pipework源码分析

#pipework <hostinterface> [-i containerinterface] [-l localinterfacename] <guest> <ipaddr>/<subnet>[@default_gateway] [macaddr][@vlan]
#pipework <hostinterface> [-i containerinterface] [-l localinterfacename] <guest> dhcp [macaddr][@vlan]
#pipework --wait [-i containerinterface]

#!/bin/sh
# This code should (try to) follow Google's Shell Style Guide
# (https://google-styleguide.googlecode.com/svn/trunk/shell.xml)
set -e

case "$1" in
--wait)
WAIT=1
;;
esac

IFNAME=$1

# default value set further down if not set here
CONTAINER_IFNAME=
if [ "$2" = "-i" ]; then
CONTAINER_IFNAME=$3
shift 2      #左移位置参数
fi

if [ "$2" = "-l" ]; then
LOCAL_IFNAME=$3
shift 2
fi

GUESTNAME=$2
IPADDR=$3
MACADDR=$4

case "$MACADDR" in
*@*)
VLAN="${MACADDR#*@}"
VLAN="${VLAN%%@*}"
MACADDR="${MACADDR%%@*}"
;;
*)
VLAN=
;;
esac

# did they ask to generate a custom MACADDR?
# generate the unique string
case "$MACADDR" in
U:*)
macunique="${MACADDR#*:}"
# now generate a 48-bit hash string from $macunique
MACADDR=$(echo $macunique|md5sum|sed 's/^\(..\)\(..\)\(..\)\(..\)\(..\).*$/02:\1:\2:\3:\4:\5/')
;;
esac

[ "$IPADDR" ] || [ "$WAIT" ] || {
echo "Syntax:"
echo "pipework <hostinterface> [-i containerinterface] [-l localinterfacename] <guest> <ipaddr>/<subnet>[@default_gateway] [macaddr][@vlan]"
echo "pipework <hostinterface> [-i containerinterface] [-l localinterfacename] <guest> dhcp [macaddr][@vlan]"
echo "pipework --wait [-i containerinterface]"
exit 1
}

# Succeed if the given utility is installed. Fail otherwise.
# For explanations about `which` vs `type` vs `command`, see:
# http://stackoverflow.com/questions/592620/check-if-a-program-exists-from-a-bash-script/677212#677212 # (Thanks to @chenhanxiao for pointing this out!)
installed () {
command -v "$1" >/dev/null 2>&1
}

# Google Styleguide says error messages should go to standard error.
warn () {
echo "$@" >&2
}
die () {
status="$1"
shift
warn "$@"
exit "$status"
}

# First step: determine type of first argument (bridge, physical interface...),
# Unless "--wait" is set (then skip the whole section)
if [ -z "$WAIT" ]; then
if [ -d "/sys/class/net/$IFNAME" ]
then
if [ -d "/sys/class/net/$IFNAME/bridge" ]; then
IFTYPE=bridge
BRTYPE=linux
elif installed ovs-vsctl && ovs-vsctl list-br|grep -q "^${IFNAME}$"; then
IFTYPE=bridge
BRTYPE=openvswitch
elif [ "$(cat "/sys/class/net/$IFNAME/type")" -eq 32 ]; then # InfiniBand IPoIB interface type 32
IFTYPE=ipoib
# The IPoIB kernel module is fussy, set device name to ib0 if not overridden
CONTAINER_IFNAME=${CONTAINER_IFNAME:-ib0}
PKEY=$VLAN
else IFTYPE=phys
fi
else
case "$IFNAME" in
br*)
IFTYPE=bridge
BRTYPE=linux
;;
ovs*)
if ! installed ovs-vsctl; then
die 1 "Need OVS installed on the system to create an ovs bridge"
fi
IFTYPE=bridge
BRTYPE=openvswitch
;;
dummy*)
IFTYPE=dummy
;;
*) die 1 "I do not know how to setup interface $IFNAME." ;;
esac
fi
fi

