// SPDX-License-Identifier: GPL-2.0+ /* * Copyright (C) 2008 - 2017 Red Hat, Inc. */ #include "nm-default.h" #include "nms-ifcfg-rh-utils.h" #include #include "nm-core-internal.h" #include "NetworkManagerUtils.h" #include "nms-ifcfg-rh-common.h" /*****************************************************************************/ gboolean nms_ifcfg_rh_utils_parse_unhandled_spec (const char *unhandled_spec, const char **out_unmanaged_spec, const char **out_unrecognized_spec) { if (unhandled_spec) { if (NM_STR_HAS_PREFIX (unhandled_spec, "unmanaged:")) { NM_SET_OUT (out_unmanaged_spec, &unhandled_spec[NM_STRLEN ("unmanaged:")]); NM_SET_OUT (out_unrecognized_spec, NULL); return TRUE; } if (NM_STR_HAS_PREFIX (unhandled_spec, "unrecognized:")) { NM_SET_OUT (out_unmanaged_spec, NULL); NM_SET_OUT (out_unrecognized_spec, &unhandled_spec[NM_STRLEN ("unrecognized:")]); return TRUE; } } NM_SET_OUT (out_unmanaged_spec, NULL); NM_SET_OUT (out_unrecognized_spec, NULL); return FALSE; } /*****************************************************************************/ /* * Check ';[a-fA-F0-9]{8}' file suffix used for temporary files by rpm when * installing packages. * * Implementation taken from upstart. */ static gboolean check_rpm_temp_suffix (const char *path) { const char *ptr; g_return_val_if_fail (path != NULL, FALSE); /* Matches *;[a-fA-F0-9]{8}; used by rpm */ ptr = strrchr (path, ';'); if ( ptr && strspn (ptr + 1, "abcdefABCDEF0123456789") == 8 && !ptr[9]) return TRUE; return FALSE; } static gboolean check_suffix (const char *base, const char *tag) { int len, tag_len; g_return_val_if_fail (base != NULL, TRUE); g_return_val_if_fail (tag != NULL, TRUE); len = strlen (base); tag_len = strlen (tag); if ((len > tag_len) && !g_ascii_strcasecmp (base + len - tag_len, tag)) return TRUE; return FALSE; } gboolean utils_should_ignore_file (const char *filename, gboolean only_ifcfg) { gs_free char *base = NULL; g_return_val_if_fail (filename != NULL, TRUE); base = g_path_get_basename (filename); /* Only handle ifcfg, keys, and routes files */ if (strncmp (base, IFCFG_TAG, strlen (IFCFG_TAG)) != 0) { if (only_ifcfg) return TRUE; else if ( strncmp (base, KEYS_TAG, strlen (KEYS_TAG)) != 0 && strncmp (base, ROUTE_TAG, strlen (ROUTE_TAG)) != 0 && strncmp (base, ROUTE6_TAG, strlen (ROUTE6_TAG)) != 0) return TRUE; } /* But not those that have certain suffixes */ if ( check_suffix (base, BAK_TAG) || check_suffix (base, TILDE_TAG) || check_suffix (base, ORIG_TAG) || check_suffix (base, REJ_TAG) || check_suffix (base, RPMNEW_TAG) || check_suffix (base, AUGNEW_TAG) || check_suffix (base, AUGTMP_TAG) || check_rpm_temp_suffix (base)) return TRUE; return FALSE; } char * utils_cert_path (const char *parent, const char *suffix, const char *extension) { gs_free char *dir = NULL; const char *name; g_return_val_if_fail (parent, NULL); g_return_val_if_fail (suffix, NULL); g_return_val_if_fail (extension, NULL); name = utils_get_ifcfg_name (parent, FALSE); g_return_val_if_fail (name, NULL); dir = g_path_get_dirname (parent); return g_strdup_printf ("%s/%s-%s.%s", dir, name, suffix, extension); } const char * utils_get_ifcfg_name (const char *file, gboolean only_ifcfg) { const char *name; g_return_val_if_fail (file != NULL, NULL); name = strrchr (file, '/'); if (!name) name = file; else name++; if (!*name) return NULL; #define MATCH_TAG_AND_RETURN(name, TAG) \ G_STMT_START { \ if (strncmp (name, TAG, NM_STRLEN (TAG)) == 0) { \ name += NM_STRLEN (TAG); \ if (name[0] == '\0') \ return NULL; \ else \ return name; \ } \ } G_STMT_END /* Do not detect alias files and return 'eth0:0' instead of 'eth0'. * Unfortunately, we cannot be sure that our files don't contain colons, * so we cannot reject files with colons. * * Instead, you must not call utils_get_ifcfg_name() with an alias file * or files that are ignored. */ MATCH_TAG_AND_RETURN (name, IFCFG_TAG); if (!only_ifcfg) { MATCH_TAG_AND_RETURN (name, KEYS_TAG); MATCH_TAG_AND_RETURN (name, ROUTE_TAG); MATCH_TAG_AND_RETURN (name, ROUTE6_TAG); } return NULL; } /* Used to get any ifcfg/extra file path from any other ifcfg/extra path * in the form . */ static char * utils_get_extra_path (const char *parent, const char *tag) { char *item_path = NULL, *dirname; const char *name; g_return_val_if_fail (parent != NULL, NULL); g_return_val_if_fail (tag != NULL, NULL); dirname = g_path_get_dirname (parent); if (!dirname) g_return_val_if_reached (NULL); name = utils_get_ifcfg_name (parent, FALSE); if (name) { if (!strcmp (dirname, ".")) item_path = g_strdup_printf ("%s%s", tag, name); else item_path = g_strdup_printf ("%s/%s%s", dirname, tag, name); } g_free (dirname); return item_path; } char * utils_get_ifcfg_path (const char *parent) { return utils_get_extra_path (parent, IFCFG_TAG); } char * utils_get_keys_path (const char *parent) { return utils_get_extra_path (parent, KEYS_TAG); } char * utils_get_route_path (const char *parent) { return utils_get_extra_path (parent, ROUTE_TAG); } char * utils_get_route6_path (const char *parent) { return utils_get_extra_path (parent, ROUTE6_TAG); } shvarFile * utils_get_extra_ifcfg (const char *parent, const char *tag, gboolean should_create) { shvarFile *ifcfg = NULL; char *path; path = utils_get_extra_path (parent, tag); if (!path) return NULL; if (should_create && !g_file_test (path, G_FILE_TEST_EXISTS)) ifcfg = svCreateFile (path); if (!ifcfg) ifcfg = svOpenFile (path, NULL); g_free (path); return ifcfg; } shvarFile * utils_get_keys_ifcfg (const char *parent, gboolean should_create) { return utils_get_extra_ifcfg (parent, KEYS_TAG, should_create); } shvarFile * utils_get_route_ifcfg (const char *parent, gboolean should_create) { return utils_get_extra_ifcfg (parent, ROUTE_TAG, should_create); } /* Finds out if route file has new or older format * Returns TRUE - new syntax (ADDRESS=a.b.c.d ...), error opening file or empty * FALSE - older syntax, i.e. argument to 'ip route add' (1.2.3.0/24 via 11.22.33.44) */ gboolean utils_has_route_file_new_syntax (const char *filename) { gs_free char *contents_data = NULL; gsize len; g_return_val_if_fail (filename != NULL, TRUE); if (!g_file_get_contents (filename, &contents_data, &len, NULL)) return TRUE; return utils_has_route_file_new_syntax_content (contents_data, len); } gboolean utils_has_route_file_new_syntax_content (const char *contents, gsize len) { if (len <= 0) return TRUE; while (TRUE) { const char *line = contents; char *eol; gboolean found = FALSE; /* matches regex "^[[:space:]]*ADDRESS[0-9]+=" */ eol = (char *) strchr (contents, '\n'); if (eol) { eol[0] = '\0'; contents = &eol[1]; } line = nm_str_skip_leading_spaces (line); if (NM_STR_HAS_PREFIX (line, "ADDRESS")) { line += NM_STRLEN ("ADDRESS"); if (g_ascii_isdigit (line[0])) { while (g_ascii_isdigit ((++line)[0])) { /* pass */ } if (line[0] == '=') found = TRUE; } } if (eol) { /* restore the line ending. We don't want to mangle the content from * POV of the caller. */ eol[0] = '\n'; } if (found) return TRUE; if (!eol) return FALSE; } } gboolean utils_has_complex_routes (const char *filename, int addr_family) { g_return_val_if_fail (filename, TRUE); if (NM_IN_SET (addr_family, AF_UNSPEC, AF_INET)) { gs_free char *rules = utils_get_extra_path (filename, RULE_TAG); if (g_file_test (rules, G_FILE_TEST_EXISTS)) return TRUE; } if (NM_IN_SET (addr_family, AF_UNSPEC, AF_INET6)) { gs_free char *rules = utils_get_extra_path (filename, RULE6_TAG); if (g_file_test (rules, G_FILE_TEST_EXISTS)) return TRUE; } return FALSE; } /* Find out if the 'alias' file name might be an alias file for 'ifcfg' file name, * or any alias when 'ifcfg' is NULL. Does not check that it's actually a valid * alias name; that happens in reader.c */ gboolean utils_is_ifcfg_alias_file (const char *alias, const char *ifcfg) { g_return_val_if_fail (alias != NULL, FALSE); if (strncmp (alias, IFCFG_TAG, strlen (IFCFG_TAG))) return FALSE; if (ifcfg) { size_t len = strlen (ifcfg); return (strncmp (alias, ifcfg, len) == 0 && alias[len] == ':'); } else { return (strchr (alias, ':') != NULL); } } char * utils_detect_ifcfg_path (const char *path, gboolean only_ifcfg) { const char *base; g_return_val_if_fail (path != NULL, NULL); if (utils_should_ignore_file (path, only_ifcfg)) return NULL; base = strrchr (path, '/'); if (!base) base = path; else base += 1; if (NM_STR_HAS_PREFIX (base, IFCFG_TAG)) { if (base[NM_STRLEN (IFCFG_TAG)] == '\0') return NULL; if (utils_is_ifcfg_alias_file (base, NULL)) { gs_free char *ifcfg = NULL; char *ptr; ifcfg = g_strdup (path); ptr = strrchr (ifcfg, ':'); if ( ptr && ptr > ifcfg && !strchr (ptr, '/')) { *ptr = '\0'; if (g_file_test (ifcfg, G_FILE_TEST_EXISTS)) { /* the file has a colon, so it is probably an alias. * To be ~more~ certain that this is an alias file, * check whether a corresponding base file exists. */ if (only_ifcfg) return NULL; return g_steal_pointer (&ifcfg); } } } return g_strdup (path); } if (only_ifcfg) return NULL; return utils_get_ifcfg_path (path); } void nms_ifcfg_rh_utils_user_key_encode (const char *key, GString *str_buffer) { gsize i; nm_assert (key); nm_assert (str_buffer); for (i = 0; key[i]; i++) { char ch = key[i]; /* we encode the key in only upper case letters, digits, and underscore. * As we expect lower-case letters to be more common, we encode lower-case * letters as upper case, and upper-case letters with a leading underscore. */ if (ch >= '0' && ch <= '9') { g_string_append_c (str_buffer, ch); continue; } if (ch >= 'a' && ch <= 'z') { g_string_append_c (str_buffer, ch - 'a' + 'A'); continue; } if (ch == '.') { g_string_append (str_buffer, "__"); continue; } if (ch >= 'A' && ch <= 'Z') { g_string_append_c (str_buffer, '_'); g_string_append_c (str_buffer, ch); continue; } g_string_append_printf (str_buffer, "_%03o", (unsigned) ch); } } gboolean nms_ifcfg_rh_utils_user_key_decode (const char *name, GString *str_buffer) { gsize i; nm_assert (name); nm_assert (str_buffer); if (!name[0]) return FALSE; for (i = 0; name[i]; ) { char ch = name[i]; if (ch >= '0' && ch <= '9') { g_string_append_c (str_buffer, ch); i++; continue; } if (ch >= 'A' && ch <= 'Z') { g_string_append_c (str_buffer, ch - 'A' + 'a'); i++; continue; } if (ch == '_') { ch = name[i + 1]; if (ch == '_') { g_string_append_c (str_buffer, '.'); i += 2; continue; } if (ch >= 'A' && ch <= 'Z') { g_string_append_c (str_buffer, ch); i += 2; continue; } if (ch >= '0' && ch <= '7') { char ch2, ch3; unsigned v; ch2 = name[i + 2]; if (!(ch2 >= '0' && ch2 <= '7')) return FALSE; ch3 = name[i + 3]; if (!