/* vi: set sw=4 ts=4: */ /* * ifupdown for busybox * Copyright (c) 2002 Glenn McGrath * Copyright (c) 2003-2004 Erik Andersen * * Based on ifupdown v 0.6.4 by Anthony Towns * Copyright (c) 1999 Anthony Towns * * Changes to upstream version * Remove checks for kernel version, assume kernel version 2.2.0 or better. * Lines in the interfaces file cannot wrap. * To adhere to the FHS, the default state file is /var/run/ifstate * (defined via CONFIG_IFUPDOWN_IFSTATE_PATH) and can be overridden by build * configuration. * * Licensed under GPLv2 or later, see file LICENSE in this source tree. */ #include "libbb.h" /* After libbb.h, since it needs sys/types.h on some systems */ #include #include #define MAX_OPT_DEPTH 10 #define EUNBALBRACK 10001 #define EUNDEFVAR 10002 #define EUNBALPER 10000 #if ENABLE_FEATURE_IFUPDOWN_MAPPING #define MAX_INTERFACE_LENGTH 10 #endif #define UDHCPC_CMD_OPTIONS CONFIG_IFUPDOWN_UDHCPC_CMD_OPTIONS #define debug_noise(args...) /*fprintf(stderr, args)*/ /* Forward declaration */ struct interface_defn_t; typedef int execfn(char *command); struct method_t { const char *name; int (*up)(struct interface_defn_t *ifd, execfn *e) FAST_FUNC; int (*down)(struct interface_defn_t *ifd, execfn *e) FAST_FUNC; }; struct address_family_t { const char *name; int n_methods; const struct method_t *method; }; struct mapping_defn_t { struct mapping_defn_t *next; int max_matches; int n_matches; char **match; char *script; int max_mappings; int n_mappings; char **mapping; }; struct variable_t { char *name; char *value; }; struct interface_defn_t { const struct address_family_t *address_family; const struct method_t *method; char *iface; int max_options; int n_options; struct variable_t *option; }; struct interfaces_file_t { llist_t *autointerfaces; llist_t *ifaces; struct mapping_defn_t *mappings; }; #define OPTION_STR "anvf" IF_FEATURE_IFUPDOWN_MAPPING("m") "i:" enum { OPT_do_all = 0x1, OPT_no_act = 0x2, OPT_verbose = 0x4, OPT_force = 0x8, OPT_no_mappings = 0x10, }; #define DO_ALL (option_mask32 & OPT_do_all) #define NO_ACT (option_mask32 & OPT_no_act) #define VERBOSE (option_mask32 & OPT_verbose) #define FORCE (option_mask32 & OPT_force) #define NO_MAPPINGS (option_mask32 & OPT_no_mappings) struct globals { char **my_environ; const char *startup_PATH; } FIX_ALIASING; #define G (*(struct globals*)&bb_common_bufsiz1) #define INIT_G() do { } while (0) #if ENABLE_FEATURE_IFUPDOWN_IPV4 || ENABLE_FEATURE_IFUPDOWN_IPV6 static void addstr(char **bufp, const char *str, size_t str_length) { /* xasprintf trick will be smaller, but we are often * called with str_length == 1 - don't want to have * THAT much of malloc/freeing! */ char *buf = *bufp; int len = (buf ? strlen(buf) : 0); str_length++; buf = xrealloc(buf, len + str_length); /* copies at most str_length-1 chars! */ safe_strncpy(buf + len, str, str_length); *bufp = buf; } static int strncmpz(const char *l, const char *r, size_t llen) { int i = strncmp(l, r, llen); if (i == 0) return - (unsigned char)r[llen]; return i; } static char *get_var(const char *id, size_t idlen, struct interface_defn_t *ifd) { int i; if (strncmpz(id, "iface", idlen) == 0) { // ubuntu's ifup doesn't do this: //static char *label_buf; //char *result; //free(label_buf); //label_buf = xstrdup(ifd->iface); // Remove virtual iface suffix //result = strchrnul(label_buf, ':'); //*result = '\0'; //return label_buf; return ifd->iface; } if (strncmpz(id, "label", idlen) == 0) { return ifd->iface; } for (i = 0; i < ifd->n_options; i++) { if (strncmpz(id, ifd->option[i].name, idlen) == 0) { return ifd->option[i].value; } } return NULL; } # if ENABLE_FEATURE_IFUPDOWN_IP static int count_netmask_bits(const char *dotted_quad) { // int result; // unsigned a, b, c, d; // /* Found a netmask... Check if it is dotted quad */ // if (sscanf(dotted_quad, "%u.%u.%u.