/
weave
executable file
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/
weave
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#!/bin/sh
set -e
[ -n "$WEAVE_DEBUG" ] && set -x
SCRIPT_VERSION="(unreleased version)"
IMAGE_VERSION=latest
[ "$SCRIPT_VERSION" = "(unreleased version)" ] || IMAGE_VERSION=$SCRIPT_VERSION
IMAGE_VERSION=${WEAVE_VERSION:-$IMAGE_VERSION}
# - Docker versions prior to 1.6 cannot pull images from DockerHub
# - The weavexec image embeds a Docker 1.6.2 client. Docker will give
# a "client is newer than server error" if the daemon has an older
# API version, which could be confusing if the user's Docker client
# is correctly matched with that older version.
#
# We therefore check that the user's Docker *client* is >= 1.6
MIN_DOCKER_VERSION=1.6.0
# These are needed for remote execs, hence we introduce them here
DOCKERHUB_USER=${DOCKERHUB_USER:-weaveworks}
BASE_EXEC_IMAGE=$DOCKERHUB_USER/weaveexec
EXEC_IMAGE=$BASE_EXEC_IMAGE:$IMAGE_VERSION
WEAVEDB_IMAGE=$DOCKERHUB_USER/weavedb
PROXY_HOST=${PROXY_HOST:-$(echo "${DOCKER_HOST#tcp://}" | cut -s -d: -f1)}
PROXY_HOST=${PROXY_HOST:-127.0.0.1}
DOCKER_CLIENT_HOST=${DOCKER_CLIENT_HOST:-$DOCKER_HOST}
# Define some regular expressions for matching addresses.
# The regexp here is far from precise, but good enough.
IP_REGEXP="[0-9]{1,3}\.[0-9]{1,3}\.[0-9]{1,3}\.[0-9]{1,3}"
CIDR_REGEXP="$IP_REGEXP/[0-9]{1,2}"
######################################################################
# helpers that run locally, even without --local
######################################################################
usage_no_exit() {
cat >&2 <<EOF
Usage:
weave --help | help
setup
version
weave launch <same arguments as 'weave launch-router'>
launch-router [--password <pass>] [--trusted-subnets <cidr>,...]
[--host <ip_address>]
[--name <mac>] [--nickname <nickname>]
[--no-restart] [--resume] [--no-discovery] [--no-dns]
[--ipalloc-init <mode>]
[--ipalloc-range <cidr> [--ipalloc-default-subnet <cidr>]]
[--log-level=debug|info|warning|error]
<peer> ...
launch-proxy [-H <endpoint>] [--without-dns] [--no-multicast-route]
[--no-rewrite-hosts] [--no-default-ipalloc] [--no-restart]
[--hostname-from-label <labelkey>]
[--hostname-match <regexp>]
[--hostname-replacement <replacement>]
[--rewrite-inspect]
[--log-level=debug|info|warning|error]
launch-plugin [--no-restart] [--no-multicast-route]
[--log-level=debug|info|warning|error]
weave prime
weave env [--restore]
config
dns-args
weave connect [--replace] [<peer> ...]
forget <peer> ...
weave run [--without-dns] [--no-rewrite-hosts] [--no-multicast-route]
[<addr> ...] <docker run args> ...
start [<addr> ...] <container_id>
attach [<addr> ...] <container_id>
detach [<addr> ...] <container_id>
restart <container_id>
weave expose [<addr> ...] [-h <fqdn>]
hide [<addr> ...]
weave dns-add [<ip_address> ...] <container_id> [-h <fqdn>] |
<ip_address> ... -h <fqdn>
dns-remove [<ip_address> ...] <container_id> [-h <fqdn>] |
<ip_address> ... -h <fqdn>
dns-lookup <unqualified_name>
weave status [targets | connections | peers | dns | ipam]
report [-f <format>]
ps [<container_id> ...]
weave stop
stop-router
stop-proxy
stop-plugin
weave reset [--force]
rmpeer <peer_id> ...
