#include "nm-conf.h" #include #include /* Linux provides a lightweight facility that can generate UUIDs for us. */ static void get_uuid(char* target) { FILE* fp = fopen("/proc/sys/kernel/random/uuid", "r"); if (fgets(target, NM_MAX_LEN_UUID, fp) == NULL) { di_error("get_uuid() failed: %s", strerror(errno)); exit(1); } target[NM_MAX_LEN_UUID-1] = '\0'; // clear the newline fclose(fp); } /* Functions for printing informations in Network Manager format. */ void nm_write_connection(FILE *config_file, nm_connection connection) { fprintf(config_file, "\n%s\n", NM_SETTINGS_CONNECTION); fprintf(config_file, "id=%s\n", connection.id); fprintf(config_file, "uuid=%s\n", connection.uuid); fprintf(config_file, "type=%s\n", (connection.type == WIFI) ? NM_DEFAULT_WIRELESS : NM_DEFAULT_WIRED); } #ifdef WIRELESS void nm_write_wireless_specific_options(FILE *config_file, struct nm_config_info *nmconf) { nm_wireless wireless = nmconf->wireless; fprintf(config_file, "\n%s\n", NM_SETTINGS_WIRELESS); fprintf(config_file, "ssid=%s\n", wireless.ssid); fprintf(config_file, "mode=%s\n", (wireless.mode == AD_HOC) ? "adhoc" : "infrastructure"); if (strcmp(wireless.mac_addr, "") && nmconf->connection.manual == 1) { fprintf(config_file, "mac=%s\n", wireless.mac_addr); } if (wireless.is_secured == TRUE) { fprintf(config_file, "security=%s\n", NM_DEFAULT_WIRELESS_SECURITY); } } #endif void nm_write_wired_specific_options(FILE *config_file, struct nm_config_info *nmconf) { nm_wired wired = nmconf->wired; fprintf(config_file, "\n%s\n", NM_SETTINGS_WIRED); if (strcmp(wired.mac_addr, "") && nmconf->connection.manual == 1) { fprintf(config_file, "mac=%s\n", wired.mac_addr); } } #ifdef WIRELESS void nm_write_wireless_security(FILE *config_file, nm_wireless_security wireless_security) { fprintf(config_file, "\n%s\n", NM_SETTINGS_WIRELESS_SECURITY); if (wireless_security.key_mgmt == WPA_PSK) { fprintf(config_file, "key-mgmt=%s\n", "wpa-psk"); fprintf(config_file, "psk=%s\n", wireless_security.psk); } else { fprintf(config_file, "key-mgmt=%s\n", "none"); fprintf(config_file, "auth-alg=%s\n", (wireless_security.auth_alg == OPEN) ? "open" : "shared"); fprintf(config_file, "wep-key0=%s\n", wireless_security.wep_key0); fprintf(config_file, "wep-key-type=%d\n", wireless_security.wep_key_type); } } #endif void nm_write_static_ipvX(FILE *config_file, nm_ipvX ipvx) { char buffer[NM_MAX_LEN_BUF], addr[NM_MAX_LEN_IPV4]; int i; /* Get DNS in printable format. */ memset(buffer, 0, NM_MAX_LEN_BUF); for (i = 0; !empty_str(ipvx.nameservers[i]); i++) { strcat(buffer, ipvx.nameservers[i]); strcat(buffer, ";"); } if (strcmp(buffer, "")) { fprintf(config_file, "dns=%s\n", buffer); } /* Get addresses in printable format. */ memset(buffer, 0, NM_MAX_LEN_BUF); /* Write IP address to the buffer. */ strcat(buffer, ipvx.ip_address); strcat(buffer, "/"); /* Write netmask to the buffer. */ sprintf(addr, "%d", ipvx.masklen); strcat(buffer, addr); /* Write gateway address to the buffer. */ if (!empty_str(ipvx.gateway)) { strcat(buffer, ","); strcat(buffer, ipvx.gateway); } /* Write config to the configuration file. */ fprintf(config_file, "address1=%s\n", buffer); } void nm_write_ipv4(FILE *config_file, nm_ipvX ipv4) { fprintf(config_file, "\n%s\n", NM_SETTINGS_IPV4); if (ipv4.method == AUTO) { fprintf(config_file, "method=%s\n", "auto"); } else { fprintf(config_file, "method=%s\n", "manual"); nm_write_static_ipvX(config_file, ipv4); } } void nm_write_ipv6(FILE *config_file, nm_ipvX ipv6) { fprintf(config_file, "\n%s\n", NM_SETTINGS_IPV6); if (ipv6.method == AUTO) { fprintf(config_file, "method=%s\n", "auto"); fprintf(config_file, "ip6-privacy=2\n"); } else if (ipv6.method == MANUAL) { fprintf(config_file, "method=%s\n", "manual"); nm_write_static_ipvX(config_file, ipv6); } else if (ipv6.method == IGNORE) { fprintf(config_file, "method=%s\n", "ignore"); } } /* Write