get_devices (active); for (i = 0; i < devices->len; i++) { NMDevice *device = g_ptr_array_index (devices, i); const char *dev_iface = nm_device_get_iface (device); if (dev_iface) { g_string_append (dev_str, dev_iface); g_string_append_c (dev_str, ','); } } if (dev_str->len > 0) g_string_truncate (dev_str, dev_str->len - 1); /* Cut off last ',' */ tmpl = nmc_fields_con_active_details_general; tmpl_len = sizeof (nmc_fields_con_active_details_general); if (!with_group) { tmpl++; tmpl_len -= sizeof (NmcOutputField); } /* Fill field values */ arr = nmc_dup_fields_array (tmpl, tmpl_len, o_flags); if (with_group) set_val_strc (arr, 0, nmc_fields_con_active_details_groups[0].name); set_val_strc (arr, 1-idx_start, nm_active_connection_get_id (active)); set_val_strc (arr, 2-idx_start, nm_active_connection_get_uuid (active)); set_val_str (arr, 3-idx_start, dev_str->str); set_val_strc (arr, 4-idx_start, active_connection_state_to_string (state)); set_val_strc (arr, 5-idx_start, nm_active_connection_get_default (active) ? _("yes") : _("no")); set_val_strc (arr, 6-idx_start, nm_active_connection_get_default6 (active) ? _("yes") : _("no")); set_val_strc (arr, 7-idx_start, nm_active_connection_get_specific_object_path (active)); set_val_strc (arr, 8-idx_start, NM_IS_VPN_CONNECTION (active) ? _("yes") : _("no")); set_val_strc (arr, 9-idx_start, nm_object_get_path (NM_OBJECT (active))); set_val_strc (arr, 10-idx_start, con_path); set_val_strc (arr, 11-idx_start, con_zone); set_val_strc (arr, 12-idx_start, master ? nm_object_get_path (NM_OBJECT (master)) : NULL); g_ptr_array_add (nmc->output_data, arr); g_string_free (dev_str, FALSE); } typedef struct { char **array; guint32 idx; } FillVPNDataInfo; static void fill_vpn_data_item (const char *key, const char *value, gpointer user_data) { FillVPNDataInfo *info = (FillVPNDataInfo *) user_data; info->array[info->idx++] = g_strdup_printf ("%s = %s", key, value); } // FIXME: The same or similar code for VPN info appears also in nm-applet (applet-dialogs.c), // and in gnome-control-center as well. It could probably be shared somehow. static char * get_vpn_connection_type (NMConnection *connection) { const char *type, *p; /* The service type is in form of "org.freedesktop.NetworkManager.vpnc". * Extract end part after last dot, e.g. "vpnc" */ type = nm_setting_vpn_get_service_type (nm_connection_get_setting_vpn (connection)); p = strrchr (type, '.'); return g_strdup (p ? p + 1 : type); } /* VPN parameters can be found at: * http://git.gnome.org/browse/network-manager-openvpn/tree/src/nm-openvpn-service.h * http://git.gnome.org/browse/network-manager-vpnc/tree/src/nm-vpnc-service.h * http://git.gnome.org/browse/network-manager-pptp/tree/src/nm-pptp-service.h * http://git.gnome.org/browse/network-manager-openconnect/tree/src/nm-openconnect-service.h * http://git.gnome.org/browse/network-manager-openswan/tree/src/nm-openswan-service.h * See also 'properties' directory in these plugins. */ static const gchar * find_vpn_gateway_key (const char *vpn_type) { if (g_strcmp0 (vpn_type, "openvpn") == 0) return "remote"; if (g_strcmp0 (vpn_type, "vpnc") == 0) return "IPSec gateway"; if (g_strcmp0 (vpn_type, "pptp") == 0) return "gateway"; if (g_strcmp0 (vpn_type, "openconnect") == 0) return "gateway"; if (g_strcmp0 (vpn_type, "openswan") == 0) return "right"; if (g_strcmp0 (vpn_type, "libreswan") == 0) return "right"; if (g_strcmp0 (vpn_type, "ssh") == 0) return "remote"; if (g_strcmp0 (vpn_type, "l2tp") == 0) return "gateway"; return ""; } static const gchar * find_vpn_username_key (const char *vpn_type) { if (g_strcmp0 (vpn_type, "openvpn") == 0) return "username"; if (g_strcmp0 (vpn_type, "vpnc") == 0) return "Xauth username"; if (g_strcmp0 (vpn_type, "pptp") == 0) return "user"; if (g_strcmp0 (vpn_type, "openconnect") == 0) return "username"; if (g_strcmp0 (vpn_type, "openswan") == 0) return "leftxauthusername"; if (g_strcmp0 (vpn_type, "libreswan") == 0) return "leftxauthusername"; if (g_strcmp0 (vpn_type, "l2tp") == 0) return "user"; return ""; } enum VpnDataItem { VPN_DATA_ITEM_GATEWAY, VPN_DATA_ITEM_USERNAME }; static const gchar * get_vpn_data_item (NMConnection *connection, enum VpnDataItem vpn_data_item) { const char *key; char *type = get_vpn_connection_type (connection); switch (vpn_data_item) { case VPN_DATA_ITEM_GATEWAY: key = find_vpn_gateway_key (type); break; case VPN_DATA_ITEM_USERNAME: key = find_vpn_username_key (type); break; default: key = ""; break; } g_free (type); return nm_setting_vpn_get_data_item (nm_connection_get_setting_vpn (connection), key); } /* FIXME end */ static gboolean nmc_active_connection_details (NMActiveConnection *acon, NmCli *nmc) { GError *error = NULL; GArray *print_groups; GPtrArray *group_fields = NULL; int i; char *fields_str; char *fields_all = NMC_FIELDS_CON_ACTIVE_DETAILS_ALL; char *fields_common = NMC_FIELDS_CON_ACTIVE_DETAILS_ALL; NmcOutputField *tmpl, *arr; size_t tmpl_len; const char *base_hdr = _("Activate connection details"); gboolean was_output = FALSE; if (!nmc->required_fields || strcasecmp (nmc->required_fields, "common") == 0) fields_str = fields_common; else if (!nmc->required_fields || strcasecmp (nmc->required_fields, "all") == 0) fields_str = fields_all; else fields_str = nmc->required_fields; print_groups = parse_output_fields (fields_str, nmc_fields_con_active_details_groups, TRUE, &group_fields, &error); if (error) { g_string_printf (nmc->return_text, _("Error: 'connection show': %s"), error->message); g_error_free (error); nmc->return_value = NMC_RESULT_ERROR_USER_INPUT; return FALSE; } g_assert (print_groups); /* Main header */ nmc->print_fields.header_name = (char *) construct_header_name (base_hdr, nm_active_connection_get_uuid (acon)); nmc->print_fields.indices = parse_output_fields (NMC_FIELDS_CON_ACTIVE_DETAILS_ALL, nmc_fields_con_active_details_groups, FALSE, NULL, NULL); nmc_fields_con_active_details_groups[0].flags = NMC_OF_FLAG_MAIN_HEADER_ONLY; print_required_fields (nmc, nmc_fields_con_active_details_groups); /* Loop through the groups and print them. */ for (i = 0; i < print_groups->len; i++) { int group_idx = g_array_index (print_groups, int, i); char *group_fld = (char *) g_ptr_array_index (group_fields, i); if (nmc->print_output != NMC_PRINT_TERSE && !nmc->multiline_output && was_output) g_print ("\n"); /* Empty line */ was_output = FALSE; /* Remove any previous data */ nmc_empty_output_fields (nmc); /* GENERAL */ if (strcasecmp (nmc_fields_con_active_details_groups[group_idx].name, nmc_fields_con_active_details_groups[0].name) == 0) { /* Add field names */ tmpl = nmc_fields_con_active_details_general; tmpl_len = sizeof (nmc_fields_con_active_details_general); nmc->print_fields.indices = parse_output_fields (group_fld ? group_fld : NMC_FIELDS_CON_ACTIVE_DETAILS_GENERAL_ALL, tmpl, FALSE, NULL, NULL); arr = nmc_dup_fields_array (tmpl, tmpl_len, NMC_OF_FLAG_FIELD_NAMES); g_ptr_array_add (nmc->output_data, arr); /* Fill in values */ fill_output_active_connection (acon, nmc, TRUE, NMC_OF_FLAG_SECTION_PREFIX); print_data (nmc); /* Print all data */ was_output = TRUE; } /* IP4 */ if (strcasecmp (nmc_fields_con_active_details_groups[group_idx].name, nmc_fields_con_active_details_groups[1].name) == 0) { gboolean b1 = FALSE; NMIPConfig *cfg4 = nm_active_connection_get_ip4_config (acon); b1 = print_ip4_config (cfg4, nmc, "IP4", group_fld); was_output = was_output || b1; } /* DHCP4 */ if (strcasecmp (nmc_fields_con_active_details_groups[group_idx].name, nmc_fields_con_active_details_groups[2].name) == 0) { gboolean b1 = FALSE; NMDhcpConfig *dhcp4 = nm_active_connection_get_dhcp4_config (acon); b1 = print_dhcp4_config (dhcp4, nmc, "DHCP4", group_fld); was_output = was_output || b1; } /* IP6 */ if (strcasecmp (nmc_fields_con_active_details_groups[group_idx].name, nmc_fields_con_active_details_groups[3].name) == 0) { gboolean b1 = FALSE; NMIPConfig *cfg6 = nm_active_connection_get_ip6_config (acon); b1 = print_ip6_config (cfg6, nmc, "IP6", group_fld); was_output = was_output || b1; } /* DHCP6 */ if (strcasecmp (nmc_fields_con_active_details_groups[group_idx].name, nmc_fields_con_active_details_groups[4].name) == 0) { gboolean b1 = FALSE; NMDhcpConfig *dhcp6 = nm_active_connection_get_dhcp6_config (acon); b1 = print_dhcp6_config (dhcp6, nmc, "DHCP6", group_fld); was_output = was_output || b1; } /* VPN */ if (NM_IS_VPN_CONNECTION (acon) && strcasecmp (nmc_fields_con_active_details_groups[group_idx].name, nmc_fields_con_active_details_groups[5].name) == 0) { NMConnection *con; NMSettingConnection *s_con; NMSettingVpn *s_vpn; NMVpnConnectionState vpn_state; char *type_str, *banner_str = NULL, *vpn_state_str; const char *banner; const char *username = NULL; char **vpn_data_array = NULL; guint32 items_num; con = NM_CONNECTION (nm_active_connection_get_connection (acon)); s_con = nm_connection_get_setting_connection (con); g_assert (s_con != NULL); tmpl = nmc_fields_con_active_details_vpn; tmpl_len = sizeof (nmc_fields_con_active_details_vpn); nmc->print_fields.indices = parse_output_fields (group_fld ? group_fld : NMC_FIELDS_CON_ACTIVE_DETAILS_VPN_ALL, tmpl, FALSE, NULL, NULL); arr = nmc_dup_fields_array (tmpl, tmpl_len, NMC_OF_FLAG_FIELD_NAMES); g_ptr_array_add (nmc->output_data, arr); s_vpn = nm_connection_get_setting_vpn (con); if (s_vpn) { items_num = nm_setting_vpn_get_num_data_items (s_vpn); if (items_num > 0) { FillVPNDataInfo info; vpn_data_array = g_new (char *, items_num + 1); info.array = vpn_data_array; info.idx = 0; nm_setting_vpn_foreach_data_item (s_vpn, &fill_vpn_data_item, &info); vpn_data_array[items_num] = NULL; } username = nm_setting_vpn_get_user_name (s_vpn); } type_str = get_vpn_connection_type (con); banner = nm_vpn_connection_get_banner (NM_VPN_CONNECTION (acon)); if (banner) banner_str = g_strescape (banner, ""); vpn_state = nm_vpn_connection_get_vpn_state (NM_VPN_CONNECTION (acon)); vpn_state_str = g_strdup_printf ("%d - %s", vpn_state, vpn_connection_state_to_string (vpn_state)); /* Add values */ arr = nmc_dup_fields_array (tmpl, tmpl_len, NMC_OF_FLAG_SECTION_PREFIX); set_val_strc (arr, 0, nmc_fields_con_active_details_groups[5].name); set_val_str (arr, 1, type_str); set_val_strc (arr, 2, username ? username : get_vpn_data_item (con, VPN_DATA_ITEM_USERNAME)); set_val_strc (arr, 3, get_vpn_data_item (con, VPN_DATA_ITEM_GATEWAY)); set_val_str (arr, 4, banner_str); set_val_str (arr, 5, vpn_state_str); set_val_arr (arr, 6, vpn_data_array); g_ptr_array_add (nmc->output_data, arr); print_data (nmc); /* Print all data */ was_output = TRUE; } } g_array_free (print_groups, TRUE); if (group_fields) g_ptr_array_free (group_fields, TRUE); return TRUE; } static gboolean split_required_fields_for_con_show (const char *input, char **profile_flds, char **active_flds, GError **error) { char **fields, **iter; char *dot; GString *str1, *str2; gboolean found; gboolean group_profile = FALSE; gboolean group_active = FALSE; gboolean success = TRUE; gboolean is_all, is_common; int i; if (!input) { *profile_flds = NULL; *active_flds = NULL; return TRUE; } str1 = g_string_new (NULL); str2 = g_string_new (NULL); /* Split supplied fields string */ fields = g_strsplit_set (input, ",", -1); for (iter = fields; iter && *iter; iter++) { g_strstrip (*iter); dot = strchr (*iter, '.'); if (dot) *dot = '\0'; is_all = !dot && strcasecmp (*iter, "all") == 0; is_common = !dot && strcasecmp (*iter, "common") == 0; found = FALSE; for (i = 0; nmc_fields_settings_names[i].name; i++) { if ( is_all || is_common || !strcasecmp (*iter, nmc_fields_settings_names[i].name)) { if (dot) *dot = '.'; g_string_append (str1, *iter); g_string_append_c (str1, ','); found = TRUE; break; } } if (found) continue; for (i = 0; nmc_fields_con_active_details_groups[i].name; i++) { if ( is_all || is_common || !strcasecmp (*iter, nmc_fields_con_active_details_groups[i].name)) { if (dot) *dot = '.'; g_string_append (str2, *iter); g_string_append_c (str2, ','); found = TRUE; break; } } if (!found) { if (dot) *dot = '.'; if (!strcasecmp (*iter, CON_SHOW_DETAIL_GROUP_PROFILE)) group_profile = TRUE; else if (!strcasecmp (*iter, CON_SHOW_DETAIL_GROUP_ACTIVE)) group_active = TRUE; else { char *allowed1 = nmc_get_allowed_fields (nmc_fields_settings_names, -1); char *allowed2 = nmc_get_allowed_fields (nmc_fields_con_active_details_groups, -1); g_set_error (error, NMCLI_ERROR, 0, _("invalid field '%s'; allowed fields: %s and %s, or %s,%s"), *iter, allowed1, allowed2, CON_SHOW_DETAIL_GROUP_PROFILE, CON_SHOW_DETAIL_GROUP_ACTIVE); g_free (allowed1); g_free (allowed2); success = FALSE; break; } } } if (fields) g_strfreev (fields); /* Handle pseudo groups: profile, active */ if (success && group_profile) { if (str1->len > 0) { g_set_error (error, NMCLI_ERROR, 0, _("'%s' has to be alone"), CON_SHOW_DETAIL_GROUP_PROFILE); success = FALSE; } else g_string_assign (str1, "all,"); } if (success && group_active) { if (str2->len > 0) { g_set_error (error, NMCLI_ERROR, 0, _("'%s' has to be alone"), CON_SHOW_DETAIL_GROUP_ACTIVE); success = FALSE; } else g_string_assign (str2, "all,"); } if (success) { if (str1->len > 0) g_string_truncate (str1, str1->len - 1); if (str2->len > 0) g_string_truncate (str2, str2->len - 1); *profile_flds = g_string_free (str1, str1->len == 0); *active_flds = g_string_free (str2, str2->len == 0); } else { g_string_free (str1, TRUE); g_string_free (str2, TRUE); } return success; } typedef enum { NMC_SORT_ACTIVE = 1, NMC_SORT_ACTIVE_INV = -1, NMC_SORT_NAME = 2, NMC_SORT_NAME_INV = -2, NMC_SORT_TYPE = 3, NMC_SORT_TYPE_INV = -3, NMC_SORT_PATH = 4, NMC_SORT_PATH_INV = -4, } NmcSortOrder; typedef struct { NmCli *nmc; const GArray *order; } NmcSortInfo; static int compare_connections (gconstpointer a, gconstpointer b, gpointer user_data) { NMConnection *ca = *(NMConnection **)a; NMConnection *cb = *(NMConnection **)b; NMActiveConnection *aca, *acb; NmcSortInfo *info = (NmcSortInfo *) user_data; GArray *default_order = NULL; const GArray *order; NmcSortOrder item; int cmp = 0, i; const char *tmp1, *tmp2; unsigned long tmp1_int, tmp2_int; if (info->order ) order = info->order; else { NmcSortOrder def[] = { NMC_SORT_ACTIVE, NMC_SORT_NAME, NMC_SORT_PATH }; int num = G_N_ELEMENTS (def); default_order = g_array_sized_new (FALSE, FALSE, sizeof (NmcSortOrder), num); g_array_append_vals (default_order, def, num); order = default_order; } for (i = 0; i < order->len; i++) { item = g_array_index (order, NmcSortOrder, i); switch (item) { case NMC_SORT_ACTIVE: case NMC_SORT_ACTIVE_INV: aca = get_ac_for_connection (nm_client_get_active_connections (info->nmc->client), ca); acb = get_ac_for_connection (nm_client_get_active_connections (info->nmc->client), cb); cmp = (aca && !acb) ? -1 : (!aca && acb) ? 1 : 0; if (item == NMC_SORT_ACTIVE_INV) cmp = -(cmp); break; case NMC_SORT_TYPE: case NMC_SORT_TYPE_INV: cmp = g_strcmp0 (nm_connection_get_connection_type (ca), nm_connection_get_connection_type (cb)); if (item == NMC_SORT_TYPE_INV) cmp = -(cmp); break; case NMC_SORT_NAME: case NMC_SORT_NAME_INV: cmp = g_strcmp0 (nm_connection_get_id (ca), nm_connection_get_id (cb)); if (item == NMC_SORT_NAME_INV) cmp = -(cmp); break; case NMC_SORT_PATH: case NMC_SORT_PATH_INV: tmp1 = nm_connection_get_path (ca); tmp2 = nm_connection_get_path (cb); tmp1 = tmp1 ? strrchr (tmp1, '/') : "0"; tmp2 = tmp2 ? strrchr (tmp2, '/') : "0"; nmc_string_to_uint (tmp1 ? tmp1+1 : "0", FALSE, 0, 0, &tmp1_int); nmc_string_to_uint (tmp2 ? tmp2+1 : "0", FALSE, 0, 0, &tmp2_int); cmp = (int) tmp1_int - tmp2_int; if (item == NMC_SORT_PATH_INV) cmp = -(cmp); break; default: cmp = 0; break; } if (cmp != 0) goto end; } end: if (default_order) g_array_unref (default_order); return cmp; } static GPtrArray * sort_connections (const GPtrArray *cons, NmCli *nmc, const GArray *order) { GPtrArray *sorted; int i; NmcSortInfo compare_info; if (!cons) return NULL; compare_info.nmc = nmc; compare_info.order = order; sorted = g_ptr_array_sized_new (cons->len); for (i = 0; i < cons->len; i++) g_ptr_array_add (sorted, cons->pdata[i]); g_ptr_array_sort_with_data (sorted, compare_connections, &compare_info); return sorted; } static int compare_ac_connections (gconstpointer a, gconstpointer b, gpointer user_data) { NMActiveConnection *ca = *(NMActiveConnection **)a; NMActiveConnection *cb = *(NMActiveConnection **)b; int cmp; /* Sort states first */ cmp = nm_active_connection_get_state (cb) - nm_active_connection_get_state (ca); if (cmp != 0) return cmp; cmp = g_strcmp0 (nm_active_connection_get_id (ca), nm_active_connection_get_id (cb)); if (cmp != 0) return cmp; return g_strcmp0 (nm_active_connection_get_connection_type (ca), nm_active_connection_get_connection_type (cb)); } static GPtrArray * get_invisible_active_connections (NmCli *nmc) { const GPtrArray *acons; GPtrArray *invisibles; int a, c; g_return_val_if_fail (nmc != NULL, NULL); invisibles = g_ptr_array_new (); acons = nm_client_get_active_connections (nmc->client); for (a = 0; a < acons->len; a++) { gboolean found = FALSE; NMActiveConnection *acon = g_ptr_array_index (acons, a); const char *a_uuid = nm_active_connection_get_uuid (acon); for (c = 0; c < nmc->connections->len; c++) { NMConnection *con = g_ptr_array_index (nmc->connections, c); const char *c_uuid = nm_connection_get_uuid (con); if (strcmp (a_uuid, c_uuid) == 0) { found = TRUE; break; } } /* Active connection is not in connections array, add it to */ if (!found) g_ptr_array_add (invisibles, acon); } g_ptr_array_sort_with_data (invisibles, compare_ac_connections, NULL); return invisibles; } static NMCResultCode do_connections_show (NmCli *nmc, gboolean active_only, gboolean show_secrets, const GArray *order, int argc, char **argv) { GError *err = NULL; char *profile_flds = NULL, *active_flds = NULL; GPtrArray *invisibles, *sorted_cons; if (argc == 0) { char *fields_str; char *fields_all = NMC_FIELDS_CON_SHOW_ALL; char *fields_common = NMC_FIELDS_CON_SHOW_COMMON; NmcOutputField *tmpl, *arr; size_t tmpl_len; int i; if (!nmc->required_fields || strcasecmp (nmc->required_fields, "common") == 0) fields_str = fields_common; else if (!nmc->required_fields || strcasecmp (nmc->required_fields, "all") == 0) fields_str = fields_all; else fields_str = nmc->required_fields; tmpl = nmc_fields_con_show; tmpl_len = sizeof (nmc_fields_con_show); nmc->print_fields.indices = parse_output_fields (fields_str, tmpl, FALSE, NULL, &err); if (err) { goto finish; } if (!nmc_terse_option_check (nmc->print_output, nmc->required_fields, &err)) goto finish; /* Add headers */ nmc->print_fields.header_name = active_only ? _("NetworkManager active profiles") : _("NetworkManager connection profiles"); arr = nmc_dup_fields_array (tmpl, tmpl_len, NMC_OF_FLAG_MAIN_HEADER_ADD | NMC_OF_FLAG_FIELD_NAMES); g_ptr_array_add (nmc->output_data, arr); /* There might be active connections not present in connection list * (e.g. private connections of a different user). Show them as well. */ invisibles = get_invisible_active_connections (nmc); for (i = 0; i < invisibles->len; i++) fill_output_connection_for_invisible (invisibles->pdata[i], nmc); g_ptr_array_free (invisibles, TRUE); /* Sort the connections and fill the output data */ sorted_cons = sort_connections (nmc->connections, nmc, order); for (i = 0; i < sorted_cons->len; i++) fill_output_connection (sorted_cons->pdata[i], nmc, active_only); g_ptr_array_free (sorted_cons, TRUE); print_data (nmc); /* Print all data */ } else { gboolean new_line = FALSE; gboolean without_fields = (nmc->required_fields == NULL); const GPtrArray *active_cons = nm_client_get_active_connections (nmc->client); int pos = 0; /* multiline mode is default for 'connection show ' */ if (!nmc->mode_specified) nmc->multiline_output = TRUE; /* Split required fields into the settings and active ones. */ if (!split_required_fields_for_con_show (nmc->required_fields, &profile_flds, &active_flds, &err)) goto finish; g_free (nmc->required_fields); nmc->required_fields = NULL; while (argc > 0) { gboolean res; NMConnection *con; NMActiveConnection *acon = NULL; const char *selector = NULL; if ( strcmp (*argv, "id") == 0 || strcmp (*argv, "uuid") == 0 || strcmp (*argv, "path") == 0 || strcmp (*argv, "apath") == 0) { selector = *argv; if (next_arg (&argc, &argv) != 0) { g_string_printf (nmc->return_text, _("Error: %s argument is missing."), *(argv-1)); nmc->return_value = NMC_RESULT_ERROR_USER_INPUT; goto finish; } } /* Find connection by id, uuid, path or apath */ con = nmc_find_connection (nmc->connections, selector, *argv, &pos); if (!con) { acon = find_active_connection (active_cons, nmc->connections, selector, *argv, NULL); if (acon) con = NM_CONNECTION (nm_active_connection_get_connection (acon)); } if (!con && !acon) { g_string_printf (nmc->return_text, _("Error: %s - no such connection profile."), *argv); nmc->return_value = NMC_RESULT_ERROR_NOT_FOUND; goto finish; } /* Print connection details: * Usually we have both static and active connection. * But when a connection is private to a user, another user * may see only the active connection. */ /* Filter only active connections */ if (!acon) acon = get_ac_for_connection (active_cons, con); if (active_only && !acon) { next_arg (&argc, &argv); continue; } /* Show an empty line between connections */ if (new_line) g_print ("\n"); /* Show profile configuration */ if (without_fields || profile_flds) { if (con) { nmc->required_fields = profile_flds; if (show_secrets) update_secrets_in_connection (NM_REMOTE_CONNECTION (con), con); res = nmc_connection_profile_details (con, nmc, show_secrets); nmc->required_fields = NULL; if (!res) goto finish; } } /* If the profile is active, print also active details */ if (without_fields || active_flds) { if (acon) { nmc->required_fields = active_flds; res = nmc_active_connection_details (acon, nmc); nmc->required_fields = NULL; if (!res) goto finish; } } new_line = TRUE; /* Take next argument. * But for pos != NULL we have more connections of the same name, * so process the same argument again. */ if (!pos) next_arg (&argc, &argv); } } finish: if (err) { g_string_printf (nmc->return_text, _("Error: %s."), err->message); nmc->return_value = NMC_RESULT_ERROR_USER_INPUT; g_error_free (err); } g_free (profile_flds); g_free (active_flds); return nmc->return_value; } static NMActiveConnection * get_default_active_connection (NmCli *nmc, NMDevice **device) { NMActiveConnection *default_ac = NULL; NMDevice *non_default_device = NULL; NMActiveConnection *non_default_ac = NULL; const GPtrArray *connections; int i; g_return_val_if_fail (nmc != NULL, NULL); g_return_val_if_fail (device != NULL, NULL); g_return_val_if_fail (*device == NULL, NULL); connections = nm_client_get_active_connections (nmc->client); for (i = 0; i < connections->len; i++) { NMActiveConnection *candidate = g_ptr_array_index (connections, i); const GPtrArray *devices; devices = nm_active_connection_get_devices (candidate); if (!devices->len) continue; if (nm_active_connection_get_default (candidate)) { if (!default_ac) { *device = g_ptr_array_index (devices, 0); default_ac = candidate; } } else { if (!non_default_ac) { non_default_device = g_ptr_array_index (devices, 0); non_default_ac = candidate; } } } /* Prefer the default connection if one exists, otherwise return the first * non-default connection. */ if (!default_ac && non_default_ac) { default_ac = non_default_ac; *device = non_default_device; } return default_ac; } /* Find a device to activate the connection on. * IN: connection: connection to activate * iface: device interface name to use (optional) * ap: access point to use (optional; valid just for 802-11-wireless) * nsp: Network Service Provider to use (option; valid only for wimax) * OUT: device: found device * spec_object: specific_object path of NMAccessPoint * RETURNS: TRUE when a device is found, FALSE otherwise. */ static gboolean find_device_for_connection (NmCli *nmc, NMConnection *connection, const char *iface, const char *ap, const char *nsp, NMDevice **device, const char **spec_object, GError **error) { NMSettingConnection *s_con; const char *con_type; int i, j; g_return_val_if_fail (nmc != NULL, FALSE); g_return_val_if_fail (iface || ap || nsp, FALSE); g_return_val_if_fail (device != NULL && *device == NULL, FALSE); g_return_val_if_fail (spec_object != NULL && *spec_object == NULL, FALSE); g_return_val_if_fail (error == NULL || *error == NULL, FALSE); s_con = nm_connection_get_setting_connection (connection); g_assert (s_con); con_type = nm_setting_connection_get_connection_type (s_con); if (strcmp (con_type, NM_SETTING_VPN_SETTING_NAME) == 0) { /* VPN connections */ NMActiveConnection *active = NULL; if (iface) { *device = nm_client_get_device_by_iface (nmc->client, iface); if (*device) active = nm_device_get_active_connection (*device); if (!active) { g_set_error (error, NMCLI_ERROR, 0, _("no active connection on device '%s'"), iface); return FALSE; } *spec_object = nm_object_get_path (NM_OBJECT (active)); return TRUE; } else { active = get_default_active_connection (nmc, device); if (!active) { g_set_error_literal (error, NMCLI_ERROR, 0, _("no active connection or device")); return FALSE; } *spec_object = nm_object_get_path (NM_OBJECT (active)); return TRUE; } } else { /* Other connections */ NMDevice *found_device = NULL; const GPtrArray *devices = nm_client_get_devices (nmc->client); for (i = 0; i < devices->len && !found_device; i++) { NMDevice *dev = g_ptr_array_index (devices, i); if (iface) { const char *dev_iface = nm_device_get_iface (dev); if ( !g_strcmp0 (dev_iface, iface) && nm_device_connection_compatible (dev, connection, NULL)) { found_device = dev; } } else { if (nm_device_connection_compatible (dev, connection, NULL)) { found_device = dev; } } if (found_device && ap && !strcmp (con_type, NM_SETTING_WIRELESS_SETTING_NAME) && NM_IS_DEVICE_WIFI (dev)) { char *bssid_up = g_ascii_strup (ap, -1); const GPtrArray *aps = nm_device_wifi_get_access_points (NM_DEVICE_WIFI (dev)); found_device = NULL; /* Mark as not found; set to the device again later, only if AP matches */ for (j = 0; j < aps->len; j++) { NMAccessPoint *candidate_ap = g_ptr_array_index (aps, j); const char *candidate_bssid = nm_access_point_get_bssid (candidate_ap); if (!strcmp (bssid_up, candidate_bssid)) { found_device = dev; *spec_object = nm_object_get_path (NM_OBJECT (candidate_ap)); break; } } g_free (bssid_up); } } if (found_device) { *device = found_device; return TRUE; } else { if (iface) g_set_error (error, NMCLI_ERROR, 0, _("device '%s' not compatible with connection '%s'"), iface, nm_setting_connection_get_id (s_con)); else g_set_error (error, NMCLI_ERROR, 0, _("no device found for connection '%s'"), nm_setting_connection_get_id (s_con)); return FALSE; } } } static const char * vpn_connection_state_reason_to_string (NMVpnConnectionStateReason reason) { switch (reason) { case NM_VPN_CONNECTION_STATE_REASON_UNKNOWN: return _("unknown reason"); case NM_VPN_CONNECTION_STATE_REASON_NONE: return _("none"); case NM_VPN_CONNECTION_STATE_REASON_USER_DISCONNECTED: return _("the user was disconnected"); case NM_VPN_CONNECTION_STATE_REASON_DEVICE_DISCONNECTED: return _("the base network connection was interrupted"); case NM_VPN_CONNECTION_STATE_REASON_SERVICE_STOPPED: return _("the VPN service stopped unexpectedly"); case NM_VPN_CONNECTION_STATE_REASON_IP_CONFIG_INVALID: return _("the VPN service returned invalid configuration"); case NM_VPN_CONNECTION_STATE_REASON_CONNECT_TIMEOUT: return _("the connection attempt timed out"); case NM_VPN_CONNECTION_STATE_REASON_SERVICE_START_TIMEOUT: return _("the VPN service did not start in time"); case NM_VPN_CONNECTION_STATE_REASON_SERVICE_START_FAILED: return _("the VPN service failed to start"); case NM_VPN_CONNECTION_STATE_REASON_NO_SECRETS: return _("no valid VPN secrets"); case NM_VPN_CONNECTION_STATE_REASON_LOGIN_FAILED: return _("invalid VPN secrets"); case NM_VPN_CONNECTION_STATE_REASON_CONNECTION_REMOVED: return _("the connection was removed"); default: return _("unknown"); } } static void device_state_cb (NMDevice *device, GParamSpec *pspec, gpointer user_data) { NmCli *nmc = (NmCli *) user_data; NMActiveConnection *active; NMDeviceState state; NMActiveConnectionState ac_state; active = nm_device_get_active_connection (device); state = nm_device_get_state (device); ac_state = active ? nm_active_connection_get_state (active) : NM_ACTIVE_CONNECTION_STATE_UNKNOWN; if (ac_state == NM_ACTIVE_CONNECTION_STATE_ACTIVATED) { if (nmc->print_output == NMC_PRINT_PRETTY) nmc_terminal_erase_line (); g_print (_("Connection successfully activated (D-Bus active path: %s)\n"), nm_object_get_path (NM_OBJECT (active))); quit (); } else if ( ac_state == NM_ACTIVE_CONNECTION_STATE_ACTIVATING && state >= NM_DEVICE_STATE_IP_CONFIG && state <= NM_DEVICE_STATE_ACTIVATED) { if (nmc->print_output == NMC_PRINT_PRETTY) nmc_terminal_erase_line (); g_print (_("Connection successfully activated (master waiting for slaves) (D-Bus active path: %s)\n"), nm_object_get_path (NM_OBJECT (active))); quit (); } else if ( ac_state == NM_ACTIVE_CONNECTION_STATE_ACTIVATING && state == NM_DEVICE_STATE_FAILED) { if (nmc->print_output == NMC_PRINT_PRETTY) nmc_terminal_erase_line (); g_print (_("Error: Connection activation failed.\n")); quit (); } else if (active && ac_state != NM_ACTIVE_CONNECTION_STATE_ACTIVATING) { g_string_printf (nmc->return_text, _("Error: Connection activation failed.")); nmc->return_value = NMC_RESULT_ERROR_CON_ACTIVATION; quit (); } } static void active_connection_state_cb (NMActiveConnection *active, GParamSpec *pspec, gpointer user_data) { NmCli *nmc = (NmCli *) user_data; NMActiveConnectionState state; state = nm_active_connection_get_state (active); if (state == NM_ACTIVE_CONNECTION_STATE_ACTIVATED) { if (nmc->print_output == NMC_PRINT_PRETTY) nmc_terminal_erase_line (); g_print (_("Connection successfully activated (D-Bus active path: %s)\n"), nm_object_get_path (NM_OBJECT (active))); g_object_unref (active); quit (); } else if (state == NM_ACTIVE_CONNECTION_STATE_DEACTIVATED) { g_string_printf (nmc->return_text, _("Error: Connection activation failed.")); nmc->return_value = NMC_RESULT_ERROR_CON_ACTIVATION; g_object_unref (active); quit (); } else if (state == NM_ACTIVE_CONNECTION_STATE_ACTIVATING) { /* activating master connection does not automatically activate any slaves, so their * active connection state will not progress beyond ACTIVATING state. * Monitor the device instead. */ const GPtrArray *devices; NMDevice *device; if (nmc->secret_agent) { NMRemoteConnection *connection = nm_active_connection_get_connection (active); nm_secret_agent_simple_enable (NM_SECRET_AGENT_SIMPLE (nmc->secret_agent), nm_connection_get_path (NM_CONNECTION (connection))); } devices = nm_active_connection_get_devices (active); device = devices->len ? g_ptr_array_index (devices, 0) : NULL; if ( device && ( NM_IS_DEVICE_BOND (device) || NM_IS_DEVICE_TEAM (device) || NM_IS_DEVICE_BRIDGE (device))) { g_signal_handlers_disconnect_by_func (active, G_CALLBACK (active_connection_state_cb), nmc); g_signal_connect (device, "notify::" NM_DEVICE_STATE, G_CALLBACK (device_state_cb), nmc); device_state_cb (device, NULL, nmc); } } } static void vpn_connection_state_cb (NMVpnConnection *vpn, NMVpnConnectionState state, NMVpnConnectionStateReason reason, gpointer user_data) { NmCli *nmc = (NmCli *) user_data; switch (state) { case NM_VPN_CONNECTION_STATE_PREPARE: case NM_VPN_CONNECTION_STATE_NEED_AUTH: case NM_VPN_CONNECTION_STATE_CONNECT: case NM_VPN_CONNECTION_STATE_IP_CONFIG_GET: /* no operation */ break; case NM_VPN_CONNECTION_STATE_ACTIVATED: if (nmc->print_output == NMC_PRINT_PRETTY) nmc_terminal_erase_line (); g_print (_("VPN connection successfully activated (D-Bus active path: %s)\n"), nm_object_get_path (NM_OBJECT (vpn))); g_object_unref (vpn); quit (); break; case NM_VPN_CONNECTION_STATE_FAILED: case NM_VPN_CONNECTION_STATE_DISCONNECTED: g_string_printf (nmc->return_text, _("Error: Connection activation failed: %s."), vpn_connection_state_reason_to_string (reason)); nmc->return_value = NMC_RESULT_ERROR_CON_ACTIVATION; g_object_unref (vpn); quit (); break; default: break; } } static gboolean timeout_cb (gpointer user_data) { /* Time expired -> exit nmcli */ NmCli *nmc = (NmCli *) user_data; g_string_printf (nmc->return_text, _("Error: Timeout %d sec expired."), nmc->timeout); nmc->return_value = NMC_RESULT_ERROR_TIMEOUT_EXPIRED; quit (); return FALSE; } static gboolean progress_cb (gpointer user_data) { const char *str = (const char *) user_data; nmc_terminal_show_progress (str); return TRUE; } static gboolean progress_device_cb (gpointer user_data) { NMDevice *device = (NMDevice *) user_data; nmc_terminal_show_progress (device ? nmc_device_state_to_string (nm_device_get_state (device)) : ""); return TRUE; } static gboolean progress_vpn_cb (gpointer user_data) { NMVpnConnection *vpn = (NMVpnConnection *) user_data; const char *str; str = NM_IS_VPN_CONNECTION (vpn) ? vpn_connection_state_to_string (nm_vpn_connection_get_vpn_state (vpn)) : ""; nmc_terminal_show_progress (str); return TRUE; } typedef struct { NmCli *nmc; NMDevice *device; } ActivateConnectionInfo; static void activate_connection_cb (GObject *client, GAsyncResult *result, gpointer user_data) { ActivateConnectionInfo *info = (ActivateConnectionInfo *) user_data; NmCli *nmc = info->nmc; NMDevice *device = info->device; NMActiveConnection *active; NMActiveConnectionState state; const GPtrArray *ac_devs; GError *error = NULL; active = nm_client_activate_connection_finish (NM_CLIENT (client), result, &error); if (error) { g_string_printf (nmc->return_text, _("Error: Connection activation failed: %s"), error->message); g_error_free (error); nmc->return_value = NMC_RESULT_ERROR_CON_ACTIVATION; quit (); } else { state = nm_active_connection_get_state (active); if (!device) { /* device could be NULL for virtual devices. Fill it here. */ ac_devs = nm_active_connection_get_devices (active); info->device = device = ac_devs->len > 0 ? g_ptr_array_index (ac_devs, 0) : NULL; } if (nmc->nowait_flag || state == NM_ACTIVE_CONNECTION_STATE_ACTIVATED) { /* User doesn't want to wait or already activated */ if (state == NM_ACTIVE_CONNECTION_STATE_ACTIVATED) { if (nmc->print_output == NMC_PRINT_PRETTY) nmc_terminal_erase_line (); g_print (_("Connection successfully activated (D-Bus active path: %s)\n"), nm_object_get_path (NM_OBJECT (active))); } g_object_unref (active); quit (); } else { if (NM_IS_VPN_CONNECTION (active)) { /* Monitor VPN state */ g_signal_connect (G_OBJECT (active), "vpn-state-changed", G_CALLBACK (vpn_connection_state_cb), nmc); /* Start progress indication showing VPN states */ if (nmc->print_output == NMC_PRINT_PRETTY) { if (progress_id) g_source_remove (progress_id); progress_id = g_timeout_add (120, progress_vpn_cb, NM_VPN_CONNECTION (active)); } } else { g_signal_connect (active, "notify::state", G_CALLBACK (active_connection_state_cb), nmc); active_connection_state_cb (active, NULL, nmc); /* Start progress indication showing device states */ if (nmc->print_output == NMC_PRINT_PRETTY) { if (progress_id) g_source_remove (progress_id); progress_id = g_timeout_add (120, progress_device_cb, device); } } /* Start timer not to loop forever when signals are not emitted */ g_timeout_add_seconds (nmc->timeout, timeout_cb, nmc); } } g_free (info); } /** * parse_passwords: * @passwd_file: file with passwords to parse * @error: location to store error, or %NULL * * Parse passwords given in @passwd_file and insert them into a hash table. * Example of @passwd_file contents: * wifi.psk:tajne heslo * 802-1x.password:krakonos * 802-11-wireless-security:leap-password:my leap password * * Returns: hash table with parsed passwords, or %NULL on an error */ static GHashTable * parse_passwords (const char *passwd_file, GError **error) { GHashTable *pwds_hash; char *contents = NULL; gsize len = 0; GError *local_err = NULL; char **lines, **iter; char *pwd_spec, *pwd, *prop; const char *setting; pwds_hash = g_hash_table_new_full (g_str_hash, g_str_equal, g_free, g_free); if (!passwd_file) return pwds_hash; /* Read the passwords file */ if (!g_file_get_contents (passwd_file, &contents, &len, &local_err)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("failed to read passwd-file '%s': %s"), passwd_file, local_err->message); g_error_free (local_err); g_hash_table_destroy (pwds_hash); return NULL; } lines = nmc_strsplit_set (contents, "\r\n", -1); for (iter = lines; *iter; iter++) { pwd = strchr (*iter, ':'); if (!pwd) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("missing colon in 'password' entry '%s'"), *iter); goto failure; } *(pwd++) = '\0'; prop = strchr (*iter, '.'); if (!prop) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("missing dot in 'password' entry '%s'"), *iter); goto failure; } *(prop++) = '\0'; setting = *iter; while (g_ascii_isspace (*setting)) setting++; /* Accept wifi-sec or wifi instead of cumbersome '802-11-wireless-security' */ if (!strcmp (setting, "wifi-sec") || !strcmp (setting, "wifi")) setting = NM_SETTING_WIRELESS_SECURITY_SETTING_NAME; if (nm_setting_lookup_type (setting) == G_TYPE_INVALID) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("invalid setting name in 'password' entry '%s'"), setting); goto failure; } pwd_spec = g_strdup_printf ("%s.%s", setting, prop); g_hash_table_insert (pwds_hash, pwd_spec, g_strdup (pwd)); } g_strfreev (lines); g_free (contents); return pwds_hash; failure: g_strfreev (lines); g_free (contents); g_hash_table_destroy (pwds_hash); return NULL; } static gboolean nmc_activate_connection (NmCli *nmc, NMConnection *connection, const char *ifname, const char *ap, const char *nsp, const char *pwds, GAsyncReadyCallback callback, GError **error) { ActivateConnectionInfo *info; GHashTable *pwds_hash; NMDevice *device = NULL; const char *spec_object = NULL; gboolean device_found; GError *local = NULL; g_return_val_if_fail (nmc != NULL, FALSE); g_return_val_if_fail (error == NULL || *error == NULL, FALSE); if (connection && (ifname || ap || nsp)) { device_found = find_device_for_connection (nmc, connection, ifname, ap, nsp, &device, &spec_object, &local); /* Virtual connection may not have their interfaces created yet */ if (!device_found && !nm_connection_is_virtual (connection)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_CON_ACTIVATION, "%s", local->message); g_clear_error (&local); return FALSE; } g_clear_error (&local); } else if (ifname) { device = nm_client_get_device_by_iface (nmc->client, ifname); if (!device) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_NOT_FOUND, _("unknown device '%s'."), ifname); return FALSE; } } else if (!connection) { g_set_error_literal (error, NMCLI_ERROR, NMC_RESULT_ERROR_NOT_FOUND, _("neither a valid connection nor device given")); return FALSE; } /* Parse passwords given in passwords file */ pwds_hash = parse_passwords (pwds, &local); if (local) { g_propagate_error (error, local); return FALSE; } if (nmc->pwds_hash) g_hash_table_destroy (nmc->pwds_hash); nmc->pwds_hash = pwds_hash; /* Create secret agent */ nmc->secret_agent = nm_secret_agent_simple_new ("nmcli-connect"); if (nmc->secret_agent) { g_signal_connect (nmc->secret_agent, "request-secrets", G_CALLBACK (nmc_secrets_requested), nmc); if (connection) { nm_secret_agent_simple_enable (NM_SECRET_AGENT_SIMPLE (nmc->secret_agent), nm_object_get_path (NM_OBJECT (connection))); } } info = g_malloc0 (sizeof (ActivateConnectionInfo)); info->nmc = nmc; info->device = device; nm_client_activate_connection_async (nmc->client, connection, device, spec_object, NULL, callback, info); return TRUE; } static NMCResultCode do_connection_up (NmCli *nmc, int argc, char **argv) { NMConnection *connection = NULL; const char *ifname = NULL; const char *ap = NULL; const char *nsp = NULL; const char *pwds = NULL; GError *error = NULL; const char *selector = NULL; const char *name = NULL; char *line = NULL; /* * Set default timeout for connection activation. * Activation can take quite a long time, use 90 seconds. */ if (nmc->timeout == -1) nmc->timeout = 90; if (argc == 0) { if (nmc->ask) { line = nmc_readline (PROMPT_CONNECTION); name = line ? line : ""; } } else if (strcmp (*argv, "ifname") != 0) { if ( strcmp (*argv, "id") == 0 || strcmp (*argv, "uuid") == 0 || strcmp (*argv, "path") == 0) { selector = *argv; if (next_arg (&argc, &argv) != 0) { g_string_printf (nmc->return_text, _("Error: %s argument is missing."), selector); nmc->return_value = NMC_RESULT_ERROR_USER_INPUT; goto error; } name = *argv; } name = *argv; next_arg (&argc, &argv); } if (name) { connection = nmc_find_connection (nmc->connections, selector, name, NULL); if (!connection) { g_string_printf (nmc->return_text, _("Error: Connection '%s' does not exist."), name); nmc->return_value = NMC_RESULT_ERROR_NOT_FOUND; goto error; } } while (argc > 0) { if (strcmp (*argv, "ifname") == 0) { if (next_arg (&argc, &argv) != 0) { g_string_printf (nmc->return_text, _("Error: %s argument is missing."), *(argv-1)); nmc->return_value = NMC_RESULT_ERROR_USER_INPUT; goto error; } ifname = *argv; } else if (strcmp (*argv, "ap") == 0) { if (next_arg (&argc, &argv) != 0) { g_string_printf (nmc->return_text, _("Error: %s argument is missing."), *(argv-1)); nmc->return_value = NMC_RESULT_ERROR_USER_INPUT; goto error; } ap = *argv; } else if (strcmp (*argv, "passwd-file") == 0) { if (next_arg (&argc, &argv) != 0) { g_string_printf (nmc->return_text, _("Error: %s argument is missing."), *(argv-1)); nmc->return_value = NMC_RESULT_ERROR_USER_INPUT; goto error; } pwds = *argv; } else { g_printerr (_("Unknown parameter: %s\n"), *argv); } argc--; argv++; } /* Use nowait_flag instead of should_wait because exiting has to be postponed till * active_connection_state_cb() is called. That gives NM time to check our permissions * and we can follow activation progress. */ nmc->nowait_flag = (nmc->timeout == 0); nmc->should_wait++; if (!nmc_activate_connection (nmc, connection, ifname, ap, nsp, pwds, activate_connection_cb, &error)) { g_string_printf (nmc->return_text, _("Error: %s."), error->message); nmc->return_value = error->code; g_clear_error (&error); nmc->should_wait--; goto error; } /* Start progress indication */ if (nmc->print_output == NMC_PRINT_PRETTY) progress_id = g_timeout_add (120, progress_cb, _("preparing")); error: g_free (line); return nmc->return_value; } typedef struct { NmCli *nmc; GSList *queue; guint timeout_id; } ConnectionCbInfo; static void connection_cb_info_finish (ConnectionCbInfo *info, gpointer connection); static void connection_removed_cb (NMClient *client, NMConnection *connection, ConnectionCbInfo *info) { if (!g_slist_find (info->queue, connection)) return; g_print (_("Connection '%s' (%s) successfully deleted.\n"), nm_connection_get_id (connection), nm_connection_get_uuid (connection)); connection_cb_info_finish (info, connection); } static void down_active_connection_state_cb (NMActiveConnection *active, GParamSpec *pspec, ConnectionCbInfo *info) { if (nm_active_connection_get_state (active) < NM_ACTIVE_CONNECTION_STATE_DEACTIVATED) return; if (info->nmc->print_output == NMC_PRINT_PRETTY) nmc_terminal_erase_line (); g_print (_("Connection '%s' successfully deactivated (D-Bus active path: %s)\n"), nm_active_connection_get_id (active), nm_object_get_path (NM_OBJECT (active))); g_signal_handlers_disconnect_by_func (G_OBJECT (active), down_active_connection_state_cb, info); connection_cb_info_finish (info, active); } static gboolean connection_op_timeout_cb (gpointer user_data) { ConnectionCbInfo *info = user_data; timeout_cb (info->nmc); connection_cb_info_finish (info, NULL); return G_SOURCE_REMOVE; } static void destroy_queue_element (gpointer data) { g_signal_handlers_disconnect_matched (data, G_SIGNAL_MATCH_FUNC, 0, 0, 0, down_active_connection_state_cb, NULL); g_object_unref (data); } static void connection_cb_info_finish (ConnectionCbInfo *info, gpointer connection) { if (connection) { info->queue = g_slist_remove (info->queue, connection); g_object_unref (G_OBJECT (connection)); } else { g_slist_free_full (info->queue, destroy_queue_element); info->queue = NULL; } if (info->queue) return; if (info->timeout_id) g_source_remove (info->timeout_id); g_signal_handlers_disconnect_by_func (info->nmc->client, connection_removed_cb, info); g_slice_free (ConnectionCbInfo, info); quit (); } static NMCResultCode do_connection_down (NmCli *nmc, int argc, char **argv) { NMActiveConnection *active; ConnectionCbInfo *info = NULL; const GPtrArray *active_cons; GSList *queue = NULL, *iter; char **arg_arr = NULL; char **arg_ptr = argv; int arg_num = argc; int idx = 0; if (nmc->timeout == -1) nmc->timeout = 10; if (argc == 0) { if (nmc->ask) { char *line = nmc_readline (PROMPT_ACTIVE_CONNECTIONS); nmc_string_to_arg_array (line, NULL, TRUE, &arg_arr, &arg_num); g_free (line); arg_ptr = arg_arr; } if (arg_num == 0) { g_string_printf (nmc->return_text, _("Error: No connection specified.")); nmc->return_value = NMC_RESULT_ERROR_USER_INPUT; goto error; } } /* Get active connections */ active_cons = nm_client_get_active_connections (nmc->client); while (arg_num > 0) { const char *selector = NULL; if ( strcmp (*arg_ptr, "id") == 0 || strcmp (*arg_ptr, "uuid") == 0 || strcmp (*arg_ptr, "path") == 0 || strcmp (*arg_ptr, "apath") == 0) { selector = *arg_ptr; if (next_arg (&arg_num, &arg_ptr) != 0) { g_string_printf (nmc->return_text, _("Error: %s argument is missing."), selector); nmc->return_value = NMC_RESULT_ERROR_USER_INPUT; goto error; } } active = find_active_connection (active_cons, nmc->connections, selector, *arg_ptr, &idx); if (active) { /* Check if the connection is unique. */ /* Calling down for the same connection repeatedly would result in * NM responding for the last D-Bus call only and we would stall. */ if (!g_slist_find (queue, active)) queue = g_slist_prepend (queue, g_object_ref (active)); } else { g_printerr (_("Error: '%s' is not an active connection.\n"), *arg_ptr); g_string_printf (nmc->return_text, _("Error: not all active connections found.")); nmc->return_value = NMC_RESULT_ERROR_NOT_FOUND; } if (idx == 0) next_arg (&arg_num, &arg_ptr); } if (!queue) { g_string_printf (nmc->return_text, _("Error: no active connection provided.")); nmc->return_value = NMC_RESULT_ERROR_NOT_FOUND; goto error; } queue = g_slist_reverse (queue); if (nmc->timeout > 0) { nmc->should_wait++; info = g_slice_new0 (ConnectionCbInfo); info->nmc = nmc; info->queue = queue; info->timeout_id = g_timeout_add_seconds (nmc->timeout, connection_op_timeout_cb, info); } for (iter = queue; iter; iter = g_slist_next (iter)) { active = iter->data; if (info) g_signal_connect (active, "notify::" NM_ACTIVE_CONNECTION_STATE, G_CALLBACK (down_active_connection_state_cb), info); /* Now deactivate the connection */ nm_client_deactivate_connection (nmc->client, active, NULL, NULL); } error: g_strfreev (arg_arr); return nmc->return_value; } /*----------------------------------------------------------------------------*/ typedef struct NameItem { const char *name; const char *alias; const struct NameItem *settings; gboolean mandatory; } NameItem; static const NameItem nmc_generic_settings [] = { { NM_SETTING_CONNECTION_SETTING_NAME, NULL, NULL, TRUE }, { NULL, NULL, NULL, FALSE } }; static const NameItem nmc_ethernet_settings [] = { { NM_SETTING_CONNECTION_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_WIRED_SETTING_NAME, "ethernet", NULL, TRUE }, { NM_SETTING_802_1X_SETTING_NAME, NULL, NULL, FALSE }, { NM_SETTING_DCB_SETTING_NAME, NULL, NULL, FALSE }, { NULL, NULL, NULL, FALSE } }; static const NameItem nmc_infiniband_settings [] = { { NM_SETTING_CONNECTION_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_INFINIBAND_SETTING_NAME, NULL, NULL, TRUE }, { NULL, NULL, NULL, FALSE } }; static const NameItem nmc_wifi_settings [] = { { NM_SETTING_CONNECTION_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_WIRELESS_SETTING_NAME, "wifi", NULL, TRUE }, { NM_SETTING_WIRELESS_SECURITY_SETTING_NAME, "wifi-sec", NULL, FALSE }, { NM_SETTING_802_1X_SETTING_NAME, NULL, NULL, FALSE }, { NULL, NULL, NULL, FALSE } }; static const NameItem nmc_wimax_settings [] = { { NM_SETTING_CONNECTION_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_WIMAX_SETTING_NAME, NULL, NULL, TRUE }, { NULL, NULL, NULL, FALSE } }; static const NameItem nmc_gsm_settings [] = { { NM_SETTING_CONNECTION_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_GSM_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_SERIAL_SETTING_NAME, NULL, NULL, FALSE }, { NM_SETTING_PPP_SETTING_NAME, NULL, NULL, FALSE }, { NULL, NULL, NULL, FALSE } }; static const NameItem nmc_cdma_settings [] = { { NM_SETTING_CONNECTION_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_CDMA_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_SERIAL_SETTING_NAME, NULL, NULL, FALSE }, { NM_SETTING_PPP_SETTING_NAME, NULL, NULL, FALSE }, { NULL, NULL, NULL, FALSE } }; static const NameItem nmc_bluetooth_settings [] = { { NM_SETTING_CONNECTION_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_BLUETOOTH_SETTING_NAME, NULL, NULL, TRUE }, { NULL, NULL, NULL, FALSE } }; static const NameItem nmc_adsl_settings [] = { { NM_SETTING_CONNECTION_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_ADSL_SETTING_NAME, NULL, NULL, TRUE }, { NULL, NULL, NULL, FALSE } }; /* PPPoE is a base connection type from historical reasons. * See libnm-core/nm-setting.c:_nm_setting_is_base_type() */ static const NameItem nmc_pppoe_settings [] = { { NM_SETTING_CONNECTION_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_WIRED_SETTING_NAME, "ethernet", NULL, TRUE }, { NM_SETTING_PPPOE_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_PPP_SETTING_NAME, NULL, NULL, FALSE }, { NM_SETTING_802_1X_SETTING_NAME, NULL, NULL, FALSE }, { NULL, NULL, NULL, FALSE } }; static const NameItem nmc_olpc_mesh_settings [] = { { NM_SETTING_CONNECTION_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_OLPC_MESH_SETTING_NAME, "olpc-mesh", NULL, TRUE }, { NULL, NULL, NULL, FALSE } }; static const NameItem nmc_vpn_settings [] = { { NM_SETTING_CONNECTION_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_VPN_SETTING_NAME, NULL, NULL, TRUE }, { NULL, NULL, NULL, FALSE } }; static const NameItem nmc_vlan_settings [] = { { NM_SETTING_CONNECTION_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_WIRED_SETTING_NAME, "ethernet", NULL, FALSE }, { NM_SETTING_VLAN_SETTING_NAME, NULL, NULL, TRUE }, { NULL, NULL, NULL, FALSE } }; static const NameItem nmc_bond_settings [] = { { NM_SETTING_CONNECTION_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_BOND_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_WIRED_SETTING_NAME, "ethernet", NULL, FALSE }, { NULL, NULL, NULL, FALSE } }; static const NameItem nmc_team_settings [] = { { NM_SETTING_CONNECTION_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_TEAM_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_WIRED_SETTING_NAME, "ethernet", NULL, FALSE }, { NULL, NULL, NULL, FALSE } }; static const NameItem nmc_bridge_settings [] = { { NM_SETTING_CONNECTION_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_BRIDGE_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_WIRED_SETTING_NAME, "ethernet", NULL, FALSE }, { NULL, NULL, NULL, FALSE } }; static const NameItem nmc_bond_slave_settings [] = { { NULL, NULL, NULL, FALSE } }; static const NameItem nmc_team_slave_settings [] = { { NM_SETTING_TEAM_PORT_SETTING_NAME, NULL, NULL, TRUE }, { NULL, NULL, NULL, FALSE } }; static const NameItem nmc_bridge_slave_settings [] = { { NM_SETTING_BRIDGE_PORT_SETTING_NAME, NULL, NULL, TRUE }, { NULL, NULL, NULL, FALSE } }; static const NameItem nmc_no_slave_settings [] = { { NM_SETTING_IP4_CONFIG_SETTING_NAME, NULL, NULL, FALSE }, { NM_SETTING_IP6_CONFIG_SETTING_NAME, NULL, NULL, FALSE }, { NULL, NULL, NULL, FALSE } }; static const NameItem nmc_tun_settings [] = { { NM_SETTING_CONNECTION_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_TUN_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_WIRED_SETTING_NAME, "ethernet", NULL, FALSE }, { NULL, NULL, NULL, FALSE } }; static const NameItem nmc_ip_tunnel_settings [] = { { NM_SETTING_CONNECTION_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_IP_TUNNEL_SETTING_NAME, NULL, NULL, TRUE }, { NULL, NULL, NULL, FALSE } }; static const NameItem nmc_macvlan_settings [] = { { NM_SETTING_CONNECTION_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_WIRED_SETTING_NAME, "ethernet", NULL, FALSE }, { NM_SETTING_MACVLAN_SETTING_NAME, NULL, NULL, TRUE }, { NULL, NULL, NULL, FALSE } }; static const NameItem nmc_vxlan_settings [] = { { NM_SETTING_CONNECTION_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_VXLAN_SETTING_NAME, NULL, NULL, TRUE }, { NM_SETTING_WIRED_SETTING_NAME, "ethernet", NULL, FALSE }, { NULL, NULL, NULL, FALSE } }; /* Available connection types */ static const NameItem nmc_valid_connection_types[] = { { NM_SETTING_GENERIC_SETTING_NAME, NULL, nmc_generic_settings }, { NM_SETTING_WIRED_SETTING_NAME, "ethernet", nmc_ethernet_settings }, { NM_SETTING_PPPOE_SETTING_NAME, NULL, nmc_pppoe_settings }, { NM_SETTING_WIRELESS_SETTING_NAME, "wifi", nmc_wifi_settings }, { NM_SETTING_WIMAX_SETTING_NAME, NULL, nmc_wimax_settings }, { NM_SETTING_GSM_SETTING_NAME, NULL, nmc_gsm_settings }, { NM_SETTING_CDMA_SETTING_NAME, NULL, nmc_cdma_settings }, { NM_SETTING_INFINIBAND_SETTING_NAME, NULL, nmc_infiniband_settings }, { NM_SETTING_ADSL_SETTING_NAME, NULL, nmc_adsl_settings }, { NM_SETTING_BLUETOOTH_SETTING_NAME, NULL, nmc_bluetooth_settings }, { NM_SETTING_VPN_SETTING_NAME, NULL, nmc_vpn_settings }, { NM_SETTING_OLPC_MESH_SETTING_NAME, "olpc-mesh", nmc_olpc_mesh_settings }, { NM_SETTING_VLAN_SETTING_NAME, NULL, nmc_vlan_settings }, { NM_SETTING_BOND_SETTING_NAME, NULL, nmc_bond_settings }, { NM_SETTING_TEAM_SETTING_NAME, NULL, nmc_team_settings }, { NM_SETTING_BRIDGE_SETTING_NAME, NULL, nmc_bridge_settings }, { "bond-slave", NULL, nmc_bond_slave_settings }, { "team-slave", NULL, nmc_team_slave_settings }, { "bridge-slave", NULL, nmc_bridge_slave_settings }, { "no-slave", NULL, nmc_no_slave_settings }, { NM_SETTING_TUN_SETTING_NAME, NULL, nmc_tun_settings }, { NM_SETTING_IP_TUNNEL_SETTING_NAME, NULL, nmc_ip_tunnel_settings }, { NM_SETTING_MACVLAN_SETTING_NAME, NULL, nmc_macvlan_settings }, { NM_SETTING_VXLAN_SETTING_NAME, NULL, nmc_vxlan_settings }, { NULL, NULL, NULL } }; /* * Return an alias for the 'name' if exists, else return the 'name'. * The returned string must not be freed. */ static const char * get_name_alias (const char *name, const NameItem array[]) { const NameItem *iter = &array[0]; if (!name) return NULL; while (iter && iter->name) { if (!strcmp (name, iter->name)) { if (iter->alias) return iter->alias; else return iter->name; } iter++; } return name; } /* * Construct a string with names and aliases from the arrays formatted as: * "name (alias), name, name (alias), name, name" * * Returns: string; the caller is responsible for freeing it. */ static char * get_valid_options_string (const NameItem *array, const NameItem *array_slv) { const NameItem *iter = array; GString *str; int i; str = g_string_sized_new (150); for (i = 0; i < 2; i++, iter = array_slv) { while (iter && iter->name) { if (str->len) g_string_append (str, ", "); if (iter->alias) g_string_append_printf (str, "%s (%s)", iter->name, iter->alias); else g_string_append (str, iter->name); iter++; } } return g_string_free (str, FALSE); } static const NameItem * get_valid_settings_array (const char *con_type) { guint i, num; if (!con_type) return NULL; num = G_N_ELEMENTS (nmc_valid_connection_types); for (i = 0; i < num; i++) { if (nm_streq0 (con_type, nmc_valid_connection_types[i].name)) return nmc_valid_connection_types[i].settings; } return NULL; } /* * Check if 'val' is valid string in either array->name or array->alias for * both array parameters (array & array_slv). * It accepts shorter string provided they are not ambiguous. * 'val' == NULL doesn't hurt. * * Returns: pointer to array->name string or NULL on failure. * The returned string must not be freed. */ static const char * check_valid_name (const char *val, const NameItem *array, const NameItem *array_slv, GError **error) { const NameItem *iter; gs_unref_ptrarray GPtrArray *tmp_arr = NULL; const char *str; GError *tmp_err = NULL; int i; g_return_val_if_fail (val, NULL); g_return_val_if_fail (array, NULL); /* Create a temporary array that can be used in nmc_string_is_valid() */ tmp_arr = g_ptr_array_sized_new (32); iter = array; for (i = 0; i < 2; i++, iter = array_slv) { while (iter && iter->name) { g_ptr_array_add (tmp_arr, (gpointer) iter->name); if (iter->alias) g_ptr_array_add (tmp_arr, (gpointer) iter->alias); iter++; } } g_ptr_array_add (tmp_arr, (gpointer) NULL); /* Check string validity */ str = nmc_string_is_valid (val, (const char **) tmp_arr->pdata, &tmp_err); if (!str) { if (tmp_err->code == 1) g_propagate_error (error, tmp_err); else { /* We want to handle aliases, so construct own error message */ char *err_str = get_valid_options_string (array, array_slv); g_set_error (error, 1, 0, _("'%s' not among [%s]"), val, err_str); g_free (err_str); g_clear_error (&tmp_err); } return NULL; } /* Return a pointer to the found string in passed 'array' */ iter = array; for (i = 0; i < 2; i++, iter = array_slv) { while (iter && iter->name) { if ( nm_streq (iter->name, str) || nm_streq0 (iter->alias, str)) { return iter->name; } iter++; } } /* We should not really come here */ g_set_error (error, 1, 0, _("Unknown error")); return NULL; } static gboolean is_setting_mandatory (NMConnection *connection, NMSetting *setting) { NMSettingConnection *s_con; const char *c_type; const NameItem *item; const char *name; const char *s_type; char *slv_type; s_con = nm_connection_get_setting_connection (connection); g_assert (s_con); c_type = nm_setting_connection_get_connection_type (s_con); name = nm_setting_get_name (setting); item = get_valid_settings_array (c_type); while (item && item->name) { if (!strcmp (name, item->name)) return item->mandatory; item++; } /* Let's give a try to parameters related to slave type */ s_type = nm_setting_connection_get_slave_type (s_con); slv_type = g_strdup_printf ("%s-slave", s_type ? s_type : "no"); item = get_valid_settings_array (slv_type); g_free (slv_type); while (item && item->name) { if (!strcmp (name, item->name)) return item->mandatory; item++; } return FALSE; } /*----------------------------------------------------------------------------*/ static gboolean check_mac (const char *mac, int type, const char *keyword, GError **error) { g_return_val_if_fail (type == ARPHRD_ETHER || type == ARPHRD_INFINIBAND, FALSE); if (!mac) return TRUE; if (!nm_utils_hwaddr_valid (mac, nm_utils_hwaddr_len (type))) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: '%s': '%s' is not a valid %s MAC address."), keyword, mac, type == ARPHRD_INFINIBAND ? _("InfiniBand") : _("Ethernet")); return FALSE; } return TRUE; } static gboolean check_and_convert_mtu (const char *mtu, guint32 *mtu_int, GError **error) { unsigned long local_mtu_int; if (mtu_int) *mtu_int = 0; if (!mtu) return TRUE; if (!nmc_string_to_uint (mtu, TRUE, 0, G_MAXUINT32, &local_mtu_int)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'mtu': '%s' is not a valid MTU."), mtu); return FALSE; } if (mtu_int) *mtu_int = (guint32) local_mtu_int; return TRUE; } static gboolean check_infiniband_parent (const char *parent, GError **error) { if (!parent) return TRUE; if (!nm_utils_iface_valid_name (parent)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'parent': '%s' is not a valid interface name."), parent); return FALSE; } return TRUE; } static gboolean check_infiniband_p_key (const char *p_key, guint32 *p_key_int, GError **error) { unsigned long local_p_key_int; gboolean p_key_valid = FALSE; if (!p_key) return TRUE; if (!strncmp (p_key, "0x", 2)) p_key_valid = nmc_string_to_uint_base (p_key + 2, 16, TRUE, 0, G_MAXUINT16, &local_p_key_int); else p_key_valid = nmc_string_to_uint (p_key, TRUE, 0, G_MAXUINT16, &local_p_key_int); if (!p_key_valid) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'p-key': '%s' is not a valid InfiniBand P_KEY."), p_key); return FALSE; } if (p_key_int) *p_key_int = (guint32) local_p_key_int; return TRUE; } static gboolean check_user_group_id (const char *id, GError **error) { unsigned long int value; if (!nmc_string_to_uint (id, FALSE, 0, 0, &value)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: '%s' is not a valid UID/GID."), id); return FALSE; } return TRUE; } /** * check_valid_enumeration: * @str: string to check against string array @strings * @strings: string array to check @str againt * @what: what parameter @str belongs to (used in error message) * @what_desc: longer description of @what parameter (used in error message) * @error: location to store an error, or %NULL * * Check whether @str is one of the string of @strings array. It accepts * shortcuts and normalizes them (@str argument is modified on success). * * Returns: %TRUE on success, %FALSE on failure */ static gboolean check_valid_enumeration (char **str, const char *strings[], const char *what, const char *what_desc, GError **error) { char *tmp; const char *checked_str; if (!str || !*str) return TRUE; tmp = g_strstrip (g_strdup (*str)); checked_str = nmc_string_is_valid (tmp, strings, NULL); g_free (tmp); if (checked_str) { g_free (*str); *str = g_strdup (checked_str); } else { char *options; options = nmc_util_strv_for_display (strings, TRUE); g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: '%s': '%s' is not a valid %s %s."), what, *str, what_desc, options); g_free (options); } return !!checked_str; } /* Checks Wi-Fi mode. */ static gboolean check_wifi_mode (char **mode, GError **error) { const char *modes[] = { "infrastructure", "ap", "adhoc", NULL }; return check_valid_enumeration (mode, modes, "mode", _("Wi-Fi mode"), error); } /* Checks InfiniBand mode. */ static gboolean check_infiniband_mode (char **mode, GError **error) { const char *modes[] = { "datagram", "connected", NULL }; return check_valid_enumeration (mode, modes, "mode", _("InfiniBand transport mode"), error); } /* Checks ADSL protocol */ static gboolean check_adsl_protocol (char **protocol, GError **error) { const char *protos[] = { NM_SETTING_ADSL_PROTOCOL_PPPOA, NM_SETTING_ADSL_PROTOCOL_PPPOE, NM_SETTING_ADSL_PROTOCOL_IPOATM, NULL }; return check_valid_enumeration (protocol, protos, "protocol", _("ADSL protocol"), error); } /* Checks ADSL encapsulation */ static gboolean check_adsl_encapsulation (char **encapsulation, GError **error) { const char *modes[] = { NM_SETTING_ADSL_ENCAPSULATION_VCMUX, NM_SETTING_ADSL_ENCAPSULATION_LLC, NULL }; return check_valid_enumeration (encapsulation, modes, "encapsulation", _("ADSL encapsulation"), error); } /* Checks TUN mode. */ static gboolean check_tun_mode (char **mode, GError **error) { const char *modes[] = { "tun", "tap", NULL }; return check_valid_enumeration (mode, modes, "mode", _("TUN device mode"), error); } static gboolean check_and_convert_vlan_flags (const char *flags, guint32 *flags_int, GError **error) { unsigned long local_flags_int; if (!flags) return TRUE; if (!nmc_string_to_uint (flags, TRUE, 0, 7, &local_flags_int)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'flags': '%s' is not valid; use <0-7>."), flags); return FALSE; } if (flags_int) *flags_int = (guint32) local_flags_int; return TRUE; } static gboolean check_and_convert_vlan_prio_maps (const char *prio_map, NMVlanPriorityMap type, char ***prio_map_arr, GError **error) { char **local_prio_map_arr; GError *local_err = NULL; if (!prio_map) return TRUE; if (!(local_prio_map_arr = nmc_vlan_parse_priority_maps (prio_map, type, &local_err))) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: '%s': '%s' is not valid; %s "), type == NM_VLAN_INGRESS_MAP ? "ingress" : "egress", prio_map, local_err->message); return FALSE; } if (prio_map_arr) *prio_map_arr = local_prio_map_arr; return TRUE; } static gboolean add_ip4_address_to_connection (NMIPAddress *ip4addr, NMConnection *connection) { NMSettingIPConfig *s_ip4; gboolean ret; if (!ip4addr) return TRUE; s_ip4 = nm_connection_get_setting_ip4_config (connection); if (!s_ip4) { s_ip4 = (NMSettingIPConfig *) nm_setting_ip4_config_new (); nm_connection_add_setting (connection, NM_SETTING (s_ip4)); g_object_set (s_ip4, NM_SETTING_IP_CONFIG_METHOD, NM_SETTING_IP4_CONFIG_METHOD_MANUAL, NULL); } ret = nm_setting_ip_config_add_address (s_ip4, ip4addr); nm_ip_address_unref (ip4addr); return ret; } static gboolean add_ip6_address_to_connection (NMIPAddress *ip6addr, NMConnection *connection) { NMSettingIPConfig *s_ip6; gboolean ret; if (!ip6addr) return TRUE; s_ip6 = nm_connection_get_setting_ip6_config (connection); if (!s_ip6) { s_ip6 = (NMSettingIPConfig *) nm_setting_ip6_config_new (); nm_connection_add_setting (connection, NM_SETTING (s_ip6)); g_object_set (s_ip6, NM_SETTING_IP_CONFIG_METHOD, NM_SETTING_IP6_CONFIG_METHOD_MANUAL, NULL); } ret = nm_setting_ip_config_add_address (s_ip6, ip6addr); nm_ip_address_unref (ip6addr); return ret; } static char * unique_master_iface_ifname (const GPtrArray *connections, const char *try_name) { NMConnection *connection; char *new_name; unsigned int num = 1; int i = 0; const char *ifname = NULL; new_name = g_strdup (try_name); while (i < connections->len) { connection = NM_CONNECTION (connections->pdata[i]); ifname = nm_connection_get_interface_name (connection); if (g_strcmp0 (new_name, ifname) == 0) { g_free (new_name); new_name = g_strdup_printf ("%s%d", try_name, num++); i = 0; } else i++; } return new_name; } static const char * _strip_master_prefix (const char *master, const char *(**func)(NMConnection *)) { if (!master) return NULL; if (g_str_has_prefix (master, "ifname/")) { master = master + strlen ("ifname/"); if (func) *func = nm_connection_get_interface_name; } else if (g_str_has_prefix (master, "uuid/")) { master = master + strlen ("uuid/"); if (func) *func = nm_connection_get_uuid; } else if (g_str_has_prefix (master, "id/")) { master = master + strlen ("id/"); if (func) *func = nm_connection_get_id; } return master; } /* normalized_master_for_slave: * @connections: list af all connections * @master: UUID, ifname or ID of the master connection * @type: virtual connection type (bond, team, bridge, ...) or %NULL * @out_type: type of the connection that matched * * Check whether master is a valid interface name, UUID or ID of some connection, * possibly of a specified @type. * First UUID and ifname are checked. If they don't match, ID is checked * and replaced by UUID on a match. * * Returns: identifier of master connection if found, %NULL otherwise */ static const char * normalized_master_for_slave (const GPtrArray *connections, const char *master, const char *type, const char **out_type) { NMConnection *connection; NMSettingConnection *s_con; const char *con_type = NULL, *id, *uuid, *ifname; int i; const char *found_by_id = NULL; const char *out_type_by_id = NULL; const char *out_master = NULL; const char *(*func) (NMConnection *) = NULL; if (!master) return NULL; master = _strip_master_prefix (master, &func); for (i = 0; i < connections->len; i++) { connection = NM_CONNECTION (connections->pdata[i]); s_con = nm_connection_get_setting_connection (connection); g_assert (s_con); con_type = nm_setting_connection_get_connection_type (s_con); if (type && g_strcmp0 (con_type, type) != 0) continue; if (func) { /* There was a prefix; only compare to that type. */ if (g_strcmp0 (master, func (connection)) == 0) { if (out_type) *out_type = con_type; if (func == nm_connection_get_id) out_master = nm_connection_get_uuid (connection); else out_master = master; break; } } else { id = nm_connection_get_id (connection); uuid = nm_connection_get_uuid (connection); ifname = nm_connection_get_interface_name (connection); if ( g_strcmp0 (master, uuid) == 0 || g_strcmp0 (master, ifname) == 0) { out_master = master; if (out_type) *out_type = con_type; break; } if (!found_by_id && g_strcmp0 (master, id) == 0) { out_type_by_id = con_type; found_by_id = uuid; } } } if (!out_master) { out_master = found_by_id; if (out_type) *out_type = out_type_by_id; } if (!out_master) { g_print (_("Warning: master='%s' doesn't refer to any existing profile.\n"), master); out_master = master; if (out_type) *out_type = type; } return out_master; } static gboolean bridge_prop_string_to_uint (const char *str, const char *nmc_arg, GType bridge_type, const char *propname, unsigned long *out_val, GError **error) { GParamSpecUInt *pspec; pspec = (GParamSpecUInt *) g_object_class_find_property (g_type_class_peek (bridge_type), propname); g_assert (G_IS_PARAM_SPEC_UINT (pspec)); if (!nmc_string_to_uint (str, TRUE, pspec->minimum, pspec->maximum, out_val)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: '%s': '%s' is not valid; use <%u-%u>."), nmc_arg, str, pspec->minimum, pspec->maximum); return FALSE; } return TRUE; } #define WORD_YES "yes" #define WORD_NO "no" #define WORD_LOC_YES _("yes") #define WORD_LOC_NO _("no") static const char * prompt_yes_no (gboolean default_yes, char *delim) { static char prompt[128] = { 0 }; if (!delim) delim = ""; snprintf (prompt, sizeof (prompt), "(%s/%s) [%s]%s ", WORD_LOC_YES, WORD_LOC_NO, default_yes ? WORD_LOC_YES : WORD_LOC_NO, delim); return prompt; } static gboolean normalize_yes_no (char **yes_no) { char *tmp; const char *checked_yes_no; const char *strv[] = { WORD_LOC_YES, WORD_LOC_NO, NULL }; if (!yes_no || !*yes_no) return FALSE; tmp = g_strstrip (g_strdup (*yes_no)); checked_yes_no = nmc_string_is_valid (tmp, strv, NULL); g_free (tmp); if (g_strcmp0 (checked_yes_no, WORD_LOC_YES) == 0) { g_free (*yes_no); *yes_no = g_strdup (WORD_YES); } else if (g_strcmp0 (checked_yes_no, WORD_LOC_NO) == 0) { g_free (*yes_no); *yes_no = g_strdup (WORD_NO); } return !!checked_yes_no; } static gboolean want_provide_opt_args (const char *type, int num) { char *answer; gboolean ret = TRUE; /* Ask for optional arguments. */ g_print (ngettext ("There is %d optional argument for '%s' connection type.\n", "There are %d optional arguments for '%s' connection type.\n", num), num, type); answer = nmc_readline (ngettext ("Do you want to provide it? %s", "Do you want to provide them? %s", num), prompt_yes_no (TRUE, NULL)); answer = answer ? g_strstrip (answer) : NULL; if (answer && matches (answer, WORD_LOC_YES) != 0) ret = FALSE; g_free (answer); return ret; } static void do_questionnaire_ethernet (gboolean ethernet, char **mtu, char **mac, char **cloned_mac) { gboolean once_more; GError *error = NULL; /* Ask for optional arguments */ if (ethernet && !want_provide_opt_args (_("ethernet"), 3)) return; if (!*mtu) { do { *mtu = nmc_readline (_("MTU [auto]: ")); once_more = !check_and_convert_mtu (*mtu, NULL, &error); if (once_more) { g_print ("%s\n", error->message); g_clear_error (&error); g_free (*mtu); } } while (once_more); } if (!*mac) { do { *mac = nmc_readline (_("MAC [none]: ")); once_more = !check_mac (*mac, ARPHRD_ETHER, "mac", &error); if (once_more) { g_print ("%s\n", error->message); g_clear_error (&error); g_free (*mac); } } while (once_more); } if (!*cloned_mac) { do { *cloned_mac = nmc_readline (_("Cloned MAC [none]: ")); once_more = !check_mac (*cloned_mac, ARPHRD_ETHER, "cloned-mac", &error); if (once_more) { g_print ("%s\n", error->message); g_clear_error (&error); g_free (*cloned_mac); } } while (once_more); } } #define WORD_DATAGRAM "datagram" #define WORD_CONNECTED "connected" #define PROMPT_IB_MODE "(" WORD_DATAGRAM "/" WORD_CONNECTED ") [" WORD_DATAGRAM "]: " static void do_questionnaire_infiniband (char **mtu, char **mac, char **mode, char **parent, char **p_key) { gboolean once_more; GError *error = NULL; /* Ask for optional arguments */ if (!want_provide_opt_args (_("InfiniBand"), 5)) return; if (!*mtu) { do { *mtu = nmc_readline (_("MTU [auto]: ")); once_more = !check_and_convert_mtu (*mtu, NULL, &error); if (once_more) { g_print ("%s\n", error->message); g_clear_error (&error); g_free (*mtu); } } while (once_more); } if (!*mac) { do { *mac = nmc_readline (_("MAC [none]: ")); once_more = !check_mac (*mac, ARPHRD_INFINIBAND, "mac", &error); if (once_more) { g_print ("%s\n", error->message); g_clear_error (&error); g_free (*mac); } } while (once_more); } if (!*mode) { do { *mode = nmc_readline (_("Transport mode %s"), PROMPT_IB_MODE); if (!*mode) *mode = g_strdup ("datagram"); once_more = !check_infiniband_mode (mode, &error); if (once_more) { g_print ("%s\n", error->message); g_clear_error (&error); g_free (*mode); } } while (once_more); } if (!*parent) { do { *parent = nmc_readline (_("Parent interface [none]: ")); once_more = !check_infiniband_parent (*parent, &error); if (once_more) { g_print ("%s\n", error->message); g_clear_error (&error); g_free (*parent); } } while (once_more); } if (!*p_key) { do { *p_key = nmc_readline (_("P_KEY [none]: ")); once_more = !check_infiniband_p_key (*p_key, NULL, &error); if (once_more) { g_print ("%s\n", error->message); g_clear_error (&error); g_free (*p_key); } /* If parent is specified, so has to be P_KEY */ if (!once_more && *parent && !*p_key) { once_more = TRUE; g_print (_("Error: 'p-key' is mandatory when 'parent' is specified.\n")); } } while (once_more); } } #define WORD_INFRA "infrastructure" #define WORD_AP "ap" #define WORD_ADHOC "adhoc" #define PROMPT_WIFI_MODE "(" WORD_INFRA "/" WORD_AP "/" WORD_ADHOC ") [" WORD_INFRA "]: " static void do_questionnaire_wifi (char **mtu, char **mac, char **cloned_mac, char **mode) { gboolean once_more; GError *error = NULL; /* Ask for optional arguments */ if (!want_provide_opt_args (_("Wi-Fi"), 4)) return; /* Most optional Wi-Fi arguments are the same as for ethernet. */ do_questionnaire_ethernet (FALSE, mtu, mac, cloned_mac); if (!*mode) { do { *mode = nmc_readline (_("Mode %s"), PROMPT_WIFI_MODE); if (!*mode) *mode = g_strdup ("infrastructure"); once_more = !check_wifi_mode (mode, &error); if (once_more) { g_print ("%s\n", error->message); g_clear_error (&error); g_free (*mode); } } while (once_more); } } static void do_questionnaire_wimax (char **mac) { gboolean once_more; GError *error = NULL; /* Ask for optional 'wimax' arguments. */ if (!want_provide_opt_args (_("WiMAX"), 1)) return; if (!*mac) { do { *mac = nmc_readline (_("MAC [none]: ")); once_more = !check_mac (*mac, ARPHRD_ETHER, "mac", &error); if (once_more) { g_print ("%s\n", error->message); g_clear_error (&error); g_free (*mac); } } while (once_more); } } static void do_questionnaire_pppoe (gboolean echo, char **password, char **service, char **mtu, char **mac) { gboolean once_more; GError *error = NULL; /* Ask for optional 'pppoe' arguments. */ if (!want_provide_opt_args (_("PPPoE"), 4)) return; if (!*password) *password = nmc_readline_echo (echo, _("Password [none]: ")); if (!*service) *service = nmc_readline (_("Service [none]: ")); if (!*mtu) { do { *mtu = nmc_readline (_("MTU [auto]: ")); once_more = !check_and_convert_mtu (*mtu, NULL, &error); if (once_more) { g_print ("%s\n", error->message); g_clear_error (&error); g_free (*mtu); } } while (once_more); } if (!*mac) { do { *mac = nmc_readline (_("MAC [none]: ")); once_more = !check_mac (*mac, ARPHRD_ETHER, "mac", &error); if (once_more) { g_print ("%s\n", error->message); g_clear_error (&error); g_free (*mac); } } while (once_more); } } static void do_questionnaire_mobile (gboolean echo, char **user, char **password) { /* Ask for optional 'gsm' or 'cdma' arguments. */ if (!want_provide_opt_args (_("mobile broadband"), 2)) return; if (!*user) *user = nmc_readline (_("Username [none]: ")); if (!*password) *password = nmc_readline_echo (echo, _("Password [none]: ")); } #define WORD_PANU "panu" #define WORD_DUN_GSM "dun-gsm" #define WORD_DUN_CDMA "dun-cdma" #define PROMPT_BT_TYPE "(" WORD_PANU "/" WORD_DUN_GSM "/" WORD_DUN_CDMA ") [" WORD_PANU "]: " static void do_questionnaire_bluetooth (char **bt_type) { gboolean once_more; /* Ask for optional 'bluetooth' arguments. */ if (!want_provide_opt_args (_("bluetooth"), 1)) return; if (!