where <peer> = <ip_address_or_fqdn>[:<port>]
<cidr> = <ip_address>/<routing_prefix_length>
<addr> = [ip:]<cidr> | net:<cidr> | net:default
<endpoint> = [tcp://][<ip_address>]:<port> | [unix://]/path/to/socket
<peer_id> = <nickname> | <weave internal peer ID>
<mode> = consensus[=<count>] | seed=<mac>,... | observer
EOF
}
usage() {
usage_no_exit
exit 1
}
handle_help_arg() {
if [ "$1" = "--help" ] ; then
usage_no_exit
exit 0
fi
}
docker_sock_options() {
# Pass through DOCKER_HOST if it is a Unix socket;
# a TCP socket may be secured by TLS, in which case we can't use it
if echo "$DOCKER_HOST" | grep -q "^unix://" >/dev/null; then
echo "-v ${DOCKER_HOST#unix://}:${DOCKER_HOST#unix://} -e DOCKER_HOST"
else
echo "-v /var/run/docker.sock:/var/run/docker.sock"
fi
}
docker_run_options() {
echo --privileged --net=host $(docker_sock_options)
}
exec_options() {
case "$1" in
setup|setup-cni|launch|launch-router)
echo -v /:/host -e HOST_ROOT=/host
;;
esac
}
exec_remote() {
docker $DOCKER_CLIENT_ARGS run --rm \
$(docker_run_options) \
--pid=host \
$(exec_options "$@") \
-e DOCKERHUB_USER="$DOCKERHUB_USER" \
-e WEAVE_VERSION \
-e WEAVE_DEBUG \
-e WEAVE_DOCKER_ARGS \
-e WEAVEPROXY_DOCKER_ARGS \
-e WEAVEPLUGIN_DOCKER_ARGS \
-e WEAVE_PASSWORD \
-e WEAVE_PORT \
-e WEAVE_HTTP_ADDR \
-e WEAVE_STATUS_ADDR \
-e WEAVE_CONTAINER_NAME \
-e WEAVE_MTU \
-e WEAVE_NO_FASTDP \
-e WEAVE_NO_BRIDGED_FASTDP \
-e WEAVE_NO_PLUGIN \
-e DOCKER_BRIDGE \
-e DOCKER_CLIENT_HOST="$DOCKER_CLIENT_HOST" \
-e DOCKER_CLIENT_ARGS \
-e PROXY_HOST="$PROXY_HOST" \
-e COVERAGE \
-e CHECKPOINT_DISABLE \
-e AWSVPC \
$WEAVEEXEC_DOCKER_ARGS $EXEC_IMAGE --local "$@"
}
# Given $1 and $2 as semantic version numbers like 3.1.2, return [ $1 < $2 ]
version_lt() {
VERSION_MAJOR=${1%.*.*}
REST=${1%.*} VERSION_MINOR=${REST#*.}
VERSION_PATCH=${1#*.*.}
MIN_VERSION_MAJOR=${2%.*.*}
REST=${2%.*} MIN_VERSION_MINOR=${REST#*.}
MIN_VERSION_PATCH=${2#*.*.}
if [ \( "$VERSION_MAJOR" -lt "$MIN_VERSION_MAJOR" \) -o \
\( "$VERSION_MAJOR" -eq "$MIN_VERSION_MAJOR" -a \
\( "$VERSION_MINOR" -lt "$MIN_VERSION_MINOR" -o \
\( "$VERSION_MINOR" -eq "$MIN_VERSION_MINOR" -a \
\( "$VERSION_PATCH" -lt "$MIN_VERSION_PATCH" \) \) \) \) ] ; then
return 0
fi
return 1
}
check_docker_version() {
if ! DOCKER_VERSION=$(docker -v | sed -n -e 's|^Docker version \([0-9][0-9]*\.[0-9][0-9]*\.[0-9][0-9]*\).*|\1|p') || [ -z "$DOCKER_VERSION" ] ; then
echo "ERROR: Unable to parse docker version" >&2
exit 1
fi
if version_lt $DOCKER_VERSION $MIN_DOCKER_VERSION ; then
echo "ERROR: weave requires Docker version $MIN_DOCKER_VERSION or later; you are running $DOCKER_VERSION" >&2
exit 1
fi
}
is_cidr() {
echo "$1" | grep -E "^$CIDR_REGEXP$" >/dev/null
}
collect_cidr_args() {
CIDR_ARGS=""
CIDR_ARG_COUNT=0
while [ "$1" = "net:default" ] || is_cidr "$1" || is_cidr "${1#ip:}" || is_cidr "${1#net:}" ; do
CIDR_ARGS="$CIDR_ARGS ${1#ip:}"
CIDR_ARG_COUNT=$((CIDR_ARG_COUNT + 1))
shift 1
done
}
dns_arg_count() {
if [ "$1" = "--with-dns" -o "$1" = "--without-dns" ] ; then
echo 1
else
echo 0
fi
}
extra_hosts_args() {
DNS_EXTRA_HOSTS=
DNS_EXTRA_HOSTS_ARGS=
while [ $# -gt 0 ] ; do
case "$1" in
--add-host)
DNS_EXTRA_HOSTS="$2 $DNS_EXTRA_HOSTS"
DNS_EXTRA_HOSTS_ARGS="--add-host=$2 $DNS_EXTRA_HOSTS_ARGS"
shift
;;
--add-host=*)
DNS_EXTRA_HOSTS="${1#*=} $DNS_EXTRA_HOSTS"
DNS_EXTRA_HOSTS_ARGS="--add-host=${1#*=} $DNS_EXTRA_HOSTS_ARGS"
;;
