be17805c0b
This patch adds support for source-specific IPv6 routes to BIRD core. This is based on Dean Luga's original patch, with the review comments addressed. SADR support is added to network address parsing in confbase.Y and to the kernel protocol on Linux. Currently there is no way to mix source-specific and non-source-specific routes (i.e., SADR tables cannot be connected to non-SADR tables). Thanks to Toke Hoiland-Jorgensen for the original patch. Minor changes by Ondrej Santiago Zajicek.
332 lines
8.9 KiB
C
332 lines
8.9 KiB
C
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#include "nest/bird.h"
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#include "lib/ip.h"
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#include "lib/net.h"
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#include "lib/flowspec.h"
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const char * const net_label[] = {
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[NET_IP4] = "ipv4",
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[NET_IP6] = "ipv6",
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[NET_VPN4] = "vpn4",
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[NET_VPN6] = "vpn6",
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[NET_ROA4] = "roa4",
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[NET_ROA6] = "roa6",
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[NET_FLOW4] = "flow4",
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[NET_FLOW6] = "flow6",
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[NET_IP6_SADR]= "ipv6-sadr",
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[NET_MPLS] = "mpls",
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};
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const u16 net_addr_length[] = {
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[NET_IP4] = sizeof(net_addr_ip4),
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[NET_IP6] = sizeof(net_addr_ip6),
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[NET_VPN4] = sizeof(net_addr_vpn4),
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[NET_VPN6] = sizeof(net_addr_vpn6),
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[NET_ROA4] = sizeof(net_addr_roa4),
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[NET_ROA6] = sizeof(net_addr_roa6),
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[NET_FLOW4] = 0,
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[NET_FLOW6] = 0,
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[NET_IP6_SADR]= sizeof(net_addr_ip6_sadr),
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[NET_MPLS] = sizeof(net_addr_mpls),
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};
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const u8 net_max_prefix_length[] = {
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[NET_IP4] = IP4_MAX_PREFIX_LENGTH,
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[NET_IP6] = IP6_MAX_PREFIX_LENGTH,
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[NET_VPN4] = IP4_MAX_PREFIX_LENGTH,
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[NET_VPN6] = IP6_MAX_PREFIX_LENGTH,
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[NET_ROA4] = IP4_MAX_PREFIX_LENGTH,
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[NET_ROA6] = IP6_MAX_PREFIX_LENGTH,
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[NET_FLOW4] = IP4_MAX_PREFIX_LENGTH,
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[NET_FLOW6] = IP6_MAX_PREFIX_LENGTH,
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[NET_IP6_SADR]= IP6_MAX_PREFIX_LENGTH,
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[NET_MPLS] = 0,
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};
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const u16 net_max_text_length[] = {
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[NET_IP4] = 18, /* "255.255.255.255/32" */
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[NET_IP6] = 43, /* "ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff/128" */
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[NET_VPN4] = 40, /* "4294967296:4294967296 255.255.255.255/32" */
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[NET_VPN6] = 65, /* "4294967296:4294967296 ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff/128" */
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[NET_ROA4] = 34, /* "255.255.255.255/32-32 AS4294967295" */
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[NET_ROA6] = 60, /* "ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff/128-128 AS4294967295" */
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[NET_FLOW4] = 0, /* "flow4 { ... }" */
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[NET_FLOW6] = 0, /* "flow6 { ... }" */
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[NET_IP6_SADR]= 92, /* "ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff/128 from ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff/128" */
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[NET_MPLS] = 7, /* "1048575" */
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};
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int
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rd_format(const u64 rd, char *buf, int buflen)
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{
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switch (rd >> 48)
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{
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case 0: return bsnprintf(buf, buflen, "%u:%u", (u32) (rd >> 32), (u32) rd);
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case 1: return bsnprintf(buf, buflen, "%I4:%u", ip4_from_u32(rd >> 16), (u32) (rd & 0xffff));
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case 2: if (((u32) (rd >> 16)) >> 16)
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return bsnprintf(buf, buflen, "%u:%u", (u32) (rd >> 16), (u32) (rd & 0xffff));
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else
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return bsnprintf(buf, buflen, "2:%u:%u", (u32) (rd >> 16), (u32) (rd & 0xffff));
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default: return bsnprintf(buf, buflen, "X:%08x:%08x", (u32) (rd >> 32), (u32) rd);
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}
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}
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int
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net_format(const net_addr *N, char *buf, int buflen)
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{
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net_addr_union *n = (void *) N;
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buf[0] = 0;
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switch (n->n.type)
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{
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case NET_IP4:
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return bsnprintf(buf, buflen, "%I4/%d", n->ip4.prefix, n->ip4.pxlen);
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case NET_IP6:
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return bsnprintf(buf, buflen, "%I6/%d", n->ip6.prefix, n->ip6.pxlen);
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case NET_VPN4:
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{
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int c = rd_format(n->vpn4.rd, buf, buflen);
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ADVANCE(buf, buflen, c);
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return bsnprintf(buf, buflen, " %I4/%d", n->vpn4.prefix, n->vpn4.pxlen);
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}
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case NET_VPN6:
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{
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/* XXX: RD format is specified for VPN4; not found any for VPN6, reusing the same as for VPN4 */
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int c = rd_format(n->vpn6.rd, buf, buflen);
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ADVANCE(buf, buflen, c);