%u", &a, &b, &c, &d) != 4) // return -1; // if ((a|b|c|d) >> 8) // return -1; /* one of numbers is >= 256 */ // d |= (a << 24) | (b << 16) | (c << 8); /* IP */ // d = ~d; /* 11110000 -> 00001111 */ /* Shorter version */ int result; struct in_addr ip; unsigned d; if (inet_aton(dotted_quad, &ip) == 0) return -1; /* malformed dotted IP */ d = ntohl(ip.s_addr); /* IP in host order */ d = ~d; /* 11110000 -> 00001111 */ if (d & (d+1)) /* check that it is in 00001111 form */ return -1; /* no it is not */ result = 32; while (d) { d >>= 1; result--; } return result; } # endif static char *parse(const char *command, struct interface_defn_t *ifd) { size_t old_pos[MAX_OPT_DEPTH] = { 0 }; int okay[MAX_OPT_DEPTH] = { 1 }; int opt_depth = 1; char *result = NULL; while (*command) { switch (*command) { default: addstr(&result, command, 1); command++; break; case '\\': if (command[1]) { addstr(&result, command + 1, 1); command += 2; } else { addstr(&result, command, 1); command++; } break; case '[': if (command[1] == '[' && opt_depth < MAX_OPT_DEPTH) { old_pos[opt_depth] = result ? strlen(result) : 0; okay[opt_depth] = 1; opt_depth++; command += 2; } else { addstr(&result, "[", 1); command++; } break; case ']': if (command[1] == ']' && opt_depth > 1) { opt_depth--; if (!okay[opt_depth]) { result[old_pos[opt_depth]] = '\0'; } command += 2; } else { addstr(&result, "]", 1); command++; } break; case '%': { char *nextpercent; char *varvalue; command++; nextpercent = strchr(command, '%'); if (!nextpercent) { errno = EUNBALPER; free(result); return NULL; } varvalue = get_var(command, nextpercent - command, ifd); if (varvalue) { # if ENABLE_FEATURE_IFUPDOWN_IP /* "hwaddress
": * unlike ifconfig, ip doesnt want * (usually "ether" keyword). Skip it. */ if (strncmp(command, "hwaddress", 9) == 0) { varvalue = skip_whitespace(skip_non_whitespace(varvalue)); } # endif addstr(&result, varvalue, strlen(varvalue)); } else { # if ENABLE_FEATURE_IFUPDOWN_IP /* Sigh... Add a special case for 'ip' to convert from * dotted quad to bit count style netmasks. */ if (strncmp(command, "bnmask", 6) == 0) { unsigned res; varvalue = get_var("netmask", 7, ifd); if (varvalue) { res = count_netmask_bits(varvalue); if (res > 0) { const char *argument = utoa(res); addstr(&result, argument, strlen(argument)); command = nextpercent + 1; break; } } } # endif okay[opt_depth - 1] = 0; } command = nextpercent + 1; } break; } } if (opt_depth > 1) { errno = EUNBALBRACK; free(result); return NULL; } if (!okay[0]) { errno = EUNDEFVAR; free(result); return NULL; } return result; } /* execute() returns 1 for success and 0 for failure */ static int execute(const char *command, struct interface_defn_t *ifd, execfn *exec) { char *out; int ret; out = parse(command, ifd); if (!out) { /* parse error? */ return 0; } /* out == "": parsed ok but not all needed variables known, skip */ ret = out[0] ? (*exec)(out) : 1; free(out); if (ret != 1) { return 0; } return 1; } #endif /* FEATURE_IFUPDOWN_IPV4 || FEATURE_IFUPDOWN_IPV6 */ #if ENABLE_FEATURE_IFUPDOWN_IPV6 static int FAST_FUNC loopback_up6(struct interface_defn_t *ifd, execfn *exec) { # if ENABLE_FEATURE_IFUPDOWN_IP int result; result = execute("ip addr add ::1 dev %iface%", ifd, exec); result += execute("ip link set %iface% up", ifd, exec); return ((result == 2) ? 2 : 0); # else return execute("ifconfig %iface% add ::1", ifd, exec); # endif } static int FAST_FUNC loopback_down6(struct interface_defn_t *ifd, execfn *exec) { # if ENABLE_FEATURE_IFUPDOWN_IP return execute("ip link set %iface% down", ifd, exec); # else return execute("ifconfig %iface% del ::1", ifd, exec); # endif } static int FAST_FUNC manual_up_down6(struct interface_defn_t *ifd UNUSED_PARAM, execfn *exec UNUSED_PARAM) { return 1; } static int FAST_FUNC static_up6(struct interface_defn_t *ifd, execfn *exec) { int result; # if ENABLE_FEATURE_IFUPDOWN_IP result = execute("ip addr add %address%/%netmask% dev %iface%[[ label %label%]]", ifd, exec); result += execute("ip link set[[ mtu %mtu%]][[ addr %hwaddress%]] %iface% up", ifd, exec); /* Was: "[[ ip ....%gateway% ]]". Removed extra spaces w/o checking */ result += execute("[[ip route add ::/0 via %gateway%]]", ifd, exec); # else result = execute("ifconfig %iface%[[ media %media%]][[ hw %hwaddress%]][[ mtu %mtu%]] up", ifd, exec); result += execute("ifconfig %iface% add %address%/%netmask%", ifd, exec); result += execute("[[route -A inet6 add ::/0 gw %gateway%]]", ifd, exec); # endif return ((result == 3) ? 