/* * q_u32.c U32 filter. * * This program is free software; you can u32istribute 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. * * Authors: Alexey Kuznetsov, * Match mark added by Catalin(ux aka Dino) BOIE [5 nov 2004] * */ #include #include #include #include #include #include #include #include #include #include #include #include "utils.h" #include "tc_util.h" extern int show_pretty; static void explain(void) { fprintf(stderr, "Usage: ... u32 [ match SELECTOR ... ] [ link HTID ] [ classid CLASSID ]\n" " [ action ACTION_SPEC ] [ offset OFFSET_SPEC ]\n" " [ ht HTID ] [ hashkey HASHKEY_SPEC ]\n" " [ sample SAMPLE ] [skip-hw | skip-sw]\n" "or u32 divisor DIVISOR\n" "\n" "Where: SELECTOR := SAMPLE SAMPLE ...\n" " SAMPLE := { ip | ip6 | udp | tcp | icmp | u{32|16|8} | mark }\n" " SAMPLE_ARGS [ divisor DIVISOR ]\n" " FILTERID := X:Y:Z\n" "\nNOTE: CLASSID is parsed at hexadecimal input.\n"); } static int get_u32_handle(__u32 *handle, const char *str) { __u32 htid = 0, hash = 0, nodeid = 0; char *tmp = strchr(str, ':'); if (tmp == NULL) { if (memcmp("0x", str, 2) == 0) return get_u32(handle, str, 16); return -1; } htid = strtoul(str, &tmp, 16); if (tmp == str && *str != ':' && *str != 0) return -1; if (htid >= 0x1000) return -1; if (*tmp) { str = tmp + 1; hash = strtoul(str, &tmp, 16); if (tmp == str && *str != ':' && *str != 0) return -1; if (hash >= 0x100) return -1; if (*tmp) { str = tmp + 1; nodeid = strtoul(str, &tmp, 16); if (tmp == str && *str != 0) return -1; if (nodeid >= 0x1000) return -1; } } *handle = (htid<<20)|(hash<<12)|nodeid; return 0; } static char *sprint_u32_handle(__u32 handle, char *buf) { int bsize = SPRINT_BSIZE-1; __u32 htid = TC_U32_HTID(handle); __u32 hash = TC_U32_HASH(handle); __u32 nodeid = TC_U32_NODE(handle); char *b = buf; if (handle == 0) { snprintf(b, bsize, "none"); return b; } if (htid) { int l = snprintf(b, bsize, "%x:", htid>>20); bsize -= l; b += l; } if (nodeid|hash) { if (hash) { int l = snprintf(b, bsize, "%x", hash); bsize -= l; b += l; } if (nodeid) { int l = snprintf(b, bsize, ":%x", nodeid); bsize -= l; b += l; } } if (show_raw) snprintf(b, bsize, "[%08x] ", handle); return buf; } static int pack_key(struct tc_u32_sel *sel, __u32 key, __u32 mask, int off, int offmask) { int i; int hwm = sel->nkeys; key &= mask; for (i = 0; i < hwm; i++) { if (sel->keys[i].off == off && sel->keys[i].offmask == offmask) { __u32 intersect = mask & sel->keys[i].mask; if ((key ^ sel->keys[i].val) & intersect) return -1; sel->keys[i].val |= key; sel->keys[i].mask |= mask; return 0; } } if (hwm >= 128) return -1; if (off % 4) return -1; sel->keys[hwm].val = key; sel->keys[hwm].mask = mask; sel->keys[hwm].off = off; sel->keys[hwm].offmask = offmask; sel->nkeys++; return 0; } static int pack_key32(struct tc_u32_sel *sel, __u32 key, __u32 mask, int off, int offmask) { key = htonl(key); mask = htonl(mask); return pack_key(sel, key, mask, off, offmask); } static int pack_key16(struct tc_u32_sel *sel, __u32 key, __u32 mask, int off, int offmask) { if (key > 0xFFFF || mask > 0xFFFF) return -1; if ((off & 3) == 0) { key <<= 16; mask <<= 16; } off &= ~3; key = htonl(key); mask = htonl(mask); return pack_key(sel, key, mask, off, offmask); } static int pack_key8(struct tc_u32_sel *sel, __u32 key, __u32 mask, int