提交 c99a84ea 编写于 作者: M Mathieu Xhonneux 提交者: Daniel Borkmann

selftests/bpf: test for seg6local End.BPF action

Add a new test for the seg6local End.BPF action. The following helpers
are also tested:

- bpf_lwt_push_encap within the LWT BPF IN hook
- bpf_lwt_seg6_action
- bpf_lwt_seg6_adjust_srh
- bpf_lwt_seg6_store_bytes

A chain of End.BPF actions is built. The SRH is injected through a LWT
BPF IN hook before entering this chain. Each End.BPF action validates
the previous one, otherwise the packet is dropped. The test succeeds
if the last node in the chain receives the packet and the UDP datagram
contained can be retrieved from userspace.
Signed-off-by: NMathieu Xhonneux <m.xhonneux@gmail.com>
Signed-off-by: NDaniel Borkmann <daniel@iogearbox.net>
上级 004d4b27
......@@ -141,6 +141,7 @@ enum bpf_prog_type {
BPF_PROG_TYPE_SK_MSG,
BPF_PROG_TYPE_RAW_TRACEPOINT,
BPF_PROG_TYPE_CGROUP_SOCK_ADDR,
BPF_PROG_TYPE_LWT_SEG6LOCAL,
};
enum bpf_attach_type {
......@@ -1902,6 +1903,90 @@ union bpf_attr {
* egress otherwise). This is the only flag supported for now.
* Return
* **SK_PASS** on success, or **SK_DROP** on error.
*
* int bpf_lwt_push_encap(struct sk_buff *skb, u32 type, void *hdr, u32 len)
* Description
* Encapsulate the packet associated to *skb* within a Layer 3
* protocol header. This header is provided in the buffer at
* address *hdr*, with *len* its size in bytes. *type* indicates
* the protocol of the header and can be one of:
*
* **BPF_LWT_ENCAP_SEG6**
* IPv6 encapsulation with Segment Routing Header
* (**struct ipv6_sr_hdr**). *hdr* only contains the SRH,
* the IPv6 header is computed by the kernel.
* **BPF_LWT_ENCAP_SEG6_INLINE**
* Only works if *skb* contains an IPv6 packet. Insert a
* Segment Routing Header (**struct ipv6_sr_hdr**) inside
* the IPv6 header.
*
* A call to this helper is susceptible to change the underlaying
* packet buffer. Therefore, at load time, all checks on pointers
* previously done by the verifier are invalidated and must be
* performed again, if the helper is used in combination with
* direct packet access.
* Return
* 0 on success, or a negative error in case of failure.
*
* int bpf_lwt_seg6_store_bytes(struct sk_buff *skb, u32 offset, const void *from, u32 len)
* Description
* Store *len* bytes from address *from* into the packet
* associated to *skb*, at *offset*. Only the flags, tag and TLVs
* inside the outermost IPv6 Segment Routing Header can be
* modified through this helper.
*
* A call to this helper is susceptible to change the underlaying
* packet buffer. Therefore, at load time, all checks on pointers
* previously done by the verifier are invalidated and must be
* performed again, if the helper is used in combination with
* direct packet access.
* Return
* 0 on success, or a negative error in case of failure.
*
* int bpf_lwt_seg6_adjust_srh(struct sk_buff *skb, u32 offset, s32 delta)
* Description
* Adjust the size allocated to TLVs in the outermost IPv6
* Segment Routing Header contained in the packet associated to
* *skb*, at position *offset* by *delta* bytes. Only offsets
* after the segments are accepted. *delta* can be as well
* positive (growing) as negative (shrinking).
*
* A call to this helper is susceptible to change the underlaying
* packet buffer. Therefore, at load time, all checks on pointers
* previously done by the verifier are invalidated and must be
* performed again, if the helper is used in combination with
* direct packet access.
* Return
* 0 on success, or a negative error in case of failure.
*
* int bpf_lwt_seg6_action(struct sk_buff *skb, u32 action, void *param, u32 param_len)
* Description
* Apply an IPv6 Segment Routing action of type *action* to the
* packet associated to *skb*. Each action takes a parameter
* contained at address *param*, and of length *param_len* bytes.