3 : 0); } static int FAST_FUNC static_down6(struct interface_defn_t *ifd, execfn *exec) { # if ENABLE_FEATURE_IFUPDOWN_IP return execute("ip link set %iface% down", ifd, exec); # else return execute("ifconfig %iface% down", ifd, exec); # endif } # if ENABLE_FEATURE_IFUPDOWN_IP static int FAST_FUNC v4tunnel_up(struct interface_defn_t *ifd, execfn *exec) { int result; result = execute("ip tunnel add %iface% mode sit remote " "%endpoint%[[ local %local%]][[ ttl %ttl%]]", ifd, exec); result += execute("ip link set %iface% up", ifd, exec); result += execute("ip addr add %address%/%netmask% dev %iface%", ifd, exec); result += execute("[[ip route add ::/0 via %gateway%]]", ifd, exec); return ((result == 4) ? 4 : 0); } static int FAST_FUNC v4tunnel_down(struct interface_defn_t * ifd, execfn * exec) { return execute("ip tunnel del %iface%", ifd, exec); } # endif static const struct method_t methods6[] = { # if ENABLE_FEATURE_IFUPDOWN_IP { "v4tunnel" , v4tunnel_up , v4tunnel_down , }, # endif { "static" , static_up6 , static_down6 , }, { "manual" , manual_up_down6 , manual_up_down6 , }, { "loopback" , loopback_up6 , loopback_down6 , }, }; static const struct address_family_t addr_inet6 = { "inet6", ARRAY_SIZE(methods6), methods6 }; #endif /* FEATURE_IFUPDOWN_IPV6 */ #if ENABLE_FEATURE_IFUPDOWN_IPV4 static int FAST_FUNC loopback_up(struct interface_defn_t *ifd, execfn *exec) { # if ENABLE_FEATURE_IFUPDOWN_IP int result; result = execute("ip addr add 127.0.0.1/8 dev %iface%", ifd, exec); result += execute("ip link set %iface% up", ifd, exec); return ((result == 2) ? 2 : 0); # else return execute("ifconfig %iface% 127.0.0.1 up", ifd, exec); # endif } static int FAST_FUNC loopback_down(struct interface_defn_t *ifd, execfn *exec) { # if ENABLE_FEATURE_IFUPDOWN_IP int result; result = execute("ip addr flush dev %iface%", ifd, exec); result += execute("ip link set %iface% down", ifd, exec); return ((result == 2) ? 2 : 0); # else return execute("ifconfig %iface% 127.0.0.1 down", ifd, exec); # endif } static int FAST_FUNC static_up(struct interface_defn_t *ifd, execfn *exec) { int result; # if ENABLE_FEATURE_IFUPDOWN_IP result = execute("ip addr add %address%/%bnmask%[[ broadcast %broadcast%]] " "dev %iface%[[ peer %pointopoint%]][[ label %label%]]", ifd, exec); result += execute("ip link set[[ mtu %mtu%]][[ addr %hwaddress%]] %iface% up", ifd, exec); result += execute("[[ip route add default via %gateway% dev %iface%]]", ifd, exec); return ((result == 3) ? 3 : 0); # else /* ifconfig said to set iface up before it processes hw %hwaddress%, * which then of course fails. Thus we run two separate ifconfig */ result = execute("ifconfig %iface%[[ hw %hwaddress%]][[ media %media%]][[ mtu %mtu%]] up", ifd, exec); result += execute("ifconfig %iface% %address% netmask %netmask%" "[[ broadcast %broadcast%]][[ pointopoint %pointopoint%]] ", ifd, exec); result += execute("[[route add default gw %gateway% %iface%]]", ifd, exec); return ((result == 3) ? 3 : 0); # endif } static int FAST_FUNC static_down(struct interface_defn_t *ifd, execfn *exec) { int result; # if ENABLE_FEATURE_IFUPDOWN_IP result = execute("ip addr flush dev %iface%", ifd, exec); result += execute("ip link set %iface% down", ifd, exec); # else /* result = execute("[[route del default gw %gateway% %iface%]]", ifd, exec); */ /* Bringing the interface down deletes the routes in itself. Otherwise this fails if we reference 'gateway' when using this from dhcp_down */ result = 1; result += execute("ifconfig %iface% down", ifd, exec); # endif return ((result == 2) ? 2 : 0); } # if ENABLE_FEATURE_IFUPDOWN_EXTERNAL_DHCP struct dhcp_client_t { const char *name; const char *startcmd; const char *stopcmd; }; static const struct dhcp_client_t ext_dhcp_clients[] = { { "dhcpcd", "dhcpcd[[ -h %hostname%]][[ -i %vendor%]][[ -I %client%]][[ -l %leasetime%]] %iface%", "dhcpcd -k %iface%", }, { "dhclient", "dhclient -pf /var/run/dhclient.