off, int offmask) { if (key > 0xFF || mask > 0xFF) return -1; if ((off & 3) == 0) { key <<= 24; mask <<= 24; } else if ((off & 3) == 1) { key <<= 16; mask <<= 16; } else if ((off & 3) == 2) { key <<= 8; mask <<= 8; } off &= ~3; key = htonl(key); mask = htonl(mask); return pack_key(sel, key, mask, off, offmask); } static int parse_at(int *argc_p, char ***argv_p, int *off, int *offmask) { int argc = *argc_p; char **argv = *argv_p; char *p = *argv; if (argc <= 0) return -1; if (strlen(p) > strlen("nexthdr+") && memcmp(p, "nexthdr+", strlen("nexthdr+")) == 0) { *offmask = -1; p += strlen("nexthdr+"); } else if (matches(*argv, "nexthdr+") == 0) { NEXT_ARG(); *offmask = -1; p = *argv; } if (get_integer(off, p, 0)) return -1; argc--; argv++; *argc_p = argc; *argv_p = argv; return 0; } static int parse_u32(int *argc_p, char ***argv_p, struct tc_u32_sel *sel, int off, int offmask) { int res = -1; int argc = *argc_p; char **argv = *argv_p; __u32 key; __u32 mask; if (argc < 2) return -1; if (get_u32(&key, *argv, 0)) return -1; argc--; argv++; if (get_u32(&mask, *argv, 16)) return -1; argc--; argv++; if (argc > 0 && strcmp(argv[0], "at") == 0) { NEXT_ARG(); if (parse_at(&argc, &argv, &off, &offmask)) return -1; } res = pack_key32(sel, key, mask, off, offmask); *argc_p = argc; *argv_p = argv; return res; } static int parse_u16(int *argc_p, char ***argv_p, struct tc_u32_sel *sel, int off, int offmask) { int res = -1; int argc = *argc_p; char **argv = *argv_p; __u32 key; __u32 mask; if (argc < 2) return -1; if (get_u32(&key, *argv, 0)) return -1; argc--; argv++; if (get_u32(&mask, *argv, 16)) return -1; argc--; argv++; if (argc > 0 && strcmp(argv[0], "at") == 0) { NEXT_ARG(); if (parse_at(&argc, &argv, &off, &offmask)) return -1; } res = pack_key16(sel, key, mask, off, offmask); *argc_p = argc; *argv_p = argv; return res; } static int parse_u8(int *argc_p, char ***argv_p, struct tc_u32_sel *sel, int off, int offmask) { int res = -1; int argc = *argc_p; char **argv = *argv_p; __u32 key; __u32 mask; if (argc < 2) return -1; if (get_u32(&key, *argv, 0)) return -1; argc--; argv++; if (get_u32(&mask, *argv, 16)) return -1; argc--; argv++; if (key > 0xFF || mask > 0xFF) return -1; if (argc > 0 && strcmp(argv[0], "at") == 0) { NEXT_ARG(); if (parse_at(&argc, &argv, &off, &offmask)) return -1; } res = pack_key8(sel, key, mask, off, offmask); *argc_p = argc; *argv_p = argv; return res; } static int parse_ip_addr(int *argc_p, char ***argv_p, struct tc_u32_sel *sel, int off) { int res = -1; int argc = *argc_p; char **argv = *argv_p; inet_prefix addr; __u32 mask; int offmask = 0; if (argc < 1) return -1; if (get_prefix_1(&addr, *argv, AF_INET)) return -1; argc--; argv++; if (argc > 0 && strcmp(argv[0], "at") == 0) { NEXT_ARG(); if (parse_at(&argc, &argv, &off, &offmask)) return -1; } mask = 0; if (addr.bitlen) mask = htonl(0xFFFFFFFF << (32 - addr.bitlen)); if (pack_key(sel, addr.data[0], mask, off, offmask) < 0) return -1; res = 0; *argc_p = argc; *argv_p = argv; return res; } static int parse_ip6_addr(int *argc_p, char ***argv_p, struct tc_u32_sel *sel, int off) { int res = -1; int argc = *argc_p; char **argv = *argv_p; int plen = 128; int i; inet_prefix addr; int offmask = 0; if (argc < 1) return -1; if (get_prefix_1(&addr, *argv, AF_INET6)) return -1; argc--; argv++; if (argc > 0 && strcmp(argv[0], "at") == 0) { NEXT_ARG(); if (parse_at(&argc, &argv, &off, &offmask)) return -1; } plen = addr.bitlen; for (i = 0; i < plen; i += 32) { /* if (((i + 31) & ~0x1F) <= plen) { */ if (i + 31 <= plen) { res = pack_key(sel, addr.data[i / 32], 0xFFFFFFFF, off + 4 * (i / 32), offmask); if (res < 0) return -1; } else if (i < plen) { __u32 mask = htonl(0xFFFFFFFF << (32 - (plen - i))); res = pack_key(sel, addr.data[i / 32], mask, off + 4 * (i / 32), offmask); if (res < 0) return -1; } } res = 0; *argc_p = argc; *argv_p = argv; return res; } static int parse_ip6_class(int *argc_p, char ***argv_p, struct tc_u32_sel *sel) { int res = -1; int argc = *argc_p; char **argv = *argv_p; __u32 key; __u32 mask; int off = 0; int offmask = 0; if (argc < 2) return -1; if (get_u32(&key, *argv, 0)) return -1; argc--; argv++; if (get_u32(&mask, *argv, 16)) return -1; argc--; argv++; if (key > 0xFF || mask > 0xFF) return -1; key <<= 20; mask <<= 20; key = htonl(key); mask = htonl(mask); res = pack_key(sel, key, mask, off, offmask); if (res < 0) return -1; *argc_p = argc; *argv_p = argv; return 0; } static int parse_ether_addr(int *argc_p, char ***argv_p, struct tc_u32_sel *sel, int off) { int res = -1; int argc = *argc_p; char **argv = *argv_p; __u8 addr[6]; int offmask = 0; int i; if (argc < 1) return -1; if (sscanf(*argv, "%hhx:%hhx:%hhx:%hhx:%hhx:%hhx", addr + 0, addr + 1, addr + 2, addr + 3, addr + 4, addr + 5) != 6) { fprintf(stderr, "parse_ether_addr: improperly formed address '%s'\n", *argv); return -1; } argc--; argv++; if (argc > 0 && strcmp(argv[0], "at") == 0) { NEXT_ARG(); if (parse_at(&argc, &argv, &off, &offmask)) return -1; } for (i = 0; i < 6; i++) { res = pack_key8(sel, addr[i], 0xFF, off + i, offmask); if (res < 0) return -1; } *argc_p = argc; *argv_p = argv; return res; } static int parse_ip(int *argc_p, char ***argv_p, struct tc_u32_sel *sel) { int res = -1; int argc = *argc_p; char **argv = *argv_p; if (argc < 2) return -1; if (strcmp(*argv, "src") == 0) { NEXT_ARG(); res = parse_ip_addr(&argc, &argv, sel, 12); } else if (strcmp(*argv, "dst") == 0) { NEXT_ARG(); res = parse_ip_addr(&argc, &argv, sel, 16); } else if (strcmp(*argv, "tos") == 0 || matches(*argv, "dsfield") == 0 || matches(*argv, "precedence") == 0) { NEXT_ARG(); res = parse_u8(&argc, &argv, sel, 1, 0); } else if (strcmp(*argv, "ihl") == 0) { NEXT_ARG(); res = parse_u8(&argc, &argv, sel, 0, 0); } else if (strcmp(*argv, "protocol") == 0) { NEXT_ARG(); res = parse_u8(&argc, &argv, sel, 9, 0); } else if (strcmp(*argv, "nofrag") == 0) { argc--; argv++; res = pack_key16(sel, 0, 0x3FFF, 6, 0); } else if (strcmp(*argv, "firstfrag") == 0) { argc--; argv++; res = pack_key16(sel, 0x2000, 0x3FFF, 6, 0); } else if (strcmp(*argv, "df") == 0) { argc--; argv++; res = pack_key16(sel, 0x4000, 0x4000, 6, 0); } else if (strcmp(*argv, "mf") == 0) { argc--; argv++; res = pack_key16(sel, 0x2000, 0x2000, 6, 0); } else if (strcmp(*argv, "dport") == 0) { NEXT_ARG(); res = parse_u16(&argc, &argv, sel, 22, 0); } else if (strcmp(*argv, "sport") == 0) { NEXT_ARG(); res = parse_u16(&argc, &argv, sel, 20, 0); } else if (strcmp(*argv, "icmp_type") == 0) { NEXT_ARG(); res = parse_u8(&argc, &argv, sel, 20, 0); } else if (strcmp(*argv, "icmp_code") == 