(ch3 >= '0' && ch3 <= '7')) return FALSE; #define OCTAL_VALUE(ch) ((unsigned) ((ch) - '0')) v = (OCTAL_VALUE (ch) << 6) + (OCTAL_VALUE (ch2) << 3) + OCTAL_VALUE (ch3); if ( v > 0xFF || v == 0) return FALSE; ch = (char) v; if ( (ch >= 'A' && ch <= 'Z') || (ch >= '0' && ch <= '9') || (ch == '.') || (ch >= 'a' && ch <= 'z')) { /* such characters are not expected to be encoded via * octal representation. The encoding is invalid. */ return FALSE; } g_string_append_c (str_buffer, ch); i += 4; continue; } return FALSE; } return FALSE; } return TRUE; } /*****************************************************************************/ const char *const _nm_ethtool_ifcfg_names[] = { #define ETHT_NAME(eid, ename) [eid] = ""ename"" /* indexed by NMEthtoolID */ ETHT_NAME (NM_ETHTOOL_ID_COALESCE_ADAPTIVE_RX, "adaptive-rx"), ETHT_NAME (NM_ETHTOOL_ID_COALESCE_ADAPTIVE_TX, "adaptive-tx"), ETHT_NAME (NM_ETHTOOL_ID_COALESCE_RX_FRAMES, "rx-frames"), ETHT_NAME (NM_ETHTOOL_ID_COALESCE_RX_FRAMES_HIGH, "rx-frames-high"), ETHT_NAME (NM_ETHTOOL_ID_COALESCE_RX_FRAMES_IRQ, "rx-frames-irq"), ETHT_NAME (NM_ETHTOOL_ID_COALESCE_RX_FRAMES_LOW, "rx-frames-low"), ETHT_NAME (NM_ETHTOOL_ID_COALESCE_PKT_RATE_HIGH, "pkt-rate-high"), ETHT_NAME (NM_ETHTOOL_ID_COALESCE_PKT_RATE_LOW, "pkt-rate-low"), ETHT_NAME (NM_ETHTOOL_ID_COALESCE_RX_USECS, "rx-usecs"), ETHT_NAME (NM_ETHTOOL_ID_COALESCE_RX_USECS_HIGH, "rx-usecs-high"), ETHT_NAME (NM_ETHTOOL_ID_COALESCE_RX_USECS_IRQ, "rx-usecs-irq"), ETHT_NAME (NM_ETHTOOL_ID_COALESCE_RX_USECS_LOW, "rx-usecs-low"), ETHT_NAME (NM_ETHTOOL_ID_COALESCE_SAMPLE_INTERVAL, "sample-interval"), ETHT_NAME (NM_ETHTOOL_ID_COALESCE_STATS_BLOCK_USECS, "stats-block-usecs"), ETHT_NAME (NM_ETHTOOL_ID_COALESCE_TX_FRAMES, "tx-frames"), ETHT_NAME (NM_ETHTOOL_ID_COALESCE_TX_FRAMES_HIGH, "tx-frames-high"), ETHT_NAME (NM_ETHTOOL_ID_COALESCE_TX_FRAMES_IRQ, "tx-frames-irq"), ETHT_NAME (NM_ETHTOOL_ID_COALESCE_TX_FRAMES_LOW, "tx-frames-low"), ETHT_NAME (NM_ETHTOOL_ID_COALESCE_TX_USECS, "tx-usecs"), ETHT_NAME (NM_ETHTOOL_ID_COALESCE_TX_USECS_HIGH, "tx-usecs-high"), ETHT_NAME (NM_ETHTOOL_ID_COALESCE_TX_USECS_IRQ, "tx-usecs-irq"), ETHT_NAME (NM_ETHTOOL_ID_COALESCE_TX_USECS_LOW, "tx-usecs-low"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_ESP_HW_OFFLOAD, "esp-hw-offload"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_ESP_TX_CSUM_HW_OFFLOAD, "esp-tx-csum-hw-offload"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_FCOE_MTU, "fcoe-mtu"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_GRO, "gro"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_GSO, "gso"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_HIGHDMA, "highdma"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_HW_TC_OFFLOAD, "hw-tc-offload"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_L2_FWD_OFFLOAD, "l2-fwd-offload"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_LOOPBACK, "loopback"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_LRO, "lro"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_NTUPLE, "ntuple"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_RX, "rx"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_RXHASH, "rxhash"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_RXVLAN, "rxvlan"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_RX_ALL, "rx-all"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_RX_FCS, "rx-fcs"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_RX_GRO_HW, "rx-gro-hw"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_RX_UDP_TUNNEL_PORT_OFFLOAD, "rx-udp_tunnel-port-offload"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_RX_VLAN_FILTER, "rx-vlan-filter"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_RX_VLAN_STAG_FILTER, "rx-vlan-stag-filter"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_RX_VLAN_STAG_HW_PARSE, "rx-vlan-stag-hw-parse"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_SG, "sg"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TLS_HW_RECORD, "tls-hw-record"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TLS_HW_TX_OFFLOAD, "tls-hw-tx-offload"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TSO, "tso"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX, "tx"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TXVLAN, "txvlan"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX_CHECKSUM_FCOE_CRC, "tx-checksum-fcoe-crc"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX_CHECKSUM_IPV4, "tx-checksum-ipv4"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX_CHECKSUM_IPV6, "tx-checksum-ipv6"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX_CHECKSUM_IP_GENERIC, "tx-checksum-ip-generic"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX_CHECKSUM_SCTP, "tx-checksum-sctp"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX_ESP_SEGMENTATION, "tx-esp-segmentation"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX_FCOE_SEGMENTATION, "tx-fcoe-segmentation"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX_GRE_CSUM_SEGMENTATION, "tx-gre-csum-segmentation"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX_GRE_SEGMENTATION, "tx-gre-segmentation"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX_GSO_PARTIAL, "tx-gso-partial"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX_GSO_ROBUST, "tx-gso-robust"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX_IPXIP4_SEGMENTATION, "tx-ipxip4-segmentation"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX_IPXIP6_SEGMENTATION, "tx-ipxip6-segmentation"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX_NOCACHE_COPY, "tx-nocache-copy"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX_SCATTER_GATHER, "tx-scatter-gather"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX_SCATTER_GATHER_FRAGLIST, "tx-scatter-gather-fraglist"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX_SCTP_SEGMENTATION, "tx-sctp-segmentation"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX_TCP6_SEGMENTATION, "tx-tcp6-segmentation"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX_TCP_ECN_SEGMENTATION, "tx-tcp-ecn-segmentation"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX_TCP_MANGLEID_SEGMENTATION, "tx-tcp-mangleid-segmentation"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX_TCP_SEGMENTATION, "tx-tcp-segmentation"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX_UDP_SEGMENTATION, "tx-udp-segmentation"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX_UDP_TNL_CSUM_SEGMENTATION, "tx-udp_tnl-csum-segmentation"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX_UDP_TNL_SEGMENTATION, "tx-udp_tnl-segmentation"), ETHT_NAME (NM_ETHTOOL_ID_FEATURE_TX_VLAN_STAG_HW_INSERT, "tx-vlan-stag-hw-insert"), ETHT_NAME (NM_ETHTOOL_ID_RING_RX, "rx"), ETHT_NAME (NM_ETHTOOL_ID_RING_RX_JUMBO, "rx-jumbo"), ETHT_NAME (NM_ETHTOOL_ID_RING_RX_MINI, "rx-mini"), ETHT_NAME (NM_ETHTOOL_ID_RING_TX, "tx"), }; static NM_UTILS_STRING_TABLE_LOOKUP_DEFINE ( _get_ethtoolid_coalesce_by_name, NMEthtoolID, { nm_assert (name); }, { return NM_ETHTOOL_ID_UNKNOWN; }, { "adaptive-rx", NM_ETHTOOL_ID_COALESCE_ADAPTIVE_RX }, { "adaptive-tx", NM_ETHTOOL_ID_COALESCE_ADAPTIVE_TX }, { "pkt-rate-high", NM_ETHTOOL_ID_COALESCE_PKT_RATE_HIGH }, { "pkt-rate-low", NM_ETHTOOL_ID_COALESCE_PKT_RATE_LOW }, { "rx-frames", NM_ETHTOOL_ID_COALESCE_RX_FRAMES }, { "rx-frames-high", NM_ETHTOOL_ID_COALESCE_RX_FRAMES_HIGH }, { "rx-frames-irq", NM_ETHTOOL_ID_COALESCE_RX_FRAMES_IRQ }, { "rx-frames-low", NM_ETHTOOL_ID_COALESCE_RX_FRAMES_LOW }, { "rx-usecs", NM_ETHTOOL_ID_COALESCE_RX_USECS }, { "rx-usecs-high", NM_ETHTOOL_ID_COALESCE_RX_USECS_HIGH }, { "rx-usecs-irq", NM_ETHTOOL_ID_COALESCE_RX_USECS_IRQ }, { "rx-usecs-low", NM_ETHTOOL_ID_COALESCE_RX_USECS_LOW }, { "sample-interval", NM_ETHTOOL_ID_COALESCE_SAMPLE_INTERVAL }, { "stats-block-usecs", NM_ETHTOOL_ID_COALESCE_STATS_BLOCK_USECS }, { "tx-frames", NM_ETHTOOL_ID_COALESCE_TX_FRAMES }, { "tx-frames-high", NM_ETHTOOL_ID_COALESCE_TX_FRAMES_HIGH }, { "tx-frames-irq", NM_ETHTOOL_ID_COALESCE_TX_FRAMES_IRQ }, { "tx-frames-low", NM_ETHTOOL_ID_COALESCE_TX_FRAMES_LOW }, { "tx-usecs", NM_ETHTOOL_ID_COALESCE_TX_USECS }, { "tx-usecs-high", NM_ETHTOOL_ID_COALESCE_TX_USECS_HIGH }, { "tx-usecs-irq", NM_ETHTOOL_ID_COALESCE_TX_USECS_IRQ }, { "tx-usecs-low", NM_ETHTOOL_ID_COALESCE_TX_USECS_LOW }, ); static NM_UTILS_STRING_TABLE_LOOKUP_DEFINE ( _get_ethtoolid_feature_by_name, NMEthtoolID, { nm_assert (name); }, { return NM_ETHTOOL_ID_UNKNOWN; }, /* Map the names from kernel/ethtool/ifcfg to NMEthtoolID. Note that ethtool utility has built-in * features and NetworkManager's API follows the naming of these built-in features, whenever * they exist. * For example, NM's "ethtool.feature-ntuple" corresponds to ethtool utility's "ntuple" * feature. However the underlying kernel feature is called "rx-ntuple-filter" (as reported * for ETH_SS_FEATURES). * * With ethtool utility, whose command line we attempt to parse here, the user can also * specify the name of the underlying kernel feature directly. So, check whether that is * the case and if yes, map them to the corresponding NetworkManager's features. * * That is why there are duplicate IDs in this list. */ { "esp-hw-offload", NM_ETHTOOL_ID_FEATURE_ESP_HW_OFFLOAD }, { "esp-tx-csum-hw-offload", NM_ETHTOOL_ID_FEATURE_ESP_TX_CSUM_HW_OFFLOAD }, { "fcoe-mtu", NM_ETHTOOL_ID_FEATURE_FCOE_MTU }, { "gro", NM_ETHTOOL_ID_FEATURE_GRO }, { "gso", NM_ETHTOOL_ID_FEATURE_GSO }, { "highdma", NM_ETHTOOL_ID_FEATURE_HIGHDMA }, { "hw-tc-offload", NM_ETHTOOL_ID_FEATURE_HW_TC_OFFLOAD }, { "l2-fwd-offload", NM_ETHTOOL_ID_FEATURE_L2_FWD_OFFLOAD }, { "loopback", NM_ETHTOOL_ID_FEATURE_LOOPBACK }, { "lro", NM_ETHTOOL_ID_FEATURE_LRO }, { "ntuple", NM_ETHTOOL_ID_FEATURE_NTUPLE }, { "rx", NM_ETHTOOL_ID_FEATURE_RX }, { "rx-all", NM_ETHTOOL_ID_FEATURE_RX_ALL }, { "rx-checksum", NM_ETHTOOL_ID_FEATURE_RX }, // kernel-only name { "rx-fcs", NM_ETHTOOL_ID_FEATURE_RX_FCS }, { "rx-gro", NM_ETHTOOL_ID_FEATURE_GRO }, // kernel-only name { "rx-gro-hw", NM_ETHTOOL_ID_FEATURE_RX_GRO_HW }, { "rx-hashing", NM_ETHTOOL_ID_FEATURE_RXHASH }, // kernel-only name { "rx-lro", NM_ETHTOOL_ID_FEATURE_LRO }, // kernel-only name { "rx-ntuple-filter", NM_ETHTOOL_ID_FEATURE_NTUPLE }, // kernel-only name { "rx-udp_tunnel-port-offload", NM_ETHTOOL_ID_FEATURE_RX_UDP_TUNNEL_PORT_OFFLOAD }, { "rx-vlan-filter", NM_ETHTOOL_ID_FEATURE_RX_VLAN_FILTER }, { "rx-vlan-hw-parse", NM_ETHTOOL_ID_FEATURE_RXVLAN }, // kernel-only name { "rx-vlan-stag-filter", NM_ETHTOOL_ID_FEATURE_RX_VLAN_STAG_FILTER }, { "rx-vlan-stag-hw-parse", NM_ETHTOOL_ID_FEATURE_RX_VLAN_STAG_HW_PARSE }, { "rxhash", NM_ETHTOOL_ID_FEATURE_RXHASH }, { "rxvlan", NM_ETHTOOL_ID_FEATURE_RXVLAN }, { "sg", NM_ETHTOOL_ID_FEATURE_SG }, { "tls-hw-record", NM_ETHTOOL_ID_FEATURE_TLS_HW_RECORD }, { "tls-hw-tx-offload", NM_ETHTOOL_ID_FEATURE_TLS_HW_TX_OFFLOAD }, { "tso", NM_ETHTOOL_ID_FEATURE_TSO }, { "tx", NM_ETHTOOL_ID_FEATURE_TX }, { "tx-checksum-fcoe-crc", NM_ETHTOOL_ID_FEATURE_TX_CHECKSUM_FCOE_CRC }, { "tx-checksum-ip-generic", NM_ETHTOOL_ID_FEATURE_TX_CHECKSUM_IP_GENERIC }, { "tx-checksum-ipv4", NM_ETHTOOL_ID_FEATURE_TX_CHECKSUM_IPV4 }, { "tx-checksum-ipv6", NM_ETHTOOL_ID_FEATURE_TX_CHECKSUM_IPV6 }, { "tx-checksum-sctp", NM_ETHTOOL_ID_FEATURE_TX_CHECKSUM_SCTP }, { "tx-esp-segmentation", NM_ETHTOOL_ID_FEATURE_TX_ESP_SEGMENTATION }, { "tx-fcoe-segmentation", NM_ETHTOOL_ID_FEATURE_TX_FCOE_SEGMENTATION }, { "tx-generic-segmentation", NM_ETHTOOL_ID_FEATURE_GSO }, // kernel-only