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return bsnprintf(buf, buflen, " %I6/%d", n->vpn6.prefix, n->vpn6.pxlen);
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}
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case NET_ROA4:
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return bsnprintf(buf, buflen, "%I4/%u-%u AS%u", n->roa4.prefix, n->roa4.pxlen, n->roa4.max_pxlen, n->roa4.asn);
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case NET_ROA6:
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return bsnprintf(buf, buflen, "%I6/%u-%u AS%u", n->roa6.prefix, n->roa6.pxlen, n->roa6.max_pxlen, n->roa6.asn);
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case NET_FLOW4:
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return flow4_net_format(buf, buflen, &n->flow4);
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case NET_FLOW6:
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return flow6_net_format(buf, buflen, &n->flow6);
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case NET_IP6_SADR:
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return bsnprintf(buf, buflen, "%I6/%d from %I6/%d", n->ip6_sadr.dst_prefix, n->ip6_sadr.dst_pxlen, n->ip6_sadr.src_prefix, n->ip6_sadr.src_pxlen);
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case NET_MPLS:
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return bsnprintf(buf, buflen, "%u", n->mpls.label);
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}
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bug("unknown network type");
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}
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ip_addr
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net_pxmask(const net_addr *a)
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{
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switch (a->type)
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{
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case NET_IP4:
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case NET_VPN4:
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case NET_ROA4:
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case NET_FLOW4:
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return ipa_from_ip4(ip4_mkmask(net4_pxlen(a)));
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case NET_IP6:
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case NET_VPN6:
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case NET_ROA6:
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case NET_FLOW6:
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case NET_IP6_SADR:
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return ipa_from_ip6(ip6_mkmask(net6_pxlen(a)));
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case NET_MPLS:
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default:
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return IPA_NONE;
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}
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}
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int
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net_compare(const net_addr *a, const net_addr *b)
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{
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if (a->type != b->type)
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return uint_cmp(a->type, b->type);
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switch (a->type)
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{
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case NET_IP4:
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return net_compare_ip4((const net_addr_ip4 *) a, (const net_addr_ip4 *) b);
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case NET_IP6:
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return net_compare_ip6((const net_addr_ip6 *) a, (const net_addr_ip6 *) b);
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case NET_VPN4:
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return net_compare_vpn4((const net_addr_vpn4 *) a, (const net_addr_vpn4 *) b);
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case NET_VPN6:
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return net_compare_vpn6((const net_addr_vpn6 *) a, (const net_addr_vpn6 *) b);
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case NET_ROA4:
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return net_compare_roa4((const net_addr_roa4 *) a, (const net_addr_roa4 *) b);
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case NET_ROA6:
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return net_compare_roa6((const net_addr_roa6 *) a, (const net_addr_roa6 *) b);
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case NET_FLOW4:
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return net_compare_flow4((const net_addr_flow4 *) a, (const net_addr_flow4 *) b);
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case NET_FLOW6:
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return net_compare_flow6((const net_addr_flow6 *) a, (const net_addr_flow6 *) b);
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case NET_IP6_SADR:
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return net_compare_ip6_sadr((const net_addr_ip6_sadr *) a, (const net_addr_ip6_sadr *) b);
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case NET_MPLS:
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return net_compare_mpls((const net_addr_mpls *) a, (const net_addr_mpls *) b);
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}
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return 0;
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}
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#define NET_HASH(a,t) net_hash_##t((const net_addr_##t *) a)
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u32
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net_hash(const net_addr *n)
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{
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switch (n->type)
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{
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case NET_IP4: return NET_HASH(n, ip4);
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case NET_IP6: return NET_HASH(n, ip6);
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case NET_VPN4: return NET_HASH(n, vpn4);
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case NET_VPN6: return NET_HASH(n, vpn6);
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case NET_ROA4: return NET_HASH(n, roa4);
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case NET_ROA6: return NET_HASH(n, roa6);
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case NET_FLOW4: return NET_HASH(n, flow4);
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case NET_FLOW6: return NET_HASH(n, flow6);
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case NET_IP6_SADR: return NET_HASH(n, ip6_sadr);
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case NET_MPLS: return NET_HASH(n, mpls);
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default: bug("invalid type");
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}
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}
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#define NET_VALIDATE(a,t) net_validate_##t((const net_addr_##t *) a)
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int
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net_validate(const net_addr *n)
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{
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switch (n->type)
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{
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case NET_IP4: return NET_VALIDATE(n, ip4);
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case NET_IP6: return NET_VALIDATE(n, ip6);
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case NET_VPN4: return NET_VALIDATE(n, vpn4);
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case NET_VPN6: return NET_VALIDATE(n, vpn6);