esac
shift
done
}
kill_container() {
docker kill $1 >/dev/null 2>&1 || true
}
######################################################################
# main
######################################################################
check_docker_version
[ "$1" = "--local" ] && shift 1 && IS_LOCAL=1
# "--help|help" are special because we always want to process them
# at the client end.
handle_help_arg "$1" || handle_help_arg "--$1"
if [ "$1" = "version" -a -z "$IS_LOCAL" ] ; then
# non-local "version" is special because we want to show the
# version of the script executed by the user rather than what is
# embedded in weaveexec.
echo "weave script $SCRIPT_VERSION"
elif [ "$1" = "env" -a "$2" = "--restore" ] ; then
# "env --restore" is special because we always want to process it
# at the client end.
if [ "${ORIG_DOCKER_HOST-unset}" = "unset" ] ; then
echo "Nothing to restore. This is most likely because there was no preceding invocation of 'eval \$(weave env)' in this shell." >&2
exit 1
else
echo "DOCKER_HOST=$ORIG_DOCKER_HOST"
exit 0
fi
elif [ "$1" = "run" -a -z "$IS_LOCAL" ] ; then
# non-local "run" is a special case because we want to use docker
# directly, rather than the docker in $EXEC_IMAGE remotely. That's
# because we are passing arbitrary arguments on to docker run, and
# we can't rely on our baked-in docker to support those arguments.
shift 1
handle_help_arg "$1"
[ "$1" = "--without-dns" ] || DNS_ARGS=$(exec_remote dns-args "$@" || true)
shift $(dns_arg_count "$@")
REWRITE_HOSTS=1
NO_MULTICAST_ROUTE=
while [ $# -gt 0 ]; do
case "$1" in
--no-rewrite-hosts)
REWRITE_HOSTS=
;;
--no-multicast-route)
NO_MULTICAST_ROUTE=1
;;
*)
break
;;
esac
shift
done
[ -n "$REWRITE_HOSTS" ] && extra_hosts_args "$@" && DNS_EXTRA_HOSTS_ARGS="--rewrite-hosts $DNS_EXTRA_HOSTS_ARGS"
[ -n "$NO_MULTICAST_ROUTE" ] && ATTACH_ARGS="--no-multicast-route"
collect_cidr_args "$@"
shift $CIDR_ARG_COUNT
CONTAINER=$(docker $DOCKER_CLIENT_ARGS run -e WEAVE_CIDR=none $DNS_ARGS -d "$@")
if ! exec_remote attach $CIDR_ARGS $DNS_EXTRA_HOSTS_ARGS $ATTACH_ARGS $CONTAINER >/dev/null ; then
kill_container $CONTAINER
exit 1
fi
echo $CONTAINER
exit 0
fi
if [ -z "$IS_LOCAL" ] ; then
exec_remote "$@"
exit $?
fi
######################################################################
# main (remote and --local) - settings
######################################################################
# Default restart policy for router/proxy/plugin
RESTART_POLICY="--restart=always"
BASE_IMAGE=$DOCKERHUB_USER/weave
IMAGE=$BASE_IMAGE:$IMAGE_VERSION
CONTAINER_NAME=${WEAVE_CONTAINER_NAME:-weave}
BASE_PLUGIN_IMAGE=$DOCKERHUB_USER/plugin
PLUGIN_IMAGE=$BASE_PLUGIN_IMAGE:$IMAGE_VERSION
PLUGIN_CONTAINER_NAME=weaveplugin
# Note VOLUMES_CONTAINER which is for weavewait should change when you upgrade Weave
VOLUMES_CONTAINER_NAME=weavevolumes-$IMAGE_VERSION
# DB files should remain when you upgrade, so version number not included in name
DB_CONTAINER_NAME=${CONTAINER_NAME}db
DOCKER_BRIDGE=${DOCKER_BRIDGE:-docker0}
BRIDGE=weave
# This value is overridden when the datapath is used unbridged
DATAPATH=datapath
CONTAINER_IFNAME=ethwe
BRIDGE_IFNAME=v${CONTAINER_IFNAME}-bridge
DATAPATH_IFNAME=v${CONTAINER_IFNAME}-datapath
PCAP_IFNAME=v${CONTAINER_IFNAME}-pcap
PORT=${WEAVE_PORT:-6783}
HTTP_ADDR=${WEAVE_HTTP_ADDR:-127.0.0.1:6784}
STATUS_ADDR=${WEAVE_STATUS_ADDR:-127.0.0.1:6782}
PROXY_PORT=12375
PROXY_CONTAINER_NAME=weaveproxy
COVERAGE_ARGS=""
[ -n "$COVERAGE" ] && COVERAGE_ARGS="-test.coverprofile=/home/weave/cover.prof --"
######################################################################
# general helpers; independent of docker and weave
######################################################################
# utility function to check whether a command can be executed by the shell
# see http://stackoverflow.com/questions/592620/how-to-check-if-a-program-exists-from-a-bash-script
command_exists() {
command -v $1 >/dev/null 2>&1
}
fractional_sleep() {
case $1 in
*.*)
if [ -z "$NO_FRACTIONAL_SLEEP" ] ; then
sleep $1 >/dev/null 2>&1 && return 0
NO_FRACTIONAL_SLEEP=1
fi
sleep $((${1%.*} + 1))
;;
*)
sleep $1
;;
esac
}
run_iptables() {
# -w is recent addition to iptables
if [ -z "$CHECKED_IPTABLES_W" ] ; then