name { "tx-gre-csum-segmentation", NM_ETHTOOL_ID_FEATURE_TX_GRE_CSUM_SEGMENTATION }, { "tx-gre-segmentation", NM_ETHTOOL_ID_FEATURE_TX_GRE_SEGMENTATION }, { "tx-gso-partial", NM_ETHTOOL_ID_FEATURE_TX_GSO_PARTIAL }, { "tx-gso-robust", NM_ETHTOOL_ID_FEATURE_TX_GSO_ROBUST }, { "tx-ipxip4-segmentation", NM_ETHTOOL_ID_FEATURE_TX_IPXIP4_SEGMENTATION }, { "tx-ipxip6-segmentation", NM_ETHTOOL_ID_FEATURE_TX_IPXIP6_SEGMENTATION }, { "tx-nocache-copy", NM_ETHTOOL_ID_FEATURE_TX_NOCACHE_COPY }, { "tx-scatter-gather", NM_ETHTOOL_ID_FEATURE_TX_SCATTER_GATHER }, { "tx-scatter-gather-fraglist", NM_ETHTOOL_ID_FEATURE_TX_SCATTER_GATHER_FRAGLIST }, { "tx-sctp-segmentation", NM_ETHTOOL_ID_FEATURE_TX_SCTP_SEGMENTATION }, { "tx-tcp-ecn-segmentation", NM_ETHTOOL_ID_FEATURE_TX_TCP_ECN_SEGMENTATION }, { "tx-tcp-mangleid-segmentation", NM_ETHTOOL_ID_FEATURE_TX_TCP_MANGLEID_SEGMENTATION }, { "tx-tcp-segmentation", NM_ETHTOOL_ID_FEATURE_TX_TCP_SEGMENTATION }, { "tx-tcp6-segmentation", NM_ETHTOOL_ID_FEATURE_TX_TCP6_SEGMENTATION }, { "tx-udp-segmentation", NM_ETHTOOL_ID_FEATURE_TX_UDP_SEGMENTATION }, { "tx-udp_tnl-csum-segmentation", NM_ETHTOOL_ID_FEATURE_TX_UDP_TNL_CSUM_SEGMENTATION }, { "tx-udp_tnl-segmentation", NM_ETHTOOL_ID_FEATURE_TX_UDP_TNL_SEGMENTATION }, { "tx-vlan-hw-insert", NM_ETHTOOL_ID_FEATURE_TXVLAN }, // kernel-only name { "tx-vlan-stag-hw-insert", NM_ETHTOOL_ID_FEATURE_TX_VLAN_STAG_HW_INSERT }, { "txvlan", NM_ETHTOOL_ID_FEATURE_TXVLAN }, ); static NM_UTILS_STRING_TABLE_LOOKUP_DEFINE ( _get_ethtoolid_ring_by_name, NMEthtoolID, { nm_assert (name); }, { return NM_ETHTOOL_ID_UNKNOWN; }, { "rx", NM_ETHTOOL_ID_RING_RX }, { "rx-jumbo", NM_ETHTOOL_ID_RING_RX_JUMBO }, { "rx-mini", NM_ETHTOOL_ID_RING_RX_MINI }, { "tx", NM_ETHTOOL_ID_RING_TX }, ); const NMEthtoolData * nms_ifcfg_rh_utils_get_ethtool_by_name (const char *name, NMEthtoolType ethtool_type) { NMEthtoolID id; switch (ethtool_type) { case NM_ETHTOOL_TYPE_COALESCE: id = _get_ethtoolid_coalesce_by_name (name); break; case NM_ETHTOOL_TYPE_FEATURE: id = _get_ethtoolid_feature_by_name (name); break; case NM_ETHTOOL_TYPE_RING: id = _get_ethtoolid_ring_by_name (name); break; default: nm_assert_not_reached(); return NULL; } if (id == NM_ETHTOOL_ID_UNKNOWN) return NULL; nm_assert (_NM_INT_NOT_NEGATIVE (id)); nm_assert (id < G_N_ELEMENTS (nm_ethtool_data)); nm_assert (nm_ethtool_data[id]); nm_assert (nm_ethtool_data[id]->id == id); return nm_ethtool_data[id]; } /*****************************************************************************/ gboolean nms_ifcfg_rh_utils_is_numbered_tag_impl (const char *key, const char *tag, gsize tag_len, gint64 *out_idx) { gint64 idx; nm_assert (key); nm_assert (tag); nm_assert (tag_len == strlen (tag)); nm_assert (tag_len > 0); if (strncmp (key, tag, tag_len) != 0) return FALSE; key += tag_len; if (key[0] == '\0') { /* The key has no number suffix. We treat this also as a numbered * tag, and it is for certain tags like "IPADDR", but not so much * for others like "ROUTING_RULE_". The caller may want to handle * this case specially. */ NM_SET_OUT (out_idx, -1); return TRUE; } if (!NM_STRCHAR_ALL (key, ch, g_ascii_isdigit (ch))) return FALSE; idx = _nm_utils_ascii_str_to_int64 (key, 10, 0, G_MAXINT64, -1); if (idx == -1) return FALSE; NM_SET_OUT (out_idx, idx); return TRUE; } /*****************************************************************************/ #define _KEY_TYPE(key, flags) { .key_name = ""key"", .key_flags = ((NMS_IFCFG_KEY_TYPE_WELL_KNOWN) | (flags)), } const NMSIfcfgKeyTypeInfo nms_ifcfg_well_known_keys[] = { _KEY_TYPE ("ACD_TIMEOUT", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("ADDRESS", NMS_IFCFG_KEY_TYPE_IS_NUMBERED ), _KEY_TYPE ("ARPING_WAIT", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("AUTH_RETRIES", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("AUTOCONNECT_PRIORITY", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("AUTOCONNECT_RETRIES", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("AUTOCONNECT_SLAVES", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("BAND", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("BONDING_MASTER", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("BONDING_OPTS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("BOOTPROTO", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("BRIDGE", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("BRIDGE_MACADDR", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("BRIDGE_PORT_VLANS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("BRIDGE_UUID", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("BRIDGE_VLANS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("BRIDGING_OPTS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("BROWSER_ONLY", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("BSSID", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("CHANNEL", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("CIPHER_GROUP", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("CIPHER_PAIRWISE", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("CONNECTED_MODE", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("CONNECTION_METERED", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("CTCPROT", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("DCB", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE (KEY_DCB_APP_FCOE_ADVERTISE, NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE (KEY_DCB_APP_FCOE_ENABLE, NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE (KEY_DCB_APP_FCOE_MODE, NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("DCB_APP_FCOE_PRIORITY", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE (KEY_DCB_APP_FCOE_WILLING, NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE (KEY_DCB_APP_FIP_ADVERTISE, NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE (KEY_DCB_APP_FIP_ENABLE, NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("DCB_APP_FIP_PRIORITY", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE (KEY_DCB_APP_FIP_WILLING, NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE (KEY_DCB_APP_ISCSI_ADVERTISE, NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE (KEY_DCB_APP_ISCSI_ENABLE, NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("DCB_APP_ISCSI_PRIORITY", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE (KEY_DCB_APP_ISCSI_WILLING, NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE (KEY_DCB_PFC_ADVERTISE, NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE (KEY_DCB_PFC_ENABLE, NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE (KEY_DCB_PFC_UP, NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE (KEY_DCB_PFC_WILLING, NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE (KEY_DCB_PG_ADVERTISE, NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE (KEY_DCB_PG_ENABLE, NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE (KEY_DCB_PG_ID, NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE (KEY_DCB_PG_PCT, NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE (KEY_DCB_PG_STRICT, NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE (KEY_DCB_PG_UP2TC, NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE (KEY_DCB_PG_UPPCT, NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE (KEY_DCB_PG_WILLING, NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("DEFAULTKEY", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("DEFROUTE", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("DELAY", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("DEVICE", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("DEVICETYPE", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("DEVTIMEOUT", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("DHCPV6C", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("DHCPV6_DUID", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("DHCPV6_HOSTNAME", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("DHCPV6_HOSTNAME_FLAGS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("DHCPV6_IAID", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("DHCPV6_SEND_HOSTNAME", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("DHCP_CLIENT_ID", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("DHCP_FQDN", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("DHCP_HOSTNAME", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("DHCP_HOSTNAME_FLAGS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("DHCP_IAID", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("DHCP_SEND_HOSTNAME", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("DHCPv6_DUID", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("DHCPv6_IAID", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("DNS", NMS_IFCFG_KEY_TYPE_IS_NUMBERED ), _KEY_TYPE ("DOMAIN", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("ESSID", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("ETHTOOL_OPTS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("ETHTOOL_WAKE_ON_LAN", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("FILS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("FILTER", NMS_IFCFG_KEY_TYPE_IS_NUMBERED ), _KEY_TYPE ("GATEWAY", NMS_IFCFG_KEY_TYPE_IS_NUMBERED ), _KEY_TYPE ("GATEWAYDEV", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("GATEWAY_PING_TIMEOUT", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("GENERATE_MAC_ADDRESS_MASK", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("GVRP", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("HWADDR", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("HWADDR_BLACKLIST", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_ALTSUBJECT_MATCHES", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_ANON_IDENTITY", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_AUTH_TIMEOUT", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_CA_CERT", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_CA_CERT_PASSWORD", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_CA_CERT_PASSWORD_FLAGS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_CA_PATH", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_CLIENT_CERT", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_CLIENT_CERT_PASSWORD", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_CLIENT_CERT_PASSWORD_FLAGS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_DOMAIN_MATCH", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_DOMAIN_SUFFIX_MATCH", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_EAP_METHODS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_FAST_PROVISIONING", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_IDENTITY", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_INNER_AUTH_METHODS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_INNER_CA_CERT", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_INNER_CA_CERT_PASSWORD", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_INNER_CA_CERT_PASSWORD_FLAGS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_INNER_CLIENT