Provided by: slirp4netns_1.2.0-1_amd64 bug

NAME

       slirp4netns - User-mode networking for unprivileged network namespaces

SYNOPSIS

       slirp4netns [OPTION]... PID|PATH [TAPNAME]

DESCRIPTION

       slirp4netns provides user-mode networking ("slirp") for network namespaces.

       Unlike veth(4), slirp4netns does not require the root privileges on the host.

       Default configuration:

              • MTU:               1500

              • CIDR:              10.0.2.0/24

              • Gateway/Host:      10.0.2.2    (network address + 2)

              • DNS:               10.0.2.3    (network address + 3)

              • DHCP begin:        10.0.2.15   (network address + 15)

              • DHCP end:          10.0.2.30   (network address + 30)

              • IPv6 CIDR:         fd00::/64

              • IPv6 Gateway/Host: fd00::2

              • IPv6 DNS:          fd00::3

OPTIONS

       -c,  --configure bring up the TAP interface. IP will be set to 10.0.2.100 (network address
       + 100) by default. IPv6 will be set to  a  random  address.   Starting  with  v0.4.0,  the
       loopback interface (lo) is brought up as well.

       -e,  --exit-fd=FD  specify  the FD for terminating slirp4netns.  When the FD is specified,
       slirp4netns exits when a poll(2) event happens on the FD.

       -r, --ready-fd=FD specify the FD to write to when the initialization steps  are  finished.
       When  the  FD  is  specified, slirp4netns writes "1" to the FD and close the FD.  Prior to
       v0.4.0, the FD was written after the network configuration (-c) but before the API  socket
       configuration (-a).

       -m, --mtu=MTU (since v0.2.0) specify MTU (max=65521).

       -6, --enable-ipv6 (since v0.2.0, EXPERIMENTAL) enable IPv6

       -a, --api-socket (since v0.3.0) API socket path

       --cidr (since v0.3.0) specify CIDR, e.g. 10.0.2.0/24

       --disable-host-loopback  (since  v0.3.0)  prohibit  connecting  to 127.0.0.1:* on the host
       namespace

       --netns-type=TYPE (since v0.4.0) specify network namespace type ([path|pid], default=pid)

       --userns-path=PATH (since v0.4.0) specify user namespace path

       --enable-sandbox (since v0.4.0) enter the user namespace and create a new mount  namespace
       where only /etc and /run are mounted from the host.

       Requires /etc/resolv.conf not to be a symlink to a file outside /etc and /run.

       When  running  as  the  root,  the  process  does not enter the user namespace but all the
       capabilities except CAP_NET_BIND_SERVICE are dropped.

       --enable-seccomp  (since  v0.4.0,  EXPERIMENTAL)  enable  seccomp(2)  to  limit  syscalls.
       Typically used in conjunction with --enable-sandbox.

       --outbound-addr=IPv4  (since  v1.1.0,  EXPERIMENTAL)  specify  outbound ipv4 address slirp
       should bind to

       --outbound-addr=INTERFACE (since v1.1.0, EXPERIMENTAL) specify  outbound  interface  slirp
       should bind to (ipv4 traffic only)

       --outbound-addr=IPv6  (since  v1.1.0,  EXPERIMENTAL)  specify  outbound ipv6 address slirp
       should bind to

       --outbound-addr6=INTERFACE (since v1.1.0, EXPERIMENTAL) specify outbound  interface  slirp
       should bind to (ipv6 traffic only)

       --disable-dns (since v1.1.0) disable built-in DNS (10.0.2.3 by default)

       --macaddress (since v1.1.9) specify MAC address of the TAP interface (only valid with -c)

       --target-type=TYPE (since v1.2.0) specify the target type ([netns|bess], default=netns).

       The  bess  mode  (since v1.2.0, EXPERIMENTAL) is expected to be used with User Mode Linux.
       The bess mode conflicts with --configure, --netns-type, and --userns-path.