* *action* can be one of:
*
* **SEG6_LOCAL_ACTION_END_X**
* End.X action: Endpoint with Layer-3 cross-connect.
* Type of *param*: **struct in6_addr**.
* **SEG6_LOCAL_ACTION_END_T**
* End.T action: Endpoint with specific IPv6 table lookup.
* Type of *param*: **int**.
* **SEG6_LOCAL_ACTION_END_B6**
* End.B6 action: Endpoint bound to an SRv6 policy.
* Type of param: **struct ipv6_sr_hdr**.
* **SEG6_LOCAL_ACTION_END_B6_ENCAP**
* End.B6.Encap action: Endpoint bound to an SRv6
* encapsulation policy.
* Type of param: **struct ipv6_sr_hdr**.
*
* A call to this helper is susceptible to change the underlaying
* packet buffer. Therefore, at load time, all checks on pointers
* previously done by the verifier are invalidated and must be
* performed again, if the helper is used in combination with
* direct packet access.
* Return
* 0 on success, or a negative error in case of failure.
*/
#define __BPF_FUNC_MAPPER(FN) \
FN(unspec), \
......@@ -1976,7 +2061,11 @@ union bpf_attr {
FN(fib_lookup), \
FN(sock_hash_update), \
FN(msg_redirect_hash), \
FN(sk_redirect_hash),
FN(sk_redirect_hash), \
FN(lwt_push_encap), \
FN(lwt_seg6_store_bytes), \
FN(lwt_seg6_adjust_srh), \
FN(lwt_seg6_action),
/* integer value in 'imm' field of BPF_CALL instruction selects which helper
* function eBPF program intends to call
......@@ -2043,6 +2132,12 @@ enum bpf_hdr_start_off {
BPF_HDR_START_NET,
};
/* Encapsulation type for BPF_FUNC_lwt_push_encap helper. */
enum bpf_lwt_encap_mode {
BPF_LWT_ENCAP_SEG6,
BPF_LWT_ENCAP_SEG6_INLINE
};
/* user accessible mirror of in-kernel sk_buff.
* new fields can only be added to the end of this structure
*/
......
......@@ -33,7 +33,8 @@ TEST_GEN_FILES = test_pkt_access.o test_xdp.o test_l4lb.o test_tcp_estats.o test
sample_map_ret0.o test_tcpbpf_kern.o test_stacktrace_build_id.o \
sockmap_tcp_msg_prog.o connect4_prog.o connect6_prog.o test_adjust_tail.o \
test_btf_haskv.o test_btf_nokv.o test_sockmap_kern.o test_tunnel_kern.o \
test_get_stack_rawtp.o test_sockmap_kern.o test_sockhash_kern.o
test_get_stack_rawtp.o test_sockmap_kern.o test_sockhash_kern.o \
test_lwt_seg6local.o
# Order correspond to 'make run_tests' order
TEST_PROGS := test_kmod.sh \
......@@ -42,7 +43,8 @@ TEST_PROGS := test_kmod.sh \
test_xdp_meta.sh \
test_offload.py \
test_sock_addr.sh \
test_tunnel.sh
test_tunnel.sh \
test_lwt_seg6local.sh
# Compile but not part of 'make run_tests'
TEST_GEN_PROGS_EXTENDED = test_libbpf_open test_sock_addr
......
......@@ -114,6 +114,18 @@ static int (*bpf_get_stack)(void *ctx, void *buf, int size, int flags) =
static int (*bpf_fib_lookup)(void *ctx, struct bpf_fib_lookup *params,
int plen, __u32 flags) =
(void *) BPF_FUNC_fib_lookup;
static int (*bpf_lwt_push_encap)(void *ctx, unsigned int type, void *hdr,
unsigned int len) =
(void *) BPF_FUNC_lwt_push_encap;
static int (*bpf_lwt_seg6_store_bytes)(void *ctx, unsigned int offset,
void *from, unsigned int len) =
(void *) BPF_FUNC_lwt_seg6_store_bytes;
static int (*bpf_lwt_seg6_action)(void *ctx, unsigned int action, void *param,
unsigned int param_len) =
(void *) BPF_FUNC_lwt_seg6_action;
static int (*bpf_lwt_seg6_adjust_srh)(void *ctx, unsigned int offset,
unsigned int len) =
(void *) BPF_FUNC_lwt_seg6_adjust_srh;
/* llvm builtin functions that eBPF C program may use to
* emit BPF_LD_ABS and BPF_LD_IND instructions
......