%iface%.pid %iface%", "kill -9 `cat /var/run/dhclient.%iface%.pid` 2>/dev/null", }, { "pump", "pump -i %iface%[[ -h %hostname%]][[ -l %leasehours%]]", "pump -i %iface% -k", }, { "udhcpc", "udhcpc " UDHCPC_CMD_OPTIONS " -p /var/run/udhcpc.%iface%.pid -i %iface%[[ -H %hostname%]][[ -c %client%]]" "[[ -s %script%]][[ %udhcpc_opts%]]", "kill `cat /var/run/udhcpc.%iface%.pid` 2>/dev/null", }, }; # endif /* FEATURE_IFUPDOWN_EXTERNAL_DHCPC */ # if ENABLE_FEATURE_IFUPDOWN_EXTERNAL_DHCP static int FAST_FUNC dhcp_up(struct interface_defn_t *ifd, execfn *exec) { unsigned i; # if ENABLE_FEATURE_IFUPDOWN_IP /* ip doesn't up iface when it configures it (unlike ifconfig) */ if (!execute("ip link set[[ addr %hwaddress%]] %iface% up", ifd, exec)) return 0; # else /* needed if we have hwaddress on dhcp iface */ if (!execute("ifconfig %iface%[[ hw %hwaddress%]] up", ifd, exec)) return 0; # endif for (i = 0; i < ARRAY_SIZE(ext_dhcp_clients); i++) { if (exists_execable(ext_dhcp_clients[i].name)) return execute(ext_dhcp_clients[i].startcmd, ifd, exec); } bb_error_msg("no dhcp clients found"); return 0; } # elif ENABLE_UDHCPC static int FAST_FUNC dhcp_up(struct interface_defn_t *ifd, execfn *exec) { # if ENABLE_FEATURE_IFUPDOWN_IP /* ip doesn't up iface when it configures it (unlike ifconfig) */ if (!execute("ip link set[[ addr %hwaddress%]] %iface% up", ifd, exec)) return 0; # else /* needed if we have hwaddress on dhcp iface */ if (!execute("ifconfig %iface%[[ hw %hwaddress%]] up", ifd, exec)) return 0; # endif return execute("udhcpc " UDHCPC_CMD_OPTIONS " -p /var/run/udhcpc.%iface%.pid " "-i %iface%[[ -H %hostname%]][[ -c %client%]][[ -s %script%]][[ %udhcpc_opts%]]", ifd, exec); } # else static int FAST_FUNC dhcp_up(struct interface_defn_t *ifd UNUSED_PARAM, execfn *exec UNUSED_PARAM) { return 0; /* no dhcp support */ } # endif # if ENABLE_FEATURE_IFUPDOWN_EXTERNAL_DHCP static int FAST_FUNC dhcp_down(struct interface_defn_t *ifd, execfn *exec) { int result = 0; unsigned i; for (i = 0; i < ARRAY_SIZE(ext_dhcp_clients); i++) { if (exists_execable(ext_dhcp_clients[i].name)) { result = execute(ext_dhcp_clients[i].stopcmd, ifd, exec); if (result) break; } } if (!result) bb_error_msg("warning: no dhcp clients found and stopped"); /* Sleep a bit, otherwise static_down tries to bring down interface too soon, and it may come back up because udhcpc is still shutting down */ usleep(100000); result += static_down(ifd, exec); return ((result == 3) ? 3 : 0); } # elif ENABLE_UDHCPC static int FAST_FUNC dhcp_down(struct interface_defn_t *ifd, execfn *exec) { int result; result = execute( "test -f /var/run/udhcpc.%iface%.pid && " "kill `cat /var/run/udhcpc.%iface%.pid` 2>/dev/null", ifd, exec); /* Also bring the hardware interface down since killing the dhcp client alone doesn't do it. This enables consecutive ifup->ifdown->ifup */ /* Sleep a bit, otherwise static_down tries to bring down interface too soon, and it may come back up because udhcpc is still shutting down */ usleep(100000); result += static_down(ifd, exec); return ((result == 3) ? 3 : 0); } # else static int FAST_FUNC dhcp_down(struct interface_defn_t *ifd UNUSED_PARAM, execfn *exec UNUSED_PARAM) { return 0; /* no dhcp support */ } # endif static int FAST_FUNC manual_up_down(struct interface_defn_t *ifd UNUSED_PARAM, execfn *exec UNUSED_PARAM) { return 1; } static int FAST_FUNC bootp_up(struct interface_defn_t *ifd, execfn *exec) { return execute("bootpc[[ --bootfile %bootfile%]] --dev %iface%" "[[ --server %server%]][[ --hwaddr %hwaddr%]]" " --returniffail --serverbcast", ifd, exec); } static int FAST_FUNC ppp_up(struct interface_defn_t *ifd, execfn *exec) { return execute("pon[[ %provider%]]", ifd, exec); } static int FAST_FUNC ppp_down(struct interface_defn_t *ifd, execfn *exec) { return execute("poff[[ %provider%]]", ifd, exec); } static int FAST_FUNC wvdial_up(struct interface_defn_t *ifd, execfn *exec) { return execute("start-stop-daemon --start -x wvdial " "-p /var/run/wvdial.