0) { NEXT_ARG(); res = parse_u8(&argc, &argv, sel, 21, 0); } else return -1; *argc_p = argc; *argv_p = argv; return res; } static int parse_ip6(int *argc_p, char ***argv_p, struct tc_u32_sel *sel) { int res = -1; int argc = *argc_p; char **argv = *argv_p; if (argc < 2) return -1; if (strcmp(*argv, "src") == 0) { NEXT_ARG(); res = parse_ip6_addr(&argc, &argv, sel, 8); } else if (strcmp(*argv, "dst") == 0) { NEXT_ARG(); res = parse_ip6_addr(&argc, &argv, sel, 24); } else if (strcmp(*argv, "priority") == 0) { NEXT_ARG(); res = parse_ip6_class(&argc, &argv, sel); } else if (strcmp(*argv, "protocol") == 0) { NEXT_ARG(); res = parse_u8(&argc, &argv, sel, 6, 0); } else if (strcmp(*argv, "flowlabel") == 0) { NEXT_ARG(); res = parse_u32(&argc, &argv, sel, 0, 0); } else if (strcmp(*argv, "dport") == 0) { NEXT_ARG(); res = parse_u16(&argc, &argv, sel, 42, 0); } else if (strcmp(*argv, "sport") == 0) { NEXT_ARG(); res = parse_u16(&argc, &argv, sel, 40, 0); } else if (strcmp(*argv, "icmp_type") == 0) { NEXT_ARG(); res = parse_u8(&argc, &argv, sel, 40, 0); } else if (strcmp(*argv, "icmp_code") == 0) { NEXT_ARG(); res = parse_u8(&argc, &argv, sel, 41, 1); } else return -1; *argc_p = argc; *argv_p = argv; return res; } static int parse_ether(int *argc_p, char ***argv_p, struct tc_u32_sel *sel) { int res = -1; int argc = *argc_p; char **argv = *argv_p; if (argc < 2) return -1; if (strcmp(*argv, "src") == 0) { NEXT_ARG(); res = parse_ether_addr(&argc, &argv, sel, -8); } else if (strcmp(*argv, "dst") == 0) { NEXT_ARG(); res = parse_ether_addr(&argc, &argv, sel, -14); } else { fprintf(stderr, "Unknown match: ether %s\n", *argv); return -1; } *argc_p = argc; *argv_p = argv; return res; } #define parse_tcp parse_udp static int parse_udp(int *argc_p, char ***argv_p, struct tc_u32_sel *sel) { int res = -1; int argc = *argc_p; char **argv = *argv_p; if (argc < 2) return -1; if (strcmp(*argv, "src") == 0) { NEXT_ARG(); res = parse_u16(&argc, &argv, sel, 0, -1); } else if (strcmp(*argv, "dst") == 0) { NEXT_ARG(); res = parse_u16(&argc, &argv, sel, 2, -1); } else return -1; *argc_p = argc; *argv_p = argv; return res; } static int parse_icmp(int *argc_p, char ***argv_p, struct tc_u32_sel *sel) { int res = -1; int argc = *argc_p; char **argv = *argv_p; if (argc < 2) return -1; if (strcmp(*argv, "type") == 0) { NEXT_ARG(); res = parse_u8(&argc, &argv, sel, 0, -1); } else if (strcmp(*argv, "code") == 0) { NEXT_ARG(); res = parse_u8(&argc, &argv, sel, 1, -1); } else return -1; *argc_p = argc; *argv_p = argv; return res; } static int parse_mark(int *argc_p, char ***argv_p, struct nlmsghdr *n) { int res = -1; int argc = *argc_p; char **argv = *argv_p; struct tc_u32_mark mark; if (argc <= 1) return -1; if (get_u32(&mark.val, *argv, 0)) { fprintf(stderr, "Illegal \"mark\" value\n"); return -1; } NEXT_ARG(); if (get_u32(&mark.mask, *argv, 0)) { fprintf(stderr, "Illegal \"mark\" mask\n"); return -1; } NEXT_ARG(); if ((mark.val & mark.mask) != mark.val) { fprintf(stderr, "Illegal \"mark\" (impossible combination)\n"); return -1; } addattr_l(n, MAX_MSG, TCA_U32_MARK, &mark, sizeof(mark)); res = 0; *argc_p = argc; *argv_p = argv; return res; } static int parse_selector(int *argc_p, char ***argv_p, struct tc_u32_sel *sel, struct nlmsghdr *n) { int argc = *argc_p; char **argv = *argv_p; int res = -1; if (argc <= 0) return -1; if (matches(*argv, "u32") == 0) { NEXT_ARG(); res = parse_u32(&argc, &argv, sel, 0, 0); } else if (matches(*argv, "u16") == 0) { NEXT_ARG(); res = parse_u16(&argc, &argv, sel, 0, 0); } else if (matches(*argv, "u8") == 0) { NEXT_ARG(); res = parse_u8(&argc, &argv, sel, 0, 0); } else if (matches(*argv, "ip") == 0) { NEXT_ARG(); res = parse_ip(&argc, &argv, sel); } else if (matches(*argv, "ip6") == 0) { NEXT_ARG(); res = parse_ip6(&argc, &argv, sel); } else if (matches(*argv, "udp") == 0) { NEXT_ARG(); res = parse_udp(&argc, &argv, sel); } else if (matches(*argv, "tcp") == 0) { NEXT_ARG(); res = parse_tcp(&argc, &argv, sel); } else if (matches(*argv, "icmp") == 0) { NEXT_ARG(); res = parse_icmp(&argc, &argv, sel); } else if (matches(*argv, "mark") == 0) { NEXT_ARG(); res = parse_mark(&argc, &argv, n); } else if (matches(*argv, "ether") == 0) { NEXT_ARG(); res = parse_ether(&argc, &argv, sel); } else return -1; *argc_p = argc; *argv_p = argv; return res; } static int parse_offset(int *argc_p, char ***argv_p, struct tc_u32_sel *sel) { int argc = *argc_p; char **argv = *argv_p; while (argc > 0) { if (matches(*argv, "plus") == 0) { int off; NEXT_ARG(); if (get_integer(&off, *argv, 0)) return -1; sel->off = off; sel->flags |= TC_U32_OFFSET; } else if (matches(*argv, "at") == 0) { int off; NEXT_ARG(); if (get_integer(&off, *argv, 0)) return -1; sel->offoff = off; if (off%2) { fprintf(stderr, "offset \"at\" must be even\n"); return -1; } sel->flags |= TC_U32_VAROFFSET; } else if (matches(*argv, "mask") == 0) { NEXT_ARG(); if (get_be16(&sel->offmask, *argv, 16)) return -1; sel->flags |= TC_U32_VAROFFSET; } else if (matches(*argv, "shift") == 0) { int shift; NEXT_ARG(); if (get_integer(&shift, *argv, 0)) return -1; sel->offshift = shift; sel->flags |= TC_U32_VAROFFSET; } else if (matches(*argv, "eat") == 0) { sel->flags |= TC_U32_EAT; } else { break; } argc--; argv++; } *argc_p = argc; *argv_p = argv; return 0; } static int parse_hashkey(int *argc_p, char ***argv_p, struct tc_u32_sel *sel) { int argc = *argc_p; char **argv = *argv_p; while (argc > 0) { if (matches(*argv, "mask") == 0) { NEXT_ARG(); if (get_be32(&sel->hmask, *argv, 16)) return -1; } else if (matches(*argv, "at") == 0) { int num; NEXT_ARG(); if (get_integer(&num, *argv, 0)) return -1; if (num%4) return -1; sel->hoff = num; } else { break; } argc--; argv++; } *argc_p = argc; *argv_p = argv; return 0; } static void print_ipv4(FILE *f, const struct tc_u32_key *key) { char abuf[256]; switch (key->off) { case 0: switch (ntohl(key->mask)) { case 0x0f000000: fprintf(f, "\n match IP ihl %u", ntohl(key->val) >> 24); return; case 0x00ff0000: fprintf(f, "\n match IP dsfield %#x", ntohl(key->val) >> 16); return; } break; case 8: if (ntohl(key->mask) == 0x00ff0000) { fprintf(f, "\n match IP protocol %d", ntohl(key->val) >> 16); return; } break; case 12: case 16: { int bits = mask2bits(key->mask); if (bits >= 0) { fprintf(f, "\n %s %s/%d", key->off == 12 ? "match IP src" : "match IP dst", inet_ntop(AF_INET, &key->val, abuf, sizeof(abuf)), bits); return; } } break; case 20: switch (ntohl(key->mask)) { case 0x0000ffff: fprintf(f, "\n match dport %u", ntohl(key->val) & 0xffff); return; case 0xffff0000: fprintf(f, "\n match