#include <stddef.h>
#include <inttypes.h>
#include <errno.h>
#include <linux/seg6_local.h>
#include <linux/bpf.h>
#include "bpf_helpers.h"
#include "bpf_endian.h"
#define bpf_printk(fmt, ...) \
({ \
char ____fmt[] = fmt; \
bpf_trace_printk(____fmt, sizeof(____fmt), \
##__VA_ARGS__); \
})
/* Packet parsing state machine helpers. */
#define cursor_advance(_cursor, _len) \
({ void *_tmp = _cursor; _cursor += _len; _tmp; })
#define SR6_FLAG_ALERT (1 << 4)
#define htonll(x) ((bpf_htonl(1)) == 1 ? (x) : ((uint64_t)bpf_htonl((x) & \
0xFFFFFFFF) << 32) | bpf_htonl((x) >> 32))
#define ntohll(x) ((bpf_ntohl(1)) == 1 ? (x) : ((uint64_t)bpf_ntohl((x) & \
0xFFFFFFFF) << 32) | bpf_ntohl((x) >> 32))
#define BPF_PACKET_HEADER __attribute__((packed))
struct ip6_t {
unsigned int ver:4;
unsigned int priority:8;
unsigned int flow_label:20;
unsigned short payload_len;
unsigned char next_header;
unsigned char hop_limit;
unsigned long long src_hi;
unsigned long long src_lo;
unsigned long long dst_hi;
unsigned long long dst_lo;
} BPF_PACKET_HEADER;
struct ip6_addr_t {
unsigned long long hi;
unsigned long long lo;
} BPF_PACKET_HEADER;
struct ip6_srh_t {
unsigned char nexthdr;
unsigned char hdrlen;
unsigned char type;
unsigned char segments_left;
unsigned char first_segment;
unsigned char flags;
unsigned short tag;
struct ip6_addr_t segments[0];
} BPF_PACKET_HEADER;
struct sr6_tlv_t {
unsigned char type;
unsigned char len;
unsigned char value[0];
} BPF_PACKET_HEADER;
__attribute__((always_inline)) struct ip6_srh_t *get_srh(struct __sk_buff *skb)
{
void *cursor, *data_end;
struct ip6_srh_t *srh;
struct ip6_t *ip;
uint8_t *ipver;
data_end = (void *)(long)skb->data_end;
cursor = (void *)(long)skb->data;
ipver = (uint8_t *)cursor;
if ((void *)ipver + sizeof(*ipver) > data_end)
return NULL;
if ((*ipver >> 4) != 6)
return NULL;
ip = cursor_advance(cursor, sizeof(*ip));
if ((void *)ip + sizeof(*ip) > data_end)
return NULL;
if (ip->next_header != 43)
return NULL;
srh = cursor_advance(cursor, sizeof(*srh));
if ((void *)srh + sizeof(*srh) > data_end)
return NULL;
if (srh->type != 4)
return NULL;
return srh;
}
__attribute__((always_inline))
int update_tlv_pad(struct __sk_buff *skb, uint32_t new_pad,
uint32_t old_pad, uint32_t pad_off)
{
int err;
if (new_pad != old_pad) {
err = bpf_lwt_seg6_adjust_srh(skb, pad_off,
(int) new_pad - (int) old_pad);
if (err)
return err;
}
if (new_pad > 0) {
char pad_tlv_buf[16] = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0};
struct sr6_tlv_t *pad_tlv = (struct sr6_tlv_t *) pad_tlv_buf;
pad_tlv->type = SR6_TLV_PADDING;
pad_tlv->len = new_pad - 2;
err = bpf_lwt_seg6_store_bytes(skb, pad_off,
(void *)pad_tlv_buf, new_pad);
if (err)
return err;
}
return 0;
}
__attribute__((always_inline))
int is_valid_tlv_boundary(struct __sk_buff *skb, struct ip6_srh_t *srh,
uint32_t *tlv_off, uint32_t *pad_size,
uint32_t *pad_off)
{
uint32_t srh_off, cur_off;
int offset_valid = 0;
int err;
srh_off = (char *)srh - (char *)(long)skb->data;
// cur_off = end of segments, start of possible TLVs
cur_off = srh_off + sizeof(*srh) +
sizeof(struct ip6_addr_t) * (srh->first_segment + 1);
*pad_off = 0;
// we can only go as far as ~10 TLVs due to the BPF max stack size
#pragma clang loop unroll(full)
for (int i = 0; i < 10; i++) {