Network Manager config file. */ void nm_write_configuration(struct nm_config_info nmconf) { FILE *config_file; char buffer[NM_MAX_LEN_BUF]; /* Create the directory for the config file and clear any possible * previous files found there. */ sprintf(buffer, "mkdir -p %s", NM_CONFIG_FILE_PATH); di_exec_shell(buffer); /* If the directory exist mkdir will do nothing, so just remove every file * there. Rely on the fact that for now netcfg only does config for one * interface. */ sprintf(buffer, "rm %s/*", NM_CONFIG_FILE_PATH); di_exec_shell(buffer); /* Open file using its full path. */ sprintf(buffer, "%s/%s", NM_CONFIG_FILE_PATH, nmconf.connection.id); config_file = fopen(buffer, "w"); if (config_file == NULL) { di_info("Unable to open file for writing network-manager " "configuration. The connection id (%s) might not be " "set to a proper value.", nmconf.connection.id); return; } if (fchmod(fileno(config_file), 0600) != 0) { di_error("network-manager connection file cannot be protected " "from reading: %s", strerror(errno)); exit(1); } nm_write_connection(config_file, nmconf.connection); if (nmconf.connection.type == WIRED) { nm_write_wired_specific_options(config_file, &nmconf); } #ifdef WIRELESS else { nm_write_wireless_specific_options(config_file, &nmconf); if (nmconf.wireless.is_secured) { nm_write_wireless_security(config_file, nmconf.wireless_security); } } #endif nm_write_ipv4(config_file, nmconf.ipv4); nm_write_ipv6(config_file, nmconf.ipv6); fclose(config_file); nm_write_connection_type(nmconf); } /* Write info about how the network was configured to a specific file, in * order to be used in the finish install script. */ void nm_write_connection_type(struct nm_config_info nmconf) { FILE *f = fopen(NM_CONNECTION_FILE, "w"); if (nmconf.connection.type == WIFI) { fprintf(f, "connection type: wireless\n"); } else { fprintf(f, "connection type: wired\n"); } if (nmconf.connection.type == WIFI && nmconf.wireless.is_secured) { fprintf(f, "security: secured\n"); } else { fprintf(f, "security: unsecured\n"); } fclose(f); } /* Functions for extracting information from netcfg variables. */ /* Get info for the connection setting for wireless networks. */ #ifdef WIRELESS void nm_get_wireless_connection(struct netcfg_interface *niface, nm_connection *connection) { /* Use the wireless network name for connection id. */ snprintf(connection->id, NM_MAX_LEN_ID, "%s", niface->essid); /* Generate uuid. */ get_uuid(connection->uuid); connection->type = WIFI; } #endif /* Get info for the connection setting for wired networks. */ void nm_get_wired_connection(nm_connection *connection) { /* This is the first wired connection. */ snprintf(connection->id, NM_MAX_LEN_ID, NM_DEFAULT_WIRED_NAME); /* Generate uuid. */ get_uuid(connection->uuid); connection->type = WIRED; } /* Get MAC address from default file. */ void nm_get_mac_address(char *interface, char *mac_addr) { char file_name[NM_MAX_LEN_PATH]; FILE *file; snprintf(file_name, NM_MAX_LEN_PATH, NM_DEFAULT_PATH_FOR_MAC, interface); file = fopen(file_name, "r"); if (file == NULL) { mac_addr[0] = '\0'; /* Empty string means don't write MAC. */ } else { int i; if (fscanf(file, "%s\n", mac_addr) > 0) { /* Should be upper case. */ for (i = 0; mac_addr[i]; i++) { mac_addr[i] = toupper(mac_addr[i]); } } } } #ifdef WIRELESS void nm_get_wireless_specific_options(struct netcfg_interface *niface, nm_wireless *wireless) { strncpy(wireless->ssid, niface->essid, NM_MAX_LEN_SSID); nm_get_mac_address(niface->name, wireless->mac_addr); /* Decide mode. */ if (niface->mode == ADHOC) { wireless->mode = AD_HOC; } else { wireless->mode = INFRASTRUCTURE; } /* In netcfg, you have to chose WEP and leave the key empty for an * unsecure connection. */ if (niface->wifi_security == REPLY_WEP && niface->wepkey == NULL) { wireless->is_secured = FALSE; } else { wireless->is_secured = TRUE; } } #endif /* Only set MAC address, the others have good defaults in NM. */ void nm_get_wired_specific_options(struct netcfg_interface *niface, nm_wired *wired) { nm_get_mac_address(niface->name, wired->mac_addr); } /* Security type for wireless networks. */ #ifdef WIRELESS void nm_get_wireless_security(struct netcfg_interface *niface, nm_wireless_security *wireless_security) { if (niface->wifi_security == REPLY_WPA) { wireless_security->key_mgmt = WPA_PSK; memset(wireless_security->psk, 0, NM_MAX_LEN_WPA_PSK); strncpy(wireless_security->psk, niface->passphrase, NM_MAX_LEN_WPA_PSK - 1); } else { wireless_security->key_mgmt = WEP_KEY; memset(wireless_security->wep_key0, 0, NM_MAX_LEN_WEP_KEY); iw_in_key(niface->wepkey, wireless_security->wep_key0); /* Only options supported by netcfg for now. */ wireless_security->wep_key_type = HEX_ASCII; wireless_security->auth_alg = OPEN; } } #endif /* Save IPv4 settings. */ void nm_get_ipv4(struct netcfg_interface *niface, nm_ipvX *ipv4) { /* DHCP wasn't used and there is no IPv4 address saved => didn't use ipv4 * so won't use it in the future. */ if (niface->dhcp == 0 && niface->address_family != AF_INET) { ipv4->used = 0; } else { ipv4->used = 1; } if (niface->dhcp == 1) { ipv4->method = AUTO; } else if (niface->address_family == AF_INET) { int i; ipv4->method = MANUAL; ipv4->ip_address = niface->ipaddress; ipv4->gateway = niface->gateway; ipv4->masklen = niface->masklen; for (i = 0; i < NETCFG_NAMESERVERS_MAX; i++) { ipv4->nameservers[i] = niface->nameservers[i]; } } else { /* IPv4 might always be activated in the future. */ ipv4->method = AUTO; } } /* For the moment, just set it to ignore. */ void nm_get_ipv6(struct netcfg_interface *niface, nm_ipvX *ipv6) { /* No IPv6 address, no dhcpv6, nor slaac, so wasn't used. */ if (niface->address_family != AF_INET6 && niface->dhcpv6 == 0 && niface->slaac == 0) { ipv6->used = 0; } else { ipv6->used = 1; } if (niface->dhcpv6 == 1 || niface->slaac == 1) { ipv6->method = AUTO; } else if (niface->address_family == AF_INET6) { int i; ipv6->method = MANUAL; ipv6->ip_address = niface->ipaddress; ipv6->gateway = niface->gateway; ipv6->masklen = niface->masklen; for (i = 0; i < NETCFG_NAMESERVERS_MAX; i++) { ipv6->nameservers[i] = niface->nameservers[i]; } } else { /* IPv6 might always be activated in the future. */ ipv6->method = AUTO; } } /* Extract all configs for a wireless interface, from both global netcfg * values and other resources. */ #ifdef WIRELESS void nm_get_wireless_config(struct netcfg_interface *niface, struct nm_config_info *nmconf) { nm_get_wireless_connection(niface, &(nmconf->connection)); nm_get_wireless_specific_options(niface, &(nmconf->wireless)); if (nmconf->wireless.is_secured == TRUE) { nm_get_wireless_security(niface, &(nmconf->wireless_security)); } nm_get_ipv4(niface, &(nmconf->ipv4)); nm_get_ipv6(niface, &(nmconf->ipv6)); } #endif /* Extract all configs for a wired interface. */ void nm_get_wired_config(struct netcfg_interface *niface, struct nm_config_info *nmconf) { nm_get_wired_connection(&(nmconf->connection)); nm_get_wired_specific_options(niface, &(nmconf->wired)); nm_get_ipv4(niface, &(nmconf->ipv4)); nm_get_ipv6(niface, &(nmconf->ipv6)); } /* Getting configurations for NM relies on netcfrg global variables. */ void nm_get_configuration(struct netcfg_interface *niface, struct nm_config_info *nmconf) { /* Decide if wireless configuration is needed. */ if (!is_wireless_iface(niface->name)) { nm_get_wired_config(niface, nmconf); } #ifdef WIRELESS else { nm_get_wireless_config(niface, nmconf); } #endif if (nmconf->ipv4.method == MANUAL || nmconf->ipv6.method == MANUAL) { /* Manual address family configuration should be bound to a MAC * address. Hence record this fact globally for the connection. */ nmconf->connection.manual = 1; } else { nmconf->connection.manual = 0; } }