Avoid mangling packet size which is expected to be the same as received.
Stream pointer advancing is necessary to avoid changing the packet and
reseting BGP sessions.
Signed-off-by: Donatas Abraitis <donatas.abraitis@gmail.com>
People keep asking about the default unreachable route
in the linux vrf table. Add a bit of color about the
design choices and what is going on.
Signed-off-by: Donald Sharp <sharpd@nvidia.com>
Only one of the four reference files was present; add the missing
three. The test just silently passed if a ref file was missing:
change that to a failure.
Signed-off-by: Mark Stapp <mjs@voltanet.io>
Wrote a little guide for cross-compiling FRR, gleaned from notes I took
while compiling for a RPi 3B+ on a Gentoo x86_64 system.
Care was taken to keep this documentation as generic as possible so
these steps could be applied to any cross-compile targeting a supported
architecture.
Signed-off-by: Wesley Coakley <wcoakley@nvidia.com>
An UPDATE message that contains the AS number of zero in the AS_PATH
or AGGREGATOR attribute MUST be considered as malformed and be
handled by the procedures specified in [RFC7606].
An UPDATE message with a malformed AGGREGATOR attribute SHALL be
handled using the approach of "attribute discard".
Attribute discard: In this approach, the malformed attribute MUST
be discarded and the UPDATE message continues to be processed.
This approach MUST NOT be used except in the case of an attribute
that has no effect on route selection or installation.
Signed-off-by: Donatas Abraitis <donatas.abraitis@gmail.com>
the old VXLAN function for local MAC deletion was still in
existence and being called from the VXLAN code whilst the new
generic function was not being called at all. Resolve this so
the generic function matches the old function and is called
exclusively.
Signed-off-by: Pat Ruddy <pat@voltanet.io>
This didn't exist yet when the xref code came around, and since
frrtrace() gets collapsed to nothing by the preprocessor when
tracepoints are disabled, it didn't cause any compiler errors...
Signed-off-by: David Lamparter <equinox@diac24.net>
gcc fucks up global variables with section attributes when they're used
in templated C++ code. The template instantiation "magic" kinda breaks
down (it's implemented through COMDAT in the linker, which clashes with
the section attribute.)
The workaround provides full runtime functionality, but the xref
extraction tool (xrelfo.py) won't work on C++ code compiled by GCC.
FWIW, clang gets this right.
Signed-off-by: David Lamparter <equinox@diac24.net>
Description:
When user is config connect timer, it doesn't reflect
immediately. It reflect when next time neighbor is tried to reconnect.
Problem Description/Summary :
When user is config connect timer, it doesn't reflect
The network connection was aborted by the local system.d to reconnect.
Fix is to update the connect timer immediately if BGP
session is not in establish state.
Expected Behavior :
If neighbor is not yet established, we should immediately apply the config connect timer to the peer.
Signed-off-by: sudhanshukumar22 <sudhanshu.kumar@broadcom.com>
When adjacencies change state the attached-bits in LSPs in other areas
on the router may need to be modified.
1. If a router no longer has a L2 adjacency to another area the
attached-bit must no longer be sent in the LSP
2. If a new L2 adjacency comes up in a different area then the
attached-bit should be sent in the LSP
Signed-off-by: Lynne Morrison <lynne@voltanet.io>
Add a test for the infinite recursion case fixed
with 0c4dbb5f8fe8fb188fa0e0aa8ce04764e893b79b
See that commit for details of the problem. This test uses a simpler
version of the repro found there as the test.
Signed-off-by: Stephen Worley <sworley@nvidia.com>
Disallow the resolution to nexthops that are marked duplicate.
When we are resolving to an ecmp group, it's possible this
group has duplicates.
I found this when I hit a bug where we can have groups resolving
to each other and cause the resolved->next->next pointer to increase
exponentially. Sufficiently large ecmp and zebra will grind to a hault.