sport %u", ntohl(key->val) >> 16); return; case 0xffffffff: fprintf(f, "\n match dport %u, match sport %u", ntohl(key->val) & 0xffff, ntohl(key->val) >> 16); return; } /* XXX: Default print_raw */ } } static void print_ipv6(FILE *f, const struct tc_u32_key *key) { char abuf[256]; switch (key->off) { case 0: switch (ntohl(key->mask)) { case 0x0f000000: fprintf(f, "\n match IP ihl %u", ntohl(key->val) >> 24); return; case 0x00ff0000: fprintf(f, "\n match IP dsfield %#x", ntohl(key->val) >> 16); return; } break; case 8: if (ntohl(key->mask) == 0x00ff0000) { fprintf(f, "\n match IP protocol %d", ntohl(key->val) >> 16); return; } break; case 12: case 16: { int bits = mask2bits(key->mask); if (bits >= 0) { fprintf(f, "\n %s %s/%d", key->off == 12 ? "match IP src" : "match IP dst", inet_ntop(AF_INET, &key->val, abuf, sizeof(abuf)), bits); return; } } break; case 20: switch (ntohl(key->mask)) { case 0x0000ffff: fprintf(f, "\n match sport %u", ntohl(key->val) & 0xffff); return; case 0xffff0000: fprintf(f, "\n match dport %u", ntohl(key->val) >> 16); return; case 0xffffffff: fprintf(f, "\n match sport %u, match dport %u", ntohl(key->val) & 0xffff, ntohl(key->val) >> 16); return; } /* XXX: Default print_raw */ } } static void print_raw(FILE *f, const struct tc_u32_key *key) { fprintf(f, "\n match %08x/%08x at %s%d", (unsigned int)ntohl(key->val), (unsigned int)ntohl(key->mask), key->offmask ? "nexthdr+" : "", key->off); } static const struct { __u16 proto; __u16 pad; void (*pprinter)(FILE *f, const struct tc_u32_key *key); } u32_pprinters[] = { {0, 0, print_raw}, {ETH_P_IP, 0, print_ipv4}, {ETH_P_IPV6, 0, print_ipv6}, }; static void show_keys(FILE *f, const struct tc_u32_key *key) { int i = 0; if (!show_pretty) goto show_k; for (i = 0; i < ARRAY_SIZE(u32_pprinters); i++) { if (u32_pprinters[i].proto == ntohs(f_proto)) { show_k: u32_pprinters[i].pprinter(f, key); return; } } i = 0; goto show_k; } static int u32_parse_opt(struct filter_util *qu, char *handle, int argc, char **argv, struct nlmsghdr *n) { struct { struct tc_u32_sel sel; struct tc_u32_key keys[128]; } sel = {}; struct tcmsg *t = NLMSG_DATA(n); struct rtattr *tail; int sel_ok = 0, terminal_ok = 0; int sample_ok = 0; __u32 htid = 0; __u32 order = 0; __u32 flags = 0; if (handle && get_u32_handle(&t->tcm_handle, handle)) { fprintf(stderr, "Illegal filter ID\n"); return -1; } if (argc == 0) return 0; tail = NLMSG_TAIL(n); addattr_l(n, MAX_MSG, TCA_OPTIONS, NULL, 0); while (argc > 0) { if (matches(*argv, "match") == 0) { NEXT_ARG(); if (parse_selector(&argc, &argv, &sel.sel, n)) { fprintf(stderr, "Illegal \"match\"\n"); return -1; } sel_ok++; continue; } else if (matches(*argv, "offset") == 0) { NEXT_ARG(); if (parse_offset(&argc, &argv, &sel.sel)) { fprintf(stderr, "Illegal \"offset\"\n"); return -1; } continue; } else if (matches(*argv, "hashkey") == 0) { NEXT_ARG(); if (parse_hashkey(&argc, &argv, &sel.sel)) { fprintf(stderr, "Illegal \"hashkey\"\n"); return -1; } continue; } else if (matches(*argv, "classid") == 0 || strcmp(*argv, "flowid") == 0) { unsigned int flowid; NEXT_ARG(); if (get_tc_classid(&flowid, *argv)) { fprintf(stderr, "Illegal \"classid\"\n"); return -1; } addattr_l(n, MAX_MSG, TCA_U32_CLASSID, &flowid, 4); sel.sel.flags |= TC_U32_TERMINAL; } else if (matches(*argv, "divisor") == 0) { unsigned int divisor; NEXT_ARG(); if (get_unsigned(&divisor, *argv, 0) || divisor == 0 || divisor > 0x100 || ((divisor - 1) & divisor)) { fprintf(stderr, "Illegal \"divisor\"\n"); return -1; } addattr_l(n, MAX_MSG, TCA_U32_DIVISOR, &divisor, 4); } else if (matches(*argv, "order") == 0) { NEXT_ARG(); if (get_u32(&order, *argv, 0)) { fprintf(stderr, "Illegal \"order\"\n"); return -1; } } else if (strcmp(*argv, "link") == 0) { unsigned int linkid; NEXT_ARG(); if (get_u32_handle(&linkid, *argv)) { fprintf(stderr, "Illegal \"link\"\n"); return -1; } if (linkid && TC_U32_NODE(linkid)) { fprintf(stderr, "\"link\" must be a hash table.\n"); return -1; } addattr_l(n, MAX_MSG, TCA_U32_LINK, &linkid, 4); } else if (strcmp(*argv, "ht") == 0) { unsigned int ht; NEXT_ARG(); if (get_u32_handle(&ht, *argv)) { fprintf(stderr, "Illegal \"ht\"\n"); return -1; } if (handle && TC_U32_NODE(ht)) { fprintf(stderr, "\"ht\" must be a hash table.\n"); return -1; } if (sample_ok) htid = (htid & 0xFF000) | (ht & 0xFFF00000); else htid = (ht & 0xFFFFF000); } else if (strcmp(*argv, "sample") == 0) { __u32 hash; unsigned int divisor = 0x100; struct { struct tc_u32_sel sel; struct tc_u32_key keys[4]; } sel2 = {}; NEXT_ARG(); if (parse_selector(&argc, &argv, &sel2.sel, n)) { fprintf(stderr, "Illegal \"sample\"\n"); return -1; } if (sel2.sel.nkeys != 1) { fprintf(stderr, "\"sample\" must contain exactly ONE key.\n"); return -1; } if (*argv != 0 && strcmp(*argv, "divisor") == 0) { NEXT_ARG(); if (get_unsigned(&divisor, *argv, 0) || divisor == 0 || divisor > 0x100 || ((divisor - 1) & divisor)) { fprintf(stderr, "Illegal sample \"divisor\"\n"); return -1; } NEXT_ARG(); } hash = sel2.sel.keys[0].val & sel2.sel.keys[0].mask; hash ^= hash >> 16; hash ^= hash >> 8; htid = ((hash % divisor) << 12) | (htid & 0xFFF00000); sample_ok = 1; continue; } else if (strcmp(*argv, "indev") == 0) { char ind[IFNAMSIZ + 1] = {}; argc--; argv++; if (argc < 1) { fprintf(stderr, "Illegal indev\n"); return -1; } strncpy(ind, *argv, sizeof(ind) - 1); addattr_l(n, MAX_MSG, TCA_U32_INDEV, ind, strlen(ind) + 1); } else if (matches(*argv, "action") == 0) { NEXT_ARG(); if (parse_action(&argc, &argv, TCA_U32_ACT, n)) { fprintf(stderr, "Illegal \"action\"\n"); return -1; } terminal_ok++; continue; } else if (matches(*argv, "police") == 0) { NEXT_ARG(); if (parse_police(&argc, &argv, TCA_U32_POLICE, n)) { fprintf(stderr, "Illegal \"police\"\n"); return -1; } terminal_ok++; continue; } else if (strcmp(*argv, "skip_hw") == 0) { NEXT_ARG(); flags |= TCA_CLS_FLAGS_SKIP_HW; continue; } else if (strcmp(*argv, "skip_sw") == 0) { NEXT_ARG(); flags |= TCA_CLS_FLAGS_SKIP_SW; continue; } else if (strcmp(*argv, "help") == 0) { explain(); return -1; } else { fprintf(stderr, "What is \"%s\"?\n", *argv); explain(); return -1; } argc--; argv++; } /* We dont necessarily need class/flowids */ if (terminal_ok) sel.sel.flags |= TC_U32_TERMINAL; if (order) { if (TC_U32_NODE(t->tcm_handle) && order != TC_U32_NODE(t->tcm_handle)) { fprintf(stderr, "\"order\" contradicts \"handle\"\n"); return -1; } t->tcm_handle |= order; } if (htid) addattr_l(n, MAX_MSG, TCA_U32_HASH, &htid, 4); if (sel_ok) addattr_l(n, MAX_MSG, TCA_U32_SEL, &sel, sizeof(sel.sel) + sel.sel.nkeys * sizeof(struct tc_u32_key)); if (flags) { if (!