*bt_type) { const char *types[] = { "dun", "dun-gsm", "dun-cdma", "panu", NULL }; const char *tmp; do { *bt_type = nmc_readline (_("Bluetooth type %s"), PROMPT_BT_TYPE); if (!*bt_type) *bt_type = g_strdup ("panu"); tmp = nmc_string_is_valid (*bt_type, types, NULL); once_more = !tmp; if (once_more) { g_print (_("Error: 'bt-type': '%s' is not a valid bluetooth type.\n"), *bt_type); g_free (*bt_type); } } while (once_more); g_free (*bt_type); *bt_type = g_strdup (tmp); } } static void do_questionnaire_vlan (char **mtu, char **flags, char **ingress, char **egress) { gboolean once_more; GError *error = NULL; /* Ask for optional 'vlan' arguments. */ if (!want_provide_opt_args (_("VLAN"), 4)) return; if (!*mtu) { do { *mtu = nmc_readline (_("MTU [auto]: ")); once_more = !check_and_convert_mtu (*mtu, NULL, &error); if (once_more) { g_print ("%s\n", error->message); g_clear_error (&error); g_free (*mtu); } } while (once_more); } if (!*flags) { do { *flags = nmc_readline (_("VLAN flags (<0-7>) [none]: ")); once_more = !check_and_convert_vlan_flags (*flags, NULL, &error); if (once_more) { g_print ("%s\n", error->message); g_clear_error (&error); g_free (*flags); } } while (once_more); } if (!*ingress) { do { *ingress = nmc_readline (_("Ingress priority maps [none]: ")); once_more = !check_and_convert_vlan_prio_maps (*ingress, NM_VLAN_INGRESS_MAP, NULL, &error); if (once_more) { g_print ("%s\n", error->message); g_clear_error (&error); g_free (*ingress); } } while (once_more); } if (!*egress) { do { *egress = nmc_readline (_("Egress priority maps [none]: ")); once_more = !check_and_convert_vlan_prio_maps (*egress, NM_VLAN_EGRESS_MAP, NULL, &error); if (once_more) { g_print ("%s\n", error->message); g_clear_error (&error); g_free (*egress); } } while (once_more); } } #define PROMPT_BOND_MODE _("Bonding mode [balance-rr]: ") #define WORD_MIIMON "miimon" #define WORD_ARP "arp" #define PROMPT_BOND_MON_MODE "(" WORD_MIIMON "/" WORD_ARP ") [" WORD_MIIMON "]: " static void do_questionnaire_bond (char **mode, char **primary, char **miimon, char **downdelay, char **updelay, char **arpinterval, char **arpiptarget, char **lacp_rate) { char *monitor_mode; unsigned long tmp; gboolean once_more; GError *error = NULL; /* Ask for optional 'bond' arguments. */ if (!want_provide_opt_args (_("bond"), 5)) return; if (!*mode) { const char *mode_tmp; do { *mode = nmc_readline (PROMPT_BOND_MODE); if (!*mode) *mode = g_strdup ("balance-rr"); mode_tmp = nmc_bond_validate_mode (*mode, &error); g_free (*mode); if (mode_tmp) { *mode = g_strdup (mode_tmp); } else { g_print ("%s\n", error->message); g_clear_error (&error); } } while (!mode_tmp); } if (g_strcmp0 (*mode, "active-backup") == 0 && !*primary) { do { *primary = nmc_readline (_("Bonding primary interface [none]: ")); once_more = *primary && !nm_utils_iface_valid_name (*primary); if (once_more) { g_print (_("Error: 'primary': '%s' is not a valid interface name.\n"), *primary); g_free (*primary); } } while (once_more); } do { monitor_mode = nmc_readline (_("Bonding monitoring mode %s"), PROMPT_BOND_MON_MODE); if (!monitor_mode) monitor_mode = g_strdup (WORD_MIIMON); g_strstrip (monitor_mode); once_more = matches (monitor_mode, WORD_MIIMON) != 0 && matches (monitor_mode, WORD_ARP) != 0; if (once_more) { g_print (_("Error: '%s' is not a valid monitoring mode; use '%s' or '%s'.\n"), monitor_mode, WORD_MIIMON, WORD_ARP); g_free (monitor_mode); } } while (once_more); if (matches (monitor_mode, WORD_MIIMON) == 0) { if (!*miimon) { do { *miimon = nmc_readline (_("Bonding miimon [100]: ")); once_more = *miimon && !nmc_string_to_uint (*miimon, TRUE, 0, G_MAXUINT32, &tmp); if (once_more) { g_print (_("Error: 'miimon': '%s' is not a valid number <0-%u>.\n"), *miimon, G_MAXUINT32); g_free (*miimon); } } while (once_more); } if (!*downdelay) { do { *downdelay = nmc_readline (_("Bonding downdelay [0]: ")); once_more = *downdelay && !nmc_string_to_uint (*downdelay, TRUE, 0, G_MAXUINT32, &tmp); if (once_more) { g_print (_("Error: 'downdelay': '%s' is not a valid number <0-%u>.\n"), *downdelay, G_MAXUINT32); g_free (*downdelay); } } while (once_more); } if (!*updelay) { do { *updelay = nmc_readline (_("Bonding updelay [0]: ")); once_more = *updelay && !nmc_string_to_uint (*updelay, TRUE, 0, G_MAXUINT32, &tmp); if (once_more) { g_print (_("Error: 'updelay': '%s' is not a valid number <0-%u>.\n"), *updelay, G_MAXUINT32); g_free (*updelay); } } while (once_more); } } else { if (!*arpinterval) { do { *arpinterval = nmc_readline (_("Bonding arp-interval [0]: ")); once_more = *arpinterval && !nmc_string_to_uint (*arpinterval, TRUE, 0, G_MAXUINT32, &tmp); if (once_more) { g_print (_("Error: 'arp-interval': '%s' is not a valid number <0-%u>.\n"), *arpinterval, G_MAXUINT32); g_free (*arpinterval); } } while (once_more); } if (!*arpiptarget) { //FIXME: verify the string *arpiptarget = nmc_readline (_("Bonding arp-ip-target [none]: ")); } } if ( !*lacp_rate && (g_strcmp0 (*mode, "802.3ad") == 0 || g_strcmp0 (*mode, "4") == 0)) { do { *lacp_rate = nmc_readline (_("LACP rate ('slow' or 'fast') [slow]: ")); once_more = *lacp_rate && (strcmp (*lacp_rate, "slow") && strcmp (*lacp_rate, "0") && strcmp (*lacp_rate, "fast") && strcmp (*lacp_rate, "1")); if (once_more) { printf (_("Error: 'lacp_rate': '%s' is invalid ('slow' or 'fast').\n"), *lacp_rate); g_free (*lacp_rate); } } while (once_more); } g_free (monitor_mode); } static void do_questionnaire_team_common (const char *type_name, char **config) { gboolean once_more; char *json = NULL; GError *error = NULL; /* Ask for optional arguments. */ if (!want_provide_opt_args (type_name, 1)) return; if (!*config) { do { *config = nmc_readline (_("Team JSON configuration [none]: ")); once_more = !nmc_team_check_config (*config, &json, &error); if (once_more) { g_print ("Error: %s\n", error->message); g_clear_error (&error); g_free (*config); } } while (once_more); } *config = json; } /* Both team and team-slave curently have just ithe same one optional argument */ static void do_questionnaire_team (char **config) { do_questionnaire_team_common (_("team"), config); } static void do_questionnaire_team_slave (char **config) { do_questionnaire_team_common (_("team-slave"), config); } static void do_questionnaire_bridge (char **stp, char **priority, char **fwd_delay, char **hello_time, char **max_age, char **ageing_time, char **mcast_snoop, char **mac) { unsigned long tmp; gboolean once_more; GError *error = NULL; /* Ask for optional 'bridge' arguments. */ if (!want_provide_opt_args (_("bridge"), 8)) return; if (!*stp) { gboolean stp_bool; do { *stp = nmc_readline (_("Enable STP %s"), prompt_yes_no (TRUE, ":")); *stp = *stp ? *stp : g_strdup ("yes"); normalize_yes_no (stp); once_more = !nmc_string_to_bool (*stp, &stp_bool, &error); if (once_more) { g_print (_("Error: 'stp': %s.\n"), error->message); g_clear_error (&error); g_free (*stp); } } while (once_more); } if (!*priority) { do { *priority = nmc_readline (_("STP priority [32768]: ")); *priority = *priority ? *priority : g_strdup ("32768"); once_more = !nmc_string_to_uint (*priority, TRUE, 0, G_MAXUINT16, &tmp); if (once_more) { g_print (_("Error: 'priority': '%s' is not a valid number <0-%d>.\n"), *priority, G_MAXUINT16); g_free (*priority); } } while (once_more); } if (!*fwd_delay) { do { *fwd_delay = nmc_readline (_("Forward delay [15]: ")); *fwd_delay = *fwd_delay ? *fwd_delay : g_strdup ("15"); once_more = !nmc_string_to_uint (*fwd_delay, TRUE, 2, 30, &tmp); if (once_more) { g_print (_("Error: 'forward-delay': '%s' is not a valid number <2-30>.\n"), *fwd_delay); g_free (*fwd_delay); } } while (once_more); } if (!*hello_time) { do { *hello_time = nmc_readline (_("Hello time [2]: ")); *hello_time = *hello_time ? *hello_time : g_strdup ("2"); once_more = !nmc_string_to_uint (*hello_time, TRUE, 1, 10, &tmp); if (once_more) { g_print (_("Error: 'hello-time': '%s' is not a valid number <1-10>.\n"), *hello_time); g_free (*hello_time); } } while (once_more); } if (!*max_age) { do { *max_age = nmc_readline (_("Max age [20]: ")); *max_age = *max_age ? *max_age : g_strdup ("20"); once_more = !nmc_string_to_uint (*max_age, TRUE, 6, 40, &tmp); if (once_more) { g_print (_("Error: 'max-age': '%s' is not a valid number <6-40>.\n"), *max_age); g_free (*max_age); } } while (once_more); } if (!*ageing_time) { do { *ageing_time = nmc_readline (_("MAC address ageing time [300]: ")); *ageing_time = *ageing_time ? *ageing_time : g_strdup ("300"); once_more = !nmc_string_to_uint (*ageing_time, TRUE, 0, 1000000, &tmp); if (once_more) { g_print (_("Error: 'ageing-time': '%s' is not a valid number <0-1000000>.\n"), *ageing_time); g_free (*ageing_time); } } while (once_more); } if (!*mcast_snoop) { gboolean mcast_snoop_bool; do { *mcast_snoop = nmc_readline (_("Enable IGMP snooping %s"), prompt_yes_no (TRUE, ":")); *mcast_snoop = *mcast_snoop ? *mcast_snoop : g_strdup ("yes"); normalize_yes_no (mcast_snoop); once_more = !nmc_string_to_bool (*mcast_snoop, &mcast_snoop_bool, &error); if (once_more) { g_print (_("Error: 'multicast-snooping': %s.\n"), error->message); g_clear_error (&error); g_free (*mcast_snoop); } } while (once_more); } if (!*mac) { do { *mac = nmc_get_user_input (_("MAC [none]: ")); once_more = !check_mac (*mac, ARPHRD_ETHER, "mac", &error); if (once_more) { g_print ("%s\n", error->message); g_clear_error (&error); g_free (*mac); } } while (once_more); } } static void do_questionnaire_bridge_slave (char **priority, char **path_cost, char **hairpin) { unsigned long tmp; gboolean once_more; GError *error = NULL; /* Ask for optional 'bridge-slave' arguments. */ if (!want_provide_opt_args (_("bridge-slave"), 3)) return; if (!*priority) { do { *priority = nmc_readline (_("Bridge port priority [32]: ")); *priority = *priority ? *priority : g_strdup ("32"); once_more = !bridge_prop_string_to_uint (*priority, "priority", NM_TYPE_SETTING_BRIDGE_PORT, NM_SETTING_BRIDGE_PORT_PRIORITY, &tmp, &error); if (once_more) { g_print ("%s\n", error->message); g_clear_error (&error); g_free (*priority); } } while (once_more); } if (!*path_cost) { do { *path_cost = nmc_readline (_("Bridge port STP path cost [100]: ")); *path_cost = *path_cost ? *path_cost : g_strdup ("100"); once_more = !bridge_prop_string_to_uint (*path_cost, "path-cost", NM_TYPE_SETTING_BRIDGE_PORT, NM_SETTING_BRIDGE_PORT_PATH_COST, &tmp, &error); if (once_more) { g_print ("%s\n", error->message); g_clear_error (&error); g_free (*path_cost); } } while (once_more); } if (!*hairpin) { gboolean hairpin_bool; do { *hairpin = nmc_readline (_("Hairpin %s"), prompt_yes_no (TRUE, ":")); *hairpin = *hairpin ? *hairpin : g_strdup ("yes"); normalize_yes_no (hairpin); once_more = !nmc_string_to_bool (*hairpin, &hairpin_bool, &error); if (once_more) { g_print (_("Error: 'hairpin': %s.\n"), error->message); g_clear_error (&error); g_free (*hairpin); } } while (once_more); } } static void do_questionnaire_vpn (char **user) { /* Ask for optional 'vpn' arguments. */ if (!want_provide_opt_args (_("VPN"), 1)) return; if (!*user) *user = nmc_readline (_("Username [none]: ")); } static void do_questionnaire_olpc (char **channel, char **dhcp_anycast) { unsigned long tmp; gboolean once_more; GError *error = NULL; /* Ask for optional 'olpc' arguments. */ if (!want_provide_opt_args (_("OLPC Mesh"), 2)) return; if (!*channel) { do { *channel = nmc_readline (_("OLPC Mesh channel [1]: ")); once_more = *channel && !nmc_string_to_uint (*channel, TRUE, 1, 13, &tmp); if (once_more) { g_print (_("Error: 'channel': '%s' is not a valid number <1-13>.\n"), *channel); g_free (*channel); } } while (once_more); } if (!*dhcp_anycast) { do { *dhcp_anycast = nmc_readline (_("DHCP anycast MAC address [none]: ")); once_more = !check_mac (*dhcp_anycast, ARPHRD_ETHER, "dhcp-anycast", &error); if (once_more) { g_print ("%s\n", error->message); g_clear_error (&error); g_free (*dhcp_anycast); } } while (once_more); } } #define PROMPT_ADSL_ENCAP "(" NM_SETTING_ADSL_ENCAPSULATION_VCMUX "/" NM_SETTING_ADSL_ENCAPSULATION_LLC ") [none]: " static void do_questionnaire_adsl (gboolean echo, char **password, char **encapsulation) { gboolean once_more; GError *error = NULL; /* Ask for optional 'adsl' arguments. */ if (!want_provide_opt_args (_("ADSL"), 2)) return; if (!*password) *password = nmc_readline_echo (echo, _("Password [none]: ")); if (!*encapsulation) { do { *encapsulation = nmc_readline (_("ADSL encapsulation %s"), PROMPT_ADSL_ENCAP); once_more = !check_adsl_encapsulation (encapsulation, &error); if (once_more) { g_print ("%s\n", error->message); g_clear_error (&error); g_free (*encapsulation); } } while (once_more); } } static void do_questionnaire_macvlan (char **tap) { gboolean once_more; GError *error = NULL; /* Ask for optional 'macvlan' arguments. */ if (!want_provide_opt_args (_("macvlan"), 1)) return; if (!*tap) { gboolean tap_bool; do { *tap = nmc_readline (_("Tap %s"), prompt_yes_no (FALSE, ":")); *tap = *tap ? *tap : g_strdup ("yes"); normalize_yes_no (tap); once_more = !nmc_string_to_bool (*tap, &tap_bool, &error); if (once_more) { g_print (_("Error: 'tap': %s.\n"), error->message); g_clear_error (&error); g_free (*tap); } } while (once_more); } } static void do_questionnaire_vxlan (char **parent, char **local, char **src_port_min, char **src_port_max, char **dst_port) { unsigned long tmp; gboolean once_more; /* Ask for optional 'vxlan' arguments. */ if (!want_provide_opt_args (_("VXLAN"), 5)) return; if (!*parent) { do { *parent = nmc_readline (_("Parent device [none]: ")); once_more = *parent && !nm_utils_is_uuid (*parent) && !nm_utils_iface_valid_name (*parent); if (once_more) { g_print (_("Error: 'dev': '%s' is neither UUID nor interface name.\n"), *parent); g_free (*parent); } } while (once_more); } if (!*local) { do { *local = nmc_readline (_("Local address [none]: ")); once_more = *local && !nm_utils_ipaddr_valid (AF_INET, *local) && !nm_utils_ipaddr_valid (AF_INET6, *local); if (once_more) { g_print (_("Error: 'local': '%s' is not a valid IP address.\n"), *local); g_free (*local); } } while (once_more); } if (!*src_port_min) { do { *src_port_min = nmc_readline (_("Minimum source port [0]: ")); *src_port_min = *src_port_min ? *src_port_min : g_strdup ("0"); once_more = !nmc_string_to_uint (*src_port_min, TRUE, 0, 65535, &tmp); if (once_more) { g_print (_("Error: 'source-port-min': '%s' is not a valid number <0-65535>.\n"), *src_port_min); g_free (*src_port_min); } } while (once_more); } if (!*src_port_max) { do { *src_port_max = nmc_readline (_("Maximum source port [0]: ")); *src_port_max = *src_port_max ? *src_port_max : g_strdup ("0"); once_more = !nmc_string_to_uint (*src_port_max, TRUE, 0, 65535, &tmp); if (once_more) { g_print (_("Error: 'source-port-max': '%s' is not a valid number <0-65535>.\n"), *src_port_max); g_free (*src_port_max); } } while (once_more); } if (!*dst_port) { do { *dst_port = nmc_readline (_("Destination port [8472]: ")); *dst_port = *dst_port ? *dst_port : g_strdup ("8472"); once_more = !nmc_string_to_uint (*dst_port, TRUE, 0, 65535, &tmp); if (once_more) { g_print (_("Error: 'destination-port': '%s' is not a valid number <0-65535>.\n"), *dst_port); g_free (*dst_port); } } while (once_more); } } static gboolean split_address (char* str, char **ip, char **rest) { size_t n1, n2, n3; *ip = *rest = NULL; if (!str) return FALSE; n1 = strspn (str, " \t"); n2 = strcspn (str+n1, " \t\0") + n1; n3 = strspn (str+n2, " \t") + n2; str[n2] = '\0'; *ip = str[n1] ? str + n1 : NULL; *rest = str[n3] ? str + n3 : NULL; return TRUE; } static void ask_for_ip_addresses (NMConnection *connection, int family) { gboolean ip_loop; GError *error = NULL; char *str, *ip, *rest; const char *prompt; gboolean added; NMIPAddress *ipaddr; if (family == AF_INET) prompt =_("IPv4 address (IP[/plen]) [none]: "); else prompt =_("IPv6 address (IP[/plen]) [none]: "); ip_loop = TRUE; do { str = nmc_readline ("%s", prompt); split_address (str, &ip, &rest); if (ip) { ipaddr = nmc_parse_and_build_address (family, ip, &error); if (ipaddr) { if (family == AF_INET) added = add_ip4_address_to_connection (ipaddr, connection); else added = add_ip6_address_to_connection (ipaddr, connection); if (added) g_print (_(" Address successfully added: %s\n"), ip); else g_print (_(" Warning: address already present: %s\n"), ip); if (rest) g_print (_(" Warning: ignoring garbage at the end: '%s'\n"), rest); } else { g_prefix_error (&error, _("Error: ")); g_print ("%s\n", error->message); g_clear_error (&error); } } else ip_loop = FALSE; g_free (str); } while (ip_loop); } static void maybe_ask_for_gateway (NMConnection *connection, int family) { gboolean gw_loop; char *str, *gw, *rest; const char *prompt; NMSettingIPConfig *s_ip; if (family == AF_INET) { prompt =_("IPv4 gateway [none]: "); s_ip = nm_connection_get_setting_ip4_config (connection); } else { prompt =_("IPv6 gateway [none]: "); s_ip = nm_connection_get_setting_ip6_config (connection); } if (s_ip == NULL) return; if ( nm_setting_ip_config_get_num_addresses (s_ip) == 0 || nm_setting_ip_config_get_gateway (s_ip) != NULL) return; gw_loop = TRUE; do { str = nmc_readline ("%s", prompt); split_address (str, &gw, &rest); if (gw) { if (nm_utils_ipaddr_valid (family, gw)) { g_object_set (s_ip, NM_SETTING_IP_CONFIG_GATEWAY, gw, NULL); gw_loop = FALSE; } else g_print (_("Error: invalid gateway address '%s'\n"), gw); } else gw_loop = FALSE; g_free (str); } while (gw_loop); } static void do_questionnaire_ip (NMConnection *connection) { char *answer; /* Ask for IP addresses */ answer = nmc_readline (_("Do you want to add IP addresses? %s"), prompt_yes_no (TRUE, NULL)); answer = answer ? g_strstrip (answer) : NULL; if (answer && matches (answer, WORD_LOC_YES) != 0) { g_free (answer); return; } g_free (answer); g_print (_("Press to finish adding addresses.\n")); ask_for_ip_addresses (connection, AF_INET); maybe_ask_for_gateway (connection, AF_INET); ask_for_ip_addresses (connection, AF_INET6); maybe_ask_for_gateway (connection, AF_INET6); } static NMSetting * is_setting_valid (NMConnection *connection, const NameItem *valid_settings_main, const NameItem *valid_settings_slave, char *setting) { const char *setting_name; if (!(setting_name = check_valid_name (setting, valid_settings_main, valid_settings_slave, NULL))) return NULL; return nm_connection_get_setting_by_name (connection, setting_name); } static char * is_property_valid (NMSetting *setting, const char *property, GError **error) { char **valid_props = NULL; const char *prop_name; char *ret; valid_props = nmc_setting_get_valid_properties (setting); prop_name = nmc_string_is_valid (property, (const char **) valid_props, error); ret = g_strdup (prop_name); g_strfreev (valid_props); return ret; } #define WORD_TUN "tun" #define WORD_TAP "tap" #define PROMPT_TUN_MODE "(" WORD_TUN "/" WORD_TAP ") [" WORD_TUN "]: " static void do_questionnaire_tun (char **user, char **group, char **pi, char **vnet_hdr, char **multi_queue) { gboolean once_more; GError *error = NULL; gboolean b; /* Ask for optional 'tun' arguments. */ if (!want_provide_opt_args (_("Tun"), 5)) return; if (!*user) { do { *user = nmc_readline (_("User ID [none]: ")); if (!*user) break; once_more = !check_user_group_id (*user, &error); if (once_more) { g_print ("%s\n", error->message); g_clear_error (&error); g_free (*user); } } while (once_more); } if (!*group) { do { *group = nmc_readline (_("Group ID [none]: ")); if (!*group) break; once_more = !check_user_group_id (*group, &error); if (once_more) { g_print ("%s\n", error->message); g_clear_error (&error); g_free (*group); } } while (once_more); } if (!*pi) { do { *pi = nmc_readline (_("Enable PI %s"), prompt_yes_no (FALSE, ":")); *pi = *pi ? *pi : g_strdup ("no"); normalize_yes_no (pi); once_more = !nmc_string_to_bool (*pi, &b, &error); if (once_more) { g_print (_("Error: 'pi': %s.\n"), error->message); g_clear_error (&error); g_free (*pi); } } while (once_more); } if (!*vnet_hdr) { do { *vnet_hdr = nmc_readline (_("Enable VNET header %s"), prompt_yes_no (FALSE, ":")); *vnet_hdr = *vnet_hdr ? *vnet_hdr : g_strdup ("no"); normalize_yes_no (vnet_hdr); once_more = !nmc_string_to_bool (*vnet_hdr, &b, &error); if (once_more) { g_print (_("Error: 'vnet-hdr': %s.\n"), error->message); g_clear_error (&error); g_free (*vnet_hdr); } } while (once_more); } if (!*multi_queue) { do { *multi_queue = nmc_readline (_("Enable multi queue %s"), prompt_yes_no (FALSE, ":")); *multi_queue = *multi_queue ? *multi_queue : g_strdup ("no"); normalize_yes_no (multi_queue); once_more = !nmc_string_to_bool (*multi_queue, &b, &error); if (once_more) { g_print (_("Error: 'multi-queue': %s.\n"), error->message); g_clear_error (&error); g_free (*multi_queue); } } while (once_more); } } static void do_questionnaire_ip_tunnel (char **local, char **parent) { gboolean once_more; /* Ask for optional 'ip-tunnel' arguments. */ if (!want_provide_opt_args (_("IP Tunnel"), 2)) return; if (!*local) { do { *local = nmc_readline (_("Local endpoint [none]: ")); if (!*local) break; once_more = !nm_utils_ipaddr_valid (AF_INET, *local) && !nm_utils_ipaddr_valid (AF_INET6, *local); if (once_more) { g_print (_("Error: 'local': '%s' is not valid; must be an IP address\n"), *local); g_free (*local); } } while (once_more); } if (!*parent) { do { *parent = nmc_readline (_("Parent device [none]: ")); once_more = *parent && !nm_utils_is_uuid (*parent) && !nm_utils_iface_valid_name (*parent); if (once_more) { g_print (_("Error: 'dev': '%s' is neither UUID nor interface name.\n"), *parent); g_free (*parent); } } while (once_more); } } static gboolean read_connection_properties (NMConnection *connection, int argc, char **argv, GError **error) { NMSetting *setting; NMSettingConnection *s_con; const char *con_type; const char *s_dot_p; const char *value; char **strv = NULL; char *slv_type = NULL; const char *setting_name; gboolean append = FALSE; gboolean remove = FALSE; gboolean success = FALSE; GError *local = NULL; s_con = nm_connection_get_setting_connection (connection); g_assert (s_con); /* First check if we have a slave-type, as this would mean we will not * have ip properties but possibly others, slave-type specific. */ con_type = nm_setting_connection_get_slave_type (s_con); if (!con_type) con_type = "no"; slv_type = g_strdup_printf ("%s-slave", con_type); con_type = nm_setting_connection_get_connection_type (s_con); /* Go through arguments and set properties */ while (argc) { gs_free char *property_name = NULL; s_dot_p = *argv; next_arg (&argc, &argv); value = *argv; next_arg (&argc, &argv); if (!s_dot_p) { g_set_error_literal (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: . argument is missing.")); goto finish; } if (!value) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: value for '%s' is missing."), s_dot_p); goto finish; } /* Empty string will reset the value to default */ if (value[0] == '\0') value = NULL; if (s_dot_p[0] == '+') { s_dot_p++; append = TRUE; } else if (s_dot_p[0] == '-') { s_dot_p++; remove = TRUE; } strv = g_strsplit (s_dot_p, ".", 2); if (g_strv_length (strv) != 2) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: invalid . '%s'."), s_dot_p); goto finish; } setting_name = check_valid_name (strv[0], get_valid_settings_array (con_type), get_valid_settings_array (slv_type), &local); if (!setting_name) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: invalid or not allowed setting '%s': %s."), strv[0], local->message); g_clear_error (&local); goto finish; } setting = nm_connection_get_setting_by_name (connection, setting_name); if (!setting) { setting = nmc_setting_new_for_name (setting_name); if (!setting) { /* This should really not happen */ g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_UNKNOWN, _("Error: don't know how to create '%s' setting."), setting_name); goto finish; } nm_connection_add_setting (connection, setting); } property_name = is_property_valid (setting, strv[1], &local); if (!property_name) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: invalid property '%s': %s."), strv[1], local->message); g_clear_error (&local); goto finish; } if (!remove) { /* Set/add value */ if (!append) nmc_setting_reset_property (setting, property_name, NULL); if (!nmc_setting_set_property (setting, property_name, value, &local)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: failed to modify %s.%s: %s."), strv[0], strv[1], local->message); g_clear_error (&local); goto finish; } } else { /* Remove value * - either empty: remove whole value * - or specified by index <0-n>: remove item at the index * - or option name: remove item with the option name */ if (value) { unsigned long idx; if (nmc_string_to_uint (value, TRUE, 0, G_MAXUINT32, &idx)) nmc_setting_remove_property_option (setting, property_name, NULL, idx, &local); else nmc_setting_remove_property_option (setting, property_name, value, 0, &local); if (local) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: failed to remove a value from %s.