       -h, --help (since v0.2.0) show help and exit

       -v, --version (since v0.2.0) show version and exit

EXAMPLE

       Terminal 1: Create user/network/mount namespaces

              (host)$ unshare --user --map-root-user --net --mount
              (namespace)$ echo $$ > /tmp/pid

       In this documentation, we use (host)$ as the prompt of the host shell, (namespace)$ as the
       prompt of the shell running in the namespaces.

       If  unshare fails, try the following commands (known to be needed on Debian, Arch, and old
       CentOS 7.X):

              (host)$ sudo sh -c 'echo "user.max_user_namespaces=28633" >> /etc/sysctl.d/userns.conf'
              (host)$ if [ -f /proc/sys/kernel/unprivileged_userns_clone ]; then sudo sh -c 'echo "kernel.unprivileged_userns_clone=1" >> /etc/sysctl.d/userns.conf'; fi
              (host)$ sudo sysctl --system

       Terminal 2: Start slirp4netns

              (host)$ slirp4netns --configure --mtu=65520 $(cat /tmp/pid) tap0
              starting slirp, MTU=65520

       Terminal 1: Make sure tap0 is configured and connected to the Internet

              (namespace)$ ip a
              1: lo: <LOOPBACK> mtu 65536 qdisc noop state DOWN group default qlen 1000
                  link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00
              3: tap0: <BROADCAST,UP,LOWER_UP> mtu 65520 qdisc fq_codel state UNKNOWN group default qlen 1000
                  link/ether c2:28:0c:0e:29:06 brd ff:ff:ff:ff:ff:ff
                  inet 10.0.2.100/24 brd 10.0.2.255 scope global tap0
                     valid_lft forever preferred_lft forever
                  inet6 fe80::c028:cff:fe0e:2906/64 scope link
                     valid_lft forever preferred_lft forever
              (namespace)$ echo "nameserver 10.0.2.3" > /tmp/resolv.conf
              (namespace)$ mount --bind /tmp/resolv.conf /etc/resolv.conf
              (namespace)$ curl https://example.com

       Bind-mounting /etc/resolv.conf is only needed when /etc/resolv.conf on the host refers  to
       loopback  addresses  (127.0.0.X, typically dnsmasq(8) or systemd-resolved.service(8)) that
       cannot be accessed from the namespace.

       If  your   /etc/resolv.conf   on   the   host   is   managed   by   networkmanager(8)   or
       systemd-resolved.service(8),  you might need to mount a new filesystem on /etc instead, so
       as  to  prevent  the  new  /etc/resolv.conf  from  being   unmounted   unexpectedly   when
       /etc/resolv.conf on the host is regenerated.

              (namespace)$ mkdir /tmp/a /tmp/b
              (namespace)$ mount --rbind /etc /tmp/a
              (namespace)$ mount --rbind /tmp/b /etc
              (namespace)$ mkdir /etc/.ro
              (namespace)$ mount --move /tmp/a /etc/.ro
              (namespace)$ cd /etc
              (namespace)$ for f in .ro/*; do ln -s $f $(basename $f); done
              (namespace)$ rm resolv.conf
              (namespace)$ echo "nameserver 10.0.2.3" > resolv.conf
              (namespace)$ curl https://example.com

       These steps can be simplified with rootlesskit --copy-up=/etc if rootlesskit is installed:

              (host)$ rootlesskit --net=slirp4netns --copy-up=/etc bash
              (namespace)$ cat /etc/resolv.conf
              nameserver 10.0.2.3

ROUTING PING PACKETS

       To  route  ping  packets, you may need to set up net.ipv4.ping_group_range properly as the
       root.

       e.g.

              (host)$ sudo sh -c 'echo "net.ipv4.ping_group_range=0   2147483647" > /etc/sysctl.d/ping_group_range.conf'
              (host)$ sudo sysctl --system

FILTERING CONNECTIONS

       By default, ports listening on INADDR_LOOPBACK (127.0.0.1) on the host are accessible from
       the  child  namespace via the gateway (default: 10.0.2.2).  --disable-host-loopback can be
       used to prohibit connecting to INADDR_LOOPBACK on the host.