struct sr6_tlv_t tlv;
if (cur_off == *tlv_off)
offset_valid = 1;
if (cur_off >= srh_off + ((srh->hdrlen + 1) << 3))
break;
err = bpf_skb_load_bytes(skb, cur_off, &tlv, sizeof(tlv));
if (err)
return err;
if (tlv.type == SR6_TLV_PADDING) {
*pad_size = tlv.len + sizeof(tlv);
*pad_off = cur_off;
if (*tlv_off == srh_off) {
*tlv_off = cur_off;
offset_valid = 1;
}
break;
} else if (tlv.type == SR6_TLV_HMAC) {
break;
}
cur_off += sizeof(tlv) + tlv.len;
} // we reached the padding or HMAC TLVs, or the end of the SRH
if (*pad_off == 0)
*pad_off = cur_off;
if (*tlv_off == -1)
*tlv_off = cur_off;
else if (!offset_valid)
return -EINVAL;
return 0;
}
__attribute__((always_inline))
int add_tlv(struct __sk_buff *skb, struct ip6_srh_t *srh, uint32_t tlv_off,
struct sr6_tlv_t *itlv, uint8_t tlv_size)
{
uint32_t srh_off = (char *)srh - (char *)(long)skb->data;
uint8_t len_remaining, new_pad;
uint32_t pad_off = 0;
uint32_t pad_size = 0;
uint32_t partial_srh_len;
int err;
if (tlv_off != -1)
tlv_off += srh_off;
if (itlv->type == SR6_TLV_PADDING || itlv->type == SR6_TLV_HMAC)
return -EINVAL;
err = is_valid_tlv_boundary(skb, srh, &tlv_off, &pad_size, &pad_off);
if (err)
return err;
err = bpf_lwt_seg6_adjust_srh(skb, tlv_off, sizeof(*itlv) + itlv->len);
if (err)
return err;
err = bpf_lwt_seg6_store_bytes(skb, tlv_off, (void *)itlv, tlv_size);
if (err)
return err;
// the following can't be moved inside update_tlv_pad because the
// bpf verifier has some issues with it
pad_off += sizeof(*itlv) + itlv->len;
partial_srh_len = pad_off - srh_off;
len_remaining = partial_srh_len % 8;
new_pad = 8 - len_remaining;
if (new_pad == 1) // cannot pad for 1 byte only
new_pad = 9;
else if (new_pad == 8)
new_pad = 0;
return update_tlv_pad(skb, new_pad, pad_size, pad_off);
}
__attribute__((always_inline))
int delete_tlv(struct __sk_buff *skb, struct ip6_srh_t *srh,
uint32_t tlv_off)
{
uint32_t srh_off = (char *)srh - (char *)(long)skb->data;
uint8_t len_remaining, new_pad;
uint32_t partial_srh_len;
uint32_t pad_off = 0;
uint32_t pad_size = 0;
struct sr6_tlv_t tlv;
int err;
tlv_off += srh_off;
err = is_valid_tlv_boundary(skb, srh, &tlv_off, &pad_size, &pad_off);
if (err)
return err;
err = bpf_skb_load_bytes(skb, tlv_off, &tlv, sizeof(tlv));
if (err)
return err;
err = bpf_lwt_seg6_adjust_srh(skb, tlv_off, -(sizeof(tlv) + tlv.len));
if (err)
return err;
pad_off -= sizeof(tlv) + tlv.len;
partial_srh_len = pad_off - srh_off;
len_remaining = partial_srh_len % 8;
new_pad = 8 - len_remaining;
if (new_pad == 1) // cannot pad for 1 byte only
new_pad = 9;
else if (new_pad == 8)
new_pad = 0;
return update_tlv_pad(skb, new_pad, pad_size, pad_off);
}
__attribute__((always_inline))
int has_egr_tlv(struct __sk_buff *skb, struct ip6_srh_t *srh)
{
int tlv_offset = sizeof(struct ip6_t) + sizeof(struct ip6_srh_t) +
((srh->first_segment + 1) << 4);
struct sr6_tlv_t tlv;
if (bpf_skb_load_bytes(skb, tlv_offset, &tlv, sizeof(struct sr6_tlv_t)))
return 0;
if (tlv.type == SR6_TLV_EGRESS && tlv.len == 18) {
struct ip6_addr_t egr_addr;
if (bpf_skb_load_bytes(skb, tlv_offset + 4, &egr_addr, 16))
return 0;
// check if egress TLV value is correct
if (ntohll(egr_addr.hi) == 0xfd00000000000000 &&
ntohll(egr_addr.lo) == 0x4)
return 1;
}
return 0;
}