%s: %s."), strv[0], strv[1], local->message); g_clear_error (&local); goto finish; } } else nmc_setting_reset_property (setting, property_name, NULL); } g_strfreev (strv); strv = NULL; } success = TRUE; finish: if (strv) g_strfreev (strv); g_free (slv_type); return success; } static gboolean complete_slave (NMSettingConnection *s_con, const GPtrArray *all_connections, const char *slave_type, const char *master, const char *type, gboolean ask, GError **error) { char *master_ask = NULL; const char *checked_master = NULL; if (type) g_print (_("Warning: 'type' is ignored. " "Use 'nmcli connection add \"%s\" ...' instead."), type); if (nm_setting_connection_get_master (s_con)) { /* Master already set. */ if (master) { g_set_error_literal (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: redundant 'master' option.")); return FALSE; } g_object_set (s_con, NM_SETTING_CONNECTION_SLAVE_TYPE, slave_type, NULL); return TRUE; } if (!master && ask) master = master_ask = nmc_readline (PROMPT_MASTER); if (!master) { g_set_error_literal (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'master' is required.")); return FALSE; } /* Verify master argument */ checked_master = normalized_master_for_slave (all_connections, master, slave_type, NULL); /* Change properties in 'connection' setting */ g_object_set (s_con, NM_SETTING_CONNECTION_MASTER, checked_master, NM_SETTING_CONNECTION_SLAVE_TYPE, slave_type, NULL); g_free (master_ask); return TRUE; } static gboolean complete_connection_by_type (NMConnection *connection, const char *con_type, const GPtrArray *all_connections, gboolean ask, gboolean show_secrets, int argc, char **argv, GError **error) { NMSettingConnection *s_con; NMSettingGeneric *s_generic; NMSettingWired *s_wired; NMSettingInfiniband *s_infiniband; NMSettingWireless *s_wifi; NMSettingWimax *s_wimax; NMSettingPppoe *s_pppoe; NMSettingGsm *s_gsm; NMSettingCdma *s_cdma; NMSettingBluetooth *s_bt; NMSettingVlan *s_vlan; NMSettingBond *s_bond; NMSettingTeam *s_team; NMSettingTeamPort *s_team_port; NMSettingBridge *s_bridge; NMSettingBridgePort *s_bridge_port; NMSettingVpn *s_vpn; NMSettingOlpcMesh *s_olpc_mesh; NMSettingAdsl *s_adsl; NMSettingTun *s_tun; NMSettingIPTunnel *s_ip_tunnel; NMSettingMacvlan *s_macvlan; NMSettingVxlan *s_vxlan; g_return_val_if_fail (error == NULL || *error == NULL, FALSE); s_con = nm_connection_get_setting_connection (connection); g_assert (s_con); if (!strcmp (con_type, NM_SETTING_WIRED_SETTING_NAME)) { /* Build up the settings required for 'ethernet' */ gboolean success = FALSE; const char *mtu_c = NULL; char *mtu = NULL; guint32 mtu_int = 0; const char *mac_c = NULL; char *mac = NULL; const char *cloned_mac_c = NULL; char *cloned_mac = NULL; nmc_arg_t exp_args[] = { {"mtu", TRUE, &mtu_c, FALSE}, {"mac", TRUE, &mac_c, FALSE}, {"cloned-mac", TRUE, &cloned_mac_c, FALSE}, {NULL} }; if (!nmc_parse_args (exp_args, FALSE, &argc, &argv, error)) return FALSE; /* Also ask for all optional arguments if '--ask' is specified. */ mtu = g_strdup (mtu_c); mac = g_strdup (mac_c); cloned_mac = g_strdup (cloned_mac_c); if (ask) do_questionnaire_ethernet (TRUE, &mtu, &mac, &cloned_mac); if (!check_and_convert_mtu (mtu, &mtu_int, error)) goto cleanup_wired; if (!check_mac (mac, ARPHRD_ETHER, "mac", error)) goto cleanup_wired; if (!check_mac (cloned_mac, ARPHRD_ETHER, "cloned-mac", error)) goto cleanup_wired; /* Add ethernet setting */ s_wired = (NMSettingWired *) nm_setting_wired_new (); nm_connection_add_setting (connection, NM_SETTING (s_wired)); if (mtu) g_object_set (s_wired, NM_SETTING_WIRED_MTU, mtu_int, NULL); if (mac) g_object_set (s_wired, NM_SETTING_WIRED_MAC_ADDRESS, mac, NULL); if (cloned_mac) g_object_set (s_wired, NM_SETTING_WIRED_CLONED_MAC_ADDRESS, cloned_mac, NULL); success = TRUE; cleanup_wired: g_free (mtu); g_free (mac); g_free (cloned_mac); if (!success) return FALSE; } else if (!strcmp (con_type, NM_SETTING_INFINIBAND_SETTING_NAME)) { /* Build up the settings required for 'infiniband' */ gboolean success = FALSE; const char *mtu_c = NULL; char *mtu = NULL; guint32 mtu_int = 0; const char *mac_c = NULL; char *mac = NULL; const char *mode_c = NULL; char *mode = NULL; const char *parent_c = NULL; char *parent = NULL; const char *p_key_c = NULL; char *p_key = NULL; guint32 p_key_int = 0; nmc_arg_t exp_args[] = { {"mtu", TRUE, &mtu_c, FALSE}, {"mac", TRUE, &mac_c, FALSE}, {"transport-mode", TRUE, &mode_c, FALSE}, {"parent", TRUE, &parent_c, FALSE}, {"p-key", TRUE, &p_key_c, FALSE}, {NULL} }; if (!nmc_parse_args (exp_args, FALSE, &argc, &argv, error)) return FALSE; /* Also ask for all optional arguments if '--ask' is specified. */ mtu = g_strdup (mtu_c); mac = g_strdup (mac_c); mode = g_strdup (mode_c); parent = g_strdup (parent_c); p_key = g_strdup (p_key_c); if (ask) do_questionnaire_infiniband (&mtu, &mac, &mode, &parent, &p_key); if (!check_and_convert_mtu (mtu, &mtu_int, error)) goto cleanup_ib; if (!check_mac (mac, ARPHRD_INFINIBAND, "mac", error)) goto cleanup_ib; if (!check_infiniband_mode (&mode, error)) goto cleanup_ib; if (p_key) { if (!check_infiniband_p_key (p_key, &p_key_int, error)) goto cleanup_ib; if (!check_infiniband_parent (parent, error)) goto cleanup_ib; } else if (parent) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'parent': not valid without 'p-key'.")); goto cleanup_ib; } /* Add 'infiniband' setting */ s_infiniband = (NMSettingInfiniband *) nm_setting_infiniband_new (); nm_connection_add_setting (connection, NM_SETTING (s_infiniband)); g_object_set (s_infiniband, NM_SETTING_INFINIBAND_TRANSPORT_MODE, mode ? mode : "datagram", NULL); if (mtu) g_object_set (s_infiniband, NM_SETTING_INFINIBAND_MTU, mtu_int, NULL); if (mac) g_object_set (s_infiniband, NM_SETTING_INFINIBAND_MAC_ADDRESS, mac, NULL); if (p_key) g_object_set (s_infiniband, NM_SETTING_INFINIBAND_P_KEY, p_key_int, NULL); if (parent) g_object_set (s_infiniband, NM_SETTING_INFINIBAND_PARENT, parent, NULL); success = TRUE; cleanup_ib: g_free (mtu); g_free (mac); g_free (mode); g_free (parent); g_free (p_key); if (!success) return FALSE; } else if (!strcmp (con_type, NM_SETTING_WIRELESS_SETTING_NAME)) { /* Build up the settings required for 'wifi' */ gboolean success = FALSE; char *ssid_ask = NULL; const char *ssid = NULL; GBytes *ssid_bytes; const char *mtu_c = NULL; char *mtu = NULL; guint32 mtu_int = 0; const char *mac_c = NULL; char *mac = NULL; const char *cloned_mac_c = NULL; char *cloned_mac = NULL; const char *mode_c = NULL; char *mode = NULL; nmc_arg_t exp_args[] = { {"ssid", TRUE, &ssid, !ask}, {"mtu", TRUE, &mtu_c, FALSE}, {"mac", TRUE, &mac_c, FALSE}, {"cloned-mac", TRUE, &cloned_mac_c, FALSE}, {"mode", TRUE, &mode_c, FALSE}, {NULL} }; if (!nmc_parse_args (exp_args, FALSE, &argc, &argv, error)) return FALSE; if (!ssid && ask) ssid = ssid_ask = nmc_readline (_("SSID: ")); if (!ssid) { g_set_error_literal (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'ssid' is required.")); return FALSE; } /* Also ask for all optional arguments if '--ask' is specified. */ mtu = g_strdup (mtu_c); mac = g_strdup (mac_c); cloned_mac = g_strdup (cloned_mac_c); mode = g_strdup (mode_c); if (ask) do_questionnaire_wifi (&mtu, &mac, &cloned_mac, &mode); if (!check_and_convert_mtu (mtu, &mtu_int, error)) goto cleanup_wifi; if (!check_mac (mac, ARPHRD_ETHER, "mac", error)) goto cleanup_wifi; if (!check_mac (cloned_mac, ARPHRD_ETHER, "cloned-mac", error)) goto cleanup_wifi; if (!check_wifi_mode (&mode, error)) goto cleanup_wifi; /* Add wifi setting */ s_wifi = (NMSettingWireless *) nm_setting_wireless_new (); nm_connection_add_setting (connection, NM_SETTING (s_wifi)); ssid_bytes = g_bytes_new (ssid, strlen (ssid)); g_object_set (s_wifi, NM_SETTING_WIRELESS_SSID, ssid_bytes, NULL); if (mtu) g_object_set (s_wifi, NM_SETTING_WIRELESS_MTU, mtu_int, NULL); if (mac) g_object_set (s_wifi, NM_SETTING_WIRELESS_MAC_ADDRESS, mac, NULL); if (cloned_mac) g_object_set (s_wifi, NM_SETTING_WIRELESS_CLONED_MAC_ADDRESS, cloned_mac, NULL); if (mode) g_object_set (s_wifi, NM_SETTING_WIRELESS_MODE, mode, NULL); g_bytes_unref (ssid_bytes); success = TRUE; cleanup_wifi: g_free (ssid_ask); g_free (mtu); g_free (mac); g_free (cloned_mac); g_free (mode); if (!success) return FALSE; } else if (!strcmp (con_type, NM_SETTING_WIMAX_SETTING_NAME)) { /* Build up the settings required for 'wimax' */ gboolean success = FALSE; const char *nsp_name = NULL; char *nsp_name_ask = NULL; const char *mac_c = NULL; char *mac = NULL; nmc_arg_t exp_args[] = { {"nsp", TRUE, &nsp_name, !ask}, {"mac", TRUE, &mac_c, FALSE}, {NULL} }; if (!nmc_parse_args (exp_args, FALSE, &argc, &argv, error)) return FALSE; if (!nsp_name && ask) nsp_name = nsp_name_ask = nmc_readline (_("WiMAX NSP name: ")); if (!nsp_name) { g_set_error_literal (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'nsp' is required.")); goto cleanup_wimax; } /* Also ask for all optional arguments if '--ask' is specified. */ mac = g_strdup (mac_c); if (ask) do_questionnaire_wimax (&mac); if (!check_mac (mac, ARPHRD_ETHER, "mac", error)) goto cleanup_wimax; /* Add 'wimax' setting */ s_wimax = (NMSettingWimax *) nm_setting_wimax_new (); nm_connection_add_setting (connection, NM_SETTING (s_wimax)); g_object_set (s_wimax, NM_SETTING_WIMAX_NETWORK_NAME, nsp_name, NULL); if (mac) g_object_set (s_wimax, NM_SETTING_WIMAX_MAC_ADDRESS, mac, NULL); success = TRUE; cleanup_wimax: g_free (nsp_name_ask); g_free (mac); if (!success) return FALSE; } else if (!strcmp (con_type, NM_SETTING_PPPOE_SETTING_NAME)) { /* Build up the settings required for 'pppoe' */ gboolean success = FALSE; const char *username = NULL; char *username_ask = NULL; const char *password_c = NULL; char *password = NULL; const char *service_c = NULL; char *service = NULL; const char *mtu_c = NULL; char *mtu = NULL; guint32 mtu_int = 0; const char *mac_c = NULL; char *mac = NULL; nmc_arg_t exp_args[] = { {"username", TRUE, &username, !ask}, {"password", TRUE, &password_c, FALSE}, {"service", TRUE, &service_c, FALSE}, {"mtu", TRUE, &mtu_c, FALSE}, {"mac", TRUE, &mac_c, FALSE}, {NULL} }; if (!nmc_parse_args (exp_args, FALSE, &argc, &argv, error)) return FALSE; if (!username && ask) username = username_ask = nmc_readline (_("PPPoE username: ")); if (!username) { g_set_error_literal (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'username' is required.")); goto cleanup_pppoe; } /* Also ask for all optional arguments if '--ask' is specified. */ password = g_strdup (password_c); service = g_strdup (service_c); mtu = g_strdup (mtu_c); mac = g_strdup (mac_c); if (ask) do_questionnaire_pppoe (show_secrets, &password, &service, &mtu, &mac); if (!check_and_convert_mtu (mtu, &mtu_int, error)) goto cleanup_pppoe; if (!check_mac (mac, ARPHRD_ETHER, "mac", error)) goto cleanup_pppoe; /* Add 'pppoe' setting */ s_pppoe = (NMSettingPppoe *) nm_setting_pppoe_new (); nm_connection_add_setting (connection, NM_SETTING (s_pppoe)); g_object_set (s_pppoe, NM_SETTING_PPPOE_USERNAME, username, NULL); g_object_set (s_pppoe, NM_SETTING_PPPOE_PASSWORD, password, NULL); g_object_set (s_pppoe, NM_SETTING_PPPOE_SERVICE, service, NULL); /* Add ethernet setting */ s_wired = (NMSettingWired *) nm_setting_wired_new (); nm_connection_add_setting (connection, NM_SETTING (s_wired)); if (mtu) g_object_set (s_wired, NM_SETTING_WIRED_MTU, mtu_int, NULL); if (mac) g_object_set (s_wired, NM_SETTING_WIRED_MAC_ADDRESS, mac, NULL); success = TRUE; cleanup_pppoe: g_free (username_ask); g_free (password); g_free (service); g_free (mtu); g_free (mac); if (!success) return FALSE; } else if ( !strcmp (con_type, NM_SETTING_GSM_SETTING_NAME) || !strcmp (con_type, NM_SETTING_CDMA_SETTING_NAME)) { /* Build up the settings required for 'gsm' or 'cdma' mobile broadband */ gboolean success = FALSE; const char *apn = NULL; char *apn_ask = NULL; const char *user_c = NULL; char *user = NULL; const char *password_c = NULL; char *password = NULL; gboolean is_gsm; int i = 0; nmc_arg_t gsm_args[] = { {NULL}, {NULL}, {NULL}, /* placeholders */ {NULL} }; is_gsm = !strcmp (con_type, NM_SETTING_GSM_SETTING_NAME); if (is_gsm) gsm_args[i++] = (nmc_arg_t) {"apn", TRUE, &apn, !ask}; gsm_args[i++] = (nmc_arg_t) {"user", TRUE, &user_c, FALSE}; gsm_args[i++] = (nmc_arg_t) {"password", TRUE, &password_c, FALSE}; gsm_args[i++] = (nmc_arg_t) {NULL}; if (!nmc_parse_args (gsm_args, FALSE, &argc, &argv, error)) return FALSE; if (!apn && ask && is_gsm) apn = apn_ask = nmc_readline (_("APN: ")); if (!apn && is_gsm) { g_set_error_literal (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'apn' is required.")); goto cleanup_mobile; } /* Also ask for all optional arguments if '--ask' is specified. */ user = g_strdup (user_c); password = g_strdup (password_c); if (ask) do_questionnaire_mobile (show_secrets, &user, &password); if (is_gsm) { g_object_set (s_con, NM_SETTING_CONNECTION_TYPE, NM_SETTING_GSM_SETTING_NAME, NULL); /* Add 'gsm' setting */ s_gsm = (NMSettingGsm *) nm_setting_gsm_new (); nm_connection_add_setting (connection, NM_SETTING (s_gsm)); g_object_set (s_gsm, NM_SETTING_GSM_NUMBER, "*99#", NM_SETTING_GSM_APN, apn, NM_SETTING_GSM_USERNAME, user, NM_SETTING_GSM_PASSWORD, password, NULL); g_free (apn_ask); } else { g_object_set (s_con, NM_SETTING_CONNECTION_TYPE, NM_SETTING_CDMA_SETTING_NAME, NULL); /* Add 'cdma' setting */ s_cdma = (NMSettingCdma *) nm_setting_cdma_new (); nm_connection_add_setting (connection, NM_SETTING (s_cdma)); g_object_set (s_cdma, NM_SETTING_CDMA_NUMBER, "#777", NM_SETTING_CDMA_USERNAME, user, NM_SETTING_CDMA_PASSWORD, password, NULL); } success = TRUE; cleanup_mobile: g_free (user); g_free (password); if (!success) return FALSE; } else if (!strcmp (con_type, NM_SETTING_BLUETOOTH_SETTING_NAME)) { /* Build up the settings required for 'bluetooth' */ gboolean success = FALSE; const char *addr = NULL; char *addr_ask = NULL; const char *bt_type_c = NULL; char *bt_type = NULL; nmc_arg_t exp_args[] = { {"addr", TRUE, &addr, !ask}, {"bt-type", TRUE, &bt_type_c, FALSE}, {NULL} }; if (!nmc_parse_args (exp_args, FALSE, &argc, &argv, error)) return FALSE; if (!addr && ask) addr = addr_ask = nmc_readline (_("Bluetooth device address: ")); if (!addr) { g_set_error_literal (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'addr' is required.")); return FALSE; } if (!check_mac (addr, ARPHRD_ETHER, "addr", error)) goto cleanup_bt; /* Also ask for all optional arguments if '--ask' is specified. */ bt_type = g_strdup (bt_type_c); if (ask) do_questionnaire_bluetooth (&bt_type); /* Default to 'panu' if bt-type is not provided. */ if (!bt_type) bt_type = g_strdup (NM_SETTING_BLUETOOTH_TYPE_PANU); /* Add 'bluetooth' setting */ s_bt = (NMSettingBluetooth *) nm_setting_bluetooth_new (); nm_connection_add_setting (connection, NM_SETTING (s_bt)); if (addr) g_object_set (s_bt, NM_SETTING_BLUETOOTH_BDADDR, addr, NULL); /* 'dun' type requires adding 'gsm' or 'cdma' setting */ if ( !strcmp (bt_type, NM_SETTING_BLUETOOTH_TYPE_DUN) || !strcmp (bt_type, NM_SETTING_BLUETOOTH_TYPE_DUN"-gsm")) { bt_type = g_strdup (NM_SETTING_BLUETOOTH_TYPE_DUN); s_gsm = (NMSettingGsm *) nm_setting_gsm_new (); nm_connection_add_setting (connection, NM_SETTING (s_gsm)); g_object_set (s_gsm, NM_SETTING_GSM_NUMBER, "*99#", NULL); // g_object_set (s_gsm, NM_SETTING_GSM_APN, "FIXME", NULL; } else if (!strcmp (bt_type, NM_SETTING_BLUETOOTH_TYPE_DUN"-cdma")) { bt_type = g_strdup (NM_SETTING_BLUETOOTH_TYPE_DUN); s_cdma = (NMSettingCdma *) nm_setting_cdma_new (); nm_connection_add_setting (connection, NM_SETTING (s_cdma)); g_object_set (s_cdma, NM_SETTING_CDMA_NUMBER, "#777", NULL); } else if (!strcmp (bt_type, NM_SETTING_BLUETOOTH_TYPE_PANU)) { /* no op */ } else { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'bt-type': '%s' not valid; use [%s, %s (%s), %s]."), bt_type, NM_SETTING_BLUETOOTH_TYPE_PANU, NM_SETTING_BLUETOOTH_TYPE_DUN, NM_SETTING_BLUETOOTH_TYPE_DUN"-gsm", NM_SETTING_BLUETOOTH_TYPE_DUN"-cdma"); goto cleanup_bt; } g_object_set (s_bt, NM_SETTING_BLUETOOTH_TYPE, bt_type, NULL); success = TRUE; cleanup_bt: g_free (addr_ask); g_free (bt_type); if (!success) return FALSE; } else if (!strcmp (con_type, NM_SETTING_VLAN_SETTING_NAME)) { /* Build up the settings required for 'vlan' */ gboolean success = FALSE; const char *parent = NULL; char *parent_ask = NULL; const char *vlan_id = NULL; char *vlan_id_ask = NULL; unsigned long id = 0; const char *flags_c = NULL; char *flags = NULL; guint32 flags_int = 0; const char *ingress_c = NULL, *egress_c = NULL; char *ingress = NULL, *egress = NULL; char **ingress_arr = NULL, **egress_arr = NULL, **p; const char *mtu_c = NULL; char *mtu = NULL; guint32 mtu_int; gboolean valid_mac = FALSE; nmc_arg_t exp_args[] = { {"dev", TRUE, &parent, !ask}, {"id", TRUE, &vlan_id, !ask}, {"flags", TRUE, &flags_c, FALSE}, {"ingress", TRUE, &ingress_c, FALSE}, {"egress", TRUE, &egress_c, FALSE}, {"mtu", TRUE, &mtu_c, FALSE}, {NULL} }; if (!nmc_parse_args (exp_args, FALSE, &argc, &argv, error)) return FALSE; if (!parent && ask) parent = parent_ask = nmc_readline (_("VLAN parent device or connection UUID: ")); if (!parent) { g_set_error_literal (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'dev' is required.")); return FALSE; } if (!vlan_id && ask) vlan_id = vlan_id_ask = nmc_readline (_("VLAN ID <0-4094>: ")); if (!vlan_id) { g_set_error_literal (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'id' is required.")); goto cleanup_vlan; } if (vlan_id) { if (!nmc_string_to_uint (vlan_id, TRUE, 0, 4094, &id)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'id': '%s' is not valid; use <0-4094>."), vlan_id); goto cleanup_vlan; } } if ( !(valid_mac = nm_utils_hwaddr_valid (parent, ETH_ALEN)) && !nm_utils_is_uuid (parent) && !nm_utils_iface_valid_name (parent)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'dev': '%s' is neither UUID, interface name, nor MAC."), parent); goto cleanup_vlan; } /* Also ask for all optional arguments if '--ask' is specified. */ mtu = g_strdup (mtu_c); flags = g_strdup (flags_c); ingress = g_strdup (ingress_c); egress = g_strdup (egress_c); if (ask) do_questionnaire_vlan (&mtu, &flags, &ingress, &egress); if (!check_and_convert_mtu (mtu, &mtu_int, error)) goto cleanup_vlan; if (!check_and_convert_vlan_flags (flags, &flags_int, error)) goto cleanup_vlan; if (!check_and_convert_vlan_prio_maps (ingress, NM_VLAN_INGRESS_MAP, &ingress_arr, error)) goto cleanup_vlan; if (!check_and_convert_vlan_prio_maps (egress, NM_VLAN_EGRESS_MAP, &egress_arr, error)) goto cleanup_vlan; /* Add 'vlan' setting */ s_vlan = (NMSettingVlan *) nm_setting_vlan_new (); nm_connection_add_setting (connection, NM_SETTING (s_vlan)); /* Add 'wired' setting if necessary */ if (mtu || valid_mac) { s_wired = (NMSettingWired *) nm_setting_wired_new (); nm_connection_add_setting (connection, NM_SETTING (s_wired)); if (mtu) g_object_set (s_wired, NM_SETTING_WIRED_MTU, mtu_int, NULL); if (valid_mac) g_object_set (s_wired, NM_SETTING_WIRED_MAC_ADDRESS, parent, NULL); } /* Set 'vlan' properties */ if (!valid_mac) g_object_set (s_vlan, NM_SETTING_VLAN_PARENT, parent, NULL); g_object_set (s_vlan, NM_SETTING_VLAN_ID, id, NULL); if (flags) g_object_set (s_vlan, NM_SETTING_VLAN_FLAGS, flags_int, NULL); for (p = ingress_arr; p && *p; p++) nm_setting_vlan_add_priority_str (s_vlan, NM_VLAN_INGRESS_MAP, *p); for (p = egress_arr; p && *p; p++) nm_setting_vlan_add_priority_str (s_vlan, NM_VLAN_EGRESS_MAP, *p); success = TRUE; cleanup_vlan: g_free (mtu); g_free (flags); g_free (ingress); g_free (egress); g_free (parent_ask); g_free (vlan_id_ask); g_strfreev (ingress_arr); g_strfreev (egress_arr); if (!success) return FALSE; } else if (!strcmp (con_type, NM_SETTING_BOND_SETTING_NAME)) { /* Build up the settings required for 'bond' */ gboolean success = FALSE; const char *ifname = NULL; const char *bond_mode_c = NULL; char *bond_mode = NULL; const char *bond_primary_c = NULL; char *bond_primary = NULL; const char *bond_miimon_c = NULL; char *bond_miimon = NULL; const char *bond_downdelay_c = NULL; char *bond_downdelay = NULL; const char *bond_updelay_c = NULL; char *bond_updelay = NULL; const char *bond_arpinterval_c = NULL; char *bond_arpinterval = NULL; const char *bond_arpiptarget_c = NULL; char *bond_arpiptarget = NULL; const char *bond_lacp_rate_c = NULL; char *bond_lacp_rate = NULL; nmc_arg_t exp_args[] = { {"mode", TRUE, &bond_mode_c, FALSE}, {"primary", TRUE, &bond_primary_c, FALSE}, {"miimon", TRUE, &bond_miimon_c, FALSE}, {"downdelay", TRUE, &bond_downdelay_c, FALSE}, {"updelay", TRUE, &bond_updelay_c, FALSE}, {"arp-interval", TRUE, &bond_arpinterval_c, FALSE}, {"arp-ip-target", TRUE, &bond_arpiptarget_c, FALSE}, {"lacp-rate", TRUE, &bond_lacp_rate_c, FALSE}, {NULL} }; if (!nmc_parse_args (exp_args, FALSE, &argc, &argv, error)) return FALSE; /* Also ask for all optional arguments if '--ask' is specified. */ bond_mode = g_strdup (bond_mode_c); bond_primary = g_strdup (bond_primary_c); bond_miimon = g_strdup (bond_miimon_c); bond_downdelay = g_strdup (bond_downdelay_c); bond_updelay = g_strdup (bond_updelay_c); bond_arpinterval = g_strdup (bond_arpinterval_c); bond_arpiptarget = g_strdup (bond_arpiptarget_c); bond_lacp_rate = g_strdup (bond_lacp_rate_c); if (ask) do_questionnaire_bond (&bond_mode, &bond_primary, &bond_miimon, &bond_downdelay, &bond_updelay, &bond_arpinterval, &bond_arpiptarget, &bond_lacp_rate); /* Generate ifname if connection doesn't have one */ ifname = nm_setting_connection_get_interface_name (s_con); if (!ifname) { char *bond_ifname = unique_master_iface_ifname (all_connections, "nm-bond"); g_object_set (s_con, NM_SETTING_CONNECTION_INTERFACE_NAME, bond_ifname, NULL); g_free (bond_ifname); } /* Add 'bond' setting */ s_bond = (NMSettingBond *) nm_setting_bond_new (); nm_connection_add_setting (connection, NM_SETTING (s_bond)); /* Set bond options */ if (bond_mode) { GError *err = NULL; const char *bm; if (!