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case NET_ROA4: return NET_VALIDATE(n, roa4);
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case NET_ROA6: return NET_VALIDATE(n, roa6);
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case NET_FLOW4: return NET_VALIDATE(n, flow4);
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case NET_FLOW6: return NET_VALIDATE(n, flow6);
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case NET_IP6_SADR: return NET_VALIDATE(n, ip6_sadr);
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case NET_MPLS: return NET_VALIDATE(n, mpls);
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default: return 0;
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}
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}
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void
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net_normalize(net_addr *N)
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{
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net_addr_union *n = (void *) N;
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switch (n->n.type)
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{
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case NET_IP4:
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case NET_VPN4:
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case NET_ROA4:
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case NET_FLOW4:
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return net_normalize_ip4(&n->ip4);
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case NET_IP6:
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case NET_VPN6:
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case NET_ROA6:
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case NET_FLOW6:
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return net_normalize_ip6(&n->ip6);
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case NET_IP6_SADR:
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return net_normalize_ip6_sadr(&n->ip6_sadr);
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case NET_MPLS:
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return;
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}
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}
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int
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net_classify(const net_addr *N)
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{
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net_addr_union *n = (void *) N;
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switch (n->n.type)
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{
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case NET_IP4:
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case NET_VPN4:
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case NET_ROA4:
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case NET_FLOW4:
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return ip4_zero(n->ip4.prefix) ? (IADDR_HOST | SCOPE_UNIVERSE) : ip4_classify(n->ip4.prefix);
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case NET_IP6:
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case NET_VPN6:
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case NET_ROA6:
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case NET_FLOW6:
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return ip6_zero(n->ip6.prefix) ? (IADDR_HOST | SCOPE_UNIVERSE) : ip6_classify(&n->ip6.prefix);
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case NET_IP6_SADR:
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return ip6_zero(n->ip6_sadr.dst_prefix) ? (IADDR_HOST | SCOPE_UNIVERSE) : ip6_classify(&n->ip6_sadr.dst_prefix);
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case NET_MPLS:
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return IADDR_HOST | SCOPE_UNIVERSE;
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}
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return IADDR_INVALID;
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}
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int
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ipa_in_netX(const ip_addr a, const net_addr *n)
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{
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switch (n->type)
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{
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case NET_IP4:
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case NET_VPN4:
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case NET_ROA4:
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case NET_FLOW4:
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if (!ipa_is_ip4(a)) return 0;
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return ip4_zero(ip4_and(ip4_xor(ipa_to_ip4(a), net4_prefix(n)),
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ip4_mkmask(net4_pxlen(n))));
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case NET_IP6:
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case NET_VPN6:
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case NET_ROA6:
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case NET_FLOW6:
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if (ipa_is_ip4(a)) return 0;
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return ip6_zero(ip6_and(ip6_xor(ipa_to_ip6(a), net6_prefix(n)),
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ip6_mkmask(net6_pxlen(n))));
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case NET_IP6_SADR:
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if (ipa_is_ip4(a)) return 0;
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return ip6_zero(ip6_and(ip6_xor(ipa_to_ip6(a), net6_prefix(n)),
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ip6_mkmask(net6_pxlen(n))));
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case NET_MPLS:
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default:
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return 0;
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}
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}
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int
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net_in_netX(const net_addr *a, const net_addr *n)
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{
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if (a->type != n->type)
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return 0;
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return (net_pxlen(n) <= net_pxlen(a)) && ipa_in_netX(net_prefix(a), n);
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}
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#define CHECK_NET(T,S) \
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({ if (sizeof(T) != S) die("sizeof %s is %d/%d", #T, (int) sizeof(T), S); })
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void
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net_init(void)
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{
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CHECK_NET(net_addr, 24);
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CHECK_NET(net_addr_ip4, 8);
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CHECK_NET(net_addr_ip6, 20);
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CHECK_NET(net_addr_vpn4, 16);
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CHECK_NET(net_addr_vpn6, 32);
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CHECK_NET(net_addr_roa4, 16);
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CHECK_NET(net_addr_roa6, 28);
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CHECK_NET(net_addr_flow4, 8);
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CHECK_NET(net_addr_flow6, 20);
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CHECK_NET(net_addr_ip6_sadr, 40);
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CHECK_NET(net_addr_mpls, 8);
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}
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