// This function will push a SRH with segments fd00::1, fd00::2, fd00::3,
// fd00::4
SEC("encap_srh")
int __encap_srh(struct __sk_buff *skb)
{
unsigned long long hi = 0xfd00000000000000;
struct ip6_addr_t *seg;
struct ip6_srh_t *srh;
char srh_buf[72]; // room for 4 segments
int err;
srh = (struct ip6_srh_t *)srh_buf;
srh->nexthdr = 0;
srh->hdrlen = 8;
srh->type = 4;
srh->segments_left = 3;
srh->first_segment = 3;
srh->flags = 0;
srh->tag = 0;
seg = (struct ip6_addr_t *)((char *)srh + sizeof(*srh));
#pragma clang loop unroll(full)
for (unsigned long long lo = 0; lo < 4; lo++) {
seg->lo = htonll(4 - lo);
seg->hi = htonll(hi);
seg = (struct ip6_addr_t *)((char *)seg + sizeof(*seg));
}
err = bpf_lwt_push_encap(skb, 0, (void *)srh, sizeof(srh_buf));
if (err)
return BPF_DROP;
return BPF_REDIRECT;
}
// Add an Egress TLV fc00::4, add the flag A,
// and apply End.X action to fc42::1
SEC("add_egr_x")
int __add_egr_x(struct __sk_buff *skb)
{
unsigned long long hi = 0xfc42000000000000;
unsigned long long lo = 0x1;
struct ip6_srh_t *srh = get_srh(skb);
uint8_t new_flags = SR6_FLAG_ALERT;
struct ip6_addr_t addr;
int err, offset;
if (srh == NULL)
return BPF_DROP;
uint8_t tlv[20] = {2, 18, 0, 0, 0xfd, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0,
0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x0, 0x4};
err = add_tlv(skb, srh, (srh->hdrlen+1) << 3,
(struct sr6_tlv_t *)&tlv, 20);
if (err)
return BPF_DROP;
offset = sizeof(struct ip6_t) + offsetof(struct ip6_srh_t, flags);
err = bpf_lwt_seg6_store_bytes(skb, offset,
(void *)&new_flags, sizeof(new_flags));
if (err)
return BPF_DROP;
addr.lo = htonll(lo);
addr.hi = htonll(hi);
err = bpf_lwt_seg6_action(skb, SEG6_LOCAL_ACTION_END_X,
(void *)&addr, sizeof(addr));
if (err)
return BPF_DROP;
return BPF_REDIRECT;
}
// Pop the Egress TLV, reset the flags, change the tag 2442 and finally do a
// simple End action
SEC("pop_egr")
int __pop_egr(struct __sk_buff *skb)
{
struct ip6_srh_t *srh = get_srh(skb);
uint16_t new_tag = bpf_htons(2442);
uint8_t new_flags = 0;
int err, offset;
if (srh == NULL)
return BPF_DROP;
if (srh->flags != SR6_FLAG_ALERT)
return BPF_DROP;
if (srh->hdrlen != 11) // 4 segments + Egress TLV + Padding TLV
return BPF_DROP;
if (!has_egr_tlv(skb, srh))
return BPF_DROP;
err = delete_tlv(skb, srh, 8 + (srh->first_segment + 1) * 16);
if (err)
return BPF_DROP;
offset = sizeof(struct ip6_t) + offsetof(struct ip6_srh_t, flags);
if (bpf_lwt_seg6_store_bytes(skb, offset, (void *)&new_flags,
sizeof(new_flags)))
return BPF_DROP;
offset = sizeof(struct ip6_t) + offsetof(struct ip6_srh_t, tag);
if (bpf_lwt_seg6_store_bytes(skb, offset, (void *)&new_tag,
sizeof(new_tag)))
return BPF_DROP;
return BPF_OK;
}
// Inspect if the Egress TLV and flag have been removed, if the tag is correct,
// then apply a End.T action to reach the last segment
SEC("inspect_t")
int __inspect_t(struct __sk_buff *skb)
{
struct ip6_srh_t *srh = get_srh(skb);
int table = 117;
int err;
if (srh == NULL)
return BPF_DROP;
if (srh->flags != 0)
return BPF_DROP;
if (srh->tag != bpf_htons(2442))
return BPF_DROP;
if (srh->hdrlen != 8) // 4 segments
return BPF_DROP;
err = bpf_lwt_seg6_action(skb, SEG6_LOCAL_ACTION_END_T,
(void *)&table, sizeof(table));
if (err)
return BPF_DROP;
return BPF_REDIRECT;
}
char __license[] SEC("license") = "GPL";