Like so:
```
D> 4.4.4.14/32 [150/0] via 1.1.1.1 (recursive), weight 1, 00:00:02
* via 1.1.1.1, dummy1 onlink, weight 1, 00:00:02
via 4.4.4.1 (recursive), weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 4.4.4.2 (recursive), weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 4.4.4.3 (recursive), weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 4.4.4.4 (recursive), weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 4.4.4.5 (recursive), weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 4.4.4.6 (recursive), weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 4.4.4.7 (recursive), weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 4.4.4.8 (recursive), weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 4.4.4.9 (recursive), weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 4.4.4.10 (recursive), weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 4.4.4.11 (recursive), weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 4.4.4.12 (recursive), weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 4.4.4.13 (recursive), weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 4.4.4.15 (recursive), weight 1, 00:00:02
via 1.1.1.1, dummy1 onlink, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1 onlink, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 4.4.4.16 (recursive), weight 1, 00:00:02
via 1.1.1.1, dummy1 onlink, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
via 1.1.1.1, dummy1, weight 1, 00:00:02
D> 4.4.4.15/32 [150/0] via 1.1.1.1 (recursive), weight 1, 00:00:09
* via 1.1.1.1, dummy1 onlink, weight 1, 00:00:09
via 4.4.4.1 (recursive), weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 4.4.4.2 (recursive), weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 4.4.4.3 (recursive), weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 4.4.4.4 (recursive), weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 4.4.4.5 (recursive), weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 4.4.4.6 (recursive), weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 4.4.4.7 (recursive), weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 4.4.4.8 (recursive), weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 4.4.4.9 (recursive), weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 4.4.4.10 (recursive), weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 4.4.4.11 (recursive), weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 4.4.4.12 (recursive), weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 4.4.4.13 (recursive), weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 4.4.4.14 (recursive), weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 4.4.4.16 (recursive), weight 1, 00:00:09
via 1.1.1.1, dummy1 onlink, weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
via 1.1.1.1, dummy1, weight 1, 00:00:09
D> 4.4.4.16/32 [150/0] via 1.1.1.1 (recursive), weight 1, 00:00:19
* via 1.1.1.1, dummy1 onlink, weight 1, 00:00:19
via 4.4.4.1 (recursive), weight 1, 00:00:19
via 1.1.1.1, dummy1, weight 1, 00:00:19
via 4.4.4.2 (recursive), weight 1, 00:00:19
...............
................
and on...
```
You can repro the above via:
```
kernel routes:
1.1.1.1 dev dummy1 scope link
4.4.4.0/24 via 1.1.1.1 dev dummy1
==============================
config:
nexthop-group doof
nexthop 1.1.1.1
nexthop 4.4.4.1
nexthop 4.4.4.10
nexthop 4.4.4.11
nexthop 4.4.4.12
nexthop 4.4.4.13
nexthop 4.4.4.14
nexthop 4.4.4.15
nexthop 4.4.4.16
nexthop 4.4.4.2
nexthop 4.4.4.3
nexthop 4.4.4.4
nexthop 4.4.4.5
nexthop 4.4.4.6
nexthop 4.4.4.7
nexthop 4.4.4.8
nexthop 4.4.4.9
!
===========================
Then use sharpd to install 4.4.4.16 -> 4.4.4.1 pointing to that nexthop
group in decending order.
```
With these changes it prevents the growing ecmp above by disallowing
duplicates to be in the resolution decision. These nexthops are not
installed anyways so why should we be resolving to them?
Signed-off-by: Stephen Worley <sworley@nvidia.com>
We don't use `%n` anywhere, so the only purpose it serves is enabling
exploits.
(I thought about this initially when adding printfrr, but I wasn't sure
we don't use `%n` anywhere, and thought I'll check later, and then just
forgot it...)
Signed-off-by: David Lamparter <equinox@diac24.net>
This is the best I can make the asm blocks in lib/xref.h look, so just
mute the warning. (It shouldn't come in relevant for other code.)
Signed-off-by: David Lamparter <equinox@diac24.net>