iptables -S -w >/dev/null 2>&1 && IPTABLES_W=-w
CHECKED_IPTABLES_W=1
fi
iptables $IPTABLES_W "$@"
}
# Add a rule to iptables, if it doesn't exist already
add_iptables_rule() {
IPTABLES_TABLE="$1"
shift 1
if ! run_iptables -t $IPTABLES_TABLE -C "$@" >/dev/null 2>&1 ; then
## Loop until we get an exit code other than "temporarily unavailable"
while true ; do
run_iptables -t $IPTABLES_TABLE -A "$@" >/dev/null && return 0
if [ $? != 4 ] ; then
return 1
fi
done
fi
}
# Insert a rule in iptables, if it doesn't exist already
insert_iptables_rule() {
IPTABLES_TABLE="$1"
shift 1
if ! run_iptables -t $IPTABLES_TABLE -C "$@" >/dev/null 2>&1 ; then
## Loop until we get an exit code other than "temporarily unavailable"
while true ; do
run_iptables -t $IPTABLES_TABLE -I "$@" >/dev/null && return 0
if [ $? != 4 ] ; then
return 1
fi
done
fi
}
# Delete a rule from iptables, if it exist
delete_iptables_rule() {
IPTABLES_TABLE="$1"
shift 1
if run_iptables -t $IPTABLES_TABLE -C "$@" >/dev/null 2>&1 ; then
run_iptables -t $IPTABLES_TABLE -D "$@" >/dev/null
fi
}
# Configure the ARP cache parameters for the given interface. This
# makes containers react more quickly to a change in the MAC address
# associated with an IP address.
configure_arp_cache() {
$2 sh -c "echo 5 >/proc/sys/net/ipv4/neigh/$1/base_reachable_time &&
echo 2 >/proc/sys/net/ipv4/neigh/$1/delay_first_probe_time &&
echo 1 >/proc/sys/net/ipv4/neigh/$1/ucast_solicit"
}
# Send out an ARP announcement
# (https://tools.ietf.org/html/rfc5227#page-15) to update ARP cache
# entries across the weave network. We do this in addition to
# configure_arp_cache because a) with those ARP cache settings it
# still takes a few seconds to correct a stale ARP mapping, and b)
# there is a kernel bug that means that the base_reachable_time
# setting is not promptly obeyed
# (<https://git.kernel.org/cgit/linux/kernel/git/torvalds/linux.git/commit/?id=4bf6980dd0328530783fd657c776e3719b421d30>>).
arp_update() {
# It's not the end of the world if this doesn't run - we configure
# ARP caches so that stale entries will be noticed quickly.
! command_exists arping || $3 arping -U -q -I $1 -c 1 ${2%/*}
}
# Generate a MAC value from a stdin containing six space separated
# 2-digit hexadecimal numbers.
mac_from_hex() {
# In the first byte of the MAC, the 'multicast' bit should be
# clear and 'locally administered' bit should be set. All other
# bits should be random.
read a b c d e f && printf "%02x:$b:$c:$d:$e:$f" $((0x$a & ~1 | 2))
}
mac_from_file() {
UUID=$(cat $1 2>/dev/null) || return 1
# We salt the input just as a precaution to avoid clashes with
# other applications who might have had the bright idea of
# generating MACs in the same way.
echo "9oBJ0Jmip-$UUID" | sha256sum | sed 's/\(..\)/\1 /g' | cut -c1-17 | mac_from_hex
}
# Generate a random MAC value
random_mac() {
od -txC -An -N6 /dev/urandom | mac_from_hex
}
######################################################################
# weave and docker specific helpers
######################################################################
check_docker_server_api_version() {
# Cope with various versions of `docker version` output format
if ! DOCKER_API_VERSION=$(docker version -f '{{.Server.APIVersion}}' 2> /dev/null ) ; then
if ! DOCKER_API_VERSION=$(docker version -f '{{.Server.ApiVersion}}' 2> /dev/null ) ; then
if ! DOCKER_API_VERSION=$(docker version | sed -n -e 's|^Server API version: *\([0-9][0-9]*\.[0-9][0-9]\).*|\1|p') || [ -z "$DOCKER_API_VERSION" ] ; then
echo "ERROR: Unable to determine docker version" >&2
exit 1
fi
fi
fi
if version_lt ${DOCKER_API_VERSION}.0 ${1}.0 ; then
return 1
fi
}
util_op() {
if command_exists weaveutil ; then
weaveutil "$@"
else
docker run --rm --privileged --net=host --pid=host $(docker_sock_options) \
--entrypoint=/usr/bin/weaveutil $EXEC_IMAGE "$@"
fi
}
check_forwarding_rules() {
if run_iptables -C FORWARD -j REJECT --reject-with icmp-host-prohibited > /dev/null 2>&1; then
cat >&2 <<EOF
WARNING: existing iptables rule
'-A FORWARD -j REJECT --reject-with icmp-host-prohibited'
will block name resolution via weaveDNS - please reconfigure your firewall.