# Set the default container interface name to eth1 if not already set
CONTAINER_IFNAME=${CONTAINER_IFNAME:-eth1}

[ "$WAIT" ] && {
while true; do
# This first method works even without `ip` or `ifconfig` installed,
# but doesn't work on older kernels (e.g. CentOS 6.X). See #128.
grep -q '^1$' "/sys/class/net/$CONTAINER_IFNAME/carrier" && break
# This method hopefully works on those older kernels.
ip link ls dev "$CONTAINER_IFNAME" && break
sleep 1
done > /dev/null 2>&1
exit 0
}

[ "$IFTYPE" = bridge ] && [ "$BRTYPE" = linux ] && [ "$VLAN" ] && {
die 1 "VLAN configuration currently unsupported for Linux bridge."
}

[ "$IFTYPE" = ipoib ] && [ "$MACADDR" ] && {
die 1 "MACADDR configuration unsupported for IPoIB interfaces."
}

# Second step: find the guest (for now, we only support LXC containers)
while read _ mnt fstype options _; do
[ "$fstype" != "cgroup" ] && continue
echo "$options" | grep -qw devices || continue
CGROUPMNT=$mnt
done < /proc/mounts

[ "$CGROUPMNT" ] || {
die 1 "Could not locate cgroup mount point."
}

# Try to find a cgroup matching exactly the provided name.
N=$(find "$CGROUPMNT" -name "$GUESTNAME" | wc -l)
case "$N" in
0)
# If we didn't find anything, try to lookup the container with Docker.
if installed docker; then
RETRIES=3
while [ "$RETRIES" -gt 0 ]; do
DOCKERPID=$(docker inspect --format='{{ .State.Pid }}' "$GUESTNAME")
[ "$DOCKERPID" != 0 ] && break
sleep 1
RETRIES=$((RETRIES - 1))
done

[ "$DOCKERPID" = 0 ] && {
die 1 "Docker inspect returned invalid PID 0"
}

[ "$DOCKERPID" = "<no value>" ] && {
die 1 "Container $GUESTNAME not found, and unknown to Docker."
}
else
die 1 "Container $GUESTNAME not found, and Docker not installed."
fi
;;
1) true ;;
*) die 1 "Found more than one container matching $GUESTNAME." ;;
esac

case "$IPADDR" in
# Let's check first if the user asked for DHCP allocation.
dhcp|dhcp:*)
# Use Docker-specific strategy to run the DHCP client
# from the busybox image, in the network namespace of
# the container.
if ! [ "$DOCKERPID" ]; then
warn "You asked for a Docker-specific DHCP method."
warn "However, $GUESTNAME doesn't seem to be a Docker container."
warn "Try to replace 'dhcp' with another option?"
die 1 "Aborting."
fi
DHCP_CLIENT=${IPADDR%%:*}
;;
udhcpc|udhcpc:*|dhcpcd|dhcpcd:*|dhclient|dhclient:*)
DHCP_CLIENT=${IPADDR%%:*}
if ! installed "$DHCP_CLIENT"; then
die 1 "You asked for DHCP client $DHCP_CLIENT, but I can't find it."
fi
;;
# Alright, no DHCP? Then let's see if we have a subnet *and* gateway.
*/*@*)
GATEWAY="${IPADDR#*@}" GATEWAY="${GATEWAY%%@*}"
IPADDR="${IPADDR%%@*}"
;;
# No gateway? We need at least a subnet, anyway!
*/*) : ;;
# ... No? Then stop right here.
*)
warn "The IP address should include a netmask."
die 1 "Maybe you meant $IPADDR/24 ?"
;;
esac

