• J
    net: arp: introduce arp_evict_nocarrier sysctl parameter · fcdb44d0
    James Prestwood 提交于
    This change introduces a new sysctl parameter, arp_evict_nocarrier.
    When set (default) the ARP cache will be cleared on a NOCARRIER event.
    This new option has been defaulted to '1' which maintains existing
    behavior.
    
    Clearing the ARP cache on NOCARRIER is relatively new, introduced by:
    
    commit 859bd2ef
    Author: David Ahern <dsahern@gmail.com>
    Date:   Thu Oct 11 20:33:49 2018 -0700
    
        net: Evict neighbor entries on carrier down
    
    The reason for this changes is to prevent the ARP cache from being
    cleared when a wireless device roams. Specifically for wireless roams
    the ARP cache should not be cleared because the underlying network has not
    changed. Clearing the ARP cache in this case can introduce significant
    delays sending out packets after a roam.
    
    A user reported such a situation here:
    
    https://lore.kernel.org/linux-wireless/CACsRnHWa47zpx3D1oDq9JYnZWniS8yBwW1h0WAVZ6vrbwL_S0w@mail.gmail.com/
    
    After some investigation it was found that the kernel was holding onto
    packets until ARP finished which resulted in this 1 second delay. It
    was also found that the first ARP who-has was never responded to,
    which is actually what caues the delay. This change is more or less
    working around this behavior, but again, there is no reason to clear
    the cache on a roam anyways.
    
    As for the unanswered who-has, we know the packet made it OTA since
    it was seen while monitoring. Why it never received a response is
    unknown. In any case, since this is a problem on the AP side of things
    all that can be done is to work around it until it is solved.
    
    Some background on testing/reproducing the packet delay:
    
    Hardware:
     - 2 access points configured for Fast BSS Transition (Though I don't
       see why regular reassociation wouldn't have the same behavior)
     - Wireless station running IWD as supplicant
     - A device on network able to respond to pings (I used one of the APs)
    
    Procedure:
     - Connect to first AP
     - Ping once to establish an ARP entry
     - Start a tcpdump
     - Roam to second AP
     - Wait for operstate UP event, and note the timestamp
     - Start pinging
    
    Results:
    
    Below is the tcpdump after UP. It was recorded the interface went UP at
    10:42:01.432875.
    
    10:42:01.461871 ARP, Request who-has 192.168.254.1 tell 192.168.254.71, length 28
    10:42:02.497976 ARP, Request who-has 192.168.254.1 tell 192.168.254.71, length 28
    10:42:02.507162 ARP, Reply 192.168.254.1 is-at ac:86:74:55:b0:20, length 46
    10:42:02.507185 IP 192.168.254.71 > 192.168.254.1: ICMP echo request, id 52792, seq 1, length 64
    10:42:02.507205 IP 192.168.254.71 > 192.168.254.1: ICMP echo request, id 52792, seq 2, length 64
    10:42:02.507212 IP 192.168.254.71 > 192.168.254.1: ICMP echo request, id 52792, seq 3, length 64
    10:42:02.507219 IP 192.168.254.71 > 192.168.254.1: ICMP echo request, id 52792, seq 4, length 64
    10:42:02.507225 IP 192.168.254.71 > 192.168.254.1: ICMP echo request, id 52792, seq 5, length 64
    10:42:02.507232 IP 192.168.254.71 > 192.168.254.1: ICMP echo request, id 52792, seq 6, length 64
    10:42:02.515373 IP 192.168.254.1 > 192.168.254.71: ICMP echo reply, id 52792, seq 1, length 64
    10:42:02.521399 IP 192.168.254.1 > 192.168.254.71: ICMP echo reply, id 52792, seq 2, length 64
    10:42:02.521612 IP 192.168.254.1 > 192.168.254.71: ICMP echo reply, id 52792, seq 3, length 64
    10:42:02.521941 IP 192.168.254.1 > 192.168.254.71: ICMP echo reply, id 52792, seq 4, length 64
    10:42:02.522419 IP 192.168.254.1 > 192.168.254.71: ICMP echo reply, id 52792, seq 5, length 64
    10:42:02.523085 IP 192.168.254.1 > 192.168.254.71: ICMP echo reply, id 52792, seq 6, length 64
    
    You can see the first ARP who-has went out very quickly after UP, but
    was never responded to. Nearly a second later the kernel retries and
    gets a response. Only then do the ping packets go out. If an ARP entry
    is manually added prior to UP (after the cache is cleared) it is seen
    that the first ping is never responded to, so its not only an issue with
    ARP but with data packets in general.
    
    As mentioned prior, the wireless interface was also monitored to verify
    the ping/ARP packet made it OTA which was observed to be true.
    Signed-off-by: NJames Prestwood <prestwoj@gmail.com>
    Reviewed-by: NDavid Ahern <dsahern@kernel.org>
    Signed-off-by: NJakub Kicinski <kuba@kernel.org>
    fcdb44d0
devinet.c 68.9 KB