%iface% -b -m --[[ %provider%]]", ifd, exec); } static int FAST_FUNC wvdial_down(struct interface_defn_t *ifd, execfn *exec) { return execute("start-stop-daemon --stop -x wvdial " "-p /var/run/wvdial.%iface% -s 2", ifd, exec); } static const struct method_t methods[] = { { "manual" , manual_up_down, manual_up_down, }, { "wvdial" , wvdial_up , wvdial_down , }, { "ppp" , ppp_up , ppp_down , }, { "static" , static_up , static_down , }, { "bootp" , bootp_up , static_down , }, { "dhcp" , dhcp_up , dhcp_down , }, { "loopback", loopback_up , loopback_down , }, }; static const struct address_family_t addr_inet = { "inet", ARRAY_SIZE(methods), methods }; #endif /* FEATURE_IFUPDOWN_IPV4 */ /* Returns pointer to the next word, or NULL. * In 1st case, advances *buf to the word after this one. */ static char *next_word(char **buf) { unsigned length; char *word; /* Skip over leading whitespace */ word = skip_whitespace(*buf); /* Stop on EOL */ if (*word == '\0') return NULL; /* Find the length of this word (can't be 0) */ length = strcspn(word, " \t\n"); /* Unless we are already at NUL, store NUL and advance */ if (word[length] != '\0') word[length++] = '\0'; *buf = skip_whitespace(word + length); return word; } static const struct address_family_t *get_address_family(const struct address_family_t *const af[], char *name) { int i; if (!name) return NULL; for (i = 0; af[i]; i++) { if (strcmp(af[i]->name, name) == 0) { return af[i]; } } return NULL; } static const struct method_t *get_method(const struct address_family_t *af, char *name) { int i; if (!name) return NULL; /* TODO: use index_in_str_array() */ for (i = 0; i < af->n_methods; i++) { if (strcmp(af->method[i].name, name) == 0) { return &af->method[i]; } } return NULL; } static struct interfaces_file_t *read_interfaces(const char *filename) { /* Let's try to be compatible. * * "man 5 interfaces" says: * Lines starting with "#" are ignored. Note that end-of-line * comments are NOT supported, comments must be on a line of their own. * A line may be extended across multiple lines by making * the last character a backslash. * * Seen elsewhere in example config file: * A first non-blank "#" character makes the rest of the line * be ignored. Blank lines are ignored. Lines may be indented freely. * A "\" character at the very end of the line indicates the next line * should be treated as a continuation of the current one. */ #if ENABLE_FEATURE_IFUPDOWN_MAPPING struct mapping_defn_t *currmap = NULL; #endif struct interface_defn_t *currif = NULL; struct interfaces_file_t *defn; FILE *f; char *buf; char *first_word; char *rest_of_line; enum { NONE, IFACE, MAPPING } currently_processing = NONE; defn = xzalloc(sizeof(*defn)); f = xfopen_for_read(filename); while ((buf = xmalloc_fgetline(f)) != NULL) { #if ENABLE_DESKTOP /* Trailing "\" concatenates lines */ char *p; while ((p = last_char_is(buf, '\\')) != NULL) { *p = '\0'; rest_of_line = xmalloc_fgetline(f); if (!rest_of_line) break; p = xasprintf("%s%s", buf, rest_of_line); free(buf); free(rest_of_line); buf = p; } #endif rest_of_line = buf; first_word = next_word(&rest_of_line); if (!first_word || *first_word == '#') { free(buf); continue; /* blank/comment line */ } if (strcmp(first_word, "mapping") == 0) { #if ENABLE_FEATURE_IFUPDOWN_MAPPING currmap = xzalloc(sizeof(*currmap)); while ((first_word = next_word(&rest_of_line)) != NULL) { currmap->match = xrealloc_vector(currmap->match, 4, currmap->n_matches); currmap->match[currmap->n_matches++] = xstrdup(first_word); } /*currmap->max_mappings = 0; - done by xzalloc */ /*currmap->n_mappings = 0;*/ /*currmap->mapping = NULL;*/ /*currmap->script = NULL;*/ { struct mapping_defn_t **where = &defn->mappings; while (*where != NULL) { where = &(*where)->next; } *where = currmap; /*currmap->next = NULL;*/ } debug_noise("Added mapping\n"); #endif currently_processing = MAPPING; } else if (strcmp(first_word, "iface") == 0) { static const struct address_family_t *const addr_fams[] = { #if ENABLE_FEATURE_IFUPDOWN_IPV4 &addr_inet, #endif #if ENABLE_FEATURE_IFUPDOWN_IPV6 &addr_inet6, #endif NULL }; char *iface_name; char *address_family_name; char *method_name; llist_t *iface_list; currif = xzalloc(sizeof(*currif)); iface_name = next_word(&rest_of_line); address_family_name = next_word(&rest_of_line); method_name = next_word(&rest_of_line); if (method_name == NULL) bb_error_msg_and_die("too few parameters for line \"%s\"", buf); /* ship any trailing whitespace */ rest_of_line = skip_whitespace(rest_of_line); if (rest_of_line[0] != '\0' /* && rest_of_line[0] != '#' */) bb_error_msg_and_die("too many parameters \"%s\"", buf); currif->iface = xstrdup(iface_name); currif->address_family = get_address_family(addr_fams, address_family_name); if (!currif->address_family) bb_error_msg_and_die("unknown address type \"%s\"", address_family_name); currif->method = get_method(currif->address_family, method_name); if (!currif->method) bb_error_msg_and_die("unknown method \"%s\"", method_name); for (iface_list = defn->ifaces; iface_list; iface_list = iface_list->link) { struct interface_defn_t *tmp = (struct interface_defn_t *) iface_list->data; if ((strcmp(tmp->iface, currif->iface) == 0) && (tmp->address_family == currif->address_family) ) { bb_error_msg_and_die("duplicate interface \"%s\"", tmp->iface); } } llist_add_to_end(&(defn->ifaces), (char*)currif); debug_noise("iface %s %s %s\n", currif->iface, address_family_name, method_name); currently_processing = IFACE; } else if (strcmp(first_word, "auto") == 0) { while ((first_word = next_word(&rest_of_line)) != NULL) { /* Check the interface isnt already listed */ if (llist_find_str(defn->autointerfaces, first_word)) { bb_perror_msg_and_die("interface declared auto twice \"%s\"", buf); } /* Add the interface to the list */ llist_add_to_end(&(defn->autointerfaces), xstrdup(first_word)); debug_noise("\nauto %s\n", first_word); } currently_processing = NONE; } else { switch (currently_processing) { case IFACE: if (rest_of_line[0] == '\0') bb_error_msg_and_die("option with empty value \"%s\"", buf); if (strcmp(first_word, "up") != 0 && strcmp(first_word, "down") != 0 && strcmp(first_word, "pre-up") != 0 && strcmp(first_word, "post-down") != 0 ) { int i; for (i = 0; i < currif->n_options; i++) { if (strcmp(currif->option[i].name, first_word) == 0) bb_error_msg_and_die("duplicate option \"%s\"", buf); } } if (currif->n_options >= currif->max_options) { currif->max_options += 10; currif->option = xrealloc(currif->option, sizeof(*currif->option) * currif->max_options); } debug_noise("\t%s=%s\n", first_word, rest_of_line); currif->option[currif->n_options].name = xstrdup(first_word); currif->option[currif->n_options].value = xstrdup(rest_of_line); currif->n_options++; break; case MAPPING: #if ENABLE_FEATURE_IFUPDOWN_MAPPING if (strcmp(first_word, "script") == 0) { if (currmap->script != NULL) bb_error_msg_and_die("duplicate script in mapping \"%s\"", buf); currmap->script = xstrdup(next_word(&rest_of_line)); } else if (strcmp(first_word, "map") == 0) { if (currmap->n_mappings >= currmap->max_mappings) { currmap->max_mappings = currmap->max_mappings * 2 + 1; currmap->mapping = xrealloc(currmap->mapping, sizeof(char *) * currmap->max_mappings); } currmap->mapping[currmap->n_mappings] = xstrdup(next_word(&rest_of_line)); currmap->n_mappings++; } else { bb_error_msg_and_die("misplaced option \"%s\"", buf); } #endif break; case NONE: default: bb_error_msg_and_die("misplaced option \"%s\"", buf); } } free(buf); } /* while (fgets) */ if (ferror(f) != 0) { /* ferror does NOT set errno! */ bb_error_msg_and_die("%s: I/O error", filename); } fclose(f); return defn; } static char *setlocalenv(const char *format, const char *name, const char *value) { char *result; char *dst; char *src; char c; result = xasprintf(format, name, value); for (dst = src = result; (c = *src) != '=' && c; src++) { if (c == '-') c = '_'; if (c >= 'a' && c <= 'z') c -= ('a' - 'A'); if (isalnum(c) || c == '_') *dst++ = c; } overlapping_strcpy(dst, src); return result; } static void set_environ(struct interface_defn_t *iface, const char *mode) { int i; char **pp; if (G.my_environ != NULL) { for (pp = G.my_environ; *pp; pp++) { free(*pp); } free(G.my_environ); } /* note: last element will