       However, a host loopback address might be still accessible via the built-in DNS  (default:
       10.0.2.3)  if  /etc/resolv.conf on the host refers to a loopback address.  You may want to
       set up iptables for limiting access to the built-in DNS in such a case.

              (host)$ nsenter -t $(cat /tmp/pid) -U --preserve-credentials -n
              (namespace)$ iptables -A OUTPUT -d 10.0.2.3 -p udp --dport 53 -j ACCEPT
              (namespace)$ iptables -A OUTPUT -d 10.0.2.3 -j DROP

API SOCKET

       slirp4netns can provide QMP-like API server over an UNIX socket file:

              (host)$ slirp4netns --api-socket /tmp/slirp4netns.sock ...

       add_hostfwd: Expose a port (IPv4 only)

              (namespace)$ json='{"execute": "add_hostfwd", "arguments": {"proto": "tcp", "host_addr": "0.0.0.0", "host_port": 8080, "guest_addr": "10.0.2.100", "guest_port": 80}}'
              (namespace)$ echo -n $json | nc -U /tmp/slirp4netns.sock
              {"return": {"id": 42}}

       If host_addr is not specified, then it defaults to "0.0.0.0".

       If guest_addr is not  specified,  then  it  will  be  set  to  the  default  address  that
       corresponds to --configure.

       list_hostfwd: List exposed ports

              (namespace)$ json='{"execute": "list_hostfwd"}'
              (namespace)$ echo -n $json | nc -U /tmp/slirp4netns.sock
              {"return": {"entries": [{"id": 42, "proto": "tcp", "host_addr": "0.0.0.0", "host_port": 8080, "guest_addr": "10.0.2.100", "guest_port": 80}]}}

       remove_hostfwd: Remove an exposed port

              (namespace)$ json='{"execute": "remove_hostfwd", "arguments": {"id": 42}}'
              (namespace)$ echo -n $json | nc -U /tmp/slirp4netns.sock
              {"return": {}}

       Remarks:

              • Client  needs to shutdown(2) the socket with SHUT_WR after sending every request.
                i.e. No support for keep-alive and timeout.

              • slirp4netns "stops the world" during processing API requests.

              • A request must be less than 4096 bytes.

              • JSON responses may contain error instead of return.

DEFINED NAMESPACE PATHS

       A user can define a network namespace path as opposed to the default process ID:

              (host)$ slirp4netns --netns-type=path ... /path/to/netns tap0

       Currently, the netns-type=TYPE argument supports path or pid args with the  default  being
       pid.

       Additionally, a --userns-path=PATH argument can be included to override any user namespace
       path defaults

              (host)$ slirp4netns --netns-type=path --userns-path=/path/to/userns /path/to/netns tap0

OUTBOUND ADDRESSES

       A user can defined preferred outbound ipv4 and ipv6 address in multi IP scenarios.

              (host)$ slirp4netns --outbound-addr=10.2.2.10 --outbound-addr6=fe80::10 ...

       Optionally you can use interface names instead of ip addresses.

              (host)$ slirp4netns --outbound-addr=eth0 --outbound-addr6=eth0 ...

INTER-NAMESPACE COMMUNICATION

       The easiest way to allow inter-namespace  communication  is  to  nest  network  namespaces
       inside the slirp4netns's network namespace.