# If a DHCP method was specified, extract the DHCP options.
if [ "$DHCP_CLIENT" ]; then
case "$IPADDR" in
*:*) DHCP_OPTIONS="${IPADDR#*:}" ;;
esac
fi

if [ "$DOCKERPID" ]; then
NSPID=$DOCKERPID
else
NSPID=$(head -n 1 "$(find "$CGROUPMNT" -name "$GUESTNAME" | head -n 1)/tasks")
[ "$NSPID" ] || {
# it is an alternative way to get the pid
NSPID=$(lxc-info -n  "$GUESTNAME" | grep PID | grep -Eo '[0-9]+')
[ "$NSPID" ] || {
die 1 "Could not find a process inside container $GUESTNAME."
}
}
fi

# Check if an incompatible VLAN device already exists
[ "$IFTYPE" = phys ] && [ "$VLAN" ] && [ -d "/sys/class/net/$IFNAME.VLAN" ] && {
ip -d link show "$IFNAME.$VLAN" | grep -q "vlan.*id $VLAN" || {
die 1 "$IFNAME.VLAN already exists but is not a VLAN device for tag $VLAN"
}
}

[ ! -d /var/run/netns ] && mkdir -p /var/run/netns
rm -f "/var/run/netns/$NSPID"
ln -s "/proc/$NSPID/ns/net" "/var/run/netns/$NSPID"

# Check if we need to create a bridge.
[ "$IFTYPE" = bridge ] && [ ! -d "/sys/class/net/$IFNAME" ] && {
[ "$BRTYPE" = linux ] && {
(ip link add dev "$IFNAME" type bridge > /dev/null 2>&1) || (brctl addbr "$IFNAME")
ip link set "$IFNAME" up
}
[ "$BRTYPE" = openvswitch ] && {
ovs-vsctl add-br "$IFNAME"
}
}

[ "$IFTYPE" != "dummy" ] && MTU=$(ip link show "$IFNAME" | awk '{print $5}')
# If it's a bridge, we need to create a veth pair
[ "$IFTYPE" = bridge ] && {
if [ -z "$LOCAL_IFNAME" ]; then
LOCAL_IFNAME="v${CONTAINER_IFNAME}pl${NSPID}"
fi
GUEST_IFNAME="v${CONTAINER_IFNAME}pg${NSPID}"
# Does the link already exist?
if ip link show "$LOCAL_IFNAME" >/dev/null 2>&1; then
# link exists, is it in use?
if ip link show "$LOCAL_IFNAME" up | grep -q "UP"; then
echo "Link $LOCAL_IFNAME exists and is up"
exit 1
fi
# delete the link so we can re-add it afterwards
ip link del "$LOCAL_IFNAME"
fi
ip link add name "$LOCAL_IFNAME" mtu "$MTU" type veth peer name "$GUEST_IFNAME" mtu "$MTU"
case "$BRTYPE" in
linux)
(ip link set "$LOCAL_IFNAME" master "$IFNAME" > /dev/null 2>&1) || (brctl addif "$IFNAME" "$LOCAL_IFNAME")
;;
openvswitch)
if ! ovs-vsctl list-ports "$IFNAME" | grep -q "^${LOCAL_IFNAME}$"; then
ovs-vsctl add-port "$IFNAME" "$LOCAL_IFNAME" ${VLAN:+tag="$VLAN"}
fi
;;
esac
ip link set "$LOCAL_IFNAME" up
}

# If it's a physical interface, create a macvlan subinterface
[ "$IFTYPE" = phys ] && {
[ "$VLAN" ] && {
[ ! -d "/sys/class/net/${IFNAME}.${VLAN}" ] && {
ip link add link "$IFNAME" name "$IFNAME.$VLAN" mtu "$MTU" type vlan id "$VLAN"
}
ip link set "$IFNAME" up
IFNAME=$IFNAME.$VLAN
}
GUEST_IFNAME=ph$NSPID$CONTAINER_IFNAME
ip link add link "$IFNAME" dev "$GUEST_IFNAME" mtu "$MTU" type macvlan mode bridge
ip link set "$IFNAME" up
}