stay NULL: */ G.my_environ = xzalloc(sizeof(char *) * (iface->n_options + 6)); pp = G.my_environ; for (i = 0; i < iface->n_options; i++) { if (strcmp(iface->option[i].name, "up") == 0 || strcmp(iface->option[i].name, "down") == 0 || strcmp(iface->option[i].name, "pre-up") == 0 || strcmp(iface->option[i].name, "post-down") == 0 ) { continue; } *pp++ = setlocalenv("IF_%s=%s", iface->option[i].name, iface->option[i].value); } *pp++ = setlocalenv("%s=%s", "IFACE", iface->iface); *pp++ = setlocalenv("%s=%s", "ADDRFAM", iface->address_family->name); *pp++ = setlocalenv("%s=%s", "METHOD", iface->method->name); *pp++ = setlocalenv("%s=%s", "MODE", mode); if (G.startup_PATH) *pp++ = setlocalenv("%s=%s", "PATH", G.startup_PATH); } static int doit(char *str) { if (option_mask32 & (OPT_no_act|OPT_verbose)) { puts(str); } if (!(option_mask32 & OPT_no_act)) { pid_t child; int status; fflush_all(); child = vfork(); switch (child) { case -1: /* failure */ return 0; case 0: /* child */ execle(DEFAULT_SHELL, DEFAULT_SHELL, "-c", str, (char *) NULL, G.my_environ); _exit(127); } safe_waitpid(child, &status, 0); if (!WIFEXITED(status) || WEXITSTATUS(status) != 0) { return 0; } } return 1; } static int execute_all(struct interface_defn_t *ifd, const char *opt) { int i; char *buf; for (i = 0; i < ifd->n_options; i++) { if (strcmp(ifd->option[i].name, opt) == 0) { if (!doit(ifd->option[i].value)) { return 0; } } } buf = xasprintf("run-parts /etc/network/if-%s.d", opt); /* heh, we don't bother free'ing it */ return doit(buf); } static int check(char *str) { return str != NULL; } static int iface_up(struct interface_defn_t *iface) { if (!iface->method->up(iface, check)) return -1; set_environ(iface, "start"); if (!execute_all(iface, "pre-up")) return 0; if (!iface->method->up(iface, doit)) return 0; if (!execute_all(iface, "up")) return 0; return 1; } static int iface_down(struct interface_defn_t *iface) { if (!iface->method->down(iface,check)) return -1; set_environ(iface, "stop"); if (!execute_all(iface, "down")) return 0; if (!iface->method->down(iface, doit)) return 0; if (!execute_all(iface, "post-down")) return 0; return 1; } #if ENABLE_FEATURE_IFUPDOWN_MAPPING static int popen2(FILE **in, FILE **out, char *command, char *param) { char *argv[3] = { command, param, NULL }; struct fd_pair infd, outfd; pid_t pid; xpiped_pair(infd); xpiped_pair(outfd); fflush_all(); pid = xvfork(); if (pid == 0) { /* Child */ /* NB: close _first_, then move fds! */ close(infd.wr); close(outfd.rd); xmove_fd(infd.rd, 0); xmove_fd(outfd.wr, 1); BB_EXECVP_or_die(argv); } /* parent */ close(infd.rd); close(outfd.wr); *in = xfdopen_for_write(infd.wr); *out = xfdopen_for_read(outfd.rd); return pid; } static char *run_mapping(char *physical, struct mapping_defn_t *map) { FILE *in, *out; int i, status; pid_t pid; char *logical = xstrdup(physical); /* Run the mapping script. Never fails. */ pid = popen2(&in, &out, map->script, physical); /* Write mappings to stdin of mapping script. */ for (i = 0; i < map->n_mappings; i++) { fprintf(in, "%s\n", map->mapping[i]); } fclose(in); safe_waitpid(pid, &status, 0); if (WIFEXITED(status) && WEXITSTATUS(status) == 0) { /* If the mapping script exited successfully, try to * grab a line of output and use that as the name of the * logical interface. */ char *new_logical = xmalloc_fgetline(out); if (new_logical) { /* If we are able to read a line of output from the script, * remove any trailing whitespace and use this value * as the name of the logical interface. */ char *pch = new_logical + strlen(new_logical) - 1; while (pch >= new_logical && isspace(*pch)) *(pch--) = '\0'; free(logical); logical = new_logical; } } fclose(out); return logical; } #endif /* FEATURE_IFUPDOWN_MAPPING */ static llist_t *find_iface_state(llist_t *state_list, const char *iface) { unsigned iface_len = strlen(iface); llist_t *search = state_list; while (search) { if ((strncmp(search->data, iface, iface_len) == 0) && (search->data[iface_len] == '=') ) { return search; } search = search->link; } return NULL; } /* read the previous state from the