(flags ^ (TCA_CLS_FLAGS_SKIP_HW | TCA_CLS_FLAGS_SKIP_SW))) { fprintf(stderr, "skip_hw and skip_sw are mutually exclusive\n"); return -1; } addattr_l(n, MAX_MSG, TCA_U32_FLAGS, &flags, 4); } tail->rta_len = (void *) NLMSG_TAIL(n) - (void *) tail; return 0; } static int u32_print_opt(struct filter_util *qu, FILE *f, struct rtattr *opt, __u32 handle) { struct rtattr *tb[TCA_U32_MAX + 1]; struct tc_u32_sel *sel = NULL; struct tc_u32_pcnt *pf = NULL; if (opt == NULL) return 0; parse_rtattr_nested(tb, TCA_U32_MAX, opt); if (handle) { SPRINT_BUF(b1); fprintf(f, "fh %s ", sprint_u32_handle(handle, b1)); } if (TC_U32_NODE(handle)) fprintf(f, "order %d ", TC_U32_NODE(handle)); if (tb[TCA_U32_SEL]) { if (RTA_PAYLOAD(tb[TCA_U32_SEL]) < sizeof(*sel)) return -1; sel = RTA_DATA(tb[TCA_U32_SEL]); } if (tb[TCA_U32_DIVISOR]) { fprintf(f, "ht divisor %d ", rta_getattr_u32(tb[TCA_U32_DIVISOR])); } else if (tb[TCA_U32_HASH]) { __u32 htid = rta_getattr_u32(tb[TCA_U32_HASH]); fprintf(f, "key ht %x bkt %x ", TC_U32_USERHTID(htid), TC_U32_HASH(htid)); } else { fprintf(f, "??? "); } if (tb[TCA_U32_CLASSID]) { SPRINT_BUF(b1); fprintf(f, "%sflowid %s ", !sel || !(sel->flags & TC_U32_TERMINAL) ? "*" : "", sprint_tc_classid(rta_getattr_u32(tb[TCA_U32_CLASSID]), b1)); } else if (sel && sel->flags & TC_U32_TERMINAL) { fprintf(f, "terminal flowid ??? "); } if (tb[TCA_U32_LINK]) { SPRINT_BUF(b1); fprintf(f, "link %s ", sprint_u32_handle(rta_getattr_u32(tb[TCA_U32_LINK]), b1)); } if (tb[TCA_U32_FLAGS]) { __u32 flags = rta_getattr_u32(tb[TCA_U32_FLAGS]); if (flags & TCA_CLS_FLAGS_SKIP_HW) fprintf(f, "skip_hw "); if (flags & TCA_CLS_FLAGS_SKIP_SW) fprintf(f, "skip_sw "); } if (tb[TCA_U32_PCNT]) { if (RTA_PAYLOAD(tb[TCA_U32_PCNT]) < sizeof(*pf)) { fprintf(f, "Broken perf counters\n"); return -1; } pf = RTA_DATA(tb[TCA_U32_PCNT]); } if (sel && show_stats && NULL != pf) fprintf(f, " (rule hit %llu success %llu)", (unsigned long long) pf->rcnt, (unsigned long long) pf->rhit); if (tb[TCA_U32_MARK]) { struct tc_u32_mark *mark = RTA_DATA(tb[TCA_U32_MARK]); if (RTA_PAYLOAD(tb[TCA_U32_MARK]) < sizeof(*mark)) { fprintf(f, "\n Invalid mark (kernel&iproute2 mismatch)\n"); } else { fprintf(f, "\n mark 0x%04x 0x%04x (success %d)", mark->val, mark->mask, mark->success); } } if (sel) { if (sel->nkeys) { int i; for (i = 0; i < sel->nkeys; i++) { show_keys(f, sel->keys + i); if (show_stats && NULL != pf) fprintf(f, " (success %llu ) ", (unsigned long long) pf->kcnts[i]); } } if (sel->flags & (TC_U32_VAROFFSET | TC_U32_OFFSET)) { fprintf(f, "\n offset "); if (sel->flags & TC_U32_VAROFFSET) fprintf(f, "%04x>>%d at %d ", ntohs(sel->offmask), sel->offshift, sel->offoff); if (sel->off) fprintf(f, "plus %d ", sel->off); } if (sel->flags & TC_U32_EAT) fprintf(f, " eat "); if (sel->hmask) { fprintf(f, "\n hash mask %08x at %d ", (unsigned int)htonl(sel->hmask), sel->hoff); } } if (tb[TCA_U32_POLICE]) { fprintf(f, "\n"); tc_print_police(f, tb[TCA_U32_POLICE]); } if (tb[TCA_U32_INDEV]) { struct rtattr *idev = tb[TCA_U32_INDEV]; fprintf(f, "\n input dev %s\n", rta_getattr_str(idev)); } if (tb[TCA_U32_ACT]) tc_print_action(f, tb[TCA_U32_ACT]); return 0; } struct filter_util u32_filter_util = { .id = "u32", .parse_fopt = u32_parse_opt, .print_fopt = u32_print_opt, };