#!/bin/bash
# Connects 6 network namespaces through veths.
# Each NS may have different IPv6 global scope addresses :
# NS1 ---- NS2 ---- NS3 ---- NS4 ---- NS5 ---- NS6
# fb00::1 fd00::1 fd00::2 fd00::3 fb00::6
# fc42::1 fd00::4
#
# All IPv6 packets going to fb00::/16 through NS2 will be encapsulated in a
# IPv6 header with a Segment Routing Header, with segments :
# fd00::1 -> fd00::2 -> fd00::3 -> fd00::4
#
# 3 fd00::/16 IPv6 addresses are binded to seg6local End.BPF actions :
# - fd00::1 : add a TLV, change the flags and apply a End.X action to fc42::1
# - fd00::2 : remove the TLV, change the flags, add a tag
# - fd00::3 : apply an End.T action to fd00::4, through routing table 117
#
# fd00::4 is a simple Segment Routing node decapsulating the inner IPv6 packet.
# Each End.BPF action will validate the operations applied on the SRH by the
# previous BPF program in the chain, otherwise the packet is dropped.
#
# An UDP datagram is sent from fb00::1 to fb00::6. The test succeeds if this
# datagram can be read on NS6 when binding to fb00::6.
TMP_FILE="/tmp/selftest_lwt_seg6local.txt"
cleanup()
{
if [ "$?" = "0" ]; then
echo "selftests: test_lwt_seg6local [PASS]";
else
echo "selftests: test_lwt_seg6local [FAILED]";
fi
set +e
ip netns del ns1 2> /dev/null
ip netns del ns2 2> /dev/null
ip netns del ns3 2> /dev/null
ip netns del ns4 2> /dev/null
ip netns del ns5 2> /dev/null
ip netns del ns6 2> /dev/null
rm -f $TMP_FILE
}
set -e
ip netns add ns1
ip netns add ns2
ip netns add ns3
ip netns add ns4
ip netns add ns5
ip netns add ns6
trap cleanup 0 2 3 6 9
ip link add veth1 type veth peer name veth2
ip link add veth3 type veth peer name veth4
ip link add veth5 type veth peer name veth6
ip link add veth7 type veth peer name veth8
ip link add veth9 type veth peer name veth10
ip link set veth1 netns ns1
ip link set veth2 netns ns2
ip link set veth3 netns ns2
ip link set veth4 netns ns3
ip link set veth5 netns ns3
ip link set veth6 netns ns4
ip link set veth7 netns ns4
ip link set veth8 netns ns5
ip link set veth9 netns ns5
ip link set veth10 netns ns6
ip netns exec ns1 ip link set dev veth1 up
ip netns exec ns2 ip link set dev veth2 up
ip netns exec ns2 ip link set dev veth3 up
ip netns exec ns3 ip link set dev veth4 up
ip netns exec ns3 ip link set dev veth5 up
ip netns exec ns4 ip link set dev veth6 up
ip netns exec ns4 ip link set dev veth7 up
ip netns exec ns5 ip link set dev veth8 up
ip netns exec ns5 ip link set dev veth9 up
ip netns exec ns6 ip link set dev veth10 up
ip netns exec ns6 ip link set dev lo up
# All link scope addresses and routes required between veths
ip netns exec ns1 ip -6 addr add fb00::12/16 dev veth1 scope link
ip netns exec ns1 ip -6 route add fb00::21 dev veth1 scope link
ip netns exec ns2 ip -6 addr add fb00::21/16 dev veth2 scope link