state file */ static llist_t *read_iface_state(void) { llist_t *state_list = NULL; FILE *state_fp = fopen_for_read(CONFIG_IFUPDOWN_IFSTATE_PATH); if (state_fp) { char *start, *end_ptr; while ((start = xmalloc_fgets(state_fp)) != NULL) { /* We should only need to check for a single character */ end_ptr = start + strcspn(start, " \t\n"); *end_ptr = '\0'; llist_add_to(&state_list, start); } fclose(state_fp); } return state_list; } int ifupdown_main(int argc, char **argv) MAIN_EXTERNALLY_VISIBLE; int ifupdown_main(int argc UNUSED_PARAM, char **argv) { int (*cmds)(struct interface_defn_t *); struct interfaces_file_t *defn; llist_t *target_list = NULL; const char *interfaces = "/etc/network/interfaces"; bool any_failures = 0; INIT_G(); G.startup_PATH = getenv("PATH"); cmds = iface_down; if (applet_name[2] == 'u') { /* ifup command */ cmds = iface_up; } getopt32(argv, OPTION_STR, &interfaces); argv += optind; if (argv[0]) { if (DO_ALL) bb_show_usage(); } else { if (!DO_ALL) bb_show_usage(); } debug_noise("reading %s file:\n", interfaces); defn = read_interfaces(interfaces); debug_noise("\ndone reading %s\n\n", interfaces); /* Create a list of interfaces to work on */ if (DO_ALL) { target_list = defn->autointerfaces; } else { llist_add_to_end(&target_list, argv[0]); } /* Update the interfaces */ while (target_list) { llist_t *iface_list; struct interface_defn_t *currif; char *iface; char *liface; char *pch; bool okay = 0; int cmds_ret; iface = xstrdup(target_list->data); target_list = target_list->link; pch = strchr(iface, '='); if (pch) { *pch = '\0'; liface = xstrdup(pch + 1); } else { liface = xstrdup(iface); } if (!FORCE) { llist_t *state_list = read_iface_state(); const llist_t *iface_state = find_iface_state(state_list, iface); if (cmds == iface_up) { /* ifup */ if (iface_state) { bb_error_msg("interface %s already configured", iface); goto next; } } else { /* ifdown */ if (!iface_state) { bb_error_msg("interface %s not configured", iface); goto next; } } llist_free(state_list, free); } #if ENABLE_FEATURE_IFUPDOWN_MAPPING if ((cmds == iface_up) && !NO_MAPPINGS) { struct mapping_defn_t *currmap; for (currmap = defn->mappings; currmap; currmap = currmap->next) { int i; for (i = 0; i < currmap->n_matches; i++) { if (fnmatch(currmap->match[i], liface, 0) != 0) continue; if (VERBOSE) { printf("Running mapping script %s on %s\n", currmap->script, liface); } liface = run_mapping(iface, currmap); break; } } } #endif iface_list = defn->ifaces; while (iface_list) { currif = (struct interface_defn_t *) iface_list->data; if (strcmp(liface, currif->iface) == 0) { char *oldiface = currif->iface; okay = 1; currif->iface = iface; debug_noise("\nConfiguring interface %s (%s)\n", liface, currif->address_family->name); /* Call the cmds function pointer, does either iface_up() or iface_down() */ cmds_ret = cmds(currif); if (cmds_ret == -1) { bb_error_msg("don't seem to have all the variables for %s/%s", liface, currif->address_family->name); any_failures = 1; } else if (cmds_ret == 0) { any_failures = 1; } currif->iface = oldiface; } iface_list = iface_list->link; } if (VERBOSE) { bb_putchar('\n'); } if (!okay && !FORCE) { bb_error_msg("ignoring unknown interface %s", liface); any_failures = 1; } else if (!NO_ACT) { /* update the state file */ FILE *state_fp; llist_t *state; llist_t *state_list = read_iface_state(); llist_t *iface_state = find_iface_state(state_list, iface); if (cmds == iface_up) { char * const newiface = xasprintf("%s=%s", iface, liface); if (iface_state == NULL) { llist_add_to_end(&state_list, newiface); } else { free(iface_state->data); iface_state->data = newiface; } } else { /* Remove an interface from state_list */ llist_unlink(&state_list, iface_state); free(llist_pop(&iface_state)); } /* Actually write the new state */ state_fp = xfopen_for_write(CONFIG_IFUPDOWN_IFSTATE_PATH); state = state_list; while (state) { if (state->data) { fprintf(state_fp, "%s\n", state->data); } state = state->link; } fclose(state_fp); llist_free(state_list, free); } next: free(iface); free(liface); } return any_failures; }