              (host)$ nsenter -t $(cat /tmp/pid) -U --preserve-credentials -n -m
              (namespace)$ mount -t tmpfs none /run
              (namespace)$ ip netns add foo
              (namespace)$ ip netns add bar
              (namespace)$ ip link add veth-foo type veth peer name veth-bar
              (namespace)$ ip link set veth-foo netns foo
              (namespace)$ ip link set veth-bar netns bar
              (namespace)$ ip netns exec foo ip link set veth-foo name eth0
              (namespace)$ ip netns exec bar ip link set veth-bar name eth0
              (namespace)$ ip netns exec foo ip link set lo up
              (namespace)$ ip netns exec bar ip link set lo up
              (namespace)$ ip netns exec foo ip link set eth0 up
              (namespace)$ ip netns exec bar ip link set eth0 up
              (namespace)$ ip netns exec foo ip addr add 192.168.42.100/24 dev eth0
              (namespace)$ ip netns exec bar ip addr add 192.168.42.101/24 dev eth0
              (namespace)$ ip netns exec bar ping 192.168.42.100

       However,  this  method  does not work when you want to allow communication across multiple
       slirp4netns instances.  To allow communication across multiple slirp4netns instances,  you
       need to combine another network stack such as vde_plug(1) with slirp4netns.

              (host)$ vde_plug --daemon switch:///tmp/switch null://
              (host)$ nsenter -t $(cat /tmp/pid-instance0) -U --preserve-credentials -n
              (namespace-instance0)$ vde_plug --daemon vde:///tmp/switch tap://vde
              (namespace-instance0)$ ip link set vde up
              (namespace-instance0)$ ip addr add 192.168.42.100/24 dev vde
              (namespace-instance0)$ exit
              (host)$ nsenter -t $(cat /tmp/pid-instance1) -U --preserve-credentials -n
              (namespace-instance1)$ vde_plug --daemon vde:///tmp/switch tap://vde
              (namespace-instance1)$ ip link set vde up
              (namespace-instance1)$ ip addr add 192.168.42.101/24 dev vde
              (namespace-instance1)$ ping 192.168.42.100

INTER-HOST COMMUNICATION

       VXLAN  is  known  to  work.   See Usernetes project for the example of multi-node rootless
       Kubernetes cluster with VXLAN: https://github.com/rootless-containers/usernetes

BESS MODE (FOR USER MODE LINUX)

       slirp4netns (since v1.2.0) can be also used as a BESS-compatible server to provide network
       connectivity to User Mode Linux.

       Terminal 1: Start slirp4netns

              (host)$ slirp4netns --target-type=bess /tmp/bess.sock

       Terminal 2: Start User Mode Linux

              (host)$ linux.uml vec0:transport=bess,dst=/tmp/bess.sock,depth=128,gro=1 root=/dev/root rootfstype=hostfs init=/bin/bash mem=2G
              (UML)$ ip addr add 10.0.2.100/24 dev vec0
              (UML)$ ip link set vec0 up
              (UML)$ ip route add default via 10.0.2.2

       Currently,  only  a single instance of User Mode Linux can be connected to the slirp4netns
       BESS server.

       See           also           User           Mode           Linux            documentation:
       https://www.kernel.org/doc/html/latest/virt/uml/user_mode_linux_howto_v2.html#bess-socket-transport

BUGS

       Kernel 4.20 bumped up the default  value  of  /proc/sys/net/ipv4/tcp_rmem  from  87380  to
       131072.     This    is    known    to    slow    down    slirp4netns    port   forwarding:
       https://github.com/rootless-containers/slirp4netns/issues/128.

       As a workaround, you can  adjust  the  value  of  /proc/sys/net/ipv4/tcp_rmem  inside  the
       namespace.  No real root privilege is needed to modify the file since kernel 4.15.

              (host)$ nsenter -t $(cat /tmp/pid) -U --preserve-credentials -n -m
              (namespace)$ c=$(cat /proc/sys/net/ipv4/tcp_rmem); echo $c | sed -e s/131072/87380/g > /proc/sys/net/ipv4/tcp_rmem

SEE ALSO

       network_namespaces(7), user_namespaces(7), veth(4)

AVAILABILITY

       The           slirp4netns           command           is           available          from
       https://github.com/rootless-containers/slirp4netns  under  GNU  GENERAL   PUBLIC   LICENSE
       Version 2 (or later).