EOF
fi
}
enforce_docker_bridge_addr_assign_type() {
if ! ADDR_ASSIGN_TYPE=$(cat /sys/class/net/$DOCKER_BRIDGE/addr_assign_type 2>/dev/null) ; then
echo "Could not determine address assignment type of $DOCKER_BRIDGE" >&2
return
fi
# From include/uapi/linux/netdevice.h
# #define NET_ADDR_PERM 0 /* address is permanent (default) */
# #define NET_ADDR_RANDOM 1 /* address is generated randomly */
# #define NET_ADDR_STOLEN 2 /* address is stolen from other device */
# #define NET_ADDR_SET 3 /* address is set using dev_set_mac_address() */
if [ $ADDR_ASSIGN_TYPE != 3 ] ; then
echo "Setting $DOCKER_BRIDGE MAC (mitigate https://github.com/docker/docker/issues/14908)" >&2
ip link set dev $DOCKER_BRIDGE address $(random_mac) || true
fi
}
# Detect the current bridge/datapath state. When invoked, the values of
# $BRIDGE and $DATAPATH are expected to be distinct. $BRIDGE_TYPE and
# $DATAPATH are set correctly on success; failure indicates that the
# bridge/datapath devices have yet to be configured. If netdevs do exist
# but are in an inconsistent state the script aborts with an error.
detect_bridge_type() {
BRIDGE_TYPE=
if [ -d /sys/class/net/$DATAPATH ] ; then
# Unfortunately there's no simple way to positively check whether
# $DATAPATH is an ODP netdev so we have to make sure it isn't
# a bridge instead (and that $BRIDGE is).
if [ ! -d /sys/class/net/$DATAPATH/bridge -a -d /sys/class/net/$BRIDGE/bridge ] ; then
BRIDGE_TYPE=bridged_fastdp
else
echo "Inconsistent bridge state detected. Please do 'weave reset' and try again." >&2
exit 1
fi
elif [ -d /sys/class/net/$BRIDGE ] ; then
if [ -d /sys/class/net/$BRIDGE/bridge ] ; then
BRIDGE_TYPE=bridge
else
BRIDGE_TYPE=fastdp
# The datapath is the bridge when there is no intermediary
DATAPATH="$BRIDGE"
fi
else
# No bridge/datapath devices configured
return 1
fi
# WEAVE_MTU may have been specified when the bridge was
# created (perhaps implicitly with WEAVE_NO_FASTDP). So take
# the MTU from the bridge unless it is explicitly specified
# for this invocation.
MTU=${WEAVE_MTU:-$(cat /sys/class/net/$BRIDGE/mtu)}
}
create_bridge() {
if ! detect_bridge_type ; then
BRIDGE_TYPE=bridge
if [ -z "$WEAVE_NO_FASTDP" ] ; then
BRIDGE_TYPE=bridged_fastdp
if [ -n "$WEAVE_NO_BRIDGED_FASTDP" ] ; then
BRIDGE_TYPE=fastdp
# The datapath is the bridge when there is no intermediary
DATAPATH="$BRIDGE"
fi
if util_op create-datapath $DATAPATH ; then
: # ODP datapath created successfully
elif [ $? = 17 ] ; then
# Exit status of 17 means the kernel doesn't have ODP
BRIDGE_TYPE=bridge
else
return 1
fi
fi
init_$BRIDGE_TYPE
# Drop traffic from Docker bridge to Weave; it can break
# subnet isolation
if [ "$DOCKER_BRIDGE" != "$BRIDGE" ] ; then
# Note using -I to insert ahead of Docker's bridge rules
run_iptables -t filter -I FORWARD -i $DOCKER_BRIDGE -o $BRIDGE -j DROP
fi
[ -n "$DOCKER_BRIDGE_IP" ] || docker_bridge_ip
# forbid traffic to the Weave port from other containers
add_iptables_rule filter INPUT -i $DOCKER_BRIDGE -p tcp --dst $DOCKER_BRIDGE_IP --dport $PORT -j DROP
add_iptables_rule filter INPUT -i $DOCKER_BRIDGE -p udp --dst $DOCKER_BRIDGE_IP --dport $PORT -j DROP
add_iptables_rule filter INPUT -i $DOCKER_BRIDGE -p udp --dst $DOCKER_BRIDGE_IP --dport $(($PORT + 1)) -j DROP
# let DNS traffic to weaveDNS, since otherwise it might get blocked by the likes of UFW
add_iptables_rule filter INPUT -i $DOCKER_BRIDGE -p udp --dport 53 -j ACCEPT
add_iptables_rule filter INPUT -i $DOCKER_BRIDGE -p tcp --dport 53 -j ACCEPT
if [ "$2" = "--expect-npc" ] ; then # matches usage in weave-kube launch.sh
# Steer traffic via the NPC
run_iptables -N WEAVE-NPC >/dev/null 2>&1 || true
add_iptables_rule filter FORWARD -o $BRIDGE -j WEAVE-NPC
add_iptables_rule filter FORWARD -o $BRIDGE -m state --state NEW -j NFLOG --nflog-group 86
add_iptables_rule filter FORWARD -o $BRIDGE -j DROP
else
# Work around the situation where there are no rules allowing traffic
# across our bridge. E.g. ufw
add_iptables_rule filter FORWARD -i $BRIDGE -o $BRIDGE -j ACCEPT
fi
# create a chain for masquerading
run_iptables -t nat -N WEAVE >/dev/null 2>&1 || true
add_iptables_rule nat POSTROUTING -j WEAVE
else
if [ -n "$LAUNCHING_ROUTER" ] ; then
if [ "$BRIDGE_TYPE" = bridge -a -z "$WEAVE_NO_FASTDP" ] &&
util_op check-datapath $DATAPATH 2>/dev/null ; then
cat <<EOF >&2
WEAVE_NO_FASTDP is not set, but there is already a bridge present of
the wrong type for fast datapath. Please do 'weave reset' to remove
the bridge first.