ip netns exec ns2 ip -6 addr add fb00::34/16 dev veth3 scope link
ip netns exec ns2 ip -6 route add fb00::43 dev veth3 scope link
ip netns exec ns3 ip -6 route add fb00::65 dev veth5 scope link
ip netns exec ns3 ip -6 addr add fb00::43/16 dev veth4 scope link
ip netns exec ns3 ip -6 addr add fb00::56/16 dev veth5 scope link
ip netns exec ns4 ip -6 addr add fb00::65/16 dev veth6 scope link
ip netns exec ns4 ip -6 addr add fb00::78/16 dev veth7 scope link
ip netns exec ns4 ip -6 route add fb00::87 dev veth7 scope link
ip netns exec ns5 ip -6 addr add fb00::87/16 dev veth8 scope link
ip netns exec ns5 ip -6 addr add fb00::910/16 dev veth9 scope link
ip netns exec ns5 ip -6 route add fb00::109 dev veth9 scope link
ip netns exec ns5 ip -6 route add fb00::109 table 117 dev veth9 scope link
ip netns exec ns6 ip -6 addr add fb00::109/16 dev veth10 scope link
ip netns exec ns1 ip -6 addr add fb00::1/16 dev lo
ip netns exec ns1 ip -6 route add fb00::6 dev veth1 via fb00::21
ip netns exec ns2 ip -6 route add fb00::6 encap bpf in obj test_lwt_seg6local.o sec encap_srh dev veth2
ip netns exec ns2 ip -6 route add fd00::1 dev veth3 via fb00::43 scope link
ip netns exec ns3 ip -6 route add fc42::1 dev veth5 via fb00::65
ip netns exec ns3 ip -6 route add fd00::1 encap seg6local action End.BPF obj test_lwt_seg6local.o sec add_egr_x dev veth4
ip netns exec ns4 ip -6 route add fd00::2 encap seg6local action End.BPF obj test_lwt_seg6local.o sec pop_egr dev veth6
ip netns exec ns4 ip -6 addr add fc42::1 dev lo
ip netns exec ns4 ip -6 route add fd00::3 dev veth7 via fb00::87
ip netns exec ns5 ip -6 route add fd00::4 table 117 dev veth9 via fb00::109
ip netns exec ns5 ip -6 route add fd00::3 encap seg6local action End.BPF obj test_lwt_seg6local.o sec inspect_t dev veth8
ip netns exec ns6 ip -6 addr add fb00::6/16 dev lo
ip netns exec ns6 ip -6 addr add fd00::4/16 dev lo
ip netns exec ns1 sysctl net.ipv6.conf.all.forwarding=1 > /dev/null
ip netns exec ns2 sysctl net.ipv6.conf.all.forwarding=1 > /dev/null
ip netns exec ns3 sysctl net.ipv6.conf.all.forwarding=1 > /dev/null
ip netns exec ns4 sysctl net.ipv6.conf.all.forwarding=1 > /dev/null
ip netns exec ns5 sysctl net.ipv6.conf.all.forwarding=1 > /dev/null
ip netns exec ns6 sysctl net.ipv6.conf.all.seg6_enabled=1 > /dev/null
ip netns exec ns6 sysctl net.ipv6.conf.lo.seg6_enabled=1 > /dev/null
ip netns exec ns6 sysctl net.ipv6.conf.veth10.seg6_enabled=1 > /dev/null
ip netns exec ns6 nc -l -6 -u -d 7330 > $TMP_FILE &
ip netns exec ns1 bash -c "echo 'foobar' | nc -w0 -6 -u -p 2121 -s fb00::1 fb00::6 7330"
sleep 5 # wait enough time to ensure the UDP datagram arrived to the last segment
kill -INT $!
if [[ $(< $TMP_FILE) != "foobar" ]]; then
exit 1
fi
exit 0
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