_CERT", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_INNER_CLIENT_CERT_PASSWORD", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_INNER_CLIENT_CERT_PASSWORD_FLAGS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_INNER_PRIVATE_KEY", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_INNER_PRIVATE_KEY_PASSWORD", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_INNER_PRIVATE_KEY_PASSWORD_FLAGS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_OPTIONAL", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_PAC_FILE", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_PASSWORD", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_PASSWORD_FLAGS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_PASSWORD_RAW", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_PASSWORD_RAW_FLAGS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_PEAP_FORCE_NEW_LABEL", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_PEAP_VERSION", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_PHASE1_AUTH_FLAGS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_PHASE2_ALTSUBJECT_MATCHES", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_PHASE2_CA_PATH", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_PHASE2_DOMAIN_MATCH", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_PHASE2_DOMAIN_SUFFIX_MATCH", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_PHASE2_SUBJECT_MATCH", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_PIN", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_PIN_FLAGS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_PRIVATE_KEY", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_PRIVATE_KEY_PASSWORD", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_PRIVATE_KEY_PASSWORD_FLAGS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_SUBJECT_MATCH", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IEEE_8021X_SYSTEM_CA_CERTS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPADDR", NMS_IFCFG_KEY_TYPE_IS_NUMBERED ), _KEY_TYPE ("IPV4_DHCP_TIMEOUT", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV4_DNS_PRIORITY", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV4_FAILURE_FATAL", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV4_ROUTE_METRIC", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV4_ROUTE_TABLE", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV6ADDR", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV6ADDR_SECONDARIES", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV6FORWARDING", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV6INIT", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV6TUNNELIPV4", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV6_ADDR_GEN_MODE", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV6_AUTOCONF", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV6_DEFAULTDEV", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV6_DEFAULTGW", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV6_DEFROUTE", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV6_DHCP_TIMEOUT", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV6_DISABLED", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV6_DNS_PRIORITY", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV6_DOMAIN", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV6_FAILURE_FATAL", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV6_PEERDNS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV6_PEERROUTES", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV6_PRIVACY", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV6_PRIVACY_PREFER_PUBLIC_IP", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV6_RA_TIMEOUT", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV6_RES_OPTIONS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV6_ROUTE_METRIC", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV6_ROUTE_TABLE", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("IPV6_TOKEN", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("KEY", NMS_IFCFG_KEY_TYPE_IS_NUMBERED ), _KEY_TYPE ("KEY_MGMT", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("KEY_PASSPHRASE", NMS_IFCFG_KEY_TYPE_IS_NUMBERED ), _KEY_TYPE ("KEY_TYPE", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("LLDP", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("LLMNR", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("MACADDR", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("MAC_ADDRESS_RANDOMIZATION", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("MASTER", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("MASTER_UUID", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("MATCH_DRIVER", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("MATCH_INTERFACE_NAME", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("MATCH_KERNEL_COMMAND_LINE", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("MATCH_PATH", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("MDNS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("METRIC", NMS_IFCFG_KEY_TYPE_IS_NUMBERED ), _KEY_TYPE ("MODE", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("MTU", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("MUD_URL", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("MULTI_CONNECT", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("MVRP", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("NAME", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("NETMASK", NMS_IFCFG_KEY_TYPE_IS_NUMBERED ), _KEY_TYPE ("NETTYPE", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("NM_CONTROLLED", NMS_IFCFG_KEY_TYPE_IS_PLAIN | NMS_IFCFG_KEY_TYPE_KEEP_WHEN_DIRTY ), _KEY_TYPE ("NM_USER_", NMS_IFCFG_KEY_TYPE_IS_PREFIX ), _KEY_TYPE ("ONBOOT", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("OPTIONS", NMS_IFCFG_KEY_TYPE_IS_NUMBERED ), _KEY_TYPE ("OVS_PORT", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("OVS_PORT_UUID", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("PAC_SCRIPT", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("PAC_URL", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("PEERDNS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("PEERROUTES", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("PHYSDEV", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("PKEY", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("PKEY_ID", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("PMF", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("PORTNAME", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("POWERSAVE", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("PREFIX", NMS_IFCFG_KEY_TYPE_IS_NUMBERED ), _KEY_TYPE ("PROXY_METHOD", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("QDISC", NMS_IFCFG_KEY_TYPE_IS_NUMBERED ), _KEY_TYPE ("REORDER_HDR", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("RES_OPTIONS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("ROUTING_RULE6_", NMS_IFCFG_KEY_TYPE_IS_NUMBERED ), _KEY_TYPE ("ROUTING_RULE_", NMS_IFCFG_KEY_TYPE_IS_NUMBERED ), _KEY_TYPE ("SEARCH", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("SECONDARY_UUIDS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("SECURITYMODE", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("SLAVE", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("SRIOV_AUTOPROBE_DRIVERS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("SRIOV_TOTAL_VFS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("SRIOV_VF", NMS_IFCFG_KEY_TYPE_IS_NUMBERED ), _KEY_TYPE ("SSID_HIDDEN", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("STABLE_ID", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("STP", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("SUBCHANNELS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("TEAM_CONFIG", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("TEAM_MASTER", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("TEAM_MASTER_UUID", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("TEAM_PORT_CONFIG", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("TYPE", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("USERS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("UUID", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("VLAN", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("VLAN_EGRESS_PRIORITY_MAP", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("VLAN_FLAGS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("VLAN_ID", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("VLAN_INGRESS_PRIORITY_MAP", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("VRF", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("VRF_UUID", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("WEP_KEY_FLAGS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("WPA_ALLOW_WPA", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("WPA_ALLOW_WPA2", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("WPA_PSK", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("WPA_PSK_FLAGS", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("WPS_METHOD", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), _KEY_TYPE ("ZONE", NMS_IFCFG_KEY_TYPE_IS_PLAIN ), }; const NMSIfcfgKeyTypeInfo * nms_ifcfg_well_known_key_find_info (const char *key, gssize *out_idx) { gssize idx; G_STATIC_ASSERT (G_STRUCT_OFFSET (NMSIfcfgKeyTypeInfo, key_name) == 0); idx = nm_utils_array_find_binary_search (nms_ifcfg_well_known_keys, sizeof (nms_ifcfg_well_known_keys[0]), G_N_ELEMENTS (nms_ifcfg_well_known_keys), &key, nm_strcmp_p_with_data, NULL); NM_SET_OUT (out_idx, idx); if (idx < 0) return NULL; return &nms_ifcfg_well_known_keys[idx]; } const NMSIfcfgKeyTypeInfo * nms_ifcfg_rh_utils_is_well_known_key (const char *key) { const NMSIfcfgKeyTypeInfo *ti; gssize idx; nm_assert (key); ti = nms_ifcfg_well_known_key_find_info (key, &idx); if (ti) { if (NM_FLAGS_ANY (ti->key_flags, NMS_IFCFG_KEY_TYPE_IS_PLAIN | NMS_IFCFG_KEY_TYPE_IS_NUMBERED)) { /* These tags are valid on full match. * * Note that numbered tags we also treat as valid if they have no * suffix. That is correct for "IPADDR", but less so for "ROUTING_RULE_". */ return ti; } nm_assert (NM_FLAGS_HAS (ti->key_flags, NMS_IFCFG_KEY_TYPE_IS_PREFIX)); /* a prefix tag needs some extra suffix afterwards to be valid. */ return NULL; } /* Not found. Maybe it's a numbered/prefixed key? With idx we got the index where * we should insert the key. Since the numbered/prefixed keys share a prefix, we can * find the possible prefix at the index before the insert position. */ idx = ~idx; if (idx == 0) return NULL; ti = &nms_ifcfg_well_known_keys[idx - 1]; if (NM_FLAGS_HAS (ti->key_flags, NMS_IFCFG_KEY_TYPE_IS_NUMBERED)) { if (nms_ifcfg_rh_utils_is_numbered_tag (key, ti->key_name, NULL)) return ti; return NULL; } if (NM_FLAGS_HAS (ti->key_flags, NMS_IFCFG_KEY_TYPE_IS_PREFIX)) { gsize l = strlen (ti->key_name); if ( strncmp (key, ti->key_name, l) == 0 && key[l] != '\0') return ti; return NULL; } return NULL; }