EOF
return 1
fi
if [ "$BRIDGE_TYPE" != bridge -a -n "$WEAVE_NO_FASTDP" ] ; then
cat <<EOF >&2
WEAVE_NO_FASTDP is set, but there is already a weave fast datapath
bridge present. Please do 'weave reset' to remove the bridge first.
EOF
return 1
fi
fi
fi
[ "$1" = "--without-ethtool" -o -n "$AWSVPC" ] || ethtool_tx_off_$BRIDGE_TYPE $BRIDGE
ip link set dev $BRIDGE up
# Configure the ARP cache parameters on the bridge interface for
# the sake of 'weave expose'
configure_arp_cache $BRIDGE
}
expose_ip() {
ipam_cidrs allocate_no_check_alive weave:expose $CIDR_ARGS
for CIDR in $ALL_CIDRS ; do
if ! ip addr show dev $BRIDGE | grep -qF $CIDR ; then
ip addr add dev $BRIDGE $CIDR
arp_update $BRIDGE $CIDR || true
# Remove a default route installed by the kernel, because awsvpc
# has installed it as well
if [ -n "$AWSVPC" ]; then
RCIDR=$(ip route list exact $CIDR proto kernel | head -n1 | cut -d' ' -f1)
[ -n "$RCIDR" ] && ip route del dev $BRIDGE proto kernel $RCIDR
fi
fi
[ -z "$FQDN" ] || when_weave_running put_dns_fqdn_no_check_alive weave:expose $FQDN $CIDR
done
}
# create veth with ends $1-$2, and then invoke $3..., removing the
# veth on failure. No-op of veth already exists.
create_veth() {
VETHL=$1
VETHR=$2
shift 2
ip link show $VETHL >/dev/null 2>&1 && ip link show $VETHR >/dev/null 2>&1 && return 0