# If it's an IPoIB interface, create a virtual IPoIB interface (the IPoIB
# equivalent of a macvlan device)
#
# Note: no macvlan subinterface nor Ethernet bridge can be created on top of an
# IPoIB interface. InfiniBand is not Ethernet. IPoIB is an IP layer on top of
# InfiniBand, without an intermediate Ethernet layer.
[ "$IFTYPE" = ipoib ] && {
GUEST_IFNAME="${IFNAME}.${NSPID}"

# If a partition key is provided, use it
[ "$PKEY" ] && {
GUEST_IFNAME="${IFNAME}.${PKEY}.${NSPID}"
PKEY="pkey 0x$PKEY"
}

ip link add link "$IFNAME" name "$GUEST_IFNAME" type ipoib $PKEY
ip link set "$IFNAME" up
}

# if its a dummy interface, create a dummy interface
[ "$IFTYPE" = dummy ] && {
GUEST_IFNAME=du$NSPID$CONTAINER_IFNAME
ip link add dev "$GUEST_IFNAME" type dummy
}

ip link set "$GUEST_IFNAME" netns "$NSPID"
ip netns exec "$NSPID" ip link set "$GUEST_IFNAME" name "$CONTAINER_IFNAME"
[ "$MACADDR" ] && ip netns exec "$NSPID" ip link set dev "$CONTAINER_IFNAME" address "$MACADDR"

# When using any of the DHCP methods, we start a DHCP client in the
# network namespace of the container. With the 'dhcp' method, the
# client used is taken from the Docker busybox image (therefore
# requiring no specific client installed on the host). Other methods
# use a locally installed client.
case "$DHCP_CLIENT" in
dhcp)
docker run -d --net container:$GUESTNAME --cap-add NET_ADMIN \
busybox udhcpc -i "$CONTAINER_IFNAME" -x "hostname:$GUESTNAME" \
$DHCP_OPTIONS \
>/dev/null
;;
udhcpc)
ip netns exec "$NSPID" "$DHCP_CLIENT" -qi "$CONTAINER_IFNAME" \
-x "hostname:$GUESTNAME" \
$DHCP_OPTIONS
;;
dhclient)
ip netns exec "$NSPID" "$DHCP_CLIENT" "$CONTAINER_IFNAME" \
-pf "/var/run/dhclient.$NSPID.pid" \
$DHCP_OPTIONS
# kill dhclient after get ip address to prevent device be used after container close
kill "$(cat "/var/run/dhclient.$NSPID.pid")"
rm "/var/run/dhclient.$NSPID.pid"
;;
dhcpcd)
ip netns exec "$NSPID" "$DHCP_CLIENT" -q "$CONTAINER_IFNAME" -h "$GUESTNAME"
;;
"")
if installed ipcalc; then
eval $(ipcalc -b $IPADDR)
ip netns exec "$NSPID" ip addr add "$IPADDR" brd "$BROADCAST" dev "$CONTAINER_IFNAME"
else
ip netns exec "$NSPID" ip addr add "$IPADDR" dev "$CONTAINER_IFNAME"
fi

[ "$GATEWAY" ] && {
ip netns exec "$NSPID" ip route delete default >/dev/null 2>&1 && true
}
ip netns exec "$NSPID" ip link set "$CONTAINER_IFNAME" up
[ "$GATEWAY" ] && {
ip netns exec "$NSPID" ip route get "$GATEWAY" >/dev/null 2>&1 || \
ip netns exec "$NSPID" ip route add "$GATEWAY/32" dev "$CONTAINER_IFNAME"
ip netns exec "$NSPID" ip route replace default via "$GATEWAY"
}
;;
esac

# Give our ARP neighbors a nudge about the new interface
if installed arping; then
IPADDR=$(echo "$IPADDR" | cut -d/ -f1)
ip netns exec "$NSPID" arping -c 1 -A -I "$CONTAINER_IFNAME" "$IPADDR" > /dev/null 2>&1 || true
else
echo "Warning: arping not found; interface may not be immediately reachable"
fi

# Remove NSPID to avoid `ip netns` catch it.
rm -f "/var/run/netns/$NSPID"

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