(bm = nmc_bond_validate_mode (bond_mode, &err))) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'mode': %s."), err->message); g_clear_error (&err); goto cleanup_bond; } nm_setting_bond_add_option (s_bond, NM_SETTING_BOND_OPTION_MODE, bm); } if (bond_primary) { if (!nm_utils_iface_valid_name (bond_primary)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'primary': '%s' is not a valid interface name."), bond_primary); goto cleanup_bond; } nm_setting_bond_add_option (s_bond, NM_SETTING_BOND_OPTION_PRIMARY, bond_primary); } if (bond_miimon) nm_setting_bond_add_option (s_bond, NM_SETTING_BOND_OPTION_MIIMON, bond_miimon); if (bond_downdelay && strcmp (bond_downdelay, "0") != 0) nm_setting_bond_add_option (s_bond, NM_SETTING_BOND_OPTION_DOWNDELAY, bond_downdelay); if (bond_updelay && strcmp (bond_updelay, "0") != 0) nm_setting_bond_add_option (s_bond, NM_SETTING_BOND_OPTION_UPDELAY, bond_updelay); if (bond_arpinterval && strcmp (bond_arpinterval, "0") != 0) nm_setting_bond_add_option (s_bond, NM_SETTING_BOND_OPTION_ARP_INTERVAL, bond_arpinterval); if (bond_arpiptarget) nm_setting_bond_add_option (s_bond, NM_SETTING_BOND_OPTION_ARP_IP_TARGET, bond_arpiptarget); if (bond_lacp_rate) nm_setting_bond_add_option (s_bond, NM_SETTING_BOND_OPTION_LACP_RATE, bond_lacp_rate); success = TRUE; cleanup_bond: g_free (bond_mode); g_free (bond_primary); g_free (bond_miimon); g_free (bond_downdelay); g_free (bond_updelay); g_free (bond_arpinterval); g_free (bond_arpiptarget); g_free (bond_lacp_rate); if (!success) return FALSE; } else if (!strcmp (con_type, "bond-slave")) { /* Slave types without any specific settings ('bond-slave') */ const char *master = NULL; const char *type = NULL; nmc_arg_t exp_args[] = { {"master", TRUE, &master, FALSE}, {"type", TRUE, &type, FALSE}, {NULL} }; /* Set global variables for use in TAB completion */ nmc_tab_completion.con_type = NM_SETTING_BOND_SETTING_NAME; if (!nmc_parse_args (exp_args, FALSE, &argc, &argv, error)) return FALSE; if (!complete_slave (s_con, all_connections, NM_SETTING_BOND_SETTING_NAME, master, type, ask, error)) return FALSE; /* Change properties in 'connection' setting */ g_object_set (s_con, NM_SETTING_CONNECTION_TYPE, NM_SETTING_WIRED_SETTING_NAME, NULL); /* Add ethernet setting */ s_wired = (NMSettingWired *) nm_setting_wired_new (); nm_connection_add_setting (connection, NM_SETTING (s_wired)); } else if (!strcmp (con_type, NM_SETTING_TEAM_SETTING_NAME)) { /* Build up the settings required for 'team' */ gboolean success = FALSE; const char *ifname = NULL; const char *config_c = NULL; char *config = NULL; char *json = NULL; nmc_arg_t exp_args[] = { {"config", TRUE, &config_c, FALSE}, {NULL} }; if (!nmc_parse_args (exp_args, FALSE, &argc, &argv, error)) return FALSE; /* Also ask for all optional arguments if '--ask' is specified. */ config = g_strdup (config_c); if (ask) do_questionnaire_team (&config); /* Generate ifname if conneciton doesn't have one */ ifname = nm_setting_connection_get_interface_name (s_con); if (!ifname) { char *team_ifname = unique_master_iface_ifname (all_connections, "nm-team"); g_object_set (s_con, NM_SETTING_CONNECTION_INTERFACE_NAME, team_ifname, NULL); g_free (team_ifname); } /* Add 'team' setting */ s_team = (NMSettingTeam *) nm_setting_team_new (); nm_connection_add_setting (connection, NM_SETTING (s_team)); if (!nmc_team_check_config (config, &json, error)) { g_prefix_error (error, _("Error: ")); goto cleanup_team; } /* Set team options */ g_object_set (s_team, NM_SETTING_TEAM_CONFIG, json, NULL); success = TRUE; cleanup_team: g_free (config); g_free (json); if (!success) return FALSE; } else if (!strcmp (con_type, "team-slave")) { /* Build up the settings required for 'team-slave' */ gboolean success = FALSE; const char *master = NULL; char *master_ask = NULL; const char *type = NULL; const char *config_c = NULL; char *config = NULL; char *json = NULL; nmc_arg_t exp_args[] = { {"master", TRUE, &master, FALSE}, {"type", TRUE, &type, FALSE}, {"config", TRUE, &config_c, FALSE}, {NULL} }; /* Set global variables for use in TAB completion */ nmc_tab_completion.con_type = NM_SETTING_TEAM_SETTING_NAME; if (!nmc_parse_args (exp_args, FALSE, &argc, &argv, error)) return FALSE; if (!complete_slave (s_con, all_connections, NM_SETTING_TEAM_SETTING_NAME, master, type, ask, error)) return FALSE; /* Also ask for all optional arguments if '--ask' is specified. */ config = g_strdup (config_c); if (ask) do_questionnaire_team_slave (&config); /* Add 'team-port' setting */ s_team_port = (NMSettingTeamPort *) nm_setting_team_port_new (); nm_connection_add_setting (connection, NM_SETTING (s_team_port)); if (!nmc_team_check_config (config, &json, error)) { g_prefix_error (error, _("Error: ")); goto cleanup_team_slave; } /* Set team-port options */ g_object_set (s_team_port, NM_SETTING_TEAM_PORT_CONFIG, json, NULL); success = TRUE; cleanup_team_slave: g_free (master_ask); g_free (config); g_free (json); if (!success) return FALSE; /* Change properties in 'connection' setting */ g_object_set (s_con, NM_SETTING_CONNECTION_TYPE, NM_SETTING_WIRED_SETTING_NAME, NULL); /* Add ethernet setting */ s_wired = (NMSettingWired *) nm_setting_wired_new (); nm_connection_add_setting (connection, NM_SETTING (s_wired)); } else if (!strcmp (con_type, NM_SETTING_BRIDGE_SETTING_NAME)) { /* Build up the settings required for 'bridge' */ gboolean success = FALSE; const char *ifname = NULL; const char *stp_c = NULL; char *stp = NULL; const char *priority_c = NULL; char *priority = NULL; const char *fwd_delay_c = NULL; char *fwd_delay = NULL; const char *hello_time_c = NULL; char *hello_time = NULL; const char *max_age_c = NULL; char *max_age = NULL; const char *ageing_time_c = NULL; char *ageing_time = NULL; const char *mcast_snoop_c = NULL; char *mcast_snoop = NULL; gboolean stp_bool, mcast_snoop_bool; unsigned long stp_prio_int, fwd_delay_int, hello_time_int, max_age_int, ageing_time_int; const char *mac_c = NULL; char *mac = NULL; nmc_arg_t exp_args[] = { {"stp", TRUE, &stp_c, FALSE}, {"priority", TRUE, &priority_c, FALSE}, {"forward-delay", TRUE, &fwd_delay_c, FALSE}, {"hello-time", TRUE, &hello_time_c, FALSE}, {"max-age", TRUE, &max_age_c, FALSE}, {"ageing-time", TRUE, &ageing_time_c, FALSE}, {"multicast-snooping", TRUE, &mcast_snoop_c, FALSE}, {"mac", TRUE, &mac_c, FALSE}, {NULL} }; if (!nmc_parse_args (exp_args, FALSE, &argc, &argv, error)) return FALSE; /* Also ask for all optional arguments if '--ask' is specified. */ stp = g_strdup (stp_c); priority = g_strdup (priority_c); fwd_delay = g_strdup (fwd_delay_c); hello_time = g_strdup (hello_time_c); max_age = g_strdup (max_age_c); ageing_time = g_strdup (ageing_time_c); mcast_snoop = g_strdup (mcast_snoop_c); mac = g_strdup (mac_c); if (ask) do_questionnaire_bridge (&stp, &priority, &fwd_delay, &hello_time, &max_age, &ageing_time, &mcast_snoop, &mac); /* Generate ifname if conneciton doesn't have one */ ifname = nm_setting_connection_get_interface_name (s_con); if (!ifname) { char *bridge_ifname = unique_master_iface_ifname (all_connections, "nm-bridge"); g_object_set (s_con, NM_SETTING_CONNECTION_INTERFACE_NAME, bridge_ifname, NULL); g_free (bridge_ifname); } if (stp) { GError *tmp_err = NULL; if (!nmc_string_to_bool (stp, &stp_bool, &tmp_err)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'stp': %s."), tmp_err->message); g_clear_error (&tmp_err); goto cleanup_bridge; } } if (mcast_snoop) { GError *tmp_err = NULL; if (!nmc_string_to_bool (mcast_snoop, &mcast_snoop_bool, &tmp_err)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'multicast-snooping': %s."), tmp_err->message); g_clear_error (&tmp_err); goto cleanup_bridge; } } /* Add 'bond' setting */ /* Must be done *before* bridge_prop_string_to_uint() so that the type is known */ s_bridge = (NMSettingBridge *) nm_setting_bridge_new (); nm_connection_add_setting (connection, NM_SETTING (s_bridge)); if (priority) if (!bridge_prop_string_to_uint (priority, "priority", NM_TYPE_SETTING_BRIDGE, NM_SETTING_BRIDGE_PRIORITY, &stp_prio_int, error)) goto cleanup_bridge; if (fwd_delay) if (!bridge_prop_string_to_uint (fwd_delay, "forward-delay", NM_TYPE_SETTING_BRIDGE, NM_SETTING_BRIDGE_FORWARD_DELAY, &fwd_delay_int, error)) goto cleanup_bridge; if (hello_time) if (!bridge_prop_string_to_uint (hello_time, "hello-time", NM_TYPE_SETTING_BRIDGE, NM_SETTING_BRIDGE_HELLO_TIME, &hello_time_int, error)) goto cleanup_bridge; if (max_age) if (!bridge_prop_string_to_uint (max_age, "max-age", NM_TYPE_SETTING_BRIDGE, NM_SETTING_BRIDGE_MAX_AGE, &max_age_int, error)) goto cleanup_bridge; if (ageing_time) if (!bridge_prop_string_to_uint (ageing_time, "ageing-time", NM_TYPE_SETTING_BRIDGE, NM_SETTING_BRIDGE_AGEING_TIME, &ageing_time_int, error)) goto cleanup_bridge; if (!check_mac (mac, ARPHRD_ETHER, "mac", error)) goto cleanup_bridge; /* Set bridge options */ if (stp) g_object_set (s_bridge, NM_SETTING_BRIDGE_STP, stp_bool, NULL); if (priority) g_object_set (s_bridge, NM_SETTING_BRIDGE_PRIORITY, stp_prio_int, NULL); if (fwd_delay) g_object_set (s_bridge, NM_SETTING_BRIDGE_FORWARD_DELAY, fwd_delay_int, NULL); if (hello_time) g_object_set (s_bridge, NM_SETTING_BRIDGE_HELLO_TIME, hello_time_int, NULL); if (max_age) g_object_set (s_bridge, NM_SETTING_BRIDGE_MAX_AGE, max_age_int, NULL); if (ageing_time) g_object_set (s_bridge, NM_SETTING_BRIDGE_AGEING_TIME, ageing_time_int, NULL); if (mcast_snoop) g_object_set (s_bridge, NM_SETTING_BRIDGE_MULTICAST_SNOOPING, mcast_snoop_bool, NULL); if (mac) g_object_set (s_bridge, NM_SETTING_BRIDGE_MAC_ADDRESS, mac, NULL); success = TRUE; cleanup_bridge: g_free (stp); g_free (priority); g_free (fwd_delay); g_free (hello_time); g_free (max_age); g_free (ageing_time); g_free (mcast_snoop); g_free (mac); if (!success) return FALSE; } else if (!strcmp (con_type, "bridge-slave")) { /* Build up the settings required for 'bridge-slave' */ gboolean success = FALSE; const char *master = NULL; char *master_ask = NULL; const char *type = NULL; const char *priority_c = NULL; char *priority = NULL; const char *path_cost_c = NULL; char *path_cost = NULL; const char *hairpin_c = NULL; char *hairpin = NULL; unsigned long prio_int, path_cost_int; gboolean hairpin_bool; nmc_arg_t exp_args[] = { {"master", TRUE, &master, FALSE}, {"type", TRUE, &type, FALSE}, {"priority", TRUE, &priority_c, FALSE}, {"path-cost", TRUE, &path_cost_c, FALSE}, {"hairpin", TRUE, &hairpin_c, FALSE}, {NULL} }; /* Set global variables for use in TAB completion */ nmc_tab_completion.con_type = NM_SETTING_BRIDGE_SETTING_NAME; if (!nmc_parse_args (exp_args, FALSE, &argc, &argv, error)) return FALSE; if (!complete_slave (s_con, all_connections, NM_SETTING_BRIDGE_SETTING_NAME, master, type, ask, error)) return FALSE; /* Add 'bridge-port' setting */ /* Must be done *before* bridge_prop_string_to_uint() so that the type is known */ s_bridge_port = (NMSettingBridgePort *) nm_setting_bridge_port_new (); nm_connection_add_setting (connection, NM_SETTING (s_bridge_port)); /* Also ask for all optional arguments if '--ask' is specified. */ priority = g_strdup (priority_c); path_cost = g_strdup (path_cost_c); hairpin = g_strdup (hairpin_c); if (ask) do_questionnaire_bridge_slave (&priority, &path_cost, &hairpin); if (priority) if (!bridge_prop_string_to_uint (priority, "priority", NM_TYPE_SETTING_BRIDGE_PORT, NM_SETTING_BRIDGE_PORT_PRIORITY, &prio_int, error)) goto cleanup_bridge_slave; if (path_cost) if (!bridge_prop_string_to_uint (path_cost, "path-cost", NM_TYPE_SETTING_BRIDGE_PORT, NM_SETTING_BRIDGE_PORT_PATH_COST, &path_cost_int, error)) goto cleanup_bridge_slave; if (hairpin) { GError *tmp_err = NULL; if (!nmc_string_to_bool (hairpin, &hairpin_bool, &tmp_err)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'hairpin': %s."), tmp_err->message); g_clear_error (&tmp_err); goto cleanup_bridge_slave; } } if (priority) g_object_set (s_bridge_port, NM_SETTING_BRIDGE_PORT_PRIORITY, prio_int, NULL); if (path_cost) g_object_set (s_bridge_port, NM_SETTING_BRIDGE_PORT_PATH_COST, path_cost_int, NULL); if (hairpin) g_object_set (s_bridge_port, NM_SETTING_BRIDGE_PORT_HAIRPIN_MODE, hairpin_bool, NULL); success = TRUE; cleanup_bridge_slave: g_free (master_ask); g_free (priority); g_free (path_cost); g_free (hairpin); if (!success) return FALSE; /* Change properties in 'connection' setting */ g_object_set (s_con, NM_SETTING_CONNECTION_TYPE, NM_SETTING_WIRED_SETTING_NAME, NULL); /* Add ethernet setting */ s_wired = (NMSettingWired *) nm_setting_wired_new (); nm_connection_add_setting (connection, NM_SETTING (s_wired)); } else if (!strcmp (con_type, NM_SETTING_VPN_SETTING_NAME)) { /* Build up the settings required for 'vpn' */ gboolean success = FALSE; const char *vpn_type = NULL; char *vpn_type_ask = NULL; const char *user_c = NULL; char *user = NULL; const char *st; gs_free char *service_type_free = NULL; const char *service_type = NULL; nmc_arg_t exp_args[] = { {"vpn-type", TRUE, &vpn_type, !ask}, {"user", TRUE, &user_c, FALSE}, {NULL} }; gs_free const char **plugin_names = NULL; if (!nmc_parse_args (exp_args, FALSE, &argc, &argv, error)) return FALSE; if (!vpn_type && ask) vpn_type = vpn_type_ask = nmc_readline (PROMPT_VPN_TYPE); if (!vpn_type) { g_set_error_literal (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'vpn-type' is required.")); goto cleanup_vpn; } if (vpn_type_ask) vpn_type = g_strstrip (vpn_type_ask); plugin_names = nm_vpn_get_plugin_names (FALSE); if (!(st = nmc_string_is_valid (vpn_type, plugin_names, NULL))) { g_print (_("Warning: 'vpn-type': %s not known.\n"), vpn_type); st = vpn_type; } service_type = nm_vpn_get_service_for_name (st); if (!service_type) service_type = service_type_free = nm_vpn_get_service_for_name_default (st); /* Also ask for all optional arguments if '--ask' is specified. */ user = g_strdup (user_c); if (ask) do_questionnaire_vpn (&user); /* Add 'vpn' setting */ s_vpn = (NMSettingVpn *) nm_setting_vpn_new (); nm_connection_add_setting (connection, NM_SETTING (s_vpn)); g_object_set (s_vpn, NM_SETTING_VPN_SERVICE_TYPE, service_type, NULL); g_object_set (s_vpn, NM_SETTING_VPN_USER_NAME, user, NULL); success = TRUE; cleanup_vpn: g_free (vpn_type_ask); g_free (user); if (!success) return FALSE; } else if (!strcmp (con_type, NM_SETTING_OLPC_MESH_SETTING_NAME)) { /* Build up the settings required for 'olpc' */ gboolean success = FALSE; char *ssid_ask = NULL; const char *ssid = NULL; GBytes *ssid_bytes; const char *channel_c = NULL; char *channel = NULL; unsigned long chan; const char *dhcp_anycast_c = NULL; char *dhcp_anycast = NULL; nmc_arg_t exp_args[] = { {"ssid", TRUE, &ssid, !ask}, {"channel", TRUE, &channel_c, FALSE}, {"dhcp-anycast", TRUE, &dhcp_anycast_c, FALSE}, {NULL} }; if (!nmc_parse_args (exp_args, FALSE, &argc, &argv, error)) return FALSE; if (!ssid && ask) ssid = ssid_ask = nmc_readline (_("SSID: ")); if (!ssid) { g_set_error_literal (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'ssid' is required.")); goto cleanup_olpc; } /* Also ask for all optional arguments if '--ask' is specified. */ channel = g_strdup (channel_c); dhcp_anycast = g_strdup (dhcp_anycast_c); if (ask) do_questionnaire_olpc (&channel, &dhcp_anycast); if (channel) { if (!nmc_string_to_uint (channel, TRUE, 1, 13, &chan)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'channel': '%s' is not valid; use <1-13>."), channel); goto cleanup_olpc; } } if (!check_mac (dhcp_anycast, ARPHRD_ETHER, "dhcp-anycast", error)) goto cleanup_olpc; /* Add OLPC mesh setting */ s_olpc_mesh = (NMSettingOlpcMesh *) nm_setting_olpc_mesh_new (); nm_connection_add_setting (connection, NM_SETTING (s_olpc_mesh)); ssid_bytes = g_bytes_new (ssid, strlen (ssid)); g_object_set (s_olpc_mesh, NM_SETTING_OLPC_MESH_SSID, ssid_bytes, NULL); if (channel) g_object_set (s_olpc_mesh, NM_SETTING_OLPC_MESH_CHANNEL, chan, NULL); else g_object_set (s_olpc_mesh, NM_SETTING_OLPC_MESH_CHANNEL, 1, NULL); if (dhcp_anycast) g_object_set (s_olpc_mesh, NM_SETTING_OLPC_MESH_DHCP_ANYCAST_ADDRESS, dhcp_anycast, NULL); g_bytes_unref (ssid_bytes); success = TRUE; cleanup_olpc: g_free (ssid_ask); g_free (channel); g_free (dhcp_anycast); if (!success) return FALSE; } else if (!strcmp (con_type, NM_SETTING_ADSL_SETTING_NAME)) { /* Build up the settings required for 'adsl' */ gboolean success = FALSE; char *username_ask = NULL; const char *username = NULL; char *protocol_ask = NULL, *protocol = NULL; const char *protocol_c = NULL; const char *password_c = NULL; char *password = NULL; const char *encapsulation_c = NULL; char *encapsulation = NULL; nmc_arg_t exp_args[] = { {"username", TRUE, &username, !ask}, {"protocol", TRUE, &protocol_c, !ask}, {"password", TRUE, &password_c, FALSE}, {"encapsulation", TRUE, &encapsulation_c, FALSE}, {NULL} }; if (!nmc_parse_args (exp_args, FALSE, &argc, &argv, error)) return FALSE; if (!username && ask) username = username_ask = nmc_readline (_("Username: ")); if (!username) { g_set_error_literal (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'username' is required.")); goto cleanup_adsl; } #define PROMPT_ADSL_PROTO "(" NM_SETTING_ADSL_PROTOCOL_PPPOA "/" NM_SETTING_ADSL_PROTOCOL_PPPOE "/" NM_SETTING_ADSL_PROTOCOL_IPOATM "): " if (!protocol_c && ask) protocol_c = protocol_ask = nmc_readline (_("Protocol %s"), PROMPT_ADSL_PROTO); if (!protocol_c) { g_set_error_literal (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'protocol' is required.")); goto cleanup_adsl; } protocol = g_strdup (protocol_c); if (!check_adsl_protocol (&protocol, error)) goto cleanup_adsl; /* Also ask for all optional arguments if '--ask' is specified. */ password = g_strdup (password_c); encapsulation = g_strdup (encapsulation_c); if (ask) do_questionnaire_adsl (show_secrets, &password, &encapsulation); if (!check_adsl_encapsulation (&encapsulation, error)) goto cleanup_adsl; /* Add ADSL setting */ s_adsl = (NMSettingAdsl *) nm_setting_adsl_new (); nm_connection_add_setting (connection, NM_SETTING (s_adsl)); g_object_set (s_adsl, NM_SETTING_ADSL_USERNAME, username, NM_SETTING_ADSL_PROTOCOL, protocol, NM_SETTING_ADSL_PASSWORD, password, NM_SETTING_ADSL_ENCAPSULATION, encapsulation, NULL); success = TRUE; cleanup_adsl: g_free (username_ask); g_free (password); g_free (protocol); g_free (protocol_ask); g_free (encapsulation); if (!success) return FALSE; } else if (!strcmp (con_type, NM_SETTING_MACVLAN_SETTING_NAME)) { /* Build up the settings required for 'macvlan' */ gboolean success = FALSE; const char *parent = NULL; char *parent_ask = NULL; const char *mode = NULL; char *mode_ask = NULL; const char *tap_c = NULL; char *tap = NULL; NMSettingMacvlanMode mode_enum; gboolean valid_mac = FALSE; gboolean tap_bool = FALSE; nmc_arg_t exp_args[] = { {"dev", TRUE, &parent, !ask}, {"mode", TRUE, &mode, !ask}, {"tap", TRUE, &tap_c, FALSE}, {NULL} }; if (!nmc_parse_args (exp_args, FALSE, &argc, &argv, error)) return FALSE; if (!parent && ask) parent = parent_ask = nmc_readline (_("MACVLAN parent device or connection UUID: ")); if (!parent) { g_set_error_literal (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'dev' is required.")); return FALSE; } if ( !(valid_mac = nm_utils_hwaddr_valid (parent, ETH_ALEN)) && !nm_utils_is_uuid (parent) && !nm_utils_iface_valid_name (parent)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'dev': '%s' is neither UUID, interface name, nor MAC."), parent); goto cleanup_macvlan; } if (!mode && ask) mode = mode_ask = nmc_readline (PROMPT_MACVLAN_MODE); if (!mode) { g_set_error_literal (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'mode' is required.")); return FALSE; } if (!nm_utils_enum_from_str (nm_setting_macvlan_mode_get_type(), mode, (int *) &mode_enum, NULL)) { g_set_error_literal (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'mode' is not valid.")); return FALSE; } /* Also ask for all optional arguments if '--ask' is specified. */ tap = g_strdup (tap_c); if (ask) do_questionnaire_macvlan (&tap); if (tap) { GError *tmp_err = NULL; if (!nmc_string_to_bool (tap, &tap_bool, &tmp_err)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'tap': %s."), tmp_err->message); g_clear_error (&tmp_err); goto cleanup_macvlan; } } /* Add 'macvlan' setting */ s_macvlan = (NMSettingMacvlan *) nm_setting_macvlan_new (); nm_connection_add_setting (connection, NM_SETTING (s_macvlan)); /* Add 'wired' setting if necessary */ if (valid_mac) { s_wired = (NMSettingWired *) nm_setting_wired_new (); nm_connection_add_setting (connection, NM_SETTING (s_wired)); g_object_set (s_wired, NM_SETTING_WIRED_MAC_ADDRESS, parent, NULL); } /* Set 'macvlan' properties */ if (!valid_mac) g_object_set (s_macvlan, NM_SETTING_MACVLAN_PARENT, parent, NULL); g_object_set (s_macvlan, NM_SETTING_MACVLAN_MODE, mode_enum, NULL); g_object_set (s_macvlan, NM_SETTING_MACVLAN_TAP, tap_bool, NULL); success = TRUE; cleanup_macvlan: g_free (parent_ask); g_free (mode_ask); g_free (tap); if (!success) return FALSE; } else if (!strcmp (con_type, NM_SETTING_TUN_SETTING_NAME)) { /* Build up the settings required for 'tun' */ gboolean success = FALSE; const char *mode_c = NULL; char *mode_ask = NULL, *mode = NULL; NMSettingTunMode mode_enum; const char *owner_c = NULL, *group_c = NULL; char *owner = NULL, *group = NULL; const char *pi_c = NULL, *vnet_hdr_c = NULL, *multi_queue_c = NULL; char *pi = NULL, *vnet_hdr = NULL, *multi_queue = NULL; gboolean pi_bool, vnet_hdr_bool, multi_queue_bool; nmc_arg_t exp_args[] = { {"mode", TRUE, &mode_c, !ask}, {"owner", TRUE, &owner_c, FALSE}, {"group", TRUE, &group_c, FALSE}, {"pi", TRUE, &pi_c, FALSE}, {"vnet-hdr", TRUE, &vnet_hdr_c, FALSE}, {"multi-queue", TRUE, &multi_queue_c, FALSE}, {NULL} }; if (!nmc_parse_args (exp_args, FALSE, &argc, &argv, error)) return FALSE; if (!mode_c && ask) { mode_ask = nmc_readline (_("Mode %s"), PROMPT_TUN_MODE); mode_ask = mode_ask ? mode_ask : g_strdup ("tun"); mode_c = mode_ask; } if (!mode_c) { g_set_error_literal (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'mode' is required.")); goto cleanup_tun; } mode = g_strdup (mode_c); if (!check_tun_mode (&mode, error)) goto cleanup_tun; if (owner && !check_user_group_id (owner, error)) goto cleanup_tun; if (group && !check_user_group_id (group, error)) goto cleanup_tun; owner = g_strdup (owner_c); group = g_strdup (group_c); pi = g_strdup (pi_c); vnet_hdr = g_strdup (vnet_hdr_c); multi_queue = g_strdup (multi_queue_c); if (ask) do_questionnaire_tun (&owner, &group, &pi, &vnet_hdr, &multi_queue); if (pi) { GError *tmp_err = NULL; if (!nmc_string_to_bool (pi, &pi_bool, &tmp_err)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'pi': %s."), tmp_err->message); g_clear_error (&tmp_err); goto cleanup_tun; } } if (vnet_hdr) { GError *tmp_err = NULL; if (!nmc_string_to_bool (vnet_hdr, &vnet_hdr_bool, &tmp_err)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'vnet-hdr': %s."), tmp_err->message); g_clear_error (&tmp_err); goto cleanup_tun; } } if (multi_queue) { GError *tmp_err = NULL; if (!nmc_string_to_bool (multi_queue, &multi_queue_bool, &tmp_err)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'multi-queue': %s."), tmp_err->message); g_clear_error (&tmp_err); goto cleanup_tun; } } /* Add 'tun' setting */ s_tun = (NMSettingTun *) nm_setting_tun_new (); nm_connection_add_setting (connection, NM_SETTING (s_tun)); mode_enum = !strcmp (mode, "tun") ? NM_SETTING_TUN_MODE_TUN : NM_SETTING_TUN_MODE_TAP; g_object_set (s_tun, NM_SETTING_TUN_MODE, mode_enum, NM_SETTING_TUN_OWNER, owner, NM_SETTING_TUN_GROUP, group, NULL); if (pi) g_object_set (s_tun, NM_SETTING_TUN_PI, pi_bool, NULL); if (vnet_hdr) g_object_set (s_tun, NM_SETTING_TUN_VNET_HDR, vnet_hdr_bool, NULL); if (multi_queue) g_object_set (s_tun, NM_SETTING_TUN_MULTI_QUEUE, multi_queue_bool, NULL); success = TRUE; cleanup_tun: g_free (mode_ask); g_free (mode); g_free (owner); g_free (group); g_free (pi); g_free (vnet_hdr); g_free (multi_queue); if (!success) return FALSE; } else if (!strcmp (con_type, NM_SETTING_IP_TUNNEL_SETTING_NAME)) { /* Build up the settings required for 'ip-tunnel' */ const char *mode_c = NULL, *local_c = NULL, *remote_c = NULL; char *mode_ask = NULL, *remote_ask = NULL, *local = NULL; const char *parent_c = NULL; char *parent = NULL; gboolean success = FALSE; NMIPTunnelMode mode_enum; nmc_arg_t exp_args[] = { {"mode", TRUE, &mode_c, !ask}, {"local", TRUE, &local_c, FALSE}, {"remote", TRUE, &remote_c, !ask}, {"dev", TRUE, &parent_c, FALSE}, {NULL} }; if (!nmc_parse_args (exp_args, FALSE, &argc, &argv, error)) return FALSE; if (!mode_c && ask) mode_c = mode_ask = nmc_readline (PROMPT_IP_TUNNEL_MODE); if (!mode_c) { g_set_error_literal (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'mode' is required.")); goto cleanup_tunnel; } if (!nm_utils_enum_from_str (nm_ip_tunnel_mode_get_type (), mode_c, (int *) &mode_enum, NULL)) { gs_free const char **values = NULL; gs_free char *values_str = NULL; values = nm_utils_enum_get_values (nm_ip_tunnel_mode_get_type (), NM_IP_TUNNEL_MODE_UNKNOWN + 1, G_MAXINT); values_str = g_strjoinv (",", (char **) values); g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'mode': '%s' is not valid, use one of %s"), mode_c, values_str); goto cleanup_tunnel; } if (!remote_c && ask) remote_c = remote_ask = nmc_readline (_("Remote endpoint: ")); if (!remote_c) { g_set_error_literal (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'remote' is required.")); goto cleanup_tunnel; } if ( !nm_utils_ipaddr_valid (AF_INET, remote_c) && !nm_utils_ipaddr_valid (AF_INET6, remote_c)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'remote': '%s' is not valid; must be an IP address"), remote_c); goto cleanup_tunnel; } local = g_strdup (local_c); parent = g_strdup (parent_c); if (ask) do_questionnaire_ip_tunnel (&local, &parent); if ( local && !nm_utils_ipaddr_valid (AF_INET, local) && !nm_utils_ipaddr_valid (AF_INET6, local)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'local': '%s' is not valid; must be an IP address"), local); goto cleanup_tunnel; } if (parent) { if ( !nm_utils_is_uuid (parent) && !nm_utils_iface_valid_name (parent)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'dev': '%s' is neither UUID nor interface name."), parent); goto cleanup_tunnel; } } /* Add 'tunnel' setting */ s_ip_tunnel = (NMSettingIPTunnel *) nm_setting_ip_tunnel_new (); nm_connection_add_setting (connection, NM_SETTING (s_ip_tunnel)); /* Set 'tunnel' properties */ g_object_set (s_ip_tunnel, NM_SETTING_IP_TUNNEL_MODE, mode_enum, NULL); g_object_set (s_ip_tunnel, NM_SETTING_IP_TUNNEL_REMOTE, remote_c, NULL); if (local) g_object_set (s_ip_tunnel, NM_SETTING_IP_TUNNEL_LOCAL, local, NULL); if (parent) g_object_set (s_ip_tunnel, NM_SETTING_IP_TUNNEL_PARENT, parent, NULL); /* Set default values for IPv6 tunnels */ if (nm_utils_ipaddr_valid (AF_INET6, remote_c)) { g_object_set (s_ip_tunnel, NM_SETTING_IP_TUNNEL_TOS, 64, NULL); g_object_set (s_ip_tunnel, NM_SETTING_IP_TUNNEL_ENCAPSULATION_LIMIT, 4, NULL); } success = TRUE; cleanup_tunnel: g_free (remote_ask); g_free (mode_ask); g_free (parent); g_free (local); if (!success) return FALSE; } else if (!strcmp (con_type, NM_SETTING_VXLAN_SETTING_NAME)) { /* Build up the settings required for 'vxlan' */ gboolean success = FALSE; char *id_ask = NULL; const char *id = NULL; char *remote_ask = NULL; const char *remote = NULL; const char *parent_c = NULL, *local_c = NULL; const char *src_port_min_c = NULL, *src_port_max_c = NULL; const char *dst_port_c = NULL; char *parent = NULL, *local = NULL; char *src_port_min = NULL, *src_port_max = NULL, *dst_port = NULL; unsigned long int vni; unsigned long sport_min = G_MAXULONG, sport_max = G_MAXULONG; unsigned long dport = G_MAXULONG; nmc_arg_t exp_args[] = { {"id", TRUE, &id, !ask}, {"remote", TRUE, &remote, !ask}, {"dev", TRUE, &parent_c, FALSE}, {"local", TRUE, &local_c, FALSE}, {"source-port-min", TRUE, &src_port_min_c, FALSE}, {"source-port-max", TRUE, &src_port_max_c, FALSE}, {"destination-port", TRUE, &dst_port_c, FALSE}, {NULL} }; if (!nmc_parse_args (exp_args, FALSE, &argc, &argv, error)) return FALSE; if (!id && ask) id = id_ask = nmc_readline (_("VXLAN ID: ")); if (!id) { g_set_error_literal (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'id' is required.")); goto cleanup_vxlan; } if (!remote && ask) remote = remote_ask = nmc_readline (_("Remote: ")); if (!remote) { g_set_error_literal (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'remote' is required.")); goto cleanup_vxlan; } if (!nmc_string_to_uint (id, TRUE, 0, (1UL << 24) - 1, &vni)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'id': '%s' is not valid; use <0-16777215>."), id); goto cleanup_vxlan; } parent = g_strdup (parent_c); local = g_strdup (local_c); src_port_min = g_strdup (src_port_min_c); src_port_max = g_strdup (src_port_max_c); dst_port = g_strdup (dst_port_c); if (ask) do_questionnaire_vxlan (&parent, &local, &src_port_min, &src_port_max, &dst_port); if (parent) { if ( !nm_utils_is_uuid (parent) && !nm_utils_iface_valid_name (parent)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'dev': '%s' is neither UUID nor interface name."), parent); goto cleanup_vxlan; } } if ( !nm_utils_ipaddr_valid (AF_INET, remote) && !nm_utils_ipaddr_valid (AF_INET6, remote)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'remote': '%s' is not a valid IP address"), remote); goto cleanup_vxlan; } if (local) { if ( !nm_utils_ipaddr_valid (AF_INET, local) && !nm_utils_ipaddr_valid (AF_INET6, local)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'local': '%s' is not a valid IP address"), local); goto cleanup_vxlan; } } if (src_port_min) { if (!nmc_string_to_uint (src_port_min, TRUE, 0, 65535, &sport_min)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'source-port-min': %s is not valid; use <0-65535>."), src_port_min); goto cleanup_vxlan; } } if (src_port_max) { if (!nmc_string_to_uint (src_port_max, TRUE, 0, 65535, &sport_max)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'source-port-max': %s is not valid; use <0-65535>."), src_port_max); goto cleanup_vxlan; } } if (dst_port) { if (!nmc_string_to_uint (dst_port, TRUE, 0, 65535, &dport)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: 'destination-port': %s is not valid; use <0-65535>."), dst_port); goto cleanup_vxlan; } } /* Add 'vxlan' setting */ s_vxlan = (NMSettingVxlan *) nm_setting_vxlan_new (); nm_connection_add_setting (connection, NM_SETTING (s_vxlan)); g_object_set (s_vxlan, NM_SETTING_VXLAN_ID, (guint) vni, NULL); g_object_set (s_vxlan, NM_SETTING_VXLAN_REMOTE, remote, NULL); g_object_set (s_vxlan, NM_SETTING_VXLAN_LOCAL, local, NULL); g_object_set (s_vxlan, NM_SETTING_VXLAN_PARENT, parent, NULL); if (sport_min != G_MAXULONG) g_object_set (s_vxlan, NM_SETTING_VXLAN_SOURCE_PORT_MIN, sport_min, NULL); if (sport_max != G_MAXULONG) g_object_set (s_vxlan, NM_SETTING_VXLAN_SOURCE_PORT_MAX, sport_max, NULL); if (dport != G_MAXULONG) g_object_set (s_vxlan, NM_SETTING_VXLAN_DESTINATION_PORT, dport, NULL); success = TRUE; cleanup_vxlan: g_free (id_ask); g_free (remote_ask); g_free (parent); g_free (local); g_free (src_port_min); g_free (src_port_max); if (!success) return FALSE; } else if (!strcmp (con_type, NM_SETTING_GENERIC_SETTING_NAME)) { /* Add 'generic' setting */ s_generic = (NMSettingGeneric *) nm_setting_generic_new (); nm_connection_add_setting (connection, NM_SETTING (s_generic)); } else { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: '%s' is not a valid connection type."), con_type); return FALSE; } if (!nm_setting_connection_get_slave_type (s_con)) { /* Read and add IP configuration */ NMIPAddress *ip4addr = NULL, *ip6addr = NULL; const char *ip4 = NULL, *gw4 = NULL, *ip6 = NULL, *gw6 = NULL; nmc_arg_t exp_args[] = { {"ip4", TRUE, &ip4, FALSE}, {"gw4", TRUE, &gw4, FALSE}, {"ip6", TRUE, &ip6, FALSE}, {"gw6", TRUE, &gw6, FALSE}, {NULL} }; while (argc) { nmc_arg_t *p; /* reset 'found' flag */ for (p = exp_args; p->name; p++) p->found = FALSE; ip4 = gw4 = ip6 = gw6 = NULL; if (!nmc_parse_args (exp_args, TRUE, &argc, &argv, NULL)) break; /* coverity[dead_error_begin] */ if (ip4) { ip4addr = nmc_parse_and_build_address (AF_INET, ip4, error); if (!ip4addr) { g_prefix_error (error, _("Error: ")); return FALSE; } add_ip4_address_to_connection (ip4addr, connection); } /* coverity[dead_error_begin] */ if (gw4) { NMSettingIPConfig *s_ip = nm_connection_get_setting_ip4_config (connection); if (!s_ip) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: IPv4 gateway specified without IPv4 addresses")); return FALSE; } else if (nm_setting_ip_config_get_gateway (s_ip)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: multiple IPv4 gateways specified")); return FALSE; } else if (!nm_utils_ipaddr_valid (AF_INET, gw4)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: Invalid IPv4 gateway '%s'"), gw4); } g_object_set (s_ip, NM_SETTING_IP_CONFIG_GATEWAY, gw4, NULL); } /* coverity[dead_error_begin] */ if (ip6) { ip6addr = nmc_parse_and_build_address (AF_INET6, ip6, error); if (!ip6addr) { g_prefix_error (error, _("Error: ")); return FALSE; } add_ip6_address_to_connection (ip6addr, connection); } /* coverity[dead_error_begin] */ if (gw6) { NMSettingIPConfig *s_ip = nm_connection_get_setting_ip6_config (connection); if (!s_ip) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: IPv6 gateway specified without IPv6 addresses")); return FALSE; } else if (nm_setting_ip_config_get_gateway (s_ip)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: multiple IPv6 gateways specified")); return FALSE; } else if (!nm_utils_ipaddr_valid (AF_INET, gw6)) { g_set_error (error, NMCLI_ERROR, NMC_RESULT_ERROR_USER_INPUT, _("Error: Invalid IPv6 gateway '%s'"), gw6); } g_object_set (s_ip, NM_SETTING_IP_CONFIG_GATEWAY, gw6, NULL); } } /* Ask for addresses if '--ask' is specified. */ if (ask) do_questionnaire_ip (connection); } if (argc) { /* Set extra connection properties. */ nmc_arg_t exp_args[] = { {"--", FALSE, NULL, TRUE}, {NULL} }; if (!nmc_parse_args (exp_args, FALSE, &argc, &argv, error)) return FALSE; if (!read_connection_properties (connection, argc, argv, error)) return FALSE; } return TRUE; } typedef struct { NmCli *nmc; char *con_name; } AddConnectionInfo; static void add_connection_cb (GObject *client, GAsyncResult *result, gpointer user_data) { AddConnectionInfo *info = (AddConnectionInfo *) user_data; NmCli *nmc = info->nmc; NMRemoteConnection *connection; GError *error = NULL; connection = nm_client_add_connection_finish (NM_CLIENT (client), result, &error); if (error) { g_string_printf (nmc->return_text, _("Error: Failed to add '%s' connection: %s"), info->con_name, error->message); g_error_free (error); nmc->return_value = NMC_RESULT_ERROR_CON_ACTIVATION; } else { g_print (_("Connection '%s' (%s) successfully added.\n"), nm_connection_get_id (NM_CONNECTION (connection)), nm_connection_get_uuid (NM_CONNECTION (connection))); g_object_unref (connection); } g_free (info->con_name); g_free (info); quit (); } static void add_new_connection (gboolean persistent, NMClient *client, NMConnection *connection, GAsyncReadyCallback callback, gpointer user_data) { nm_client_add_connection_async (client, connection, persistent, NULL, callback, user_data); } static void update_connection (gboolean persistent, NMRemoteConnection *connection, GAsyncReadyCallback callback, gpointer user_data) { nm_remote_connection_commit_changes_async (connection, persistent, NULL, callback, user_data); } static char * gen_func_vpn_types (const char *text, int state) { gs_free const char **plugin_names = NULL; plugin_names = nm_vpn_get_plugin_names (FALSE); return nmc_rl_gen_func_basic (text, state, plugin_names); } static char * gen_func_bool_values_l10n (const char *text, int state) { const char *words[] = { WORD_LOC_YES, WORD_LOC_NO, NULL }; return nmc_rl_gen_func_basic (text, state, words); } static char * gen_func_wifi_mode (const char *text, int state) { const char *words[] = { "infrastructure", "ap", "adhoc", NULL }; return nmc_rl_gen_func_basic (text, state, words); } static char * gen_func_ib_type (const char *text, int state) { const char *words[] = { "datagram", "connected", NULL }; return nmc_rl_gen_func_basic (text, state, words); } static char * gen_func_bt_type (const char *text, int state) { const char *words[] = { "panu", "dun-gsm", "dun-cdma", NULL }; return nmc_rl_gen_func_basic (text, state, words); } static char * gen_func_bond_mode (const char *text, int state) { const char *words[] = { "balance-rr", "active-backup", "balance-xor", "broadcast", "802.3ad", "balance-tlb", "balance-alb", NULL }; return nmc_rl_gen_func_basic (text, state, words); } static char * gen_func_bond_mon_mode (const char *text, int state) { const char *words[] = { "miimon", "arp", NULL }; return nmc_rl_gen_func_basic (text, state, words); } static char * gen_func_adsl_proto (const char *text, int state) { const char *words[] = { "pppoe", "pppoa", "ipoatm", NULL }; return nmc_rl_gen_func_basic (text, state, words); } static char * gen_func_adsl_encap (const char *text, int state) { const char *words[] = { "vcmux", "llc", NULL }; return nmc_rl_gen_func_basic (text, state, words); } static char * gen_func_tun_mode (const char *text, int state) { const char *words[] = { "tun", "tap", NULL }; return nmc_rl_gen_func_basic (text, state, words); } static char * gen_func_ip_tunnel_mode (const char *text, int state) { gs_free const char **words = NULL; words = nm_utils_enum_get_values (nm_ip_tunnel_mode_get_type (), NM_IP_TUNNEL_MODE_UNKNOWN + 1, G_MAXINT); return nmc_rl_gen_func_basic (text, state, words); } static char * gen_func_macvlan_mode (const char *text, int state) { gs_free const char **words = NULL; words = nm_utils_enum_get_values (nm_setting_macvlan_mode_get_type(), NM_SETTING_MACVLAN_MODE_UNKNOWN + 1, G_MAXINT); return nmc_rl_gen_func_basic (text, state, words); } static char * gen_func_master_ifnames (const char *text, int state) { int i; GPtrArray *ifnames; char *ret; NMConnection *con; NMSettingConnection *s_con; const char *con_type, *ifname; if (!nm_cli.connections) return NULL; /* Disable appending space after completion */ rl_completion_append_character = '\0'; ifnames = g_ptr_array_sized_new (20); for (i = 0; i < nm_cli.connections->len; i++) { con = NM_CONNECTION (nm_cli.connections->pdata[i]); s_con = nm_connection_get_setting_connection (con); g_assert (s_con); con_type = nm_setting_connection_get_connection_type (s_con); if (g_strcmp0 (con_type, nmc_tab_completion.con_type) != 0) continue; ifname = nm_connection_get_interface_name (con); g_ptr_array_add (ifnames, (gpointer) ifname); } g_ptr_array_add (ifnames, (gpointer) NULL); ret = nmc_rl_gen_func_basic (text, state, (const char **) ifnames->pdata); g_ptr_array_free (ifnames, TRUE); return ret; } static gboolean is_single_word (const char* line) { size_t n1, n2, n3; n1 = strspn (line, " \t"); n2 = strcspn (line+n1, " \t\0") + n1; n3 = strspn (line+n2, " \t"); if (n3 == 0) return TRUE; else return FALSE; } static char ** nmcli_con_add_tab_completion (const char *text, int start, int end) { char **match_array = NULL; rl_compentry_func_t *generator_func = NULL; /* Disable readline's default filename completion */ rl_attempted_completion_over = 1; /* Restore standard append character to space */ rl_completion_append_character = ' '; if (!is_single_word (rl_line_buffer)) return NULL; if (g_strcmp0 (rl_prompt, PROMPT_CON_TYPE) == 0) generator_func = gen_connection_types; else if (g_strcmp0 (rl_prompt, PROMPT_VPN_TYPE) == 0) generator_func = gen_func_vpn_types; else if (g_strcmp0 (rl_prompt, PROMPT_MASTER) == 0) generator_func = gen_func_master_ifnames; else if ( g_str_has_suffix (rl_prompt, prompt_yes_no (TRUE, NULL)) || g_str_has_suffix (rl_prompt, prompt_yes_no (TRUE, ":")) || g_str_has_suffix (rl_prompt, prompt_yes_no (FALSE, NULL)) || g_str_has_suffix (rl_prompt, prompt_yes_no (FALSE, ":"))) generator_func = gen_func_bool_values_l10n; else if (g_str_has_suffix (rl_prompt, PROMPT_WIFI_MODE)) generator_func = gen_func_wifi_mode; else if (g_str_has_suffix (rl_prompt, PROMPT_IB_MODE)) generator_func = gen_func_ib_type; else if (g_str_has_suffix (rl_prompt, PROMPT_BT_TYPE)) generator_func = gen_func_bt_type; else if (g_str_has_prefix (rl_prompt, PROMPT_BOND_MODE)) generator_func = gen_func_bond_mode; else if (g_str_has_suffix (rl_prompt, PROMPT_BOND_MON_MODE)) generator_func = gen_func_bond_mon_mode; else if (g_str_has_suffix (rl_prompt, PROMPT_ADSL_PROTO)) generator_func = gen_func_adsl_proto; else if (g_str_has_suffix (rl_prompt, PROMPT_ADSL_ENCAP)) generator_func = gen_func_adsl_encap; else if (g_str_has_suffix (rl_prompt, PROMPT_TUN_MODE)) generator_func = gen_func_tun_mode; else if (g_str_has_suffix (rl_prompt, PROMPT_IP_TUNNEL_MODE)) generator_func = gen_func_ip_tunnel_mode; else if (g_str_has_suffix (rl_prompt, PROMPT_MACVLAN_MODE)) generator_func = gen_func_macvlan_mode; if (generator_func) match_array = rl_completion_matches (text, generator_func); return match_array; } static NMCResultCode do_connection_add (NmCli *nmc, int argc, char **argv) { NMConnection *connection = NULL; NMSettingConnection *s_con; char *uuid; char *default_name = NULL; const char *type = NULL; char *type_ask = NULL; const char *con_name = NULL; const char *autoconnect = NULL; gboolean auto_bool = TRUE; const char *ifname = NULL; char *ifname_ask = NULL; gboolean ifname_mandatory = TRUE; const char *save = NULL; gboolean save_bool = TRUE; const char *master = NULL; const char *checked_master = NULL; const char *slave_type = NULL; AddConnectionInfo *info = NULL; const char *setting_name; GError *error = NULL; nmc_arg_t exp_args[] = { {"type", TRUE, &type, !nmc->ask}, {"con-name", TRUE, &con_name, FALSE}, {"autoconnect", TRUE, &autoconnect, FALSE}, {"ifname", TRUE, &ifname, FALSE}, {"save", TRUE, &save, FALSE}, {"master", TRUE, &master, FALSE}, {"slave-type", TRUE, &slave_type, FALSE}, {NULL} }; rl_attempted_completion_function = (rl_completion_func_t *) nmcli_con_add_tab_completion; nmc->return_value = NMC_RESULT_SUCCESS; if (!nmc_parse_args (exp_args, FALSE, &argc, &argv, &error)) { g_string_assign (nmc->return_text, error->message); nmc->return_value = error->code; g_clear_error (&error); goto error; } if (!type && nmc->ask) { char *types_tmp = get_valid_options_string (nmc_valid_connection_types, NULL); g_print ("Valid types: [%s]\n", types_tmp); type = type_ask = nmc_readline (PROMPT_CON_TYPE); g_free (types_tmp); } if (!type) { g_string_printf (nmc->return_text, _("Error: 'type' argument is required.")); nmc->return_value = NMC_RESULT_ERROR_USER_INPUT; goto error; } if (type_ask) type = g_strstrip (type_ask); if (!(setting_name = check_valid_name (type, nmc_valid_connection_types, NULL, &error))) { g_string_printf (nmc->return_text, _("Error: invalid connection type; %s."), error->message); nmc->return_value = NMC_RESULT_ERROR_USER_INPUT; g_clear_error (&error); goto error; } if (autoconnect) { GError *tmp_err = NULL; if (!nmc_string_to_bool (autoconnect, &auto_bool, &tmp_err)) { g_string_printf (nmc->return_text, _("Error: 'autoconnect': %s."), tmp_err->message); nmc->return_value = NMC_RESULT_ERROR_USER_INPUT; g_clear_error (&tmp_err); goto error; } } if (save) { GError *tmp_err = NULL; if (!nmc_string_to_bool (save, &save_bool, &tmp_err)) { g_string_printf (nmc->return_text, _("Error: 'save': %s."), tmp_err->message); nmc->return_value = NMC_RESULT_ERROR_USER_INPUT; g_clear_error (&tmp_err); goto error; } } /* ifname is mandatory for all connection types except virtual ones (bond, team, bridge, vlan) */ if ( strcmp (type, NM_SETTING_BOND_SETTING_NAME) == 0 || strcmp (type, NM_SETTING_TEAM_SETTING_NAME) == 0 || strcmp (type, NM_SETTING_BRIDGE_SETTING_NAME) == 0 || strcmp (type, NM_SETTING_VLAN_SETTING_NAME) == 0) ifname_mandatory = FALSE; if (!ifname && ifname_mandatory) { if (nmc->ask) { ifname = ifname_ask = nmc_readline (_("Interface name [*]: ")); if (!ifname) ifname = ifname_ask = g_strdup ("*"); } else { if (!*argv) g_string_printf (nmc->return_text, _("Error: 'ifname' argument is required.")); else g_string_printf (nmc->return_text, _("Error: mandatory 'ifname' not seen before '%s'."), *argv); nmc->return_value = NMC_RESULT_ERROR_USER_INPUT; goto error; } } if (ifname) { if (!nm_utils_iface_valid_name (ifname) && strcmp (ifname, "*") != 0) { g_string_printf (nmc->return_text, _("Error: 'ifname': '%s' is not a valid interface nor '*'."), ifname); nmc->return_value = NMC_RESULT_ERROR_USER_INPUT; goto error; } /* Special value of '*' means no specific interface name */ if (strcmp (ifname, "*") == 0) ifname = NULL; } /* Create a new connection object */ connection = nm_simple_connection_new (); /* Build up the 'connection' setting */ s_con = (NMSettingConnection *) nm_setting_connection_new (); uuid = nm_utils_uuid_generate (); if (con_name) default_name = g_strdup (con_name); else { char *try_name = ifname ? g_strdup_printf ("%s-%s", get_name_alias (setting_name, nmc_valid_connection_types), ifname) : g_strdup (get_name_alias (setting_name, nmc_valid_connection_types)); default_name = nmc_unique_connection_name (nmc->connections, try_name); g_free (try_name); } if (master) /* Verify master argument */ checked_master = normalized_master_for_slave (nmc->connections, master, slave_type, &slave_type); g_object_set (s_con, NM_SETTING_CONNECTION_ID, default_name, NM_SETTING_CONNECTION_UUID, uuid, NM_SETTING_CONNECTION_TYPE, setting_name, NM_SETTING_CONNECTION_AUTOCONNECT, auto_bool, NM_SETTING_CONNECTION_INTERFACE_NAME, ifname, NM_SETTING_CONNECTION_MASTER, checked_master, NM_SETTING_CONNECTION_SLAVE_TYPE, slave_type, NULL); g_free (uuid); g_free (default_name); nm_connection_add_setting (connection, NM_SETTING (s_con)); if (!complete_connection_by_type (connection, setting_name, nmc->connections, nmc->ask, nmc->show_secrets, argc, argv, &error)) { g_string_assign (nmc->return_text, error->message); nmc->return_value = error->code; g_clear_error (&error); goto error; } nmc->should_wait++; info = g_malloc0 (sizeof (AddConnectionInfo)); info->nmc = nmc; info->con_name = g_strdup (nm_connection_get_id (connection)); /* Tell the settings service to add the new connection */ add_new_connection (save_bool, nmc->client, connection, add_connection_cb, info); if (connection) g_object_unref (connection); return nmc->return_value; error: if (connection) g_object_unref (connection); g_free (type_ask); g_free (ifname_ask); return nmc->return_value; } /*----------------------------------------------------------------------------*/ /* Functions for readline TAB completion in editor */ static void uuid_display_hook (char **array, int len, int max_len) { NMConnection *con; int i, max = 0; char *tmp; const char *id; for (i = 1; i <= len; i++) { con = nmc_find_connection (nmc_tab_completion.nmc->connections, "uuid", array[i], NULL); id = con ? nm_connection_get_id (con) : NULL; if (id) { tmp = g_strdup_printf ("%s (%s)", array[i], id); g_free (array[i]); array[i] = tmp; if (max < strlen (id)) max = strlen (id); } } rl_display_match_list (array, len, max_len + max + 3); rl_forced_update_display (); } static char * gen_nmcli_cmds_menu (const char *text, int state) { const char *words[] = { "goto", "set", "remove", "describe", "print", "verify", "save", "activate", "back", "help", "quit", "nmcli", NULL }; return nmc_rl_gen_func_basic (text, state, words); } static char * gen_nmcli_cmds_submenu (const char *text, int state) { const char *words[] = { "set", "add", "change", "remove", "describe", "print", "back", "help", "quit", NULL }; return nmc_rl_gen_func_basic (text, state, words); } static char * gen_cmd_nmcli (const char *text, int state) { const char *words[] = { "status-line", "save-confirmation", "show-secrets", "prompt-color", NULL }; return nmc_rl_gen_func_basic (text, state, words); } static char * gen_cmd_nmcli_prompt_color (const char *text, int state) { const char *words[] = { "normal", "black", "red", "green", "yellow", "blue", "magenta", "cyan", "white", NULL }; return nmc_rl_gen_func_basic (text, state, words); } static char * gen_func_bool_values (const char *text, int state) { const char *words[] = { "yes", "no", NULL }; return nmc_rl_gen_func_basic (text, state, words); } static char * gen_cmd_verify0 (const char *text, int state) { const char *words[] = { "all", "fix", NULL }; return nmc_rl_gen_func_basic (text, state, words); } static char * gen_cmd_print0 (const char *text, int state) { static char **words = NULL; char *ret = NULL; if (!state) { GVariant *settings; GVariantIter iter; const char *setting_name; int i = 0; settings = nm_connection_to_dbus (nmc_tab_completion.connection, NM_CONNECTION_SERIALIZE_NO_SECRETS); words = g_new (char *, g_variant_n_children (settings) + 2); g_variant_iter_init (&iter, settings); while (g_variant_iter_next (&iter, "{&s@a{sv}}", &setting_name, NULL)) words [i++] = g_strdup (setting_name); words[i++] = g_strdup ("all"); words[i] = NULL; g_variant_unref (settings); } if (words) { ret = nmc_rl_gen_func_basic (text, state, (const char **) words); if (ret == NULL) { g_strfreev (words); words = NULL; } } return ret; } static char * gen_cmd_print2 (const char *text, int state) { const char *words[] = { "setting", "connection", "all", NULL }; return nmc_rl_gen_func_basic (text, state, words); } static char * gen_cmd_save (const char *text, int state) { const char *words[] = { "persistent", "temporary", NULL }; return nmc_rl_gen_func_basic (text, state, words); } static char * gen_connection_types (const char *text, int state) { static int list_idx, len; const char *c_type, *a_type; if (!state) { list_idx = 0; len = strlen (text); } while (nmc_valid_connection_types[list_idx].name) { a_type = nmc_valid_connection_types[list_idx].alias; c_type = nmc_valid_connection_types[list_idx].name; list_idx++; if (a_type && !strncmp (text, a_type, len)) return g_strdup (a_type); if (c_type && !strncmp (text, c_type, len)) return g_strdup (c_type); } return NULL; } static char * gen_setting_names (const char *text, int state) { static int list_idx, len, is_slv; const char *s_name, *a_name; const NameItem *valid_settings_arr; NMSettingConnection *s_con; const char *s_type = NULL; char *slv_type; if (!state) { list_idx = 0; len = strlen (text); is_slv = 0; } if (!is_slv) { valid_settings_arr = get_valid_settings_array (nmc_tab_completion.con_type); if (!valid_settings_arr) return NULL; while (valid_settings_arr[list_idx].name) { a_name = valid_settings_arr[list_idx].alias; s_name = valid_settings_arr[list_idx].name; list_idx++; if (len == 0 && a_name) return g_strdup_printf ("%s (%s)", s_name, a_name); if (a_name && !strncmp (text, a_name, len)) return g_strdup (a_name); if (s_name && !strncmp (text, s_name, len)) return g_strdup (s_name); } /* Let's give a try to parameters related to slave type */ list_idx = 0; is_slv = 1; } /* is_slv */ s_con = nm_connection_get_setting_connection (nmc_tab_completion.connection); if (s_con) s_type = nm_setting_connection_get_slave_type (s_con); slv_type = g_strdup_printf ("%s-slave", s_type ? s_type : "no"); valid_settings_arr = get_valid_settings_array (slv_type); g_free (slv_type); while (valid_settings_arr[list_idx].name) { a_name = valid_settings_arr[list_idx].alias; s_name = valid_settings_arr[list_idx].name; list_idx++; if (len == 0 && a_name) return g_strdup_printf ("%s (%s)", s_name, a_name); if (a_name && !strncmp (text, a_name, len)) return g_strdup (a_name); if (s_name && !strncmp (text, s_name, len)) return g_strdup (s_name); } return NULL; } static char * gen_property_names (const char *text, int state) { NMSetting *setting = NULL; char **valid_props = NULL; char *ret = NULL; const char *line = rl_line_buffer; const char *setting_name; char **strv = NULL; const NameItem *valid_settings_main; const NameItem *valid_settings_slave; const char *p1; const char *slv_type; /* Try to get the setting from 'line' - setting_name.property */ p1 = strchr (line, '.'); if (p1) { while (p1 > line && !g_ascii_isspace (*p1)) p1--; strv = g_strsplit (p1+1, ".", 2); valid_settings_main = get_valid_settings_array (nmc_tab_completion.con_type); /* Support autocompletion of slave-connection parameters * guessing the slave type from the setting name already * typed (or autocompleted) */ if (nm_streq0 (strv[0], NM_SETTING_TEAM_PORT_SETTING_NAME)) slv_type = "team-slave"; else if (nm_streq0 (strv[0], NM_SETTING_BRIDGE_PORT_SETTING_NAME)) slv_type = "bridge-slave"; else slv_type = "no-slave"; valid_settings_slave = get_valid_settings_array (slv_type); setting_name = check_valid_name (strv[0], valid_settings_main, valid_settings_slave, NULL); setting = nmc_setting_new_for_name (setting_name); } else { /* Else take the current setting, if any */ setting = nmc_tab_completion.setting ? g_object_ref (nmc_tab_completion.setting) : NULL; } if (setting) { valid_props = nmc_setting_get_valid_properties (setting); ret = nmc_rl_gen_func_basic (text, state, (const char **) valid_props); } g_strfreev (strv); g_strfreev (valid_props); if (setting) g_object_unref (setting); return ret; } static char * gen_compat_devices (const char *text, int state) { int i, j = 0; const GPtrArray *devices; const char **compatible_devices; char *ret; devices = nm_client_get_devices (nmc_tab_completion.nmc->client); if (devices->len == 0) return NULL; compatible_devices = g_new (const char *, devices->len + 1); for (i = 0; i < devices->len; i++) { NMDevice *dev = g_ptr_array_index (devices, i); const char *ifname = nm_device_get_iface (dev); NMDevice *device = NULL; const char *spec_object = NULL; if (find_device_for_connection (nmc_tab_completion.nmc, nmc_tab_completion.connection, ifname, NULL, NULL, &device, &spec_object, NULL)) { compatible_devices[j++] = ifname; } } compatible_devices[j] = NULL; ret = nmc_rl_gen_func_basic (text, state, compatible_devices); g_free (compatible_devices); return ret; } static const char ** _create_vpn_array (const GPtrArray *connections, gboolean uuid) { int c, idx = 0; const char **array; if (connections->len < 1) return NULL; array = g_new (const char *, connections->len + 1); for (c = 0; c < connections->len; c++) { NMConnection *connection = NM_CONNECTION (connections->pdata[c]); const char *type = nm_connection_get_connection_type (connection); if (g_strcmp0 (type, NM_SETTING_VPN_SETTING_NAME) == 0) array[idx++] = uuid ? nm_connection_get_uuid (connection) : nm_connection_get_id (connection); } array[idx] = NULL; return array; } static char * gen_vpn_uuids (const char *text, int state) { const GPtrArray *connections = nm_cli.connections; const char **uuids; char *ret; if (connections->len < 1) return NULL; uuids = _create_vpn_array (connections, TRUE); ret = nmc_rl_gen_func_basic (text, state, uuids); g_free (uuids); return ret; } static char * gen_vpn_ids (const char *text, int state) { const GPtrArray *connections = nm_cli.connections; const char **ids; char *ret; if (connections->len < 1) return NULL; ids = _create_vpn_array (connections, FALSE); ret = nmc_rl_gen_func_basic (text, state, ids); g_free (ids); return ret; } static rl_compentry_func_t * get_gen_func_cmd_nmcli (const char *str) { if (!str) return NULL; if (matches (str, "status-line") == 0) return gen_func_bool_values; if (matches (str, "save-confirmation") == 0) return gen_func_bool_values; if (matches (str, "show-secrets") == 0) return gen_func_bool_values; if (matches (str, "prompt-color") == 0) return gen_cmd_nmcli_prompt_color; return NULL; } /* * Helper function parsing line for completion. * IN: * line : the whole line to be parsed * end : the position of cursor in the line * cmd : command to match * OUT: * cw_num : is set to the word number being completed (1, 2, 3, 4). * prev_word : returns the previous word (so that we have some context). * * Returns TRUE when the first word of the 'line' matches 'cmd'. * * Examples: * line="rem" cmd="remove" -> TRUE cw_num=1 * line="set con" cmd="set" -> TRUE cw_num=2 * line="go ipv4.method" cmd="goto" -> TRUE cw_num=2 * line=" des eth.mtu " cmd="describe" -> TRUE cw_num=3 * line=" bla ipv4.method" cmd="goto" -> FALSE */ static gboolean should_complete_cmd (const char *line, int end, const char *cmd, int *cw_num, char **prev_word) { char *tmp; const char *word1, *word2, *word3; size_t n1, n2, n3, n4, n5, n6; gboolean word1_done, word2_done, word3_done; gboolean ret = FALSE; if (!line) return FALSE; tmp = g_strdup (line); n1 = strspn (tmp, " \t"); n2 = strcspn (tmp+n1, " \t\0") + n1; n3 = strspn (tmp+n2, " \t") + n2; n4 = strcspn (tmp+n3, " \t\0") + n3; n5 = strspn (tmp+n4, " \t") + n4; n6 = strcspn (tmp+n5, " \t\0") + n5; word1_done = end > n2; word2_done = end > n4; word3_done = end > n6; tmp[n2] = tmp[n4] = tmp[n6] = '\0'; word1 = tmp[n1] ? tmp + n1 : NULL; word2 = tmp[n3] ? tmp + n3 : NULL; word3 = tmp[n5] ? tmp + n5 : NULL; if (!word1_done) { if (cw_num) *cw_num = 1; if (prev_word) *prev_word = NULL; } else if (!word2_done) { if (cw_num) *cw_num = 2; if (prev_word) *prev_word = g_strdup (word1); } else if (!word3_done) { if (cw_num) *cw_num = 3; if (prev_word) *prev_word = g_strdup (word2); } else { if (cw_num) *cw_num = 4; if (prev_word) *prev_word = g_strdup (word3); } if (word1 && matches (word1, cmd) == 0) ret = TRUE; g_free (tmp); return ret; } /* * extract_setting_and_property: * prompt: (in) (allow-none): prompt string, or NULL * line: (in) (allow-none): line, or NULL * setting: (out) (transfer full) (array zero-terminated=1): * return location for setting name * property: (out) (transfer full) (array zero-terminated=1): * return location for property name * * Extract setting and property names from prompt and/or line. */ static void extract_setting_and_property (const char *prompt, const char *line, char **setting, char **property) { char *prop = NULL; char *sett = NULL; if (prompt) { /* prompt looks like this: "nmcli 802-1x>" or "nmcli 802-1x.pac-file>" */ const char *p1, *p2, *dot; size_t num1, num2; p1 = strchr (prompt, ' '); if (p1) { dot = strchr (++p1, '.'); if (dot) { p2 = dot + 1; num1 = strcspn (p1, "."); num2 = strcspn (p2, ">"); sett = num1 > 0 ? g_strndup (p1, num1) : NULL; prop = num2 > 0 ? g_strndup (p2, num2) : NULL; } else { num1 = strcspn (p1, ">"); sett = num1 > 0 ? g_strndup (p1, num1) : NULL; } } } if (line) { /* line looks like this: " set 802-1x.pac-file ..." or " set pac-file ..." */ const char *p1, *p2, *dot; size_t n1, n2, n3, n4; size_t num1, num2, len; n1 = strspn (line, " \t"); /* white-space */ n2 = strcspn (line+n1, " \t\0") + n1; /* command */ n3 = strspn (line+n2, " \t") + n2; /* white-space */ n4 = strcspn (line+n3, " \t\0") + n3; /* setting/property */ p1 = line + n3; len = n4 - n3; dot = strchr (p1, '.'); if (dot && dot < p1 + len) { p2 = dot + 1; num1 = strcspn (p1, "."); num2 = len > num1 + 1 ? len - num1 - 1 : 0; sett = num1 > 0 ? g_strndup (p1, num1) : sett; prop = num2 > 0 ? g_strndup (p2, num2) : prop; } else { if (!prop) prop = len > 0 ? g_strndup (p1, len) : NULL; } } if (setting) *setting = sett; else g_free (sett); if (property) *property = prop; else g_free (prop); } static void get_setting_and_property (const char *prompt, const char *line, NMSetting **setting_out, char**property_out) { const NameItem *valid_settings_main; const NameItem *valid_settings_slave; const char *setting_name; NMSetting *setting = NULL; char *property = NULL; char *sett = NULL, *prop = NULL; NMSettingConnection *s_con; const char *s_type = NULL; char *slv_type; extract_setting_and_property (prompt, line, &sett, &prop); if (sett) { /* Is this too much (and useless?) effort for an unlikely case? */ s_con = nm_connection_get_setting_connection (nmc_tab_completion.connection); if (s_con) s_type = nm_setting_connection_get_slave_type (s_con); slv_type = g_strdup_printf ("%s-slave", s_type ? s_type : "no"); valid_settings_main = get_valid_settings_array (nmc_tab_completion.con_type); valid_settings_slave = get_valid_settings_array (slv_type); g_free (slv_type); setting_name = check_valid_name (sett, valid_settings_main, valid_settings_slave, NULL); setting = nmc_setting_new_for_name (setting_name); } else setting = nmc_tab_completion.setting ? g_object_ref (nmc_tab_completion.setting) : NULL; if (setting && prop) property = is_property_valid (setting, prop, NULL); else property = g_strdup (nmc_tab_completion.property); *setting_out = setting; *property_out = property; g_free (sett); g_free (prop); } static gboolean _get_and_check_property (const char *prompt, const char *line, const char **array, const char **array_multi, gboolean *multi) { char *prop; gboolean found = FALSE; extract_setting_and_property (prompt, line, NULL, &prop); if (prop) { if (array) found = !!nmc_string_is_valid (prop, array, NULL); if (array_multi && multi) *multi = !!nmc_string_is_valid (prop, array_multi, NULL); g_free (prop); } return found; } static gboolean should_complete_files (const char *prompt, const char *line) { const char *file_properties[] = { /* '802-1x' properties */ "ca-cert", "ca-path", "client-cert", "pac-file", "phase2-ca-cert", "phase2-ca-path", "phase2-client-cert", "private-key", "phase2-private-key", /* 'team' and 'team-port' properties */ "config", NULL }; return _get_and_check_property (prompt, line, file_properties, NULL, NULL); } static gboolean should_complete_vpn_uuids (const char *prompt, const char *line) { const char *uuid_properties[] = { /* 'connection' properties */ "secondaries", NULL }; return _get_and_check_property (prompt, line, uuid_properties, NULL, NULL); } static const char ** get_allowed_property_values (void) { NMSetting *setting; char *property; const char **avals = NULL; get_setting_and_property (rl_prompt, rl_line_buffer, &setting, &property); if (setting && property) avals = nmc_setting_get_property_allowed_values (setting, property); if (setting) g_object_unref (setting); g_free (property); return avals; } static gboolean should_complete_property_values (const char *prompt, const char *line, gboolean *multi) { /* properties allowing multiple values */ const char *multi_props[] = { /* '802-1x' properties */ NM_SETTING_802_1X_EAP, /* '802-11-wireless-security' properties */ NM_SETTING_WIRELESS_SECURITY_PROTO, NM_SETTING_WIRELESS_SECURITY_PAIRWISE, NM_SETTING_WIRELESS_SECURITY_GROUP, /* 'bond' properties */ NM_SETTING_BOND_OPTIONS, /* 'ethernet' properties */ NM_SETTING_WIRED_S390_OPTIONS, NULL }; _get_and_check_property (prompt, line, NULL, multi_props, multi); return get_allowed_property_values () != NULL; } //FIXME: this helper should go to libnm later static gboolean _setting_property_is_boolean (NMSetting *setting, const char *property_name) { GParamSpec *pspec; g_return_val_if_fail (NM_IS_SETTING (setting), FALSE); g_return_val_if_fail (property_name, FALSE); pspec = g_object_class_find_property (G_OBJECT_GET_CLASS (setting), property_name); if (pspec && pspec->value_type == G_TYPE_BOOLEAN) return TRUE; return FALSE; } static gboolean should_complete_boolean (const char *prompt, const char *line) { NMSetting *setting; char *property; gboolean is_boolean = FALSE; get_setting_and_property (prompt, line, &setting, &property); if (setting && property) is_boolean = _setting_property_is_boolean (setting, property); if (setting) g_object_unref (setting); g_free (property); return is_boolean; } static char * gen_property_values (const char *text, int state) { char *ret = NULL; const char **avals; avals = get_allowed_property_values (); if (avals) ret = nmc_rl_gen_func_basic (text, state, avals); return ret; } /* from readline */ extern int rl_complete_with_tilde_expansion; /* * Attempt to complete on the contents of TEXT. START and END show the * region of TEXT that contains the word to complete. We can use the * entire line in case we want to do some simple parsing. Return the * array of matches, or NULL if there aren't any. */ static char ** nmcli_editor_tab_completion (const char *text, int start, int end) { char **match_array = NULL; const char *line = rl_line_buffer; rl_compentry_func_t *generator_func = NULL; char *prompt_tmp; char *word = NULL; size_t n1; int num; /* Restore standard append character to space */ rl_completion_append_character = ' '; /* Restore standard function for displaying matches */ rl_completion_display_matches_hook = NULL; /* Disable default filename completion */ rl_attempted_completion_over = 1; /* Enable tilde expansion when filenames are completed */ rl_complete_with_tilde_expansion = 1; /* Filter out possible ANSI color escape sequences */ prompt_tmp = nmc_filter_out_colors ((const char *) rl_prompt); /* Find the first non-space character */ n1 = strspn (line, " \t"); /* Choose the right generator function */ if (strcmp (prompt_tmp, EDITOR_PROMPT_CON_TYPE) == 0) generator_func = gen_connection_types; else if (strcmp (prompt_tmp, EDITOR_PROMPT_SETTING) == 0) generator_func = gen_setting_names; else if (strcmp (prompt_tmp, EDITOR_PROMPT_PROPERTY) == 0) generator_func = gen_property_names; else if ( g_str_has_suffix (rl_prompt, prompt_yes_no (TRUE, NULL)) || g_str_has_suffix (rl_prompt, prompt_yes_no (FALSE, NULL))) generator_func = gen_func_bool_values_l10n; else if (g_str_has_prefix (prompt_tmp, "nmcli")) { if (!strchr (prompt_tmp, '.')) { int level = g_str_has_prefix (prompt_tmp, "nmcli>") ? 0 : 1; const char *dot = strchr (line, '.'); gboolean multi; /* Main menu - level 0,1 */ if (start == n1) generator_func = gen_nmcli_cmds_menu; else { if (should_complete_cmd (line, end, "goto", &num, NULL) && num <= 2) { if (level == 0 && (!dot || dot >= line + end)) generator_func = gen_setting_names; else generator_func = gen_property_names; } else if (should_complete_cmd (line, end, "set", &num, NULL)) { if (num < 3) { if (level == 0 && (!dot || dot >= line + end)) { generator_func = gen_setting_names; rl_completion_append_character = '.'; } else generator_func = gen_property_names; } else if (num >= 3) { if (num == 3 && should_complete_files (NULL, line)) rl_attempted_completion_over = 0; else if (should_complete_vpn_uuids (NULL, line)) { rl_completion_display_matches_hook = uuid_display_hook; generator_func = gen_vpn_uuids; } else if ( should_complete_property_values (NULL, line, &multi) && (num == 3 || multi)) { generator_func = gen_property_values; } else if (should_complete_boolean (NULL, line) && num == 3) generator_func = gen_func_bool_values; } } else if ( ( should_complete_cmd (line, end, "remove", &num, NULL) || should_complete_cmd (line, end, "describe", &num, NULL)) && num <= 2) { if (level == 0 && (!dot || dot >= line + end)) { generator_func = gen_setting_names; rl_completion_append_character = '.'; } else generator_func = gen_property_names; } else if (should_complete_cmd (line, end, "nmcli", &num, &word)) { if (num < 3) generator_func = gen_cmd_nmcli; else if (num == 3) generator_func = get_gen_func_cmd_nmcli (word); } else if (should_complete_cmd (line, end, "print", &num, NULL) && num <= 2) { if (level == 0 && (!dot || dot >= line + end)) generator_func = gen_cmd_print0; else generator_func = gen_property_names; } else if (should_complete_cmd (line, end, "verify", &num, NULL) && num <= 2) { generator_func = gen_cmd_verify0; } else if (should_complete_cmd (line, end, "activate", &num, NULL) && num <= 2) { generator_func = gen_compat_devices; } else if (should_complete_cmd (line, end, "save", &num, NULL) && num <= 2) { generator_func = gen_cmd_save; } else if (should_complete_cmd (line, end, "help", &num, NULL) && num <= 2) generator_func = gen_nmcli_cmds_menu; } } else { /* Submenu - level 2 */ if (start == n1) generator_func = gen_nmcli_cmds_submenu; else { gboolean multi; if ( should_complete_cmd (line, end, "add", &num, NULL) || should_complete_cmd (line, end, "set", &num, NULL)) { if (num <= 2 && should_complete_files (prompt_tmp, line)) rl_attempted_completion_over = 0; else if (should_complete_vpn_uuids (prompt_tmp, line)) { rl_completion_display_matches_hook = uuid_display_hook; generator_func = gen_vpn_uuids; } else if ( should_complete_property_values (prompt_tmp, NULL, &multi) && (num <= 2 || multi)) { generator_func = gen_property_values; } else if (should_complete_boolean (prompt_tmp, NULL) && num <= 2) generator_func = gen_func_bool_values; } if (should_complete_cmd (line, end, "print", &num, NULL) && num <= 2) generator_func = gen_cmd_print2; else if (should_complete_cmd (line, end, "help", &num, NULL) && num <= 2) generator_func = gen_nmcli_cmds_submenu; } } } if (generator_func) match_array = rl_completion_matches (text, generator_func); g_free (prompt_tmp); g_free (word); return match_array; } #define NMCLI_EDITOR_HISTORY ".nmcli-history" static void load_history_cmds (const char *uuid) { GKeyFile *kf; char *filename; char **keys; char *line; size_t i; GError *err = NULL; filename = g_build_filename (g_get_home_dir (), NMCLI_EDITOR_HISTORY, NULL); kf = g_key_file_new (); if (!g_key_file_load_from_file (kf, filename, G_KEY_FILE_KEEP_COMMENTS, &err)) { if (g_error_matches (err, G_KEY_FILE_ERROR, G_KEY_FILE_ERROR_PARSE)) g_print ("Warning: %s parse error: %s\n", filename, err->message); g_key_file_free (kf); g_free (filename); return; } keys = g_key_file_get_keys (kf, uuid, NULL, NULL); for (i = 0; keys && keys[i]; i++) { line = g_key_file_get_string (kf, uuid, keys[i], NULL); if (line && *line) add_history (line); g_free (line); } g_strfreev (keys); g_key_file_free (kf); g_free (filename); } static void save_history_cmds (const char *uuid) { HIST_ENTRY **hist = NULL; GKeyFile *kf; char *filename; size_t i; char *key; char *data; gsize len = 0; GError *err = NULL; hist = history_list (); if (hist) { filename = g_build_filename (g_get_home_dir (), NMCLI_EDITOR_HISTORY, NULL); kf = g_key_file_new (); if (!g_key_file_load_from_file (kf, filename, G_KEY_FILE_KEEP_COMMENTS, &err)) { if ( !g_error_matches (err, G_FILE_ERROR, G_FILE_ERROR_NOENT) && !g_error_matches (err, G_KEY_FILE_ERROR, G_KEY_FILE_ERROR_NOT_FOUND)) { g_print ("Warning: %s parse error: %s\n", filename, err->message); g_key_file_free (kf); g_free (filename); g_clear_error (&err); return; } g_clear_error (&err); } /* Remove previous history group and save new history entries */ g_key_file_remove_group (kf, uuid, NULL); for (i = 0; hist[i]; i++) { key = g_strdup_printf ("%zd", i); g_key_file_set_string (kf, uuid, key, hist[i]->line); g_free (key); } /* Write history to file */ data = g_key_file_to_data (kf, &len, NULL); if (data) { g_file_set_contents (filename, data, len, NULL); g_free (data); } g_key_file_free (kf); g_free (filename); } } /*----------------------------------------------------------------------------*/ static void editor_show_connection (NMConnection *connection, NmCli *nmc) { nmc->print_output = NMC_PRINT_PRETTY; nmc->multiline_output = TRUE; nmc->escape_values = 0; /* Remove any previous data */ nmc_empty_output_fields (nmc); nmc_connection_profile_details (connection, nmc, nmc->editor_show_secrets); } static void editor_show_setting (NMSetting *setting, NmCli *nmc) { g_print (_("['%s' setting values]\n"), nm_setting_get_name (setting)); nmc->print_output = NMC_PRINT_NORMAL; nmc->multiline_output = TRUE; nmc->escape_values = 0; /* Remove any previous data */ nmc_empty_output_fields (nmc); setting_details (setting, nmc, NULL, nmc->editor_show_secrets); } typedef enum { NMC_EDITOR_MAIN_CMD_UNKNOWN = 0, NMC_EDITOR_MAIN_CMD_GOTO, NMC_EDITOR_MAIN_CMD_REMOVE, NMC_EDITOR_MAIN_CMD_SET, NMC_EDITOR_MAIN_CMD_DESCRIBE, NMC_EDITOR_MAIN_CMD_PRINT, NMC_EDITOR_MAIN_CMD_VERIFY, NMC_EDITOR_MAIN_CMD_SAVE, NMC_EDITOR_MAIN_CMD_ACTIVATE, NMC_EDITOR_MAIN_CMD_BACK, NMC_EDITOR_MAIN_CMD_HELP, NMC_EDITOR_MAIN_CMD_NMCLI, NMC_EDITOR_MAIN_CMD_QUIT, } NmcEditorMainCmd; static NmcEditorMainCmd parse_editor_main_cmd (const char *cmd, char **cmd_arg) { NmcEditorMainCmd editor_cmd = NMC_EDITOR_MAIN_CMD_UNKNOWN; char **vec; vec = nmc_strsplit_set (cmd, " \t", 2); if (g_strv_length (vec) < 1) { if (cmd_arg) *cmd_arg = NULL; return NMC_EDITOR_MAIN_CMD_UNKNOWN; } if (matches (vec[0], "goto") == 0) editor_cmd = NMC_EDITOR_MAIN_CMD_GOTO; else if (matches (vec[0], "remove") == 0) editor_cmd = NMC_EDITOR_MAIN_CMD_REMOVE; else if (matches (vec[0], "set") == 0) editor_cmd = NMC_EDITOR_MAIN_CMD_SET; else if (matches (vec[0], "describe") == 0) editor_cmd = NMC_EDITOR_MAIN_CMD_DESCRIBE; else if (matches (vec[0], "print") == 0) editor_cmd = NMC_EDITOR_MAIN_CMD_PRINT; else if (matches (vec[0], "verify") == 0) editor_cmd = NMC_EDITOR_MAIN_CMD_VERIFY; else if (matches (vec[0], "save") == 0) editor_cmd = NMC_EDITOR_MAIN_CMD_SAVE; else if (matches (vec[0], "activate") == 0) editor_cmd = NMC_EDITOR_MAIN_CMD_ACTIVATE; else if (matches (vec[0], "back") == 0) editor_cmd = NMC_EDITOR_MAIN_CMD_BACK; else if (matches (vec[0], "help") == 0 || strcmp (vec[0], "?") == 0) editor_cmd = NMC_EDITOR_MAIN_CMD_HELP; else if (matches (vec[0], "quit") == 0) editor_cmd = NMC_EDITOR_MAIN_CMD_QUIT; else if (matches (vec[0], "nmcli") == 0) editor_cmd = NMC_EDITOR_MAIN_CMD_NMCLI; /* set pointer to command argument */ if (cmd_arg) *cmd_arg = vec[1] ? g_strstrip (g_strdup (vec[1])) : NULL; g_strfreev (vec); return editor_cmd; } static void editor_main_usage (void) { g_print ("------------------------------------------------------------------------------\n"); /* TRANSLATORS: do not translate command names and keywords before :: * However, you should translate terms enclosed in <>. */ g_print (_("---[ Main menu ]---\n" "goto [ | ] :: go to a setting or property\n" "remove [.] | :: remove setting or reset property value\n" "set [. ] :: set property value\n" "describe [.] :: describe property\n" "print [all | [.]] :: print the connection\n" "verify [all | fix] :: verify the connection\n" "save [persistent|temporary] :: save the connection\n" "activate [] [/|] :: activate the connection\n" "back :: go one level up (back)\n" "help/? [] :: print this help\n" "nmcli :: nmcli configuration\n" "quit :: exit nmcli\n")); g_print ("------------------------------------------------------------------------------\n"); } static void editor_main_help (const char *command) { if (!command) editor_main_usage (); else { /* detailed command descriptions */ NmcEditorMainCmd cmd = parse_editor_main_cmd (command, NULL); switch (cmd) { case NMC_EDITOR_MAIN_CMD_GOTO: g_print (_("goto [.] | :: enter setting/property for editing\n\n" "This command enters into a setting or property for editing it.\n\n" "Examples: nmcli> goto connection\n" " nmcli connection> goto secondaries\n" " nmcli> goto ipv4.addresses\n")); break; case NMC_EDITOR_MAIN_CMD_REMOVE: g_print (_("remove [.] :: remove setting or reset property value\n\n" "This command removes an entire setting from the connection, or if a property\n" "is given, resets that property to the default value.\n\n" "Examples: nmcli> remove wifi-sec\n" " nmcli> remove eth.mtu\n")); break; case NMC_EDITOR_MAIN_CMD_SET: g_print (_("set [. ] :: set property value\n\n" "This command sets property value.\n\n" "Example: nmcli> set con.id My connection\n")); break; case NMC_EDITOR_MAIN_CMD_DESCRIBE: g_print (_("describe [.] :: describe property\n\n" "Shows property description. You can consult nm-settings(5) " "manual page to see all NM settings and properties.\n")); break; case NMC_EDITOR_MAIN_CMD_PRINT: g_print (_("print [all] :: print setting or connection values\n\n" "Shows current property or the whole connection.\n\n" "Example: nmcli ipv4> print all\n")); break; case NMC_EDITOR_MAIN_CMD_VERIFY: g_print (_("verify [all | fix] :: verify setting or connection validity\n\n" "Verifies whether the setting or connection is valid and can be saved later.\n" "It indicates invalid values on error. Some errors may be fixed automatically\n" "by 'fix' option.\n\n" "Examples: nmcli> verify\n" " nmcli> verify fix\n" " nmcli bond> verify\n")); break; case NMC_EDITOR_MAIN_CMD_SAVE: g_print (_("save [persistent|temporary] :: save the connection\n\n" "Sends the connection profile to NetworkManager that either will save it\n" "persistently, or will only keep it in memory. 'save' without an argument\n" "means 'save persistent'.\n" "Note that once you save the profile persistently those settings are saved\n" "across reboot or restart. Subsequent changes can also be temporary or\n" "persistent, but any temporary changes will not persist across reboot or\n" "restart. If you want to fully remove the persistent connection, the connection\n" "profile must be deleted.\n")); break; case NMC_EDITOR_MAIN_CMD_ACTIVATE: g_print (_("activate [] [/|] :: activate the connection\n\n" "Activates the connection.\n\n" "Available options:\n" " - device the connection will be activated on\n" "/| - AP (Wi-Fi) or NSP (WiMAX) (prepend with / when is not specified)\n")); break; case NMC_EDITOR_MAIN_CMD_BACK: g_print (_("back :: go to upper menu level\n\n")); break; case NMC_EDITOR_MAIN_CMD_HELP: g_print (_("help/? [] :: help for the nmcli commands\n\n")); break; case NMC_EDITOR_MAIN_CMD_NMCLI: g_print (_("nmcli [ ] :: nmcli configuration\n\n" "Configures nmcli. The following options are available:\n" "status-line yes | no [default: no]\n" "save-confirmation yes | no [default: yes]\n" "show-secrets yes | no [default: no]\n" "prompt-color | <0-8> [default: 0]\n" "%s" /* color table description */ "\n" "Examples: nmcli> nmcli status-line yes\n" " nmcli> nmcli save-confirmation no\n" " nmcli> nmcli prompt-color 3\n"), " 0 = normal\n" " 1 = \33[30mblack\33[0m\n" " 2 = \33[31mred\33[0m\n" " 3 = \33[32mgreen\33[0m\n" " 4 = \33[33myellow\33[0m\n" " 5 = \33[34mblue\33[0m\n" " 6 = \33[35mmagenta\33[0m\n" " 7 = \33[36mcyan\33[0m\n" " 8 = \33[37mwhite\33[0m\n"); break; case NMC_EDITOR_MAIN_CMD_QUIT: g_print (_("quit :: exit nmcli\n\n" "This command exits nmcli. When the connection being edited " "is not saved, the user is asked to confirm the action.\n")); break; default: g_print (_("Unknown command: '%s'\n"), command); break; } } } typedef enum { NMC_EDITOR_SUB_CMD_UNKNOWN = 0, NMC_EDITOR_SUB_CMD_SET, NMC_EDITOR_SUB_CMD_ADD, NMC_EDITOR_SUB_CMD_CHANGE, NMC_EDITOR_SUB_CMD_REMOVE, NMC_EDITOR_SUB_CMD_DESCRIBE, NMC_EDITOR_SUB_CMD_PRINT, NMC_EDITOR_SUB_CMD_BACK, NMC_EDITOR_SUB_CMD_HELP, NMC_EDITOR_SUB_CMD_QUIT } NmcEditorSubCmd; static NmcEditorSubCmd parse_editor_sub_cmd (const char *cmd, char **cmd_arg) { NmcEditorSubCmd editor_cmd = NMC_EDITOR_SUB_CMD_UNKNOWN; char **vec; vec = nmc_strsplit_set (cmd, " \t", 2); if (g_strv_length (vec) < 1) { if (cmd_arg) *cmd_arg = NULL; return NMC_EDITOR_SUB_CMD_UNKNOWN; } if (matches (vec[0], "set") == 0) editor_cmd = NMC_EDITOR_SUB_CMD_SET; else if (matches (vec[0], "add") == 0) editor_cmd = NMC_EDITOR_SUB_CMD_ADD; else if (matches (vec[0], "change") == 0) editor_cmd = NMC_EDITOR_SUB_CMD_CHANGE; else if (matches (vec[0], "remove") == 0) editor_cmd = NMC_EDITOR_SUB_CMD_REMOVE; else if (matches (vec[0], "describe") == 0) editor_cmd = NMC_EDITOR_SUB_CMD_DESCRIBE; else if (matches (vec[0], "print") == 0) editor_cmd = NMC_EDITOR_SUB_CMD_PRINT; else if (matches (vec[0], "back") == 0) editor_cmd = NMC_EDITOR_SUB_CMD_BACK; else if (matches (vec[0], "help") == 0 || strcmp (vec[0], "?") == 0) editor_cmd = NMC_EDITOR_SUB_CMD_HELP; else if (matches (vec[0], "quit") == 0) editor_cmd = NMC_EDITOR_SUB_CMD_QUIT; /* set pointer to command argument */ if (cmd_arg) *cmd_arg = g_strdup (vec[1]); g_strfreev (vec); return editor_cmd; } static void editor_sub_help (void) { g_print ("------------------------------------------------------------------------------\n"); /* TRANSLATORS: do not translate command names and keywords before :: * However, you should translate terms enclosed in <>. */ g_print (_("---[ Property menu ]---\n" "set [] :: set new value\n" "add [] :: add new option to the property\n" "change :: change current value\n" "remove [ |