ip link add name $VETHL mtu $MTU type veth peer name $VETHR mtu $MTU || return 1
if ! ip link set $VETHL up || ! ip link set $VETHR up || ! "$@" ; then
ip link del $VETHL >/dev/null 2>&1 || true
ip link del $VETHR >/dev/null 2>&1 || true
return 1
fi
}
init_fastdp() {
# GCE has the lowest underlay network MTU we're likely to encounter on
# a local network, at 1460 bytes. To get the overlay MTU from that we
# subtract 20 bytes for the outer IPv4 header, 8 bytes for the outer
# UDP header, 8 bytes for the vxlan header, and 14 bytes for the inner
# ethernet header.
MTU=${WEAVE_MTU:-1410}
# create_bridge already created the datapath netdev
ip link set dev $DATAPATH mtu $MTU
}
init_bridge_prep() {
# Observe any MTU that is already set
[ -n "$MTU" ] || MTU=${WEAVE_MTU:-65535}
ip link add name $BRIDGE type bridge
# Derive the bridge MAC from the system (aka bios) UUID, or,
# failing that, the hypervisor UUID. Elsewhere we in turn derive
# the peer name from that, which we want to be stable across
# reboots but otherwise unique. The system/hypervisor UUID fits
# that bill, unlike, say, /etc/machine-id, which is often
# identical on VMs created from cloned filesystems. If we cannot
# determine the system/hypervisor UUID we just generate a random MAC.
MAC=$(mac_from_file /sys/class/dmi/id/product_uuid) || \
MAC=$(mac_from_file /sys/hypervisor/uuid) || \
MAC=$(random_mac)
ip link set dev $BRIDGE address $MAC
# Attempting to set the bridge MTU to a high value directly
# fails. Bridges take the lowest MTU of their interfaces. So
# instead we create a temporary interface with the desired
# MTU, attach that to the bridge, and then remove it again.
ip link add name v${CONTAINER_IFNAME}du mtu $MTU type dummy
ip link set dev v${CONTAINER_IFNAME}du master $BRIDGE
ip link del dev v${CONTAINER_IFNAME}du
}
init_bridge() {
init_bridge_prep
create_veth $BRIDGE_IFNAME $PCAP_IFNAME add_iface_bridge $BRIDGE_IFNAME
}
init_bridged_fastdp() {
# Initialise the datapath as normal. NB sets MTU for use below
init_fastdp
# Initialise the bridge using fast datapath MTU
init_bridge_prep
# Create linking veth pair
create_veth $BRIDGE_IFNAME $DATAPATH_IFNAME configure_veth_bridged_fastdp
# Finally, bring the datapath up
ip link set dev $DATAPATH up
}
configure_veth_bridged_fastdp() {
add_iface_fastdp $DATAPATH_IFNAME || return 1
add_iface_bridge $BRIDGE_IFNAME || return 1
}
ethtool_tx_off_fastdp() {
true
}
ethtool_tx_off_bridge() {
ethtool -K $1 tx off >/dev/null
}
ethtool_tx_off_bridged_fastdp() {
true
}
destroy_bridge() {
# It's important that detect_bridge_type has not been called so
# we have distinct values for $BRIDGE and $DATAPATH. Make best efforts
# to remove netdevs of any type with those names so `weave reset` can
# recover from inconsistent states.
for NETDEV in $BRIDGE $DATAPATH ; do
if [ -d /sys/class/net/$NETDEV ] ; then
if [ -d /sys/class/net/$NETDEV/bridge ] ; then
ip link del $NETDEV
else
util_op delete-datapath $NETDEV
fi
fi
done
# Remove any lingering bridged fastdp, pcap and attach-bridge veths
for VETH in $(ip -o link show | grep -o v${CONTAINER_IFNAME}[^:@]*) ; do
ip link del $VETH >/dev/null 2>&1 || true
done
if [ "$DOCKER_BRIDGE" != "$BRIDGE" ] ; then
run_iptables -t filter -D FORWARD -i $DOCKER_BRIDGE -o $BRIDGE -j DROP 2>/dev/null || true
fi
[ -n "$DOCKER_BRIDGE_IP" ] || docker_bridge_ip
run_iptables -t filter -D INPUT -i $DOCKER_BRIDGE -p udp --dport 53 -j ACCEPT >/dev/null 2>&1 || true
run_iptables -t filter -D INPUT -i $DOCKER_BRIDGE -p tcp --dport 53 -j ACCEPT >/dev/null 2>&1 || true
run_iptables -t filter -D INPUT -i $DOCKER_BRIDGE -p tcp --dst $DOCKER_BRIDGE_IP --dport $PORT -j DROP >/dev/null 2>&1 || true
run_iptables -t filter -D INPUT -i $DOCKER_BRIDGE -p udp --dst $DOCKER_BRIDGE_IP --dport $PORT -j DROP >/dev/null 2>&1 || true
run_iptables -t filter -D INPUT -i $DOCKER_BRIDGE -p udp --dst $DOCKER_BRIDGE_IP --dport $(($PORT + 1)) -j DROP >/dev/null 2>&1 || true
run_iptables -t filter -D FORWARD -i $BRIDGE -o $BRIDGE -j ACCEPT 2>/dev/null || true
run_iptables -F WEAVE-NPC >/dev/null 2>&1 || true
run_iptables -t filter -D FORWARD -o $BRIDGE -j WEAVE-NPC 2>/dev/null || true
run_iptables -t filter -D FORWARD -o $BRIDGE -m state --state NEW -j NFLOG --nflog-group 86 2>/dev/null || true
run_iptables -t filter -D FORWARD -o $BRIDGE -j DROP 2>/dev/null || true
run_iptables -X WEAVE-NPC >/dev/null 2>&1 || true
run_iptables -t nat -F WEAVE >/dev/null 2>&1 || true
run_iptables -t nat -D POSTROUTING -j WEAVE >/dev/null 2>&1 || true
run_iptables -t nat -D POSTROUTING -o $BRIDGE -j ACCEPT >/dev/null 2>&1 || true
run_iptables -t nat -X WEAVE >/dev/null 2>&1 || true
}
docker_bridge_ip() {
DOCKER_BRIDGE_IP=$(ip -4 addr show dev $DOCKER_BRIDGE | grep -m1 -o 'inet [.0-9]*') || return 1
DOCKER_BRIDGE_IP=${DOCKER_BRIDGE_IP#inet }
}
do_or_die() {
CONTAINER="$1"
shift 1
if ! "$@" ; then
kill_container $CONTAINER
exit 1
fi
}
add_iface_fastdp() {
util_op add-datapath-interface $DATAPATH $1
}
add_iface_bridge() {
ip link set $1 master $BRIDGE
}
add_iface_bridged_fastdp() {
add_iface_bridge "$@"
}
attach_bridge() {
bridge="$1"
LOCAL_IFNAME=v${CONTAINER_IFNAME}bl$bridge
GUEST_IFNAME=v${CONTAINER_IFNAME}bg$bridge
create_veth $LOCAL_IFNAME $GUEST_IFNAME configure_veth_attached_bridge
}
configure_veth_attached_bridge() {
add_iface_$BRIDGE_TYPE $LOCAL_IFNAME || return 1
ip link set $GUEST_IFNAME master $bridge
}
router_opts_fastdp() {
echo "--datapath $DATAPATH"
}
router_opts_bridge() {
echo "--iface $PCAP_IFNAME"
}
router_opts_bridged_fastdp() {
router_opts_fastdp "$@"
}
ask_version() {
if check_running $1 2>/dev/null ; then
DOCKERIMAGE=$(docker inspect --format='{{.Image}}' $1 )
elif ! DOCKERIMAGE=$(docker inspect --format='{{.Id}}' $2 2>/dev/null) ; then
echo "Unable to find $2 image." >&2
fi
[ -n "$DOCKERIMAGE" ] && docker run --rm --net=none -e WEAVE_CIDR=none $3 $DOCKERIMAGE $COVERAGE_ARGS --version
}
attach() {
ATTACH_ARGS=""
[ -n "$NO_MULTICAST_ROUTE" ] && ATTACH_ARGS="--no-multicast-route"
# Relying on AWSVPC being set in 'ipam_cidrs allocate', except for 'weave restart'
[ -n "$AWSVPC" ] && ATTACH_ARGS="--no-multicast-route --keep-tx-on"
util_op attach-container $ATTACH_ARGS $CONTAINER $BRIDGE $MTU "$@"
}
######################################################################
# functions for interacting with containers
######################################################################
# Check that a container for component $1 named $2 with image $3 is not running
check_not_running() {
RUN_STATUS=$(docker inspect --format='{{.State.Running}} {{.State.Status}} {{.Config.Image}}' $2 2>/dev/null) || true
case ${RUN_STATUS%:*} in
"true restarting $3")
echo "$2 is restarting; you can stop it with 'weave stop-$1'." >&2
return 3
;;
"true "*" $3")
echo "$2 is already running; you can stop it with 'weave stop-$1'." >&2
return 1
;;
"false "*" $3")
docker rm $2 >/dev/null
;;
true*)
echo "Found another running container named '$2'. Aborting." >&2
return 2
;;
false*)
echo "Found another container named '$2'. Aborting." >&2
return 2
;;
esac
}
stop() {
docker stop $1 >/dev/null 2>&1 || echo "$2 is not running." >&2
}
# Given a container name or short ID in $1, ensure the specified
# container exists and then print its full ID to stdout. If
# it doesn't exist, print an error to stderr and
# return with an indicative non-zero exit code.
container_id() {
if ! docker inspect --format='{{.Id}}' $1 2>/dev/null ; then
echo "Error: No such container: $1" >&2
return 1
fi
}
http_call() {
addr="$1"
http_verb="$2"
url="$3"
shift 3
CURL_TMPOUT=/tmp/weave_curl_out_$$
HTTP_CODE=$(curl -o $CURL_TMPOUT -w '%{http_code}' --connect-timeout 3 -s -S -X $http_verb "$@" http://$addr$url) || return $?
case "$HTTP_CODE" in
2??) # 2xx -> not an error; output response on stdout
[ -f $CURL_TMPOUT ] && cat $CURL_TMPOUT
retval=0
;;
404) # treat as error but swallow response
retval=4
;;
*) # anything else is an error; output response on stderr
[ -f $CURL_TMPOUT ] && cat $CURL_TMPOUT >&2
retval=1
esac
rm -f $CURL_TMPOUT
return $retval
}
http_call_unix() {
container="$1"
socket="$2"
http_verb="$3"
url="$4"
shift 4
# NB: requires curl >= 7.40
output=$(docker exec $container curl -s -S -X $http_verb --unix-socket $socket "$@" http:$url) || return 1
# in some docker versions, `docker exec` does not fail when the executed command fails
[ -n "$output" ] || return 1
echo $output
}
call_weave() {
TMPERR=/tmp/call_weave_err_$$
retval=0
http_call $HTTP_ADDR "$@" 2>$TMPERR || retval=$?
if [ $retval -ne 0 ] ; then
check_running $CONTAINER_NAME && cat $TMPERR >&2
fi
rm -f $TMPERR
return $retval
}
death_msg() {
echo "The $1 container has died. Consult the container logs for further details."
}
# Wait until container $1 is alive enough to respond to "GET /status"
# http request
wait_for_status() {
container="$1"
shift
while true ; do
"$@" GET /status >/dev/null 2>&1 && return 0
if ! check_running $container >/dev/null 2>&1 ; then
kill_container $container # stop it restarting
echo $(death_msg $container) >&2
return 1
fi
fractional_sleep 0.1
done
}
# Call $1 for all containers, passing container ID, all MACs and all IPs
with_container_addresses() {
COMMAND=$1
shift 1
CONTAINER_ADDRS=$(util_op